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02_CFNM_Appendix_A_-_Model_Static_Input_Data_and_Run_Code
1 APPENDIX A – Model Static Input Data and Run Code [from basecase run using current demands called “SimBase”] Static data tables included are: All Model Nodes All Model Arcs Reservoirs Nodes Reservoir Rules Reservoir SAE Data Demand Patterns Lookup Tables (WW Returns, Spillway Curves, etc.) Independent Wastewater Return Patterns Arc Minimum Flows County Agricultural Data Crop Irrigation Coefficients OCL files included are: main.ocl udef_list.ocl constants.ocl agric_calculation.ocl agric_allocation.ocl filter_inflows.ocl WW_Returns.ocl Routing_neuse.ocl routing_cf.ocl Greensboro_ops.ocl Jordan_ops.ocl drought_protocol_jordan.ocl Jordan_WQ_WS_Accounts.ocl Harris_ops.ocl OWASA_ops.ocl Randleman_ops.ocl SilerCity_ops.ocl Fayetteville_ops.ocl FtBragg_ops.ocl SpringLake_ops.ocl falls_bdam_ops.ocl falls_flood_ops.ocl Falls_Bdam_WS_WQ_Accounts.ocl raleigh_ops.ocl upper_eno_ops.ocl durham_ops.ocl crabtree_ops.ocl Johnston_ops.ocl Fuquay_ops.ocl buckhorn_Wilson_ops.ocl drought_plans_cf.ocl drought_plans_neuse.ocl 2 Model Nodes Node No. Type Inflow Name 020 Junction OCL node 20 021 Demand None Rockingham_40% (Irrigation) 030 Reservoir None Reidsville Dam 031 Demand None Reidsville Demand_02-79-020 040 Junction OCL Haw River_Benaja gage 041 Demand None Rockingham_60% 043 Demand None Guilford_13% 044 Junction OCL Greensboro Emer. Intake 050 Junction None Node 50 051 Demand None Guilford_20% 070 Reservoir OCL Old Stony Creek Res 071 Junction None Burlington Total WD PWS 02-01-010 072 Junction None Burlington Total WW 075 Demand None Haw River 02-01-020 077 Demand None Green Level Demand_02-01-030 080 Junction None node 80 081 Demand None Alamance_35% 083 Demand None Caswell_100% 090 Junction OCL Haw River_Haw River gage 100 Junction None node 100 110 Junction OCL ReedyFork_Oak Ridge gage 111 Demand None Forsyth_50% 112 Reservoir OCL Lake Higgins 120 Reservoir OCL Brandt Res 121 Junction None Greensboro Combined WS 122 Junction None GB System Total WW 123 Demand None Greensboro Total Demand_02-41-010 140 Reservoir OCL Lake Townsend 145 Junction OCL ReedyFork_Gibsonville gage 148 Junction Pattern Martin Marietta-Hicone WW Return 160 Junction None Node 160 161 Demand None Guilford_40% 170 Junction OCL North Buffalo_Creek gage 180 Junction None Node 180 192 Junction Pattern Colonial Pipeline WW Return 200 Junction None Node 200 210 Junction OCL WForkDeepRiver_HP gage 211 Demand None Forsyth_Other_50% 220 Reservoir OCL High Point Res 221 Junction None High Point Combined WS 222 Junction None High Point Total WW 223 Demand None High Point Service Area Demand_02-41-020 224 Junction None HP WW Receive 225 Junction None HP Westide WW (NC0024228) IBT 227 Junction Pattern Sedgefield CC WW 0754-0001 230 Junction None Node 230 231 Demand None Guilford_12% 260 Junction OCL Deep River_Randleman gage 261 Demand None City of Randleman Demand_02-76-015 263 Demand None Randolph_Other_36% 270 Reservoir OCL Randleman Res 271 Junction None PTRA Randleman Demand_30-76-010 280 Junction OCL DeepRiver_Ramseur gage 281 Demand None Randolph_28% 282 Junction Pattern Asheboro WW Return_nc0026123 3 Node No. Type Inflow Name 300 Reservoir OCL Ramseur Res 301 Demand None Ramseur Demand_02-76-020 310 Junction OCL Node 310 311 Demand None Orange_40% 320 Reservoir None Graham Mebane Res 321 Demand None Graham-Mebane Demand_02-01-015 324 Reservoir OCL Siler City Upper Reservoir 325 Reservoir OCL Siler City Lower Reservoir 327 Demand None Siler City Demand_03-19-010 328 Junction OCL Rocky River discharge 330 Junction None Node 330 331 Demand None Guilford_15% 340 Reservoir OCL Mackintosh Res 341 Demand None Burlington Demand_02-01-010 350 Junction None Node 350 360 Junction None Node 360 361 Demand None Alamance_Other_35% 370 Junction None Node 370 371 Demand None Alamance_30% 380 Junction OCL Node 380 381 Demand None Orange_24% 390 Reservoir None Cane Creek Res 395 Reservoir OCL Stone Quarry 396 Junction None Stone Quarry Spill 400 Junction OCL HawRiver_Bynum gage 401 Demand None Pittsboro Demand_03-19-015 403 Demand None Chatham_50% 410 Junction None Node 410 411 Demand None Wake_75% 430 Reservoir OCL Univ Lake 431 Demand None OWASA Demand_03-68-010 440 Junction None Node 440 441 Demand None Orange_36% 450 Junction OCL NewHopeCk_Blands 453 Junction None Durham Triangle Co WW NC0026051 460 Junction None 460 461 Demand None Durham_100% 463 Junction None Durham So WRF NC0047597 464 Junction Pattern Fearington Utilities WW_nc0043559 470 Reservoir OCL Jordan Lake 471 Demand None Cary Apex water supply 472 Junction None Cary/Apex Total WW 473 Demand None Chatham Co. North Demand 474 Demand None RTP Demand 475 Demand None Jordan Make Up Demand 477 Demand None Morrisville demand 479 Junction None Cary/Apex WTF 480 Junction None Node 480 481 Demand None Chatham_5% 483 Demand None Performance Fibers / Allied Signal Demand 487 Demand None Progress Cape Fear water supply 490 Junction None Buckhorn Dam Upstream 1 491 Demand None Sanford Water Supply 495 Junction OCL Node 495 497 Junction None Node 497 510 Junction None Node 510 4 Node No. Type Inflow Name 511 Demand None Lee_38% 520 Reservoir OCL Harris Lake 521 Demand None Progress Harris water supply 525 Junction None Harris outflow 526 Junction None Harris spill 527 Junction OCL Buckhorn Creek gage 528 Reservoir None Aux Reservoir 531 Demand None Wake_20% 540 Junction None Node 540 541 Demand None Wake_5% 550 Junction OCL CapeFearRiver_Lillington gage 551 Demand None Harnett County water supply 553 Demand None Harnett_35% 554 Junction None Harnett Co. Total WW 555 Reservoir None Lillington Routing 556 Junction None So HCRWS NC0088366 560 Junction None Node 560 570 Junction OCL Ramseur WWTP Disch 580 Junction OCL Robbins flow 581 Demand None Randolph_36% 589 Junction OCL Robbins Montogmery Co IBT 590 Junction OCL Node 590 591 Junction Pattern Robbins Demand_03-63-015 592 Junction Pattern Star WWTP Return_nc0058548 593 Demand None Montgomery_100% 595 Demand None Moore_25% 600 Junction OCL Node 600 601 Demand None Pilgrims Pride WTP 603 Demand None Moore_40% 605 Demand None Goldston-Gulf WS PWS 03-19-025 610 Junction OCL Node 610 620 Junction None Node 620 621 Demand None Chatham_45% 623 Demand None Lee_7% 640 Junction OCL Deep River_Moncure gage 650 Junction None Node 650 660 Junction OCL Node 660 663 Demand None Dunn Demand 664 Junction None No. Harnett WW NC0021636 670 Junction None CarolinaTraceWW nc0038831 671 Demand None Lee_55% 674 Demand None Carolina Trace WS_03-53-101 680 Junction OCL Node 680 681 Demand None Harnett_Other_50% 686 Junction None Harnett Erwin WWTP NC0001406 690 Junction None Node 690 691 Demand None Harnett_15% 700 Junction OCL Little River_Linden gage 701 Demand None Carthage Demand_03-63-025 710 Junction None Node 710 713 Demand None Moore_35% 719 Demand None Spring Lake WS_03-26-020 720 Junction OCL Node 720 721 Demand None Old North Ut. FBragg Demand_50-26-019 722 Junction None FBragg WW NC0003964 730 Junction OCL Node 730 5 Node No. Type Inflow Name 733 Demand None FayettevillePWC Demand_03-26-010 739 Reservoir None Fayetteville_Routing 740 Junction None Node 740 741 Demand None Cumberland_45% 760 Reservoir OCL Glenville Res 770 Junction OCL Monstanto intake 771 Demand None Monsanto water supply 772 Junction Pattern Raeford WWTP Return_nc0026514 773 Demand None Hoke_100% 774 Junction Pattern Oak Resins WW NC0003719 775 Demand None Cumberland_40% 777 Reservoir OCL L&D #3 780 Junction OCL CapeFearRiver_Tarheel Gage 781 Demand None Dupont WS 783 Demand None Cumberland_15% 785 Demand None LCFWSA_BladenBluff Demand_50-09-012 790 Reservoir OCL L&D #2 800 Junction None Node 800 801 Demand None Bladen_20% 810 Junction None Node 810 811 Demand None Bladen_60% 820 Junction OCL CapeFearRiver_Kelly_L&D#1 821 Demand None Bladen_Other_20% 823 Demand None Cape Fear PUA-Wilmington Demand_04-65-010 825 Demand None LCFWSA_KingsBluff Demand_50-09-013 903 Demand None Jamestown Demand_02-41-030 904 Demand None Archdale Demand Randleman_02-76-030 906 Demand None Randolph Co Demand Randleman 910 Junction Pattern Franklinville WW NC007820 921 Demand None Orange Co Demand Jordan 923 Demand None Holly Springs Demand_03-92-050 930 Junction None Western Wake WRF_nc0088846 940 Demand None Broadway WS_03-53-015 960 Junction Pattern Elizabethtown WWTP Return_nc0026671 962 Junction Pattern Danaher Ind. WWTP NC0001121 999 Junction None Terminal Node 1010 Reservoir OCL Orange Upstream Pond 1046 Demand None Orange_Alamance Demand_03-68-020 1050 Reservoir OCL West Fork Eno Reservoir 1052 Demand None WFER_Ag 1060 Reservoir OCL Lake Orange 1062 Demand None Or_Pond_Ag 1080 Reservoir OCL Corp. Lake 1100 Reservoir OCL Lake Ben Johnston 1105 Junction None Piedmont Minerals 1106 Demand None Hillsborough Demand_03-68-015 1107 Junction None Channel Loss 1109 Junction None Hillsborough WWTP_nc0026433 1110 Junction OCL Eno_Hillsborough Gage 1112 Demand None EnoDurha_Ag 1115 Junction OCL Eno_Durham gage 1116 Demand None Piedmont Minerals Demand 1120 Reservoir None Teer Quarry 1140 Reservoir Time Series Lake Michie 1142 Demand None Michie_Ag 1151 Junction None Durham Demand_03-32-010 6 Node No. Type Inflow Name 1162 Demand None Durham Service Area Demand 1163 Junction None Durham NWRF NC0023841 1200 Reservoir Time Series Little River Res. 1202 Demand None LitRes_Ag 1205 Junction OCL Node 205 1230 Reservoir Time Series Beaverdam Lake 1250 Reservoir OCL Lake Holt_Butner 1252 Junction OCL Kerr Lake Indirect Transfer 1254 Junction None Holt Withdrawal 1256 Demand None SGWASA Demand_02-39-107 1258 Demand None Creedmor Demand_02-39-015 1259 Junction None SGWASA Total WW Ret 1270 Reservoir OCL Lake Rogers 1290 Reservoir OCL Wake Forest Lake 1300 Reservoir OCL Falls Lake 1302 Demand None Falls_Ag 1306 Demand None Raleigh Demand_03-92-010 1307 Junction Pattern Riverplace II LLC Discharge_nc0001376 1310 Reservoir None Lag Falls Release 1318 Demand None Old Burlington Industries 1320 Junction OCL Smith Confluence 1400 Reservoir OCL #1 1401 Junction None Cary NWRF NC0048879 1402 Reservoir OCL #2 1403 Junction OCL Quarry Dewatering 1404 Reservoir OCL #3 1405 Junction OCL Apex WRF NC006405 1406 Reservoir OCL #5A 1407 Junction Pattern Motiva Enterprises WW_nc0022217 1408 Reservoir OCL #18 1409 Junction OCL Fuquay-Varina WW_nc0066150&nc0066516 1410 Reservoir OCL #20A 1412 Reservoir OCL #23 (Lake Crabtree) 1414 Reservoir OCL #11A 1416 Reservoir OCL #25 1418 Reservoir OCL #22B 1420 Reservoir OCL Lake Wheeler 1422 Reservoir OCL #13 1424 Junction None Crabtree flood control outflow 1440 Reservoir OCL Lake Benson 1445 Reservoir OCL Lake Johnson 1450 Reservoir OCL Lake Raleigh 1471 Junction OCL Cary SCWRF NC0065102 1480 Junction OCL Middle Creek Gage 1482 Demand None Middl_Ag 1500 Reservoir OCL Buckhorn Reservoir 1502 Demand None Buckhorn_Ag 1506 Demand None Wilson Demand_04-98-010 1520 Junction OCL Wiggons Mill Lake 1528 Junction OCL Tar River Emergency PS 1560 Junction OCL Hookerton gage 1562 Demand None Hooke_Ag 1563 Junction Pattern Stantonsburg WWTP_nc0007536 1565 Junction Pattern Snow Hill WWTP_nc0020842 1567 Junction Pattern Farmville WWTP_nc0029572 1569 Junction Pattern Maury Sant. Dist WWTP_nc0061492 7 Node No. Type Inflow Name 1570 Junction OCL Little Contentnea Confluence 1600 Junction OCL Crabtree Creek_Confluence 1620 Junction OCL Walnut Creek Confluence 1630 Junction OCL Neuse River_Clayton Gage 1632 Demand None Clayt_Ag 1640 Reservoir None Lag Clayton Gage 1643 Junction Pattern TransMontaigne WW_nc0003549 1645 Junction Pattern Magellan Terminals WW_nc0052311 1646 Demand None Johnston County Demand_03-51-070 1647 Reservoir None JCo Active Quarry 1648 Reservoir None JCo Aband Quarry 1649 Junction None Quarry Spill 1650 Junction OCL Johnston Co Intake 1 1652 Junction None JCo Intake 2 1653 Junction None Quarry Refill 1654 Junction None JCo WD Jnc 1660 Junction OCL Neuse River_Smithfield Gage 1666 Demand None Smithfield Demand_03-51-010 1675 Junction None Johnston County WWTP_nc0030716 1700 Junction OCL Swift Creek_Confluence 1705 Junction Pattern Aqua NC Inc. Hawthorne WWTP_nc0049662 1706 Demand None Fuquay-Varina Demand_03-92-055 1740 Reservoir OCL Little River Reservoir (Raleigh proposed) 1747 Junction OCL Kenly WWTP_nc0064891 1750 Junction OCL Little River_Princeton gage 1752 Demand None Litpr_Ag 1753 Junction Pattern Princeton WWTP_nc0026662 1755 Junction OCL Princeton WW Disch 1756 Demand None Benson Demand_03-51-025 1757 Junction None Benson NC0020389 1759 Junction Pattern Jerry_G_Williams WW 1760 Junction OCL Progress Energy 1766 Demand None Progress Lee Steam Plant Demand_CUR0001 1770 Junction None Node 770 1775 Junction OCL Little River_Confluence 1780 Junction OCL Neuse River_Goldsboro Gage 1782 Demand None Golds_Ag 1786 Demand None Goldsboro Demand_04-96-010 1787 Junction Pattern La Grange WWTP_nc0021644 1790 Reservoir None Lag Goldsboro Gage 1795 Junction OCL NRWASA Intake 1800 Junction OCL Neuse River_Kinston Gage 1802 Demand None Kinst_Ag 1806 Demand None Neuse Regional WASA_60-54-001 1845 Junction None Contentnea Sewerage District WWTP_nc0032077 1847 Junction Pattern Unifi-Kinston LLC_nc0020541 1850 Junction OCL Contentea Crk_Confluence 1900 Junction OCL Weyerhauser 1902 Demand None Weyer_Ag 1906 Demand None Weyerhauser Demand_CUR0052 1999 Junction OCL New Bern 2000 Junction None Terminal 8 Model Arcs U/S Number D/S Number Name Min Flow Max Flow MaxRev Flow 020 021 Rockingham 40% None None None 020 030 20>30 None None None 030 031 Reidsville water supply None None None 030 040 Reidsville release Pattern None None 031 040 ReidsWW NC0024881/0046345 None None None 031 121 Reidsville to GB Total WS None None None 040 041 Rockingham 60% None None None 040 043 Guilford 13% None None None 040 044 40>44 None None None 044 050 GB Townsend WS None None None 044 140 GB Haw Emer. WS None None None 050 051 Guilford 20% None None None 050 080 50>80 None None None 070 071 Burlington Stony Ck WD None None None 070 080 Old Stony Crk release None None None 071 075 HawRiver Burl. WS None None None 071 121 Burlington to GBoro WS None None None 071 341 Burlington Demand None None None 072 100 BurlEastWW_nc0023868 None None None 072 122 Burlington WW to GB None None None 072 350 BurlSouthWW_nc0023876 None None None 075 072 HawRiv Burl WW None None None 075 1046 Or_Ala HawRiver WS None None None 077 072 GreenLevel WW to Burl. None None None 080 081 Alamance 35% None None None 080 083 Caswell 100% None None None 080 090 80>90 None None None 090 100 90>100 None None None 100 360 100>360 None None None 110 111 Forsyth 50% None None None 110 112 Oak Ridge Gage Flow None None None 112 120 Higgins Outflow None None None 120 121 GB Mitchell WS None None None 120 140 Brandt release Pattern None None 121 123 GB Total Demand None None None 121 140 GB Townsend WW NC0081671 None None None 121 903 Jamestown GB WS None None None 122 170 GB NBuff WW NC0024325 None None None 122 180 GB TZOs WW NC0047384 None None None 122 224 GB WW to HP None None None 123 122 GB System Total WW None None None 140 121 GB Townsend WD None None None 140 145 G/T release OCL None None 145 160 145>150 None None None 148 145 Mmarietta Hicone WW None None None 160 050 160>50 None None None 160 161 Guilford 40% None None None 170 180 170>180 None None None 180 160 180>160 None None None 192 200 Colonial Pipeline WW None None None 200 220 200>220 None None None 210 200 210>200 None None None 210 211 Forsyth Other 50% None None None 220 221 High Point F. Ward WS None None None 9 U/S Number D/S Number Name Min Flow Max Flow MaxRev Flow 220 230 High Pt release Pattern None None 221 223 High Point Total Demand None None None 221 903 Jamestown HP WS None None None 222 225 HPWestWW_IBT_nc0024228 None None None 222 230 HP Eastside WW NC0024210 None None None 223 222 HP WW to HP Total WW None None None 224 222 HP WW Receive None None None 227 224 Sedgefield WW to HP None None None 230 231 Guilford 12% None None None 230 260 230>260 None None None 260 263 Randolph Other 36% None None None 260 270 260>270 None None None 261 280 RandlemanWW_nc0025445 None None None 270 271 Total Randleman WD None None None 270 280 Randleman release OCL None None 271 121 GB PTRA WS None None None 271 221 High Point PTRA WS None None None 271 261 Randleman PTRA WS None None None 271 270 PTRA WW NC0087866 None None None 271 903 Jamestown PTRA WS None None None 271 904 Archdale PTRA WS None None None 271 906 Randolph Co PTRA WS None None None 280 281 Randolph 28% None None None 280 560 280>560 None None None 282 280 Asheboro WW_nc0026123 None None None 300 280 Ramseur release None None None 300 301 Ramseur WS None None None 301 570 Ramseur WW NC0026565 None None None 310 311 Orange 40% None None None 310 320 310>320 None None None 320 100 GraMebane release Pattern None None 320 321 Graham Mebane Demand None None None 321 072 G-M Burl. WW None None None 321 077 Green Level Graham WS None None None 321 100 GrMebTotWW_nc0045292 None None None 324 325 Siler City Upper>Lower None None None 325 327 Siler City water supply None None None 325 328 325>328 OCL None None 327 328 Siler City WW NC0026441 None None None 328 640 Rocky River None None None 330 340 330>340 None None None 340 071 Burlington Lk Mackintosh None None None 340 331 Guilford_15% None None None 340 350 Mackintosh release None None None 341 072 Burlington Total WW None None None 341 350 BurlMackWW_nc0083828 None None None 350 360 350>360 None None None 360 361 Alamance Other 35% None None None 360 370 360>370 None None None 370 371 Alamance 30% None None None 370 400 370>400 None None None 380 381 Orange 24% None None None 380 390 380>390 None None None 390 370 Cane Creek release Pattern None None 390 395 CaneCk>StoneQ Trans. None None None 10 U/S Number D/S Number Name Min Flow Max Flow MaxRev Flow 390 431 CaneCk WD None Pattern None 395 396 StoneQuarry Spill None None None 395 431 Stone Quarry WD None Pattern None 400 401 Pittsboro Demand None None None 400 403 Chatham 50% None None None 400 410 400>410 None None None 401 410 Pittsboro WWTP_nc0020354 None None None 410 411 Wake 75% None None None 410 470 410>470 None None None 430 431 430>431 None None None 430 440 UnivLake release None None None 431 440 OWASA WW_nc0025241 None None None 440 441 Orange 36% None None None 440 450 440>450 None None None 450 410 450>410 None None Mirror 450 461 450.461 None None None 453 470 Co Triangle WWTP nc002605 None None None 460 450 Durham So. WW Disch None None None 463 460 Durham So. WW Disch. None None None 464 460 Birchwood WW None None None 470 473 Chatham Co. North WS None None None 470 475 Jordan Make Up Demand None None None 470 479 Eastern Intake WD None None None 470 480 Jordan release OCL None None 470 921 Jordan Lake to Orange Co None None None 471 472 Cary/Apex WW None None None 472 453 Cary DTC WW None None None 472 930 Cary/Apex Western Wake WW None None None 472 1401 Cary North WW Ret None None None 472 1405 Apex WW Ret None None None 472 1471 Cary SWRF nc0065102 None None None 473 470 Chatham No. WW NC0064093 None None None 474 472 RTP Cary WW None None None 477 472 Morrisville WW None None None 479 470 Cary/Apex WTF WW None None None 479 471 Cary WS None None None 479 474 RTP Supply None None None 479 477 Morrisville WS None None None 479 923 HollySpring JL WS None None None 479 1151 Durham JL WS None None None 480 481 Chatham 5% None None None 480 483 Allied Signal Demand None None None 480 487 Progress Cape Fear Demand None None None 480 490 480>490 None None None 483 480 AlliedSignal WW None None None 487 490 Progress CF Discharge None None None 490 491 Sandford Demand None None None 490 495 490>500 None None None 491 490 491>490 None None None 491 610 Sanford WW_NC0024147 None None None 491 674 Sanford to Carolina Trace None None None 491 940 Sanford to Broadway WS None None None 495 497 495>497 None None None 497 510 497>510 None None None 510 511 Lee 38% None None None 11 U/S Number D/S Number Name Min Flow Max Flow MaxRev Flow 510 540 510>540 None None None 520 521 Progress Harris Demand None None None 520 525 Harris Min Release None None None 520 526 Harris Spill Arc 1 None None None 520 528 Aux Refill None None None 520 531 Wake Irrig Demand_20% None None None 521 520 Progress Harris WW None None None 525 527 525>527 None None None 526 525 Harris spill arc 2 None None None 527 510 527>510 None None None 528 525 Aux Overflow None None None 540 541 Wake 5% None None None 540 550 540>550 None None None 550 551 Harnett County Demand None None None 550 553 Harnett 35% None None None 550 555 Lillington_Unrouted_Flow OCL None None 551 554 Harnett Co. WW None None None 551 719 Spring Lake Harnett WS None None None 551 721 FBragg Harnett WS None None None 551 923 HS Hart. Co. WS None None None 551 1706 Fuquay from Harnett None None None 554 550 Harnett WTP WW_nc0007684 None None None 554 556 Harnett So WW_nc0088366 None None None 554 664 No Harnett WW_nc0021636 None None None 554 686 HarErwWWnc0064521_0001406 None None None 555 650 Lillington_Routed_Flow None None None 556 720 Harnett So WW None None None 560 570 560>570 None None None 570 580 570>580 None None None 580 581 Randolph 36% None None None 580 600 580>600 None None None 589 591 Robbins Mont. Co. WS None None None 590 580 590>580 None None None 590 591 Robbins CB Brooks None Pattern None 590 593 Montgomery 100% None None None 590 595 Moore 25% None None None 591 580 Robbins WW None None None 592 590 Star WW None None None 600 601 Lee Cummock Demand None None None 600 603 Moore 40% None None None 600 605 Goldston Gulf Demand None Pattern None 600 610 600>610 None None None 601 610 LeeCty WW None None None 610 620 610>620 None None None 620 621 Chatham 45% None None None 620 623 Lee 7% None None None 620 640 620>640 None None None 640 480 640>480 None None None 650 660 650>660 None None None 660 663 Dunn Demand None None None 660 671 Lee_55% None None None 660 680 660>680 None None None 663 680 Dunn WW None None None 663 690 DunnWWTP None None None 663 721 FBragg Dunn WS None None None 12 U/S Number D/S Number Name Min Flow Max Flow MaxRev Flow 663 1756 Benson Dunn WS None None None 664 660 No Harnett WW Disch None None None 670 660 670>660 None None None 674 670 CarolinaTraceWW_nc0038831 None Pattern None 680 681 Harnett Other 50% None None None 680 690 680>690 None None None 686 680 Erwin South WW None None None 690 691 Harnett 15% None None None 690 730 690>730 None None None 700 701 Carthage Demand None None None 700 710 700>710 None None None 710 713 Moore 35% None None None 710 720 710>720 None None None 719 720 Spring Lake WWTP None None None 720 690 720>690 None None None 720 721 Ft. Bragg Demand None None None 721 722 FBragg WW None None None 722 556 FBragg Harnett WW None None None 722 720 Spring Lake WW None None None 730 733 Fay POHoffer None None None 730 739 730>739 None None None 733 719 Spring Lake Fayet WS None None None 733 721 FBragg Fayett. WS None None None 733 740 FayettevillePOH_CrossWW None None None 733 770 FayettevilleRockfishCreek None None None 739 740 Fayetteville_Routed_Flow None None None 740 741 Cumberland 45% None None None 740 770 740>770 None None None 760 733 Fay. Glenville WD None Pattern None 760 740 Glenville release Pattern None None 770 771 Monsanto Demand None None None 770 773 Hoke 100% None None None 770 775 Cumberland 40% None None None 770 777 770.777 None None None 771 770 Monsanto WW None None None 772 770 Raeford WW None None None 774 770 Oak Resins WW None None None 777 780 L&D #3 Outflow None None None 780 781 Dupont Wsupply None None None 780 783 Cumberland 15% None None None 780 785 Bladen Bluffs WD None None None 780 790 780>790 None None None 781 790 Dupont WW None None None 785 790 LCFWSAWW_nc0078344 None None None 790 800 L&D #2 Outflow None None None 800 801 Bladen 20% None None None 800 810 800>810 None None None 810 811 Bladen 60% None None None 810 820 810>820 None None None 820 821 Bladen Other 20% None None None 820 823 Wilmington Demand None None None 820 825 Lower CF WSA Demand None None None 820 999 820>999 None None None 904 224 Archdale WW to HP None None None 910 280 Franklinville WW None None None 13 U/S Number D/S Number Name Min Flow Max Flow MaxRev Flow 921 321 Orange Co. To GrMeb None None None 921 1106 Orange Co. To Hillsb. None None None 921 1162 Orange Co. to Durham None None None 923 520 HollySprings WW NC0063096 None None None 930 497 Western Wake Discharge None None None 940 540 Broadway WW_nc0059242 None Pattern None 960 790 Elizabethtwon WW to CFR None None None 962 790 Dahaner WW None None None 1010 1060 Orange pond inflow None None None 1010 1062 1010>1062 None None None 1046 1100 Or-Ala WW NC0082759 None None None 1050 1052 1050>1052 None None None 1050 1080 1050>1080 OCL None None 1060 1080 1060>1080 OCL None None 1080 1046 1080>1046 None None None 1080 1100 1080>1100 None None None 1100 1105 Ben Johntson Release None None None 1100 1106 Hillsborough Withdrawal None None None 1105 1110 1105.1110 None None None 1105 1116 PiedmontMinerals WD None None None 1106 1109 Hills WW None None None 1109 1115 Hills WW Disch. None None None 1110 1107 Hills Channel Loss None None None 1110 1115 1110>1115 None None None 1115 1112 1115>1112 None None None 1115 1120 Quarry Transfer None None None 1115 1205 1115>1205 None None None 1120 1151 Teer delivery None None None 1140 1120 LM>TQ None None None 1140 1142 1140>1142 None None None 1140 1151 1140>1151 None None None 1140 1300 Flat River Release None None None 1151 431 OWASA Durham (Jordan) WS None None None 1151 471 Durham to Cary WS None None None 1151 1106 Hills Durham WS (JL) None None None 1151 1162 Durham Demand None None None 1151 1306 Raleigh interconnect None None None 1162 453 Dur. Dur. Co. Triangle WW None None None 1162 463 DurhamSDWRF None None None 1162 1163 DurhamNDWRF None None None 1163 1300 Durham North WW Disch None None None 1200 1120 LR>TQ None None None 1200 1151 1200>1151 None None None 1200 1202 1200>1202 None None None 1200 1205 L.River Min Release OCL None None 1205 1300 1205>1300 None None None 1230 1300 Beaverdam to Falls None None Mirror 1250 1254 Holt WD None None None 1250 1300 1250>1300 None None None 1252 1270 Kerr>Rogers transfer None None None 1254 1256 SGWASA WD None None None 1254 1258 Creedmor WD None None None 1256 1259 SGWASA WW_nc0026824 None None None 1258 1259 Creedmor WW_nc0007625 None None None 1259 1300 SGWASA Total WW None None None 14 U/S Number D/S Number Name Min Flow Max Flow MaxRev Flow 1270 1258 Creedmor Demand None None None 1270 1300 1270>1300 None None None 1290 1320 Smith Creek None None None 1300 471 ral-cary interconnect None None None 1300 923 HollySprings Interconnect None None None 1300 1302 1300>1302 None None None 1300 1306 Falls EMJ WD None OCL None 1300 1310 Falls Release OCL None None 1306 1320 RalSmithCrWW_nc0030759 None None None 1306 1500 RalLitCrWW_nc0079316 None None None 1306 1620 RaleighNeuseWWTPnc0029033 None None None 1306 1706 Fuquay-Varina from Raleig None None None 1307 1320 Riverplace WW None None None 1310 1320 Lagged Falls Release None None None 1320 1318 Henderson/Frank/Louisburg None None None 1320 1600 1320>1600 None None None 1400 1412 1400>1412 None None None 1401 1424 Cary NWRF NC0048879 None None None 1402 1412 1402>1412 None None None 1403 1424 1403>1424 None None None 1404 1412 1404>1412 None None None 1405 1480 Apex WW Discharge None None None 1406 1412 1406>1412 None None None 1407 1480 Motiva WW None None None 1408 1412 1408>1412 None None None 1409 1480 Fuquay WW None None None 1410 1412 1410>1412 None None None 1412 1416 1412>1416 None None None 1414 1416 1414>1416 None None None 1416 1424 1416>1424 None None None 1418 1424 1418>1424 None None None 1420 1440 1420>1440 None None None 1422 1424 1422>1424 None None None 1424 1600 Crabtree Creek None None None 1440 1306 1440>1306 None OCL None 1440 1700 Swift Creek OCL None None 1445 1450 1445>1450 None None None 1450 1620 Walnut Ck Confluence None None None 1471 1480 Cary SCWRF None None None 1480 1482 1480>1482 None None None 1480 1700 Middle Creek Gage Flow None None None 1500 1502 1500>1502 None None None 1500 1520 1500>1520 OCL None None 1506 1560 Wilson WW None None None 1520 1506 1520>1506 None None None 1520 1560 Contentnea Creek None None None 1528 1506 Tar River Emer None None Mirror 1560 1562 1560>1562 None None None 1560 1570 Hookerton gage flow None None None 1563 1560 Stantonsburg WW None None None 1565 1560 Snow Hill WWTP None None None 1567 1570 Farmville_WWTP None None None 1569 1570 1569>1570 None None None 1570 1850 1570>1850 None None None 1600 1620 1600>1620 None None None 15 U/S Number D/S Number Name Min Flow Max Flow MaxRev Flow 1620 1630 1620>1630 None None None 1630 1632 1630>1632 None None None 1630 1640 Clayton Gage Flow OCL None None 1640 1650 Lagged Clayton Gage None None None 1643 1650 TransMontaigne Discharge None None None 1645 1650 Magellan Terminals Disch. None None None 1646 1630 ClaytWW_nc0064564_0025453 None None None 1646 1650 Johnston Co WTP WW None None None 1646 1675 Johnston WW None None None 1646 1706 Johnston Co. To F-V None None None 1646 1756 Johnston Co. To Benson None Pattern None 1646 1757 JCo Benson WW None None None 1647 1649 Active Quarry Spill None None None 1647 1654 Active Quarry WD None None None 1648 1649 Aband Quarry Spill None None None 1648 1654 Aband Quarry WD None None None 1650 1654 JCo WD Intake 1 None None None 1650 1660 1650>1660 None None None 1652 1653 Quarry Refill None OCL None 1652 1654 JCo Intake 2 WS None None None 1653 1647 Active Quarry Refill None None None 1653 1648 Aband Quarry Refill None None None 1654 1646 JCo Total WD None None None 1660 1666 Smithfield WD None None None 1660 1700 1660>1700 None None None 1666 1675 Smithfield WW None None None 1675 1700 JohnstonCoWWTP_nc0064556 None None None 1675 1747 Kenly WWTP_nc0064891 None None None 1700 1652 JCo Intake 2 WD None OCL None 1700 1760 1700>1760 None None None 1705 1300 Hawthorne WWTP None None None 1706 554 Fuquay WW to Harnett Co None Pattern None 1706 1409 Fuquay WW_nc00516_0066150 None Pattern None 1740 1306 Raleigh LRR WD None OCL None 1740 1747 Little River None None None 1747 1750 1747>1750 None None None 1750 1752 1750>1752 None None None 1750 1755 Little R Gage flow None None None 1753 1755 Princeton WW None None None 1755 1775 Little R to Neuse Conf None None None 1756 1757 Benson WW None None None 1757 1760 Benson WWTP None None None 1759 1760 Jerry_G_Williams Disch. None None None 1760 1766 Progress WS None None None 1760 1770 1760>1770 None None None 1766 1770 1766>1770 None None None 1770 1775 1770>1775 None None None 1775 1780 1775>1780 None None None 1775 1786 Goldsboro WS None None None 1780 1782 1780>1782 None None None 1780 1790 Goldsboro Gage Flow None None None 1786 1780 Goldsboro WWTP None None None 1787 1800 La Grange WWTP None None None 1790 1795 Lagged Goldsboro Gage None None None 1795 1800 1790>1800 None None None 16 U/S Number D/S Number Name Min Flow Max Flow MaxRev Flow 1795 1806 NRWASA WD None None None 1800 1802 1800>1802 None None None 1800 1850 Kinston gage flow None None None 1806 1795 NRWASA WTP WW None None None 1806 1845 NRWASA Cont. WW None None None 1806 1850 Kinston/NRW WW NC0024236 None None None 1845 1850 CSD_WWTP None None None 1847 1850 Unifi-Kinston WW None None None 1850 1900 1850>1900 None None None 1900 1902 1900>1902 None None None 1900 1906 Weyerhauser Supply None None None 1900 1999 1900>1999 None None None 1906 1999 Weyerhauser Discharge None None None 1999 2000 Terminal None None None 17 Reservoir Nodes Number Name Dead Storage Dead Stor Units Lower Rule Upper Rule Max Storage Max Stor Units 030 Reidsville Dam 667.0 FT Pattern Pattern 695.0 FT 070 Old Stony Creek Res 520.3 FT Pattern Pattern 535.8 FT 112 Lake Higgins 739.6 FT None None 763.9 FT 120 Brandt Res 730.3 FT Pattern Pattern 741.5 FT 140 Lake Townsend 698.5 FT Pattern Pattern 715.5 FT 220 High Point Res 725.0 FT Pattern Pattern 757.0 FT 270 Randleman Res 630.0 FT Pattern Pattern 682.0 FT 300 Ramseur Res 480.0 FT Pattern Pattern 491.0 FT 320 Graham Mebane Res 510.0 FT Pattern Pattern 540.0 FT 324 Siler City Upper Reservoir 566.4 FT Pattern Pattern 586.4 FT 325 Siler City Lower Reservoir 546.5 FT Pattern Pattern 559.0 FT 340 Mackintosh Res 500.0 FT Pattern Pattern 560.0 FT 390 Cane Creek Res 442.0 FT Pattern Pattern 505.0 FT 395 Stone Quarry 0.0 MG Pattern Pattern 200.0 MG 430 Univ Lake 336.6 FT Pattern Pattern 348.7 FT 470 Jordan Lake 150.0 FT Pattern Pattern 275.0 FT 520 Harris Lake 191.0 FT Pattern Pattern 240.0 FT 528 Aux Reservoir 210.0 FT None None 252.0 FT 555 Lillington Routing 0.0 AF None None 999.0 KAF 739 Fayetteville_Routing 0.0 AF None None 999.0 KAF 760 Glenville Res 107.0 FT Pattern Pattern 113.1 FT 777 L&D #3 0.0 AF None None 0.0 AF 790 L&D #2 0.0 AF None None 0.0 AF 1010 Orange Upstream Pond 635.0 FT None None 643.0 FT 1050 West Fork Eno Reservoir 603.0 FT Pattern Pattern 633.0 FT 1060 Lake Orange 601.7 FT Pattern Pattern 615.0 FT 1080 Corp. Lake 528.0 FT None None 538.0 FT 1100 Lake Ben Johnston 501.0 FT None None 515.0 FT 1120 Teer Quarry 154.0 FT None None 300.0 FT 1140 Lake Michie 312.5 FT Pattern Pattern 341.0 FT 1200 Little River Res. 296.0 FT Pattern Pattern 355.0 FT 1230 Beaverdam Lake 230.0 FT Pattern Pattern 289.2 FT 1250 Lake Holt_Butner 320.0 FT Pattern Pattern 356.0 FT 1270 Lake Rogers 274.0 FT Pattern Pattern 281.0 FT 1290 Wake Forest Lake 279.0 FT Pattern Pattern 296.8 FT 1300 Falls Lake 236.5 FT Pattern Pattern 289.2 FT 1310 Lag Falls Release 0.0 AF None None 999.0 KAF 1400 #1 289.0 FT None None 321.5 FT 1402 #2 307.5 FT None None 341.5 FT 1404 #3 323.5 FT None None 358.5 FT 1406 #5A 286.5 FT None None 329.0 FT 18 Number Name Dead Storage Dead Stor Units Lower Rule Upper Rule Max Storage Max Stor Units 1408 #18 300.0 FT None None 334.0 FT 1410 #20A 286.0 FT None None 328.7 FT 1412 #23 (Lake Crabtree) 256.0 FT None None 298.0 FT 1414 #11A 277.4 FT None None 331.5 FT 1416 #25 215.5 FT None None 274.1 FT 1418 #22B 315.0 FT None None 354.0 FT 1420 Lake Wheeler 275.0 FT Pattern Pattern 285.0 FT 1422 #13 234.0 FT None None 285.0 FT 1440 Lake Benson 228.0 FT Pattern Pattern 234.0 FT 1445 Lake Johnson 312.0 FT None None 343.3 FT 1450 Lake Raleigh 264.0 FT None None 288.0 FT 1500 Buckhorn Reservoir 120.0 FT Pattern Pattern 148.0 FT 1640 Lag Clayton Gage 0.0 AF None None 999.0 KAF 1647 JCo Active Quarry 5504.0 AF None None 450.0 FT 1648 JCo Aband Quarry 632.0 AF None None 275.0 FT 1740 Little River Reservoir (Raleigh proposed) 236.0 FT None None 260.0 FT 1790 Lag Goldsboro Gage 0.0 AF None None 999.0 KAF 19 Reservoir Rules Number Name Units Month Day Upper Rule Lower Rule julSort 030 Reidsville Dam ft 1 1 691.00 679.00 1 030 Reidsville Dam ft 12 31 691.00 679.00 366 070 Old Stony Creek Res ft 1 1 535.80 525.50 1 070 Old Stony Creek Res ft 12 31 535.80 525.50 366 120 Brandt Res FT 1 1 741.54 730.34 1 120 Brandt Res FT 12 31 741.54 730.34 366 140 Lake Townsend FT 1 1 715.52 698.52 1 140 Lake Townsend FT 12 31 715.52 698.52 366 220 High Point Res ft 1 1 756.00 740.00 1 220 High Point Res ft 12 31 756.00 740.00 366 270 Randleman Res ft 1 1 682.00 647.00 1 270 Randleman Res ft 12 31 682.00 647.00 366 300 Ramseur Res ft 1 1 491.00 480.00 1 300 Ramseur Res ft 12 31 491.00 480.00 366 320 Graham Mebane Res ft 1 1 530.00 510.00 1 320 Graham Mebane Res ft 12 31 530.00 510.00 366 324 Siler City Upper FT 1 1 586.35 566.35 1 324 Siler City Upper FT 12 31 586.35 566.35 366 325 Siler City Lowerr FT 1 1 559.00 558.00 1 325 Siler City Lower FT 12 31 559.00 558.00 366 340 Mackintosh Res ft 1 1 551.50 505.00 1 340 Mackintosh Res ft 12 31 551.50 505.00 366 390 Cane Creek Res FT 1 1 500.00 460.00 1 390 Cane Creek Res FT 12 31 500.00 460.00 366 395 Stone Quarry MG 1 1 200.00 0.00 1 395 Stone Quarry MG 12 31 200.00 0.00 366 430 Univ Lake FT 1 1 348.70 336.60 1 430 Univ Lake FT 12 31 348.70 336.60 366 470 Jordan Lake ft 1 1 216.00 202.00 1 470 Jordan Lake ft 12 31 216.00 202.00 366 520 Harris Lake FT 1 1 220.00 195.00 1 520 Harris Lake FT 12 31 220.00 195.00 366 760 Glenville Res FT 1 1 113.00 112.20 1 760 Glenville Res FT 12 31 113.00 112.20 366 1050 WFER FT 1 1 633.00 603.00 1 1050 WFER FT 12 31 633.00 603.00 366 1060 Lake Orange FT 1 1 615.00 601.70 1 1060 Lake Orange FT 12 31 615.00 601.70 366 1140 Lake Michie FT 1 1 341.00 312.50 1 1140 Lake Michie FT 12 31 341.00 312.50 366 1200 Little River Res. FT 1 1 355.00 326.00 1 20 Number Name Units Month Day Upper Rule Lower Rule julSort 1200 Little River Res. FT 12 31 355.00 326.00 366 1230 Beaverdam Lake FT 1 1 251.50 236.50 1 1230 Beaverdam Lake FT 12 31 251.50 236.50 366 1250 Lake Holt_Butner FT 1 1 356.00 320.00 1 1250 Lake Holt_Butner FT 12 31 356.00 320.00 366 1270 Lake Rogers FT 1 1 281.00 274.00 1 1270 Lake Rogers FT 12 31 281.00 274.00 366 1290 Wake Forest Lake FT 1 1 296.80 279.00 1 1290 Wake Forest Lake FT 12 31 296.80 279.00 366 1300 Falls Lake FT 1 1 251.50 236.50 1 1300 Falls Lake FT 12 31 251.50 236.50 366 1420 Lake Wheeler FT 1 1 285.00 285.00 1 1420 Lake Wheeler FT 12 31 285.00 285.00 366 1440 Lake Benson FT 1 1 234.00 232.00 1 1440 Lake Benson FT 12 31 234.00 232.00 366 1500 Buckhorn Reservoir FT 1 1 148.00 120.00 1 1500 Buckhorn Reservoir FT 12 31 148.00 120.00 366 21 Reservoir SAE Data Number Name Elevation Elevation Units Storage Storage Units Area Area Units 030 Reidsville Dam 665 ft 0 af 0 acre 030 Reidsville Dam 667 ft 150 af 0 acre 030 Reidsville Dam 670 ft 307 af 11 acre 030 Reidsville Dam 675 ft 1841 af 132 acre 030 Reidsville Dam 680 ft 3990 af 363 acre 030 Reidsville Dam 685 ft 6138 af 680 acre 030 Reidsville Dam 690 ft 8593 af 1181 acre 030 Reidsville Dam 695 ft 11416 af 1600 acre 030 Reidsville Dam 700 ft 14371 af 2500 acre 070 Old Stony Creek Res 520.3 ft 800 af 0 acre 070 Old Stony Creek Res 521.2 ft 800 af 10 acre 070 Old Stony Creek Res 525.5 ft 2800 af 120 acre 070 Old Stony Creek Res 535.8 ft 3600 af 220 acre 070 Old Stony Creek Res 536.1 ft 3700 af 250 acre 112 Lake Higgins 739.61 FT 0.336264 AF 0 ACRE 112 Lake Higgins 740.61 FT 8.203874 AF 0.683656 ACRE 112 Lake Higgins 741.61 FT 20.42585 AF 1.702155 ACRE 112 Lake Higgins 742.61 FT 36.5342 AF 3.044516 ACRE 112 Lake Higgins 743.61 FT 59.28273 AF 4.940227 ACRE 112 Lake Higgins 744.61 FT 87.51223 AF 7.292686 ACRE 112 Lake Higgins 745.61 FT 121.1829 AF 10.09857 ACRE 112 Lake Higgins 746.61 FT 161.0952 AF 13.4246 ACRE 112 Lake Higgins 747.61 FT 209.7251 AF 17.47709 ACRE 112 Lake Higgins 748.61 FT 269.0744 AF 22.42287 ACRE 112 Lake Higgins 749.61 FT 337.3826 AF 28.11522 ACRE 112 Lake Higgins 750.61 FT 413.8118 AF 34.48432 ACRE 112 Lake Higgins 751.61 FT 497.1289 AF 41.42741 ACRE 112 Lake Higgins 752.61 FT 587.0084 AF 48.91737 ACRE 112 Lake Higgins 753.61 FT 686.2745 AF 57.18954 ACRE 112 Lake Higgins 754.61 FT 796.7448 AF 66.3954 ACRE 112 Lake Higgins 755.61 FT 920.2461 AF 76.68718 ACRE 112 Lake Higgins 756.61 FT 1055.226 AF 87.93551 ACRE 112 Lake Higgins 757.61 FT 1209.046 AF 100.7539 ACRE 112 Lake Higgins 758.61 FT 1374.69 AF 114.5575 ACRE 112 Lake Higgins 759.61 FT 1552.933 AF 129.4111 ACRE 112 Lake Higgins 760.61 FT 1743.301 AF 145.2751 ACRE 112 Lake Higgins 761.61 FT 1943.794 AF 161.9828 ACRE 112 Lake Higgins 762.61 FT 2154.639 AF 179.5533 ACRE 112 Lake Higgins 763.61 FT 2374.57 AF 197.8809 ACRE 112 Lake Higgins 763.69 FT 2393.274 AF 199.4395 ACRE 112 Lake Higgins 763.78 FT 2412.037 AF 201.0031 ACRE 112 Lake Higgins 763.86 FT 2430.86 AF 202.5716 ACRE 22 Number Name Elevation Elevation Units Storage Storage Units Area Area Units 120 Brandt Res 730.34 FT 0 AF 0 ACRE 120 Brandt Res 730.54 FT 46.40633 AF 3.867194 ACRE 120 Brandt Res 731.54 FT 306.51 AF 25.5425 ACRE 120 Brandt Res 732.54 FT 611.4856 AF 50.95713 ACRE 120 Brandt Res 733.54 FT 951.6678 AF 79.30565 ACRE 120 Brandt Res 734.54 FT 1325.793 AF 110.4828 ACRE 120 Brandt Res 736.54 FT 2177.393 AF 181.4494 ACRE 120 Brandt Res 737.54 FT 2655.759 AF 221.3132 ACRE 120 Brandt Res 738.54 FT 3173.361 AF 264.4468 ACRE 120 Brandt Res 739.54 FT 3806.294 AF 317.1912 ACRE 120 Brandt Res 740.54 FT 4575.421 AF 381.2851 ACRE 120 Brandt Res 741.54 FT 5377.734 AF 448.1445 ACRE 140 Lake Townsend 698.52 FT 0 AF 0 ACRE 140 Lake Townsend 699.52 FT 541.5193 AF 45.12661 ACRE 140 Lake Townsend 700.52 FT 1121.948 AF 93.49564 ACRE 140 Lake Townsend 701.52 FT 1739.66 AF 144.9716 ACRE 140 Lake Townsend 702.52 FT 2400.651 AF 200.0543 ACRE 140 Lake Townsend 703.52 FT 3102.964 AF 258.5804 ACRE 140 Lake Townsend 704.52 FT 3846.99 AF 320.5825 ACRE 140 Lake Townsend 705.52 FT 4646.22 AF 387.185 ACRE 140 Lake Townsend 706.52 FT 5554.262 AF 462.8552 ACRE 140 Lake Townsend 707.52 FT 6514.071 AF 542.8392 ACRE 140 Lake Townsend 708.52 FT 7533.766 AF 627.8138 ACRE 140 Lake Townsend 709.52 FT 8606.742 AF 717.2285 ACRE 140 Lake Townsend 710.52 FT 9737.465 AF 811.4554 ACRE 140 Lake Townsend 711.52 FT 10940.08 AF 911.6734 ACRE 140 Lake Townsend 712.52 FT 12218.93 AF 1018.245 ACRE 140 Lake Townsend 713.52 FT 13568.52 AF 1130.71 ACRE 140 Lake Townsend 714.52 FT 15012.91 AF 1251.076 ACRE 140 Lake Townsend 715.52 FT 16527.04 AF 1377.254 ACRE 220 High Point Res 722.5 ft 0 af 0 acre 220 High Point Res 725 ft 61 af 20 acre 220 High Point Res 730 ft 153 af 60 acre 220 High Point Res 735 ft 307 af 100 acre 220 High Point Res 740 ft 614 af 140 acre 220 High Point Res 745 ft 1228 af 180 acre 220 High Point Res 750 ft 1841 af 220 acre 220 High Point Res 755 ft 3069 af 260 acre 220 High Point Res 757 ft 3683 af 275 acre 270 Randleman Res 630 ft 0 af 0 acre 270 Randleman Res 631 ft 200 af 50 acre 270 Randleman Res 635 ft 1228 af 300 acre 270 Randleman Res 640 ft 2762 af 430 acre 23 Number Name Elevation Elevation Units Storage Storage Units Area Area Units 270 Randleman Res 645 ft 4910 af 550 acre 270 Randleman Res 650 ft 7672 af 690 acre 270 Randleman Res 655 ft 11355 af 910 acre 270 Randleman Res 660 ft 15958 af 1200 acre 270 Randleman Res 665 ft 22096 af 1520 acre 270 Randleman Res 670 ft 29768 af 1890 acre 270 Randleman Res 675 ft 39282 af 2340 acre 270 Randleman Res 680 ft 50637 af 2850 acre 270 Randleman Res 682 ft 62000 af 3230 acre 300 Ramseur Res 475 ft 0 af 0 acre 300 Ramseur Res 480 ft 400 af 80 acre 300 Ramseur Res 490 ft 1221 af 90 acre 300 Ramseur Res 495 ft 1620 af 95 acre 320 Graham Mebane Res 505 ft 0 af 0 acre 320 Graham Mebane Res 510 ft 156 af 68 acre 320 Graham Mebane Res 515 ft 805 af 189 acre 320 Graham Mebane Res 520 ft 2103 af 330 acre 320 Graham Mebane Res 525 ft 4157 af 485 acre 320 Graham Mebane Res 530 ft 7052 af 843 acre 320 Graham Mebane Res 535 ft 10860 af 843 acre 320 Graham Mebane Res 540 ft 15645 af 1073 acre 324 Siler City Upper Reservoir 562.35 FT 0 AF 4.09 ACRE 324 Siler City Upper Reservoir 572.35 FT 158.04 AF 27.52 ACRE 324 Siler City Upper Reservoir 582.35 FT 891.48 AF 119.17 ACRE 324 Siler City Upper Reservoir 586.45 FT 1459.35 AF 157.84 ACRE 325 Siler City Lower Reservoir 522 FT 0 AF 19.01 ACRE 325 Siler City Lower Reservoir 523 FT 9.87 AF 20.21 ACRE 325 Siler City Lower Reservoir 524 FT 29.98 AF 21 ACRE 325 Siler City Lower Reservoir 526 FT 72.39 AF 22.53 ACRE 325 Siler City Lower Reservoir 528 FT 117.74 AF 24.08 ACRE 325 Siler City Lower Reservoir 530 FT 174.49 AF 33.35 ACRE 325 Siler City Lower Reservoir 532 FT 260.31 AF 52.47 ACRE 325 Siler City Lower Reservoir 534 FT 385.83 AF 73.04 ACRE 325 Siler City Lower Reservoir 536 FT 560.76 AF 101.88 ACRE 325 Siler City Lower Reservoir 538 FT 794.59 AF 131.94 ACRE 325 Siler City Lower Reservoir 540 FT 1087.32 AF 160.78 ACRE 325 Siler City Lower Reservoir 542 FT 1431.11 AF 183.01 ACRE 325 Siler City Lower Reservoir 544 FT 1820.29 AF 206.17 ACRE 325 Siler City Lower Reservoir 546 FT 2255.45 AF 228.99 ACRE 325 Siler City Lower Reservoir 548 FT 2737.77 AF 253.33 ACRE 325 Siler City Lower Reservoir 550 FT 3271.5 AF 280.39 ACRE 325 Siler City Lower Reservoir 552 FT 3857.02 AF 305.13 ACRE 325 Siler City Lower Reservoir 554 FT 4495.03 AF 332.88 ACRE 24 Number Name Elevation Elevation Units Storage Storage Units Area Area Units 325 Siler City Lower Reservoir 556 FT 5188.59 AF 360.69 ACRE 325 Siler City Lower Reservoir 558 FT 5938.88 AF 388.22 ACRE 325 Siler City Lower Reservoir 560 FT 6746.19 AF 417.71 ACRE 340 Mackintosh Res 495 ft 10 af 1 acre 340 Mackintosh Res 500 ft 189 af 37 acre 340 Mackintosh Res 505 ft 378 af 70 acre 340 Mackintosh Res 510 ft 661 af 103 acre 340 Mackintosh Res 515 ft 1322 af 172 acre 340 Mackintosh Res 520 ft 2266 af 254 acre 340 Mackintosh Res 525 ft 3872 af 361 acre 340 Mackintosh Res 530 ft 6043 af 492 acre 340 Mackintosh Res 535 ft 8971 af 624 acre 340 Mackintosh Res 540 ft 12465 af 739 acre 340 Mackintosh Res 545 ft 16430 af 919 acre 340 Mackintosh Res 550 ft 21530 af 1059 acre 340 Mackintosh Res 555 ft 27200 af 1301 acre 340 Mackintosh Res 560 ft 34700 af 1493 acre 390 Cane Creek Res 442 FT 0 AF 0 acre 390 Cane Creek Res 443 FT 0 AF 0 acre 390 Cane Creek Res 444 FT 0 AF 0 acre 390 Cane Creek Res 446 FT 3 AF 3 acre 390 Cane Creek Res 448 FT 13 AF 7 acre 390 Cane Creek Res 450 FT 29 AF 10 acre 390 Cane Creek Res 452 FT 53 AF 15 acre 390 Cane Creek Res 454 FT 90 AF 23 acre 390 Cane Creek Res 456 FT 143 AF 30 acre 390 Cane Creek Res 458 FT 213 AF 40 acre 390 Cane Creek Res 460 FT 307 AF 52 acre 390 Cane Creek Res 462 FT 419 AF 62 acre 390 Cane Creek Res 464 FT 553 AF 71 acre 390 Cane Creek Res 466 FT 704 AF 81 acre 390 Cane Creek Res 468 FT 877 AF 92 acre 390 Cane Creek Res 470 FT 1073 AF 104 acre 390 Cane Creek Res 472 FT 1298 AF 121 acre 390 Cane Creek Res 474 FT 1560 AF 141 acre 390 Cane Creek Res 476 FT 1862 AF 161 acre 390 Cane Creek Res 478 FT 2205 AF 182 acre 390 Cane Creek Res 480 FT 2589 AF 202 acre 390 Cane Creek Res 482 FT 3015 AF 224 acre 390 Cane Creek Res 484 FT 3484 AF 246 acre 390 Cane Creek Res 486 FT 3997 AF 267 acre 390 Cane Creek Res 488 FT 4557 AF 293 acre 390 Cane Creek Res 490 FT 5167 AF 318 acre 25 Number Name Elevation Elevation Units Storage Storage Units Area Area Units 390 Cane Creek Res 492 FT 5833 AF 348 acre 390 Cane Creek Res 494 FT 6568 AF 388 acre 390 Cane Creek Res 496 FT 7381 AF 426 acre 390 Cane Creek Res 498 FT 8270 AF 463 acre 390 Cane Creek Res 500 FT 9232 AF 501 acre 390 Cane Creek Res 505 FT 10813 AF 523 acre 390 Cane Creek Res 515 FT 15591 AF 666 acre 395 Stone Quarry 342 FT 0 AF 0 acre 395 Stone Quarry 342.5 FT 0 AF 1 acre 395 Stone Quarry 350 FT 8 AF 2 acre 395 Stone Quarry 360 FT 26 AF 2 acre 395 Stone Quarry 370 FT 51 AF 3 acre 395 Stone Quarry 380 FT 85 AF 4 acre 395 Stone Quarry 390 FT 124 AF 4 acre 395 Stone Quarry 400 FT 167 AF 5 acre 395 Stone Quarry 410 FT 216 AF 5 acre 395 Stone Quarry 420 FT 270 AF 6 acre 395 Stone Quarry 430 FT 328 AF 6 acre 395 Stone Quarry 440 FT 390 AF 7 acre 395 Stone Quarry 450 FT 457 AF 7 acre 395 Stone Quarry 460 FT 534 AF 8 acre 395 Stone Quarry 470 FT 617 AF 9 acre 395 Stone Quarry 480 FT 706 AF 10 acre 395 Stone Quarry 490 FT 810 AF 11 acre 430 Univ Lake 336.6 FT 0 AF 0 ACRE 430 Univ Lake 337.3 FT 56 AF 105 ACRE 430 Univ Lake 338.3 FT 136 AF 112 ACRE 430 Univ Lake 339.3 FT 221 AF 119 ACRE 430 Univ Lake 340.3 FT 310 AF 126 ACRE 430 Univ Lake 341.3 FT 412 AF 132 ACRE 430 Univ Lake 342.3 FT 515 AF 142 ACRE 430 Univ Lake 343.3 FT 624 AF 151 ACRE 430 Univ Lake 344.3 FT 740 AF 161 ACRE 430 Univ Lake 345.3 FT 864 AF 170 ACRE 430 Univ Lake 346.3 FT 1007 AF 183 ACRE 430 Univ Lake 347.3 FT 1161 AF 195 ACRE 430 Univ Lake 348.3 FT 1316 AF 207 ACRE 430 Univ Lake 348.7 FT 1378 AF 212 ACRE 470 Jordan Lake 150 ft 0 af 0 acre 470 Jordan Lake 160 ft 90 af 50 acre 470 Jordan Lake 170 ft 960 af 150 acre 470 Jordan Lake 180 ft 4700 af 670 acre 470 Jordan Lake 190 ft 20430 af 2510 acre 26 Number Name Elevation Elevation Units Storage Storage Units Area Area Units 470 Jordan Lake 200 ft 62140 af 5840 acre 470 Jordan Lake 202 ft 74700 af 6660 acre 470 Jordan Lake 210 ft 142220 af 10490 acre 470 Jordan Lake 216 ft 215130 af 13940 acre 470 Jordan Lake 220 ft 276240 af 16520 acre 470 Jordan Lake 230 ft 476610 af 23700 acre 470 Jordan Lake 240 ft 753560 af 31810 acre 470 Jordan Lake 250 ft 1120000 af 40590 acre 470 Jordan Lake 260 ft 1570000 af 50290 acre 470 Jordan Lake 269 ft 2070000 af 59870 acre 470 Jordan Lake 275 ft 4000000 af 60000 acre 520 Harris Lake 190 FT 4067 AF 0 ACRE 520 Harris Lake 191 FT 5000 AF 0 ACRE 520 Harris Lake 195 FT 8303 AF 983 ACRE 520 Harris Lake 200 FT 14538 AF 1416 ACRE 520 Harris Lake 205 FT 23158 AF 1922 ACRE 520 Harris Lake 210 FT 34418 AF 2460 ACRE 520 Harris Lake 215 FT 48470 AF 3000 ACRE 520 Harris Lake 220 FT 65009 AF 3461 ACRE 520 Harris Lake 225 FT 86654 AF 4512 ACRE 520 Harris Lake 230 FT 111102 AF 5090 ACRE 520 Harris Lake 235 FT 143119 AF 6675 ACRE 520 Harris Lake 240 FT 179189 AF 7503 ACRE 528 Aux Reservoir 210 FT 0 AF 0 acre 528 Aux Reservoir 220 FT 100 AF 30 acre 528 Aux Reservoir 230 FT 750 AF 95 acre 528 Aux Reservoir 240 FT 2000 AF 180 acre 528 Aux Reservoir 250 FT 4500 AF 330 acre 528 Aux Reservoir 252 FT 5000 AF 350 acre 760 Glenville Res 107 ft 0 af 0 acre 760 Glenville Res 108 ft 40 af 0 acre 760 Glenville Res 110 ft 130 af 19 acre 760 Glenville Res 113.1 ft 231 af 37 acre 760 Glenville Res 113.2 ft 231 af 40 acre 1010 Orange Upstream Pond 635 FT 0 AF 0 acre 1010 Orange Upstream Pond 635.5 FT 5 AF 0 acre 1010 Orange Upstream Pond 643 FT 414 AF 130 acre 1050 West Fork Eno Reservoir 593 FT 0 AF 0 acre 1050 West Fork Eno Reservoir 595 FT 0 AF 0 acre 1050 West Fork Eno Reservoir 597 FT 2 AF 1 acre 1050 West Fork Eno Reservoir 599 FT 5 AF 2 acre 1050 West Fork Eno Reservoir 601 FT 12 AF 5 acre 1050 West Fork Eno Reservoir 603 FT 24 AF 9 acre 27 Number Name Elevation Elevation Units Storage Storage Units Area Area Units 1050 West Fork Eno Reservoir 605 FT 42 AF 14 acre 1050 West Fork Eno Reservoir 607 FT 70 AF 19 acre 1050 West Fork Eno Reservoir 609 FT 109 AF 25 acre 1050 West Fork Eno Reservoir 611 FT 163 AF 33 acre 1050 West Fork Eno Reservoir 613 FT 234 AF 42 acre 1050 West Fork Eno Reservoir 615 FT 325 AF 52 acre 1050 West Fork Eno Reservoir 617 FT 439 AF 62 acre 1050 West Fork Eno Reservoir 619 FT 581 AF 72 acre 1050 West Fork Eno Reservoir 621 FT 754 AF 85 acre 1050 West Fork Eno Reservoir 623 FT 963 AF 99 acre 1050 West Fork Eno Reservoir 625 FT 1211 AF 113 acre 1050 West Fork Eno Reservoir 627 FT 1503 AF 135 acre 1050 West Fork Eno Reservoir 629 FT 1844 AF 156 acre 1050 West Fork Eno Reservoir 631 FT 2238 AF 180 acre 1050 West Fork Eno Reservoir 633 FT 2412 AF 206 acre 1050 West Fork Eno Reservoir 634 FT 2581 AF 220 acre 1050 West Fork Eno Reservoir 635 FT 2821 AF 233 acre 1060 Lake Orange 590 FT 0 AF 0 acre 1060 Lake Orange 591 FT 15 AF 0 acre 1060 Lake Orange 600.4 FT 153 AF 35 acre 1060 Lake Orange 601 FT 172 AF 39 acre 1060 Lake Orange 601.7 FT 199 AF 44 acre 1060 Lake Orange 602 FT 211 AF 47 acre 1060 Lake Orange 603 FT 258 AF 55 acre 1060 Lake Orange 604 FT 313 AF 63 acre 1060 Lake Orange 605 FT 376 AF 69 acre 1060 Lake Orange 606 FT 447 AF 74 acre 1060 Lake Orange 607 FT 526 AF 80 acre 1060 Lake Orange 608 FT 613 AF 86 acre 1060 Lake Orange 609 FT 708 AF 92 acre 1060 Lake Orange 610 FT 811 AF 99 acre 1060 Lake Orange 611 FT 922 AF 114 acre 1060 Lake Orange 612 FT 1041 AF 128 acre 1060 Lake Orange 613 FT 1168 AF 140 acre 1060 Lake Orange 614 FT 1302 AF 152 acre 1060 Lake Orange 615 FT 1455 AF 160 acre 1060 Lake Orange 616 FT 1631 AF 168 acre 1060 Lake Orange 618 FT 1986 AF 188 acre 1060 Lake Orange 620 FT 2381 AF 206 acre 1060 Lake Orange 626 FT 3560 AF 258 acre 1080 Corp. Lake 528 FT 0 AF 0 acre 1080 Corp. Lake 528.5 FT 0.3 AF 0 acre 1080 Corp. Lake 529 FT 0.6 AF 1 acre 28 Number Name Elevation Elevation Units Storage Storage Units Area Area Units 1080 Corp. Lake 530 FT 2.7 AF 3 acre 1080 Corp. Lake 531 FT 6 AF 5 acre 1080 Corp. Lake 532 FT 12 AF 6 acre 1080 Corp. Lake 533 FT 19 AF 8 acre 1080 Corp. Lake 534 FT 27 AF 10 acre 1080 Corp. Lake 535 FT 38 AF 12 acre 1080 Corp. Lake 536 FT 51 AF 14 acre 1080 Corp. Lake 537 FT 67 AF 17 acre 1080 Corp. Lake 538 FT 86 AF 23 acre 1080 Corp. Lake 540 FT 150 AF 33 acre 1080 Corp. Lake 542 FT 233 AF 45 acre 1080 Corp. Lake 544 FT 333 AF 59 acre 1080 Corp. Lake 546 FT 470 AF 74 acre 1080 Corp. Lake 548 FT 645 AF 89 acre 1100 Lake Ben Johnston 501 FT 0 AF 0 acre 1100 Lake Ben Johnston 502 FT 0.3 AF 0 acre 1100 Lake Ben Johnston 503 FT 1 AF 1 acre 1100 Lake Ben Johnston 504 FT 2.4 AF 1 acre 1100 Lake Ben Johnston 505 FT 4.4 AF 2 acre 1100 Lake Ben Johnston 506 FT 7.3 AF 3 acre 1100 Lake Ben Johnston 507 FT 11 AF 4 acre 1100 Lake Ben Johnston 508 FT 15 AF 5 acre 1100 Lake Ben Johnston 509 FT 21 AF 6 acre 1100 Lake Ben Johnston 510 FT 27 AF 7 acre 1100 Lake Ben Johnston 511 FT 34 AF 8 acre 1100 Lake Ben Johnston 512 FT 42 AF 9 acre 1100 Lake Ben Johnston 513 FT 52 AF 10 acre 1100 Lake Ben Johnston 514 FT 62 AF 11 acre 1100 Lake Ben Johnston 515 FT 74 AF 12 acre 1100 Lake Ben Johnston 516 FT 87 AF 14 acre 1100 Lake Ben Johnston 518 FT 117 AF 17 acre 1100 Lake Ben Johnston 520 FT 150 AF 21 acre 1120 Teer Quarry 104 FT 0 AF 0 acre 1120 Teer Quarry 105 FT 2 AF 0 acre 1120 Teer Quarry 106 FT 4 AF 3 acre 1120 Teer Quarry 108 FT 9 AF 3 acre 1120 Teer Quarry 110 FT 16 AF 4 acre 1120 Teer Quarry 112 FT 24 AF 4 acre 1120 Teer Quarry 114 FT 32 AF 4 acre 1120 Teer Quarry 116 FT 41 AF 5 acre 1120 Teer Quarry 118 FT 50 AF 5 acre 1120 Teer Quarry 120 FT 59 AF 5 acre 1120 Teer Quarry 122 FT 70 AF 5 acre 29 Number Name Elevation Elevation Units Storage Storage Units Area Area Units 1120 Teer Quarry 124 FT 80 AF 5 acre 1120 Teer Quarry 126 FT 94 AF 9 acre 1120 Teer Quarry 128 FT 112 AF 10 acre 1120 Teer Quarry 130 FT 132 AF 11 acre 1120 Teer Quarry 132 FT 155 AF 13 acre 1120 Teer Quarry 134 FT 181 AF 13 acre 1120 Teer Quarry 136 FT 209 AF 14 acre 1120 Teer Quarry 138 FT 238 AF 15 acre 1120 Teer Quarry 140 FT 268 AF 15 acre 1120 Teer Quarry 142 FT 299 AF 16 acre 1120 Teer Quarry 144 FT 331 AF 16 acre 1120 Teer Quarry 146 FT 364 AF 17 acre 1120 Teer Quarry 148 FT 397 AF 17 acre 1120 Teer Quarry 150 FT 430 AF 17 acre 1120 Teer Quarry 152 FT 467 AF 20 acre 1120 Teer Quarry 154 FT 507 AF 20 acre 1120 Teer Quarry 156 FT 548 AF 21 acre 1120 Teer Quarry 158 FT 591 AF 22 acre 1120 Teer Quarry 160 FT 635 AF 22 acre 1120 Teer Quarry 162 FT 682 AF 26 acre 1120 Teer Quarry 164 FT 735 AF 27 acre 1120 Teer Quarry 166 FT 792 AF 30 acre 1120 Teer Quarry 168 FT 851 AF 30 acre 1120 Teer Quarry 170 FT 910 AF 30 acre 1120 Teer Quarry 172 FT 969 AF 30 acre 1120 Teer Quarry 174 FT 1028 AF 30 acre 1120 Teer Quarry 176 FT 1086 AF 30 acre 1120 Teer Quarry 178 FT 1145 AF 30 acre 1120 Teer Quarry 180 FT 1204 AF 30 acre 1120 Teer Quarry 182 FT 1263 AF 30 acre 1120 Teer Quarry 184 FT 1322 AF 30 acre 1120 Teer Quarry 186 FT 1384 AF 32 acre 1120 Teer Quarry 188 FT 1449 AF 33 acre 1120 Teer Quarry 190 FT 1515 AF 33 acre 1120 Teer Quarry 192 FT 1582 AF 34 acre 1120 Teer Quarry 194 FT 1650 AF 34 acre 1120 Teer Quarry 196 FT 1718 AF 35 acre 1120 Teer Quarry 198 FT 1788 AF 35 acre 1120 Teer Quarry 200 FT 1857 AF 35 acre 1120 Teer Quarry 202 FT 1928 AF 35 acre 1120 Teer Quarry 204 FT 1999 AF 36 acre 1120 Teer Quarry 206 FT 2070 AF 36 acre 1120 Teer Quarry 208 FT 2142 AF 36 acre 30 Number Name Elevation Elevation Units Storage Storage Units Area Area Units 1120 Teer Quarry 210 FT 2215 AF 37 acre 1120 Teer Quarry 212 FT 2288 AF 37 acre 1120 Teer Quarry 214 FT 2363 AF 37 acre 1120 Teer Quarry 216 FT 2438 AF 38 acre 1120 Teer Quarry 218 FT 2513 AF 38 acre 1120 Teer Quarry 220 FT 2590 AF 38 acre 1120 Teer Quarry 222 FT 2667 AF 39 acre 1120 Teer Quarry 224 FT 2744 AF 39 acre 1120 Teer Quarry 226 FT 2822 AF 39 acre 1120 Teer Quarry 228 FT 2901 AF 40 acre 1120 Teer Quarry 230 FT 2979 AF 39 acre 1120 Teer Quarry 232 FT 3058 AF 40 acre 1120 Teer Quarry 234 FT 3139 AF 41 acre 1120 Teer Quarry 236 FT 3221 AF 41 acre 1120 Teer Quarry 238 FT 3304 AF 42 acre 1120 Teer Quarry 240 FT 3389 AF 42 acre 1120 Teer Quarry 242 FT 3474 AF 43 acre 1120 Teer Quarry 244 FT 3560 AF 43 acre 1120 Teer Quarry 246 FT 3647 AF 44 acre 1120 Teer Quarry 248 FT 3735 AF 44 acre 1120 Teer Quarry 250 FT 3824 AF 45 acre 1120 Teer Quarry 252 FT 3915 AF 46 acre 1120 Teer Quarry 254 FT 4008 AF 47 acre 1120 Teer Quarry 256 FT 4103 AF 48 acre 1120 Teer Quarry 258 FT 4199 AF 48 acre 1120 Teer Quarry 260 FT 4297 AF 49 acre 1120 Teer Quarry 262 FT 4395 AF 49 acre 1120 Teer Quarry 264 FT 4494 AF 50 acre 1120 Teer Quarry 266 FT 4595 AF 50 acre 1120 Teer Quarry 268 FT 4696 AF 51 acre 1120 Teer Quarry 270 FT 4798 AF 51 acre 1120 Teer Quarry 272 FT 4902 AF 52 acre 1120 Teer Quarry 274 FT 5006 AF 53 acre 1120 Teer Quarry 276 FT 5112 AF 53 acre 1120 Teer Quarry 278 FT 5218 AF 54 acre 1120 Teer Quarry 280 FT 5326 AF 54 acre 1120 Teer Quarry 282 FT 5435 AF 55 acre 1120 Teer Quarry 284 FT 5546 AF 56 acre 1120 Teer Quarry 286 FT 5661 AF 58 acre 1120 Teer Quarry 288 FT 5778 AF 58 acre 1120 Teer Quarry 290 FT 5895 AF 58 acre 1120 Teer Quarry 292 FT 6011 AF 58 acre 1120 Teer Quarry 294 FT 6128 AF 58 acre 31 Number Name Elevation Elevation Units Storage Storage Units Area Area Units 1120 Teer Quarry 296 FT 6245 AF 58 acre 1120 Teer Quarry 298 FT 6362 AF 58 acre 1120 Teer Quarry 300 FT 6479 AF 58 acre 1120 Teer Quarry 302 FT 6595 AF 58 acre 1120 Teer Quarry 304 FT 6712 AF 58 acre 1120 Teer Quarry 306 FT 6829 AF 58 acre 1120 Teer Quarry 308 FT 6946 AF 58 acre 1120 Teer Quarry 310 FT 7063 AF 58 acre 1120 Teer Quarry 312 FT 7179 AF 58 acre 1120 Teer Quarry 314 FT 7296 AF 58 acre 1120 Teer Quarry 316 FT 7413 AF 58 acre 1120 Teer Quarry 318 FT 7530 AF 58 acre 1140 Lake Michie 266 FT 0 AF 0 acre 1140 Lake Michie 267 FT 0 AF 0 acre 1140 Lake Michie 268 FT 0 AF 0 acre 1140 Lake Michie 269 FT 0.1 AF 0 acre 1140 Lake Michie 270 FT 0.1 AF 0 acre 1140 Lake Michie 271 FT 0.3 AF 0 acre 1140 Lake Michie 272 FT 3.4 AF 0.2 acre 1140 Lake Michie 273 FT 7.3 AF 0.5 acre 1140 Lake Michie 274 FT 11.8 AF 1 acre 1140 Lake Michie 275 FT 16.9 AF 1 acre 1140 Lake Michie 276 FT 23 AF 1 acre 1140 Lake Michie 277 FT 32 AF 2 acre 1140 Lake Michie 278 FT 42 AF 3 acre 1140 Lake Michie 279 FT 55 AF 4 acre 1140 Lake Michie 280 FT 70 AF 4 acre 1140 Lake Michie 281 FT 86 AF 5 acre 1140 Lake Michie 282 FT 106 AF 7 acre 1140 Lake Michie 283 FT 128 AF 8 acre 1140 Lake Michie 284 FT 152 AF 10 acre 1140 Lake Michie 285 FT 178 AF 11 acre 1140 Lake Michie 286 FT 207 AF 13 acre 1140 Lake Michie 287 FT 245 AF 16 acre 1140 Lake Michie 288 FT 286 AF 18 acre 1140 Lake Michie 289 FT 329 AF 21 acre 1140 Lake Michie 290 FT 375 AF 24 acre 1140 Lake Michie 291 FT 424 AF 27 acre 1140 Lake Michie 292 FT 476 AF 30 acre 1140 Lake Michie 293 FT 530 AF 34 acre 1140 Lake Michie 294 FT 587 AF 37 acre 1140 Lake Michie 295 FT 646 AF 41 acre 1140 Lake Michie 296 FT 709 AF 45 acre 32 Number Name Elevation Elevation Units Storage Storage Units Area Area Units 1140 Lake Michie 297 FT 779 AF 49 acre 1140 Lake Michie 298 FT 854 AF 54 acre 1140 Lake Michie 299 FT 932 AF 59 acre 1140 Lake Michie 300 FT 1014 AF 64 acre 1140 Lake Michie 301 FT 1099 AF 70 acre 1140 Lake Michie 302 FT 1191 AF 75 acre 1140 Lake Michie 303 FT 1286 AF 81 acre 1140 Lake Michie 304 FT 1385 AF 88 acre 1140 Lake Michie 305 FT 1487 AF 94 acre 1140 Lake Michie 306 FT 1594 AF 101 acre 1140 Lake Michie 307 FT 1710 AF 108 acre 1140 Lake Michie 308 FT 1830 AF 116 acre 1140 Lake Michie 309 FT 1955 AF 124 acre 1140 Lake Michie 310 FT 2085 AF 132 acre 1140 Lake Michie 311 FT 2219 AF 144 acre 1140 Lake Michie 312 FT 2363 AF 147 acre 1140 Lake Michie 313 FT 2512 AF 152 acre 1140 Lake Michie 314 FT 2667 AF 157 acre 1140 Lake Michie 315 FT 2826 AF 163 acre 1140 Lake Michie 316 FT 2992 AF 168 acre 1140 Lake Michie 317 FT 3169 AF 181 acre 1140 Lake Michie 318 FT 3355 AF 190 acre 1140 Lake Michie 319 FT 3548 AF 197 acre 1140 Lake Michie 320 FT 3752 AF 208 acre 1140 Lake Michie 321 FT 3965 AF 217 acre 1140 Lake Michie 322 FT 4191 AF 232 acre 1140 Lake Michie 323 FT 4427 AF 241 acre 1140 Lake Michie 324 FT 4675 AF 253 acre 1140 Lake Michie 325 FT 4933 AF 263 acre 1140 Lake Michie 326 FT 5204 AF 278 acre 1140 Lake Michie 327 FT 5493 AF 295 acre 1140 Lake Michie 328 FT 5795 AF 308 acre 1140 Lake Michie 329 FT 6109 AF 320 acre 1140 Lake Michie 330 FT 6437 AF 335 acre 1140 Lake Michie 331 FT 6778 AF 349 acre 1140 Lake Michie 332 FT 7140 AF 369 acre 1140 Lake Michie 333 FT 7517 AF 385 acre 1140 Lake Michie 334 FT 7910 AF 401 acre 1140 Lake Michie 335 FT 8318 AF 415 acre 1140 Lake Michie 336 FT 8740 AF 428 acre 1140 Lake Michie 337 FT 9177 AF 444 acre 1140 Lake Michie 338 FT 9628 AF 457 acre 1140 Lake Michie 339 FT 10090 AF 469 acre 33 Number Name Elevation Elevation Units Storage Storage Units Area Area Units 1140 Lake Michie 340 FT 10566 AF 482 acre 1140 Lake Michie 341 FT 11067 AF 509 acre 1140 Lake Michie 342 FT 11584 AF 533 acre 1200 Little River Res. 278 FT 0 AF 3 acre 1200 Little River Res. 279 FT 4 AF 6 acre 1200 Little River Res. 280 FT 11 AF 9 acre 1200 Little River Res. 281 FT 21 AF 10 acre 1200 Little River Res. 282 FT 32 AF 11 acre 1200 Little River Res. 283 FT 44 AF 13 acre 1200 Little River Res. 284 FT 58 AF 15 acre 1200 Little River Res. 285 FT 75 AF 18 acre 1200 Little River Res. 286 FT 93 AF 20 acre 1200 Little River Res. 287 FT 115 AF 23 acre 1200 Little River Res. 288 FT 139 AF 26 acre 1200 Little River Res. 289 FT 166 AF 29 acre 1200 Little River Res. 290 FT 196 AF 32 acre 1200 Little River Res. 291 FT 229 AF 35 acre 1200 Little River Res. 292 FT 266 AF 38 acre 1200 Little River Res. 293 FT 305 AF 41 acre 1200 Little River Res. 294 FT 348 AF 45 acre 1200 Little River Res. 295 FT 395 AF 49 acre 1200 Little River Res. 296 FT 446 AF 52 acre 1200 Little River Res. 297 FT 500 AF 56 acre 1200 Little River Res. 298 FT 557 AF 59 acre 1200 Little River Res. 299 FT 617 AF 62 acre 1200 Little River Res. 300 FT 680 AF 65 acre 1200 Little River Res. 301 FT 746 AF 67 acre 1200 Little River Res. 302 FT 814 AF 70 acre 1200 Little River Res. 303 FT 886 AF 73 acre 1200 Little River Res. 304 FT 960 AF 75 acre 1200 Little River Res. 305 FT 1039 AF 83 acre 1200 Little River Res. 306 FT 1126 AF 91 acre 1200 Little River Res. 307 FT 1220 AF 97 acre 1200 Little River Res. 308 FT 1320 AF 103 acre 1200 Little River Res. 309 FT 1426 AF 109 acre 1200 Little River Res. 310 FT 1537 AF 115 acre 1200 Little River Res. 311 FT 1655 AF 121 acre 1200 Little River Res. 312 FT 1779 AF 127 acre 1200 Little River Res. 313 FT 1909 AF 133 acre 1200 Little River Res. 314 FT 2044 AF 138 acre 1200 Little River Res. 315 FT 2186 AF 145 acre 1200 Little River Res. 316 FT 2334 AF 151 acre 1200 Little River Res. 317 FT 2489 AF 158 acre 34 Number Name Elevation Elevation Units Storage Storage Units Area Area Units 1200 Little River Res. 318 FT 2651 AF 165 acre 1200 Little River Res. 319 FT 2819 AF 172 acre 1200 Little River Res. 320 FT 2994 AF 178 acre 1200 Little River Res. 321 FT 3176 AF 186 acre 1200 Little River Res. 322 FT 3365 AF 193 acre 1200 Little River Res. 323 FT 3562 AF 201 acre 1200 Little River Res. 324 FT 3768 AF 210 acre 1200 Little River Res. 325 FT 3982 AF 218 acre 1200 Little River Res. 326 FT 4205 AF 227 acre 1200 Little River Res. 327 FT 4436 AF 236 acre 1200 Little River Res. 328 FT 4677 AF 246 acre 1200 Little River Res. 329 FT 4928 AF 256 acre 1200 Little River Res. 330 FT 5190 AF 267 acre 1200 Little River Res. 331 FT 5461 AF 276 acre 1200 Little River Res. 332 FT 5742 AF 286 acre 1200 Little River Res. 333 FT 6033 AF 296 acre 1200 Little River Res. 334 FT 6334 AF 306 acre 1200 Little River Res. 335 FT 6645 AF 317 acre 1200 Little River Res. 336 FT 6968 AF 329 acre 1200 Little River Res. 337 FT 7302 AF 339 acre 1200 Little River Res. 338 FT 7645 AF 349 acre 1200 Little River Res. 339 FT 8000 AF 360 acre 1200 Little River Res. 340 FT 8365 AF 371 acre 1200 Little River Res. 341 FT 8741 AF 381 acre 1200 Little River Res. 342 FT 9127 AF 391 acre 1200 Little River Res. 343 FT 9524 AF 403 acre 1200 Little River Res. 344 FT 9932 AF 414 acre 1200 Little River Res. 345 FT 10351 AF 424 acre 1200 Little River Res. 346 FT 10780 AF 434 acre 1200 Little River Res. 347 FT 11219 AF 445 acre 1200 Little River Res. 348 FT 11670 AF 456 acre 1200 Little River Res. 349 FT 12132 AF 468 acre 1200 Little River Res. 350 FT 12606 AF 480 acre 1200 Little River Res. 351 FT 13091 AF 492 acre 1200 Little River Res. 352 FT 13590 AF 504 acre 1200 Little River Res. 353 FT 14101 AF 519 acre 1200 Little River Res. 354 FT 14627 AF 533 acre 1200 Little River Res. 355 FT 15164 AF 542 acre 1230 Beaverdam Lake 229 FT 0 AF 0 acre 1230 Beaverdam Lake 229.5 FT 5 AF 0 acre 1230 Beaverdam Lake 230 FT 9 AF 76 acre 1230 Beaverdam Lake 231 FT 90 AF 86 acre 1230 Beaverdam Lake 232 FT 190 AF 114 acre 35 Number Name Elevation Elevation Units Storage Storage Units Area Area Units 1230 Beaverdam Lake 233 FT 312 AF 130 acre 1230 Beaverdam Lake 234 FT 451 AF 149 acre 1230 Beaverdam Lake 235 FT 603 AF 155 acre 1230 Beaverdam Lake 236 FT 758 AF 157 acre 1230 Beaverdam Lake 237 FT 917 AF 160 acre 1230 Beaverdam Lake 238 FT 1100 AF 206 acre 1230 Beaverdam Lake 239 FT 1332 AF 257 acre 1230 Beaverdam Lake 240 FT 1590 AF 260 acre 1230 Beaverdam Lake 241 FT 1873 AF 305 acre 1230 Beaverdam Lake 242 FT 2199 AF 349 acre 1230 Beaverdam Lake 243 FT 2570 AF 393 acre 1230 Beaverdam Lake 244 FT 2986 AF 438 acre 1230 Beaverdam Lake 245 FT 3439 AF 470 acre 1230 Beaverdam Lake 246 FT 3915 AF 482 acre 1230 Beaverdam Lake 247 FT 4404 AF 496 acre 1230 Beaverdam Lake 248 FT 4914 AF 524 acre 1230 Beaverdam Lake 249 FT 5455 AF 558 acre 1230 Beaverdam Lake 250 FT 6084 AF 701 acre 1230 Beaverdam Lake 251 FT 6866 AF 863 acre 1230 Beaverdam Lake 252 FT 7778 AF 960 acre 1230 Beaverdam Lake 253 FT 8750 AF 985 acre 1230 Beaverdam Lake 254 FT 9750 AF 1014 acre 1230 Beaverdam Lake 255 FT 10775 AF 1036 acre 1230 Beaverdam Lake 256 FT 11854 AF 1123 acre 1230 Beaverdam Lake 257 FT 13021 AF 1212 acre 1230 Beaverdam Lake 258 FT 14272 AF 1290 acre 1230 Beaverdam Lake 259 FT 15604 AF 1375 acre 1230 Beaverdam Lake 260 FT 17022 AF 1461 acre 1230 Beaverdam Lake 261 FT 18525 AF 1546 acre 1230 Beaverdam Lake 262 FT 20114 AF 1631 acre 1230 Beaverdam Lake 263 FT 21787 AF 1715 acre 1230 Beaverdam Lake 264 FT 23544 AF 1799 acre 1230 Beaverdam Lake 265 FT 25389 AF 1891 acre 1230 Beaverdam Lake 266 FT 27324 AF 1979 acre 1230 Beaverdam Lake 267 FT 29346 AF 2066 acre 1230 Beaverdam Lake 268 FT 31456 AF 2154 acre 1230 Beaverdam Lake 269 FT 33654 AF 2242 acre 1230 Beaverdam Lake 270 FT 35940 AF 2330 acre 1230 Beaverdam Lake 271 FT 38319 AF 2426 acre 1230 Beaverdam Lake 272 FT 40793 AF 2522 acre 1230 Beaverdam Lake 273 FT 43363 AF 2618 acre 1230 Beaverdam Lake 274 FT 46029 AF 2714 acre 1230 Beaverdam Lake 275 FT 48791 AF 2810 acre 36 Number Name Elevation Elevation Units Storage Storage Units Area Area Units 1230 Beaverdam Lake 276 FT 51652 AF 2911 acre 1230 Beaverdam Lake 277 FT 54614 AF 3012 acre 1230 Beaverdam Lake 278 FT 57677 AF 3114 acre 1230 Beaverdam Lake 279 FT 60841 AF 3215 acre 1230 Beaverdam Lake 280 FT 64106 AF 3316 acre 1230 Beaverdam Lake 281 FT 67480 AF 3433 acre 1230 Beaverdam Lake 282 FT 70972 AF 3550 acre 1230 Beaverdam Lake 283 FT 74580 AF 3666 acre 1230 Beaverdam Lake 284 FT 78304 AF 3783 acre 1230 Beaverdam Lake 285 FT 82146 AF 3900 acre 1230 Beaverdam Lake 286 FT 86112 AF 4032 acre 1230 Beaverdam Lake 287 FT 90210 AF 4164 acre 1230 Beaverdam Lake 288 FT 94440 AF 4296 acre 1230 Beaverdam Lake 289 FT 98803 AF 4428 acre 1230 Beaverdam Lake 290 FT 103297 AF 4560 acre 1250 Lake Holt_Butner 295 FT 0 AF 0 acre 1250 Lake Holt_Butner 296 FT 7 AF 0 acre 1250 Lake Holt_Butner 310 FT 102 AF 5.3 acre 1250 Lake Holt_Butner 320 FT 431 AF 23 acre 1250 Lake Holt_Butner 330 FT 1162 AF 61 acre 1250 Lake Holt_Butner 346 FT 3612 AF 188 acre 1250 Lake Holt_Butner 356 FT 6331 AF 330 acre 1270 Lake Rogers 273 FT 0 AF 0 acre 1270 Lake Rogers 274 FT 3 AF 1 acre 1270 Lake Rogers 275 FT 24 AF 6 acre 1270 Lake Rogers 276 FT 73 AF 17 acre 1270 Lake Rogers 277 FT 152 AF 36 acre 1270 Lake Rogers 278 FT 255 AF 60 acre 1270 Lake Rogers 279 FT 375 AF 88 acre 1270 Lake Rogers 280 FT 512 AF 120 acre 1270 Lake Rogers 281 FT 661 AF 155 acre 1290 Wake Forest Lake 270 FT 0 AF 0 acre 1290 Wake Forest Lake 271 FT 6 AF 0 acre 1290 Wake Forest Lake 280 FT 63 AF 12 acre 1290 Wake Forest Lake 290 FT 279 AF 33 acre 1290 Wake Forest Lake 296.8 FT 565 AF 52 acre 1290 Wake Forest Lake 300 FT 752 AF 65 acre 1290 Wake Forest Lake 305 FT 1121 AF 83 acre 1290 Wake Forest Lake 310 FT 1590 AF 105 acre 1290 Wake Forest Lake 315 FT 2176 AF 130 acre 1290 Wake Forest Lake 320 FT 2900 AF 160 acre 1300 Falls Lake 199 FT 1 AF 0 acre 1300 Falls Lake 199.5 FT 2 AF 0 acre 37 Number Name Elevation Elevation Units Storage Storage Units Area Area Units 1300 Falls Lake 200 FT 4 AF 4 acre 1300 Falls Lake 201 FT 9 AF 6 acre 1300 Falls Lake 202 FT 15 AF 8 acre 1300 Falls Lake 203 FT 25 AF 12 acre 1300 Falls Lake 204 FT 38 AF 15 acre 1300 Falls Lake 205 FT 55 AF 20 acre 1300 Falls Lake 206 FT 83 AF 36 acre 1300 Falls Lake 207 FT 125 AF 49 acre 1300 Falls Lake 208 FT 179 AF 59 acre 1300 Falls Lake 209 FT 244 AF 72 acre 1300 Falls Lake 210 FT 322 AF 84 acre 1300 Falls Lake 211 FT 412 AF 95 acre 1300 Falls Lake 212 FT 517 AF 116 acre 1300 Falls Lake 213 FT 650 AF 151 acre 1300 Falls Lake 214 FT 810 AF 169 acre 1300 Falls Lake 215 FT 991 AF 192 acre 1300 Falls Lake 216 FT 1204 AF 234 acre 1300 Falls Lake 217 FT 1470 AF 302 acre 1300 Falls Lake 218 FT 1824 AF 405 acre 1300 Falls Lake 219 FT 2269 AF 488 acre 1300 Falls Lake 220 FT 2792 AF 558 acre 1300 Falls Lake 221 FT 3377 AF 610 acre 1300 Falls Lake 222 FT 4022 AF 681 acre 1300 Falls Lake 223 FT 4748 AF 771 acre 1300 Falls Lake 224 FT 5551 AF 834 acre 1300 Falls Lake 225 FT 6441 AF 947 acre 1300 Falls Lake 226 FT 7430 AF 1032 acre 1300 Falls Lake 227 FT 8502 AF 1112 acre 1300 Falls Lake 228 FT 9657 AF 1198 acre 1300 Falls Lake 229 FT 10901 AF 1289 acre 1300 Falls Lake 230 FT 12241 AF 1393 acre 1300 Falls Lake 231 FT 13700 AF 1525 acre 1300 Falls Lake 232 FT 15281 AF 1638 acre 1300 Falls Lake 233 FT 16981 AF 1764 acre 1300 Falls Lake 234 FT 18816 AF 1907 acre 1300 Falls Lake 235 FT 20815 AF 2090 acre 1300 Falls Lake 236 FT 23015 AF 2308 acre 1300 Falls Lake 237 FT 25456 AF 2575 acre 1300 Falls Lake 238 FT 28292 AF 3096 acre 1300 Falls Lake 239 FT 31723 AF 3769 acre 1300 Falls Lake 240 FT 35745 AF 4275 acre 1300 Falls Lake 241 FT 40300 AF 4839 acre 1300 Falls Lake 242 FT 45349 AF 5263 acre 38 Number Name Elevation Elevation Units Storage Storage Units Area Area Units 1300 Falls Lake 243 FT 50853 AF 5745 acre 1300 Falls Lake 244 FT 56928 AF 6407 acre 1300 Falls Lake 245 FT 63614 AF 6965 acre 1300 Falls Lake 246 FT 70953 AF 7714 acre 1300 Falls Lake 247 FT 78965 AF 8310 acre 1300 Falls Lake 248 FT 87759 AF 9278 acre 1300 Falls Lake 249 FT 97314 AF 9834 acre 1300 Falls Lake 250 FT 107498 AF 10533 acre 1300 Falls Lake 251 FT 118324 AF 11118 acre 1300 Falls Lake 252 FT 129821 AF 11879 acre 1300 Falls Lake 253 FT 141987 AF 12452 acre 1300 Falls Lake 254 FT 154676 AF 12925 acre 1300 Falls Lake 255 FT 167824 AF 13372 acre 1300 Falls Lake 256 FT 181495 AF 13966 acre 1300 Falls Lake 257 FT 195747 AF 14538 acre 1300 Falls Lake 258 FT 210554 AF 15080 acre 1300 Falls Lake 259 FT 225906 AF 15623 acre 1300 Falls Lake 260 FT 241796 AF 16158 acre 1300 Falls Lake 261 FT 258291 AF 16830 acre 1300 Falls Lake 262 FT 275490 AF 17572 acre 1300 Falls Lake 263 FT 293424 AF 18296 acre 1300 Falls Lake 264 FT 312077 AF 19011 acre 1300 Falls Lake 265 FT 331427 AF 19690 acre 1300 Falls Lake 266 FT 351482 AF 20419 acre 1300 Falls Lake 267 FT 372255 AF 21127 acre 1300 Falls Lake 268 FT 393728 AF 21818 acre 1300 Falls Lake 269 FT 415873 AF 22472 acre 1300 Falls Lake 270 FT 438671 AF 23125 acre 1300 Falls Lake 271 FT 462127 AF 23789 acre 1300 Falls Lake 272 FT 486248 AF 24453 acre 1300 Falls Lake 273 FT 511020 AF 25091 acre 1300 Falls Lake 274 FT 536429 AF 25729 acre 1300 Falls Lake 275 FT 562482 AF 26378 acre 1300 Falls Lake 276 FT 589194 AF 27045 acre 1300 Falls Lake 277 FT 616570 AF 27711 acre 1300 Falls Lake 278 FT 644614 AF 28377 acre 1300 Falls Lake 279 FT 673328 AF 29051 acre 1300 Falls Lake 280 FT 702718 AF 29727 acre 1300 Falls Lake 281 FT 732777 AF 30390 acre 1300 Falls Lake 282 FT 763498 AF 31054 acre 1300 Falls Lake 283 FT 794886 AF 31724 acre 1300 Falls Lake 284 FT 826945 AF 32392 acre 1300 Falls Lake 285 FT 859646 AF 33010 acre 39 Number Name Elevation Elevation Units Storage Storage Units Area Area Units 1300 Falls Lake 286 FT 892967 AF 33634 acre 1300 Falls Lake 287 FT 926894 AF 34218 acre 1300 Falls Lake 288 FT 961403 AF 34802 acre 1300 Falls Lake 289 FT 996495 AF 35384 acre 1300 Falls Lake 290 FT 1032170 AF 35967 acre 1400 #1 289 FT 0 AF 0 acre 1400 #1 290 FT 5 AF 0 acre 1400 #1 305 FT 189 AF 29 acre 1400 #1 306 FT 218 AF 32 acre 1400 #1 306.9 FT 249 AF 35 acre 1400 #1 310 FT 364 AF 45 acre 1400 #1 312.5 FT 477 AF 53 acre 1400 #1 315 FT 612 AF 61 acre 1400 #1 316 FT 669 AF 64 acre 1400 #1 316.5 FT 699 AF 67 acre 1400 #1 317 FT 729 AF 70 acre 1400 #1 317.5 FT 761 AF 73 acre 1400 #1 318 FT 794 AF 76 acre 1400 #1 319 FT 867 AF 83 acre 1400 #1 320 FT 959 AF 92 acre 1400 #1 321 FT 1033 AF 99 acre 1400 #1 321.5 FT 1072 AF 103 acre 1400 #1 322 FT 1113 AF 107 acre 1400 #1 322.5 FT 1154 AF 110 acre 1400 #1 323 FT 1196 AF 114 acre 1400 #1 323.5 FT 1242 AF 119 acre 1400 #1 324 FT 1292 AF 124 acre 1402 #2 307.5 FT 0 AF 0 acre 1402 #2 326 FT 130 AF 27 acre 1402 #2 328 FT 162 AF 33 acre 1402 #2 330 FT 222 AF 40 acre 1402 #2 333 FT 339 AF 49 acre 1402 #2 333.5 FT 360 AF 51 acre 1402 #2 334.4 FT 404 AF 54 acre 1402 #2 335 FT 434 AF 55 acre 1402 #2 335.5 FT 461 AF 57 acre 1402 #2 336 FT 488 AF 60 acre 1402 #2 336.5 FT 517 AF 64 acre 1402 #2 337 FT 550 AF 68 acre 1402 #2 338 FT 616 AF 76 acre 1402 #2 339 FT 685 AF 85 acre 1402 #2 340 FT 761 AF 94 acre 1402 #2 341.5 FT 886 AF 110 acre 40 Number Name Elevation Elevation Units Storage Storage Units Area Area Units 1402 #2 342 FT 913 AF 113 acre 1402 #2 342.5 FT 951 AF 118 acre 1402 #2 343 FT 989 AF 122 acre 1402 #2 343.5 FT 1027 AF 127 acre 1402 #2 344 FT 1065 AF 132 acre 1404 #3 323.5 FT 0 AF 0 acre 1404 #3 342.5 FT 224 AF 45 acre 1404 #3 344 FT 288 AF 50 acre 1404 #3 346 FT 384 AF 57 acre 1404 #3 349.5 FT 572 AF 70 acre 1404 #3 351.1 FT 681 AF 75 acre 1404 #3 352 FT 747 AF 78 acre 1404 #3 352.5 FT 785 AF 80 acre 1404 #3 353 FT 829 AF 85 acre 1404 #3 353.5 FT 869 AF 89 acre 1404 #3 354 FT 914 AF 93 acre 1404 #3 354.5 FT 956 AF 97 acre 1404 #3 355 FT 1004 AF 102 acre 1404 #3 355.5 FT 1048 AF 107 acre 1404 #3 356 FT 1095 AF 112 acre 1404 #3 357 FT 1198 AF 122 acre 1404 #3 358 FT 1297 AF 132 acre 1404 #3 358.5 FT 1349 AF 138 acre 1404 #3 359 FT 1401 AF 143 acre 1404 #3 359.5 FT 1454 AF 148 acre 1404 #3 360.5 FT 1562 AF 159 acre 1406 #5A 286.5 FT 0 AF 0 acre 1406 #5A 306.5 FT 730 AF 62 acre 1406 #5A 307 FT 752 AF 69 acre 1406 #5A 307.5 FT 772 AF 75 acre 1406 #5A 308 FT 797 AF 82 acre 1406 #5A 308.7 FT 836 AF 91 acre 1406 #5A 310 FT 925 AF 108 acre 1406 #5A 312 FT 1087 AF 134 acre 1406 #5A 314 FT 1276 AF 161 acre 1406 #5A 317 FT 1706 AF 200 acre 1406 #5A 320 FT 2218 AF 239 acre 1406 #5A 322.1 FT 2664 AF 267 acre 1406 #5A 322.6 FT 2779 AF 273 acre 1406 #5A 323.1 FT 2890 AF 280 acre 1406 #5A 323.6 FT 2996 AF 290 acre 1406 #5A 324.1 FT 3105 AF 301 acre 1406 #5A 326.1 FT 3629 AF 352 acre 41 Number Name Elevation Elevation Units Storage Storage Units Area Area Units 1406 #5A 327 FT 3885 AF 376 acre 1406 #5A 327.5 FT 4024 AF 390 acre 1406 #5A 328 FT 4161 AF 403 acre 1406 #5A 329 FT 4462 AF 432 acre 1408 #18 300 FT 0 AF 0 acre 1408 #18 313 FT 103 AF 22 acre 1408 #18 314 FT 118 AF 25 acre 1408 #18 314.3 FT 123 AF 27 acre 1408 #18 320 FT 279 AF 46 acre 1408 #18 324 FT 457 AF 60 acre 1408 #18 328 FT 688 AF 74 acre 1408 #18 328.5 FT 726 AF 75 acre 1408 #18 329 FT 764 AF 77 acre 1408 #18 329.5 FT 803 AF 81 acre 1408 #18 330 FT 844 AF 85 acre 1408 #18 330.5 FT 887 AF 89 acre 1408 #18 331 FT 930 AF 94 acre 1408 #18 332 FT 973 AF 98 acre 1408 #18 333 FT 1063 AF 107 acre 1408 #18 334 FT 1203 AF 121 acre 1408 #18 334.5 FT 1253 AF 126 acre 1408 #18 335 FT 1280 AF 129 acre 1408 #18 335.5 FT 1343 AF 135 acre 1408 #18 336 FT 1388 AF 140 acre 1408 #18 336.5 FT 1433 AF 144 acre 1410 #20A 286 FT 0 AF 0 acre 1410 #20A 306.5 FT 1053 AF 160 acre 1410 #20A 307.6 FT 1053 AF 181 acre 1410 #20A 308.6 FT 1272 AF 199 acre 1410 #20A 310 FT 1594 AF 226 acre 1410 #20A 315 FT 3010 AF 319 acre 1410 #20A 318.5 FT 4243 AF 385 acre 1410 #20A 319 FT 4436 AF 403 acre 1410 #20A 319.5 FT 4651 AF 422 acre 1410 #20A 320.5 FT 5101 AF 463 acre 1410 #20A 322.5 FT 6034 AF 548 acre 1410 #20A 324.5 FT 7085 AF 643 acre 1410 #20A 328.5 FT 9402 AF 853 acre 1410 #20A 330.5 FT 10710 AF 972 acre 1410 #20A 331 FT 11075 AF 1005 acre 1410 #20A 331.5 FT 11434 AF 1038 acre 1410 #20A 332 FT 11783 AF 1069 acre 1410 #20A 332.5 FT 12148 AF 1102 acre 42 Number Name Elevation Elevation Units Storage Storage Units Area Area Units 1410 #20A 333 FT 12512 AF 1135 acre 1410 #20A 333.5 FT 12898 AF 1170 acre 1412 #23 (Lake Crabtree) 256 FT 0 AF 0 acre 1412 #23 (Lake Crabtree) 276 FT 1998 AF 511 acre 1412 #23 (Lake Crabtree) 277.03 FT 2557 AF 579 acre 1412 #23 (Lake Crabtree) 279.08 FT 3902 AF 713 acre 1412 #23 (Lake Crabtree) 280.11 FT 4687 AF 781 acre 1412 #23 (Lake Crabtree) 281.91 FT 6220 AF 900 acre 1412 #23 (Lake Crabtree) 283.7 FT 7947 AF 1017 acre 1412 #23 (Lake Crabtree) 284.9 FT 9298 AF 1096 acre 1412 #23 (Lake Crabtree) 286.41 FT 10917 AF 1287 acre 1412 #23 (Lake Crabtree) 289.43 FT 14750 AF 1739 acre 1412 #23 (Lake Crabtree) 292.45 FT 19197 AF 2263 acre 1412 #23 (Lake Crabtree) 296.22 FT 25805 AF 3042 acre 1412 #23 (Lake Crabtree) 300 FT 33582 AF 3959 acre 1412 #23 (Lake Crabtree) 301 FT 37407 AF 4409 acre 1414 #11A 277.4 FT 0 AF 0 acre 1414 #11A 301 FT 360 AF 45 acre 1414 #11A 301.77 FT 391 AF 47 acre 1414 #11A 302.55 FT 427 AF 50 acre 1414 #11A 303.9 FT 491 AF 54 acre 1414 #11A 305.98 FT 599 AF 61 acre 1414 #11A 309.16 FT 786 AF 71 acre 1414 #11A 313.43 FT 1087 AF 84 acre 1414 #11A 318.14 FT 1508 AF 99 acre 1414 #11A 319.6 FT 1655 AF 104 acre 1414 #11A 322.42 FT 1996 AF 126 acre 1414 #11A 326.47 FT 2421 AF 152 acre 1414 #11A 329.44 FT 2696 AF 169 acre 1414 #11A 330.96 FT 2837 AF 178 acre 1414 #11A 331.5 FT 2881 AF 181 acre 1416 #25 215.5 FT 0 AF 0 acre 1416 #25 230 FT 969 AF 205 acre 1416 #25 232.35 FT 1266 AF 220 acre 1416 #25 234.7 FT 1563 AF 236 acre 1416 #25 237.05 FT 1860 AF 251 acre 1416 #25 239.4 FT 2156 AF 267 acre 1416 #25 241.75 FT 2453 AF 282 acre 1416 #25 244.1 FT 2750 AF 298 acre 1416 #25 246.45 FT 3047 AF 313 acre 1416 #25 248.8 FT 3344 AF 328 acre 1416 #25 251.15 FT 3641 AF 344 acre 1416 #25 253.5 FT 3937 AF 359 acre 43 Number Name Elevation Elevation Units Storage Storage Units Area Area Units 1416 #25 255.85 FT 4234 AF 375 acre 1416 #25 258.5 FT 4569 AF 392 acre 1416 #25 259.29 FT 6249 AF 536 acre 1416 #25 260.38 FT 6818 AF 585 acre 1416 #25 262.34 FT 7992 AF 686 acre 1416 #25 264.74 FT 9428 AF 809 acre 1416 #25 269.1 FT 12578 AF 1079 acre 1416 #25 274.55 FT 17477 AF 1499 acre 1416 #25 280 FT 22556 AF 1935 acre 1418 #22B 315 FT 0 AF 0 acre 1418 #22B 335 FT 198 AF 36 acre 1418 #22B 336.6 FT 264 AF 43 acre 1418 #22B 340 FT 433 AF 59 acre 1418 #22B 345 FT 774 AF 81 acre 1418 #22B 349 FT 1117 AF 99 acre 1418 #22B 349.5 FT 1163 AF 103 acre 1418 #22B 350 FT 1207 AF 107 acre 1418 #22B 350.5 FT 1252 AF 111 acre 1418 #22B 351 FT 1298 AF 115 acre 1418 #22B 354 FT 1560 AF 138 acre 1418 #22B 354.3 FT 1587 AF 141 acre 1418 #22B 354.6 FT 1613 AF 143 acre 1418 #22B 355.14 FT 1661 AF 147 acre 1418 #22B 355.8 FT 1719 AF 152 acre 1418 #22B 357 FT 1824 AF 162 acre 1420 Lake Wheeler 265 FT 0 AF 0 acre 1420 Lake Wheeler 265.5 FT 50 AF 0 acre 1420 Lake Wheeler 270 FT 483 AF 214 acre 1420 Lake Wheeler 275 FT 1862 AF 317 acre 1420 Lake Wheeler 280 FT 3793 AF 435 acre 1420 Lake Wheeler 285 FT 6414 AF 572 acre 1420 Lake Wheeler 290 FT 9724 AF 745 acre 1420 Lake Wheeler 293.1 FT 12207 AF 876 acre 1420 Lake Wheeler 295 FT 14069 AF 966 acre 1420 Lake Wheeler 300 FT 19172 AF 1290 acre 1422 #13 234 FT 0 AF 0 acre 1422 #13 252 FT 445 AF 53 acre 1422 #13 253 FT 510 AF 57 acre 1422 #13 254 FT 563 AF 61 acre 1422 #13 258 FT 840 AF 77 acre 1422 #13 265 FT 1440 AF 104 acre 1422 #13 270 FT 1983 AF 123 acre 1422 #13 275 FT 2642 AF 143 acre 44 Number Name Elevation Elevation Units Storage Storage Units Area Area Units 1422 #13 275.5 FT 2710 AF 147 acre 1422 #13 276 FT 2790 AF 151 acre 1422 #13 277 FT 2940 AF 159 acre 1422 #13 278 FT 3100 AF 168 acre 1422 #13 285 FT 3815 AF 207 acre 1440 Lake Benson 224 FT 0 AF 0 acre 1440 Lake Benson 224.5 FT 38 AF 0 acre 1440 Lake Benson 228 FT 277 AF 174 acre 1440 Lake Benson 232 FT 1246 AF 355 acre 1440 Lake Benson 236 FT 3046 AF 550 acre 1440 Lake Benson 240 FT 5677 AF 748 acre 1440 Lake Benson 242 FT 7269 AF 836 acre 1440 Lake Benson 244 FT 8751 AF 940 acre 1440 Lake Benson 248 FT 13251 AF 1198 acre 1445 Lake Johnson 311.4 FT 0 AF 0 acre 1445 Lake Johnson 312 FT 25 AF 0 acre 1445 Lake Johnson 312.7 FT 52 AF 3 acre 1445 Lake Johnson 316 FT 182 AF 12 acre 1445 Lake Johnson 319.2 FT 312 AF 20 acre 1445 Lake Johnson 322.5 FT 490 AF 32 acre 1445 Lake Johnson 325.8 FT 667 AF 43 acre 1445 Lake Johnson 328.1 FT 791 AF 51 acre 1445 Lake Johnson 330.4 FT 926 AF 60 acre 1445 Lake Johnson 333 FT 1081 AF 70 acre 1445 Lake Johnson 334.7 FT 1187 AF 77 acre 1445 Lake Johnson 341.2 FT 1612 AF 105 acre 1445 Lake Johnson 343.4 FT 2270 AF 148 acre 1445 Lake Johnson 344.4 FT 2422 AF 156 acre 1445 Lake Johnson 346.4 FT 2582 AF 165 acre 1445 Lake Johnson 349.4 FT 2752 AF 175 acre 1445 Lake Johnson 353.4 FT 2931 AF 183 acre 1445 Lake Johnson 358.1 FT 3061 AF 188 acre 1445 Lake Johnson 363.5 FT 3195 AF 193 acre 1445 Lake Johnson 369.7 FT 3352 AF 199 acre 1445 Lake Johnson 376.4 FT 3452 AF 203 acre 1445 Lake Johnson 385.1 FT 3872 AF 218 acre 1445 Lake Johnson 394.8 FT 4094 AF 225 acre 1450 Lake Raleigh 264 FT 0 AF 0 acre 1450 Lake Raleigh 274 FT 338 AF 68 acre 1450 Lake Raleigh 276 FT 488 AF 82 acre 1450 Lake Raleigh 278 FT 667 AF 97 acre 1450 Lake Raleigh 280 FT 871 AF 107 acre 1450 Lake Raleigh 282 FT 1101 AF 123 acre 45 Number Name Elevation Elevation Units Storage Storage Units Area Area Units 1450 Lake Raleigh 284 FT 1358 AF 134 acre 1450 Lake Raleigh 286 FT 1639 AF 147 acre 1450 Lake Raleigh 288 FT 1950 AF 164 acre 1500 Buckhorn Reservoir 120 FT 0 AF 0 acre 1500 Buckhorn Reservoir 136 FT 2240 AF 740 acre 1500 Buckhorn Reservoir 137 FT 3103 AF 866 acre 1500 Buckhorn Reservoir 138 FT 3965 AF 991 acre 1500 Buckhorn Reservoir 139 FT 5073 AF 1111 acre 1500 Buckhorn Reservoir 140 FT 6181 AF 1230 acre 1500 Buckhorn Reservoir 141 FT 7562 AF 1385 acre 1500 Buckhorn Reservoir 142 FT 8946 AF 1540 acre 1500 Buckhorn Reservoir 143 FT 10643 AF 1701 acre 1500 Buckhorn Reservoir 144 FT 12343 AF 1861 acre 1500 Buckhorn Reservoir 145 FT 14307 AF 1965 acre 1500 Buckhorn Reservoir 146 FT 16271 AF 2069 acre 1500 Buckhorn Reservoir 146.5 FT 17364 AF 2128 acre 1500 Buckhorn Reservoir 147 FT 18456 AF 2186 acre 1500 Buckhorn Reservoir 147.5 FT 19549 AF 2245 acre 1500 Buckhorn Reservoir 148 FT 20641 AF 2303 acre 1500 Buckhorn Reservoir 149 FT 23066 AF 2424 acre 1500 Buckhorn Reservoir 150 FT 25487 AF 2546 acre 1500 Buckhorn Reservoir 151 FT 28188 AF 2702 acre 1500 Buckhorn Reservoir 152 FT 30888 AF 2858 acre 1500 Buckhorn Reservoir 153 FT 33887 AF 3000 acre 1500 Buckhorn Reservoir 154 FT 36888 AF 3142 acre 1500 Buckhorn Reservoir 155 FT 40178 AF 3292 acre 1500 Buckhorn Reservoir 156 FT 43468 AF 3441 acre 1500 Buckhorn Reservoir 157 FT 47031 AF 3563 acre 1500 Buckhorn Reservoir 158 FT 50594 AF 3685 acre 1500 Buckhorn Reservoir 159 FT 54417 AF 3825 acre 1500 Buckhorn Reservoir 160 FT 58241 AF 3965 acre 1647 JCo Active Quarry 0 FT 0 AF 42 acre 1647 JCo Active Quarry 450 FT 27520 AF 80 acre 1648 JCo Aband Quarry 0 FT 0 AF 7 acre 1648 JCo Aband Quarry 275 FT 3160 AF 16 acre 1740 Little River Reservoir (Raleigh proposed) 234 FT 0 AF 0 acre 1740 Little River Reservoir (Raleigh proposed) 236 FT 4 AF 6 acre 1740 Little River Reservoir (Raleigh proposed) 238 FT 41 AF 34 acre 1740 Little River Reservoir (Raleigh proposed) 240 FT 153 AF 81 acre 1740 Little River Reservoir (Raleigh proposed) 242 FT 371 AF 139 acre 1740 Little River Reservoir (Raleigh proposed) 244 FT 773 AF 270 acre 1740 Little River Reservoir (Raleigh proposed) 246 FT 1414 AF 374 acre 1740 Little River Reservoir (Raleigh proposed) 248 FT 2231 AF 444 acre 46 Number Name Elevation Elevation Units Storage Storage Units Area Area Units 1740 Little River Reservoir (Raleigh proposed) 250 FT 3233 AF 561 acre 1740 Little River Reservoir (Raleigh proposed) 252 FT 4436 AF 643 acre 1740 Little River Reservoir (Raleigh proposed) 254 FT 5849 AF 772 acre 1740 Little River Reservoir (Raleigh proposed) 256 FT 7494 AF 875 acre 1740 Little River Reservoir (Raleigh proposed) 258 FT 9354 AF 986 acre 1740 Little River Reservoir (Raleigh proposed) 260 FT 11483 AF 1146 acre 1740 Little River Reservoir (Raleigh proposed) 262 FT 13899 AF 1271 acre 1740 Little River Reservoir (Raleigh proposed) 264 FT 16567 AF 1397 acre 1740 Little River Reservoir (Raleigh proposed) 266 FT 19495 AF 1532 acre 1740 Little River Reservoir (Raleigh proposed) 268 FT 22724 AF 1700 acre 1740 Little River Reservoir (Raleigh proposed) 270 FT 26298 AF 1875 acre 1740 Little River Reservoir (Raleigh proposed) 272 FT 30240 AF 2069 acre 1740 Little River Reservoir (Raleigh proposed) 274 FT 34578 AF 2270 acre 1740 Little River Reservoir (Raleigh proposed) 276 FT 39316 AF 2469 acre 47 Demand Patterns Node No. Name Units Factor Month Day Demand julSort 031 Reidsville Demand_02-79-020 mgd 4.53 1 1 0.80 1 031 Reidsville Demand_02-79-020 mgd 4.53 1 31 0.80 31 031 Reidsville Demand_02-79-020 mgd 4.53 2 1 0.82 32 031 Reidsville Demand_02-79-020 mgd 4.53 2 29 0.82 60 031 Reidsville Demand_02-79-020 mgd 4.53 3 1 0.88 61 031 Reidsville Demand_02-79-020 mgd 4.53 3 31 0.88 91 031 Reidsville Demand_02-79-020 mgd 4.53 4 1 0.92 92 031 Reidsville Demand_02-79-020 mgd 4.53 4 30 0.92 121 031 Reidsville Demand_02-79-020 mgd 4.53 5 1 0.90 122 031 Reidsville Demand_02-79-020 mgd 4.53 5 31 0.90 152 031 Reidsville Demand_02-79-020 mgd 4.53 6 1 1.01 153 031 Reidsville Demand_02-79-020 mgd 4.53 6 30 1.01 182 031 Reidsville Demand_02-79-020 mgd 4.53 7 1 1.10 183 031 Reidsville Demand_02-79-020 mgd 4.53 7 31 1.10 213 031 Reidsville Demand_02-79-020 mgd 4.53 8 1 1.32 214 031 Reidsville Demand_02-79-020 mgd 4.53 8 31 1.32 244 031 Reidsville Demand_02-79-020 mgd 4.53 9 1 1.25 245 031 Reidsville Demand_02-79-020 mgd 4.53 9 30 1.25 274 031 Reidsville Demand_02-79-020 mgd 4.53 10 1 1.07 275 031 Reidsville Demand_02-79-020 mgd 4.53 10 31 1.07 305 031 Reidsville Demand_02-79-020 mgd 4.53 11 1 1.03 306 031 Reidsville Demand_02-79-020 mgd 4.53 11 30 1.03 335 031 Reidsville Demand_02-79-020 mgd 4.53 12 1 0.89 336 031 Reidsville Demand_02-79-020 mgd 4.53 12 31 0.89 366 123 Greensboro Total Demand_02-41-010 MGD 35.24 1 1 0.89 1 123 Greensboro Total Demand_02-41-010 MGD 35.24 1 31 0.89 31 123 Greensboro Total Demand_02-41-010 MGD 35.24 2 1 0.90 32 123 Greensboro Total Demand_02-41-010 MGD 35.24 2 29 0.90 60 123 Greensboro Total Demand_02-41-010 MGD 35.24 3 1 0.91 61 123 Greensboro Total Demand_02-41-010 MGD 35.24 3 31 0.91 91 123 Greensboro Total Demand_02-41-010 MGD 35.24 4 1 0.92 92 123 Greensboro Total Demand_02-41-010 MGD 35.24 4 30 0.92 121 123 Greensboro Total Demand_02-41-010 MGD 35.24 5 1 1.01 122 123 Greensboro Total Demand_02-41-010 MGD 35.24 5 31 1.01 152 123 Greensboro Total Demand_02-41-010 MGD 35.24 6 1 1.13 153 123 Greensboro Total Demand_02-41-010 MGD 35.24 6 30 1.13 182 123 Greensboro Total Demand_02-41-010 MGD 35.24 7 1 1.15 183 123 Greensboro Total Demand_02-41-010 MGD 35.24 7 31 1.15 213 123 Greensboro Total Demand_02-41-010 MGD 35.24 8 1 1.15 214 123 Greensboro Total Demand_02-41-010 MGD 35.24 8 31 1.15 244 123 Greensboro Total Demand_02-41-010 MGD 35.24 9 1 1.06 245 123 Greensboro Total Demand_02-41-010 MGD 35.24 9 30 1.06 274 123 Greensboro Total Demand_02-41-010 MGD 35.24 10 1 1.02 275 123 Greensboro Total Demand_02-41-010 MGD 35.24 10 31 1.02 305 123 Greensboro Total Demand_02-41-010 MGD 35.24 11 1 0.96 306 123 Greensboro Total Demand_02-41-010 MGD 35.24 11 30 0.96 335 123 Greensboro Total Demand_02-41-010 MGD 35.24 12 1 0.89 336 123 Greensboro Total Demand_02-41-010 MGD 35.24 12 31 0.89 366 223 High Point Service Area Demand_02-41-020 MGD 12.64 1 1 0.88 1 223 High Point Service Area Demand_02-41-020 MGD 12.64 1 31 0.88 31 223 High Point Service Area Demand_02-41-020 MGD 12.64 2 1 0.84 32 223 High Point Service Area Demand_02-41-020 MGD 12.64 2 29 0.84 60 223 High Point Service Area Demand_02-41-020 MGD 12.64 3 1 0.87 61 223 High Point Service Area Demand_02-41-020 MGD 12.64 3 31 0.87 91 48 Node No. Name Units Factor Month Day Demand julSort 223 High Point Service Area Demand_02-41-020 MGD 12.64 4 1 0.94 92 223 High Point Service Area Demand_02-41-020 MGD 12.64 4 30 0.94 121 223 High Point Service Area Demand_02-41-020 MGD 12.64 5 1 0.99 122 223 High Point Service Area Demand_02-41-020 MGD 12.64 5 31 0.99 152 223 High Point Service Area Demand_02-41-020 MGD 12.64 6 1 1.15 153 223 High Point Service Area Demand_02-41-020 MGD 12.64 6 30 1.15 182 223 High Point Service Area Demand_02-41-020 MGD 12.64 7 1 1.17 183 223 High Point Service Area Demand_02-41-020 MGD 12.64 7 31 1.17 213 223 High Point Service Area Demand_02-41-020 MGD 12.64 8 1 1.14 214 223 High Point Service Area Demand_02-41-020 MGD 12.64 8 31 1.14 244 223 High Point Service Area Demand_02-41-020 MGD 12.64 9 1 1.12 245 223 High Point Service Area Demand_02-41-020 MGD 12.64 9 30 1.12 274 223 High Point Service Area Demand_02-41-020 MGD 12.64 10 1 1.05 275 223 High Point Service Area Demand_02-41-020 MGD 12.64 10 31 1.05 305 223 High Point Service Area Demand_02-41-020 MGD 12.64 11 1 0.93 306 223 High Point Service Area Demand_02-41-020 MGD 12.64 11 30 0.93 335 223 High Point Service Area Demand_02-41-020 MGD 12.64 12 1 0.90 336 223 High Point Service Area Demand_02-41-020 MGD 12.64 12 31 0.90 366 261 City of Randleman Demand_02-76-015 MGD 0.40 1 1 0.95 1 261 City of Randleman Demand_02-76-015 MGD 0.40 1 31 0.95 31 261 City of Randleman Demand_02-76-015 MGD 0.40 2 1 0.78 32 261 City of Randleman Demand_02-76-015 MGD 0.40 2 29 0.78 60 261 City of Randleman Demand_02-76-015 MGD 0.40 3 1 0.86 61 261 City of Randleman Demand_02-76-015 MGD 0.40 3 31 0.86 91 261 City of Randleman Demand_02-76-015 MGD 0.40 4 1 0.85 92 261 City of Randleman Demand_02-76-015 MGD 0.40 4 30 0.85 121 261 City of Randleman Demand_02-76-015 MGD 0.40 5 1 1.01 122 261 City of Randleman Demand_02-76-015 MGD 0.40 5 31 1.01 152 261 City of Randleman Demand_02-76-015 MGD 0.40 6 1 1.25 153 261 City of Randleman Demand_02-76-015 MGD 0.40 6 30 1.25 182 261 City of Randleman Demand_02-76-015 MGD 0.40 7 1 1.26 183 261 City of Randleman Demand_02-76-015 MGD 0.40 7 31 1.26 213 261 City of Randleman Demand_02-76-015 MGD 0.40 8 1 0.84 214 261 City of Randleman Demand_02-76-015 MGD 0.40 8 31 0.84 244 261 City of Randleman Demand_02-76-015 MGD 0.40 9 1 1.21 245 261 City of Randleman Demand_02-76-015 MGD 0.40 9 30 1.21 274 261 City of Randleman Demand_02-76-015 MGD 0.40 10 1 1.06 275 261 City of Randleman Demand_02-76-015 MGD 0.40 10 31 1.06 305 261 City of Randleman Demand_02-76-015 MGD 0.40 11 1 0.95 306 261 City of Randleman Demand_02-76-015 MGD 0.40 11 30 0.95 335 261 City of Randleman Demand_02-76-015 MGD 0.40 12 1 0.99 336 261 City of Randleman Demand_02-76-015 MGD 0.40 12 31 0.99 366 301 Ramseur Demand_02-76-020 mgd 0.49 1 1 0.96 1 301 Ramseur Demand_02-76-020 mgd 0.49 1 31 0.96 31 301 Ramseur Demand_02-76-020 mgd 0.49 2 1 0.98 32 301 Ramseur Demand_02-76-020 mgd 0.49 2 29 0.98 60 301 Ramseur Demand_02-76-020 mgd 0.49 3 1 0.96 61 301 Ramseur Demand_02-76-020 mgd 0.49 3 31 0.96 91 301 Ramseur Demand_02-76-020 mgd 0.49 4 1 1.01 92 301 Ramseur Demand_02-76-020 mgd 0.49 4 30 1.01 121 301 Ramseur Demand_02-76-020 mgd 0.49 5 1 1.05 122 301 Ramseur Demand_02-76-020 mgd 0.49 5 31 1.05 152 301 Ramseur Demand_02-76-020 mgd 0.49 6 1 1.09 153 301 Ramseur Demand_02-76-020 mgd 0.49 6 30 1.09 182 301 Ramseur Demand_02-76-020 mgd 0.49 7 1 1.04 183 49 Node No. Name Units Factor Month Day Demand julSort 301 Ramseur Demand_02-76-020 mgd 0.49 7 31 1.04 213 301 Ramseur Demand_02-76-020 mgd 0.49 8 1 1.06 214 301 Ramseur Demand_02-76-020 mgd 0.49 8 31 1.06 244 301 Ramseur Demand_02-76-020 mgd 0.49 9 1 1.07 245 301 Ramseur Demand_02-76-020 mgd 0.49 9 30 1.07 274 301 Ramseur Demand_02-76-020 mgd 0.49 10 1 0.98 275 301 Ramseur Demand_02-76-020 mgd 0.49 10 31 0.98 305 301 Ramseur Demand_02-76-020 mgd 0.49 11 1 0.90 306 301 Ramseur Demand_02-76-020 mgd 0.49 11 30 0.90 335 301 Ramseur Demand_02-76-020 mgd 0.49 12 1 0.89 336 301 Ramseur Demand_02-76-020 mgd 0.49 12 31 0.89 366 321 Graham-Mebane Demand_02-01-015 mgd 3.50 1 1 0.92 1 321 Graham-Mebane Demand_02-01-015 mgd 3.50 1 31 0.92 31 321 Graham-Mebane Demand_02-01-015 mgd 3.50 2 1 0.91 32 321 Graham-Mebane Demand_02-01-015 mgd 3.50 2 29 0.91 60 321 Graham-Mebane Demand_02-01-015 mgd 3.50 3 1 0.92 61 321 Graham-Mebane Demand_02-01-015 mgd 3.50 3 31 0.92 91 321 Graham-Mebane Demand_02-01-015 mgd 3.50 4 1 0.94 92 321 Graham-Mebane Demand_02-01-015 mgd 3.50 4 30 0.94 121 321 Graham-Mebane Demand_02-01-015 mgd 3.50 5 1 1.01 122 321 Graham-Mebane Demand_02-01-015 mgd 3.50 5 31 1.01 152 321 Graham-Mebane Demand_02-01-015 mgd 3.50 6 1 1.10 153 321 Graham-Mebane Demand_02-01-015 mgd 3.50 6 30 1.10 182 321 Graham-Mebane Demand_02-01-015 mgd 3.50 7 1 1.15 183 321 Graham-Mebane Demand_02-01-015 mgd 3.50 7 31 1.15 213 321 Graham-Mebane Demand_02-01-015 mgd 3.50 8 1 1.11 214 321 Graham-Mebane Demand_02-01-015 mgd 3.50 8 31 1.11 244 321 Graham-Mebane Demand_02-01-015 mgd 3.50 9 1 1.10 245 321 Graham-Mebane Demand_02-01-015 mgd 3.50 9 30 1.10 274 321 Graham-Mebane Demand_02-01-015 mgd 3.50 10 1 1.01 275 321 Graham-Mebane Demand_02-01-015 mgd 3.50 10 31 1.01 305 321 Graham-Mebane Demand_02-01-015 mgd 3.50 11 1 0.94 306 321 Graham-Mebane Demand_02-01-015 mgd 3.50 11 30 0.94 335 321 Graham-Mebane Demand_02-01-015 mgd 3.50 12 1 0.91 336 321 Graham-Mebane Demand_02-01-015 mgd 3.50 12 31 0.91 366 327 Siler City Demand_03-19-010 MGD 2.38 1 1 1.06 1 327 Siler City Demand_03-19-010 MGD 2.38 1 31 1.06 31 327 Siler City Demand_03-19-010 MGD 2.38 2 1 1.03 32 327 Siler City Demand_03-19-010 MGD 2.38 2 29 1.03 60 327 Siler City Demand_03-19-010 MGD 2.38 3 1 0.99 61 327 Siler City Demand_03-19-010 MGD 2.38 3 31 0.99 91 327 Siler City Demand_03-19-010 MGD 2.38 4 1 1.00 92 327 Siler City Demand_03-19-010 MGD 2.38 4 30 1.00 121 327 Siler City Demand_03-19-010 MGD 2.38 5 1 1.02 122 327 Siler City Demand_03-19-010 MGD 2.38 5 31 1.02 152 327 Siler City Demand_03-19-010 MGD 2.38 6 1 1.04 153 327 Siler City Demand_03-19-010 MGD 2.38 6 30 1.04 182 327 Siler City Demand_03-19-010 MGD 2.38 7 1 1.03 183 327 Siler City Demand_03-19-010 MGD 2.38 7 31 1.03 213 327 Siler City Demand_03-19-010 MGD 2.38 8 1 1.09 214 327 Siler City Demand_03-19-010 MGD 2.38 8 31 1.09 244 327 Siler City Demand_03-19-010 MGD 2.38 9 1 1.02 245 327 Siler City Demand_03-19-010 MGD 2.38 9 30 1.02 274 327 Siler City Demand_03-19-010 MGD 2.38 10 1 0.90 275 327 Siler City Demand_03-19-010 MGD 2.38 10 31 0.90 305 50 Node No. Name Units Factor Month Day Demand julSort 327 Siler City Demand_03-19-010 MGD 2.38 11 1 0.92 306 327 Siler City Demand_03-19-010 MGD 2.38 11 30 0.92 335 327 Siler City Demand_03-19-010 MGD 2.38 12 1 0.90 336 327 Siler City Demand_03-19-010 MGD 2.38 12 31 0.90 366 341 Burlington Demand_02-01-010 MGD 15.03 1 1 0.98 1 341 Burlington Demand_02-01-010 MGD 15.03 1 31 0.98 31 341 Burlington Demand_02-01-010 MGD 15.03 2 1 1.00 32 341 Burlington Demand_02-01-010 MGD 15.03 2 29 1.00 60 341 Burlington Demand_02-01-010 MGD 15.03 3 1 0.98 61 341 Burlington Demand_02-01-010 MGD 15.03 3 31 0.98 91 341 Burlington Demand_02-01-010 MGD 15.03 4 1 1.00 92 341 Burlington Demand_02-01-010 MGD 15.03 4 30 1.00 121 341 Burlington Demand_02-01-010 MGD 15.03 5 1 1.02 122 341 Burlington Demand_02-01-010 MGD 15.03 5 31 1.02 152 341 Burlington Demand_02-01-010 MGD 15.03 6 1 1.08 153 341 Burlington Demand_02-01-010 MGD 15.03 6 30 1.08 182 341 Burlington Demand_02-01-010 MGD 15.03 7 1 1.06 183 341 Burlington Demand_02-01-010 MGD 15.03 7 31 1.06 213 341 Burlington Demand_02-01-010 MGD 15.03 8 1 1.02 214 341 Burlington Demand_02-01-010 MGD 15.03 8 31 1.02 244 341 Burlington Demand_02-01-010 MGD 15.03 9 1 1.04 245 341 Burlington Demand_02-01-010 MGD 15.03 9 30 1.04 274 341 Burlington Demand_02-01-010 MGD 15.03 10 1 0.99 275 341 Burlington Demand_02-01-010 MGD 15.03 10 31 0.99 305 341 Burlington Demand_02-01-010 MGD 15.03 11 1 0.91 306 341 Burlington Demand_02-01-010 MGD 15.03 11 30 0.91 335 341 Burlington Demand_02-01-010 MGD 15.03 12 1 0.95 336 341 Burlington Demand_02-01-010 MGD 15.03 12 31 0.95 366 401 Pittsboro Demand_03-19-015 mgd 0.60 1 1 0.90 1 401 Pittsboro Demand_03-19-015 mgd 0.60 1 31 0.90 31 401 Pittsboro Demand_03-19-015 mgd 0.60 2 1 0.95 32 401 Pittsboro Demand_03-19-015 mgd 0.60 2 29 0.95 60 401 Pittsboro Demand_03-19-015 mgd 0.60 3 1 0.91 61 401 Pittsboro Demand_03-19-015 mgd 0.60 3 31 0.91 91 401 Pittsboro Demand_03-19-015 mgd 0.60 4 1 0.96 92 401 Pittsboro Demand_03-19-015 mgd 0.60 4 30 0.96 121 401 Pittsboro Demand_03-19-015 mgd 0.60 5 1 1.02 122 401 Pittsboro Demand_03-19-015 mgd 0.60 5 31 1.02 152 401 Pittsboro Demand_03-19-015 mgd 0.60 6 1 1.09 153 401 Pittsboro Demand_03-19-015 mgd 0.60 6 30 1.09 182 401 Pittsboro Demand_03-19-015 mgd 0.60 7 1 1.08 183 401 Pittsboro Demand_03-19-015 mgd 0.60 7 31 1.08 213 401 Pittsboro Demand_03-19-015 mgd 0.60 8 1 1.15 214 401 Pittsboro Demand_03-19-015 mgd 0.60 8 31 1.15 244 401 Pittsboro Demand_03-19-015 mgd 0.60 9 1 1.11 245 401 Pittsboro Demand_03-19-015 mgd 0.60 9 30 1.11 274 401 Pittsboro Demand_03-19-015 mgd 0.60 10 1 0.98 275 401 Pittsboro Demand_03-19-015 mgd 0.60 10 31 0.98 305 401 Pittsboro Demand_03-19-015 mgd 0.60 11 1 0.94 306 401 Pittsboro Demand_03-19-015 mgd 0.60 11 30 0.94 335 401 Pittsboro Demand_03-19-015 mgd 0.60 12 1 0.89 336 401 Pittsboro Demand_03-19-015 mgd 0.60 12 31 0.89 366 431 OWASA Demand_03-68-010 MGD 7.70 1 1 0.89 1 431 OWASA Demand_03-68-010 MGD 7.70 1 31 0.89 31 431 OWASA Demand_03-68-010 MGD 7.70 2 1 0.89 32 51 Node No. Name Units Factor Month Day Demand julSort 431 OWASA Demand_03-68-010 MGD 7.70 2 29 0.89 60 431 OWASA Demand_03-68-010 MGD 7.70 3 1 0.90 61 431 OWASA Demand_03-68-010 MGD 7.70 3 31 0.90 91 431 OWASA Demand_03-68-010 MGD 7.70 4 1 0.97 92 431 OWASA Demand_03-68-010 MGD 7.70 4 30 0.97 121 431 OWASA Demand_03-68-010 MGD 7.70 5 1 1.00 122 431 OWASA Demand_03-68-010 MGD 7.70 5 31 1.00 152 431 OWASA Demand_03-68-010 MGD 7.70 6 1 1.08 153 431 OWASA Demand_03-68-010 MGD 7.70 6 30 1.08 182 431 OWASA Demand_03-68-010 MGD 7.70 7 1 1.11 183 431 OWASA Demand_03-68-010 MGD 7.70 7 31 1.11 213 431 OWASA Demand_03-68-010 MGD 7.70 8 1 1.13 214 431 OWASA Demand_03-68-010 MGD 7.70 8 31 1.13 244 431 OWASA Demand_03-68-010 MGD 7.70 9 1 1.14 245 431 OWASA Demand_03-68-010 MGD 7.70 9 30 1.14 274 431 OWASA Demand_03-68-010 MGD 7.70 10 1 1.07 275 431 OWASA Demand_03-68-010 MGD 7.70 10 31 1.07 305 431 OWASA Demand_03-68-010 MGD 7.70 11 1 0.96 306 431 OWASA Demand_03-68-010 MGD 7.70 11 30 0.96 335 431 OWASA Demand_03-68-010 MGD 7.70 12 1 0.82 336 431 OWASA Demand_03-68-010 MGD 7.70 12 31 0.82 366 471 Cary Apex water supply MGD 18.40 1 1 0.75 1 471 Cary Apex water supply MGD 18.40 1 31 0.75 31 471 Cary Apex water supply MGD 18.40 2 1 0.75 32 471 Cary Apex water supply MGD 18.40 2 29 0.75 60 471 Cary Apex water supply MGD 18.40 3 1 0.85 61 471 Cary Apex water supply MGD 18.40 3 31 0.85 91 471 Cary Apex water supply MGD 18.40 4 1 0.91 92 471 Cary Apex water supply MGD 18.40 4 30 0.91 121 471 Cary Apex water supply MGD 18.40 5 1 1.14 122 471 Cary Apex water supply MGD 18.40 5 31 1.14 152 471 Cary Apex water supply MGD 18.40 6 1 1.39 153 471 Cary Apex water supply MGD 18.40 6 30 1.39 182 471 Cary Apex water supply MGD 18.40 7 1 1.32 183 471 Cary Apex water supply MGD 18.40 7 31 1.32 213 471 Cary Apex water supply MGD 18.40 8 1 1.25 214 471 Cary Apex water supply MGD 18.40 8 31 1.25 244 471 Cary Apex water supply MGD 18.40 9 1 1.08 245 471 Cary Apex water supply MGD 18.40 9 30 1.08 274 471 Cary Apex water supply MGD 18.40 10 1 1.00 275 471 Cary Apex water supply MGD 18.40 10 31 1.00 305 471 Cary Apex water supply MGD 18.40 11 1 0.81 306 471 Cary Apex water supply MGD 18.40 11 30 0.81 335 471 Cary Apex water supply MGD 18.40 12 1 0.75 336 471 Cary Apex water supply MGD 18.40 12 31 0.75 366 473 Chatham Co. North Demand mgd 2.20 1 1 0.66 1 473 Chatham Co. North Demand mgd 2.20 1 31 0.66 31 473 Chatham Co. North Demand mgd 2.20 2 1 0.67 32 473 Chatham Co. North Demand mgd 2.20 2 29 0.67 60 473 Chatham Co. North Demand mgd 2.20 3 1 0.74 61 473 Chatham Co. North Demand mgd 2.20 3 31 0.74 91 473 Chatham Co. North Demand mgd 2.20 4 1 0.93 92 473 Chatham Co. North Demand mgd 2.20 4 30 0.93 121 473 Chatham Co. North Demand mgd 2.20 5 1 1.17 122 473 Chatham Co. North Demand mgd 2.20 5 31 1.17 152 52 Node No. Name Units Factor Month Day Demand julSort 473 Chatham Co. North Demand mgd 2.20 6 1 1.37 153 473 Chatham Co. North Demand mgd 2.20 6 30 1.37 182 473 Chatham Co. North Demand mgd 2.20 7 1 1.36 183 473 Chatham Co. North Demand mgd 2.20 7 31 1.36 213 473 Chatham Co. North Demand mgd 2.20 8 1 1.28 214 473 Chatham Co. North Demand mgd 2.20 8 31 1.28 244 473 Chatham Co. North Demand mgd 2.20 9 1 1.24 245 473 Chatham Co. North Demand mgd 2.20 9 30 1.24 274 473 Chatham Co. North Demand mgd 2.20 10 1 1.06 275 473 Chatham Co. North Demand mgd 2.20 10 31 1.06 305 473 Chatham Co. North Demand mgd 2.20 11 1 0.75 306 473 Chatham Co. North Demand mgd 2.20 11 30 0.75 335 473 Chatham Co. North Demand mgd 2.20 12 1 0.71 336 473 Chatham Co. North Demand mgd 2.20 12 31 0.71 366 474 RTP Demand mgd 0.60 1 1 0.68 1 474 RTP Demand mgd 0.60 1 31 0.68 31 474 RTP Demand mgd 0.60 2 1 0.70 32 474 RTP Demand mgd 0.60 2 29 0.70 60 474 RTP Demand mgd 0.60 3 1 0.83 61 474 RTP Demand mgd 0.60 3 31 0.83 91 474 RTP Demand mgd 0.60 4 1 0.80 92 474 RTP Demand mgd 0.60 4 30 0.80 121 474 RTP Demand mgd 0.60 5 1 1.09 122 474 RTP Demand mgd 0.60 5 31 1.09 152 474 RTP Demand mgd 0.60 6 1 1.41 153 474 RTP Demand mgd 0.60 6 30 1.41 182 474 RTP Demand mgd 0.60 7 1 1.36 183 474 RTP Demand mgd 0.60 7 31 1.36 213 474 RTP Demand mgd 0.60 8 1 1.40 214 474 RTP Demand mgd 0.60 8 31 1.40 244 474 RTP Demand mgd 0.60 9 1 1.15 245 474 RTP Demand mgd 0.60 9 30 1.15 274 474 RTP Demand mgd 0.60 10 1 1.01 275 474 RTP Demand mgd 0.60 10 31 1.01 305 474 RTP Demand mgd 0.60 11 1 0.85 306 474 RTP Demand mgd 0.60 11 30 0.85 335 474 RTP Demand mgd 0.60 12 1 0.72 336 474 RTP Demand mgd 0.60 12 31 0.72 366 475 Jordan Make Up Demand mgd 0.00 1 1 0.82 1 475 Jordan Make Up Demand mgd 0.00 1 31 0.82 31 475 Jordan Make Up Demand mgd 0.00 2 1 0.74 32 475 Jordan Make Up Demand mgd 0.00 2 28 0.74 59 475 Jordan Make Up Demand mgd 0.00 3 1 0.90 61 475 Jordan Make Up Demand mgd 0.00 3 31 0.90 91 475 Jordan Make Up Demand mgd 0.00 4 1 0.95 92 475 Jordan Make Up Demand mgd 0.00 4 30 0.95 121 475 Jordan Make Up Demand mgd 0.00 5 1 1.17 122 475 Jordan Make Up Demand mgd 0.00 5 31 1.17 152 475 Jordan Make Up Demand mgd 0.00 6 1 1.14 153 475 Jordan Make Up Demand mgd 0.00 6 30 1.14 182 475 Jordan Make Up Demand mgd 0.00 7 1 1.16 183 475 Jordan Make Up Demand mgd 0.00 7 31 1.16 213 475 Jordan Make Up Demand mgd 0.00 8 1 1.18 214 475 Jordan Make Up Demand mgd 0.00 8 31 1.18 244 475 Jordan Make Up Demand mgd 0.00 9 1 1.06 245 53 Node No. Name Units Factor Month Day Demand julSort 475 Jordan Make Up Demand mgd 0.00 9 30 1.06 274 475 Jordan Make Up Demand mgd 0.00 10 1 1.09 275 475 Jordan Make Up Demand mgd 0.00 10 31 1.09 305 475 Jordan Make Up Demand mgd 0.00 11 1 0.93 306 475 Jordan Make Up Demand mgd 0.00 11 30 0.93 335 475 Jordan Make Up Demand mgd 0.00 12 1 0.85 336 475 Jordan Make Up Demand mgd 0.00 12 31 0.85 366 477 Morrisville demand mgd 1.70 1 1 0.73 1 477 Morrisville demand mgd 1.70 1 31 0.73 31 477 Morrisville demand mgd 1.70 2 1 0.65 32 477 Morrisville demand mgd 1.70 2 29 0.65 60 477 Morrisville demand mgd 1.70 3 1 0.84 61 477 Morrisville demand mgd 1.70 3 31 0.84 91 477 Morrisville demand mgd 1.70 4 1 0.84 92 477 Morrisville demand mgd 1.70 4 30 0.84 121 477 Morrisville demand mgd 1.70 5 1 1.13 122 477 Morrisville demand mgd 1.70 5 31 1.13 152 477 Morrisville demand mgd 1.70 6 1 1.47 153 477 Morrisville demand mgd 1.70 6 30 1.47 182 477 Morrisville demand mgd 1.70 7 1 1.38 183 477 Morrisville demand mgd 1.70 7 31 1.38 213 477 Morrisville demand mgd 1.70 8 1 1.32 214 477 Morrisville demand mgd 1.70 8 31 1.32 244 477 Morrisville demand mgd 1.70 9 1 1.09 245 477 Morrisville demand mgd 1.70 9 30 1.09 274 477 Morrisville demand mgd 1.70 10 1 1.00 275 477 Morrisville demand mgd 1.70 10 31 1.00 305 477 Morrisville demand mgd 1.70 11 1 0.84 306 477 Morrisville demand mgd 1.70 11 30 0.84 335 477 Morrisville demand mgd 1.70 12 1 0.74 336 477 Morrisville demand mgd 1.70 12 31 0.74 366 483 Performance Fibers / Allied Signal Demand mgd 0.20 1 1 0.88 1 483 Performance Fibers / Allied Signal Demand mgd 0.20 1 31 0.88 31 483 Performance Fibers / Allied Signal Demand mgd 0.20 2 1 0.91 32 483 Performance Fibers / Allied Signal Demand mgd 0.20 2 29 0.91 60 483 Performance Fibers / Allied Signal Demand mgd 0.20 3 1 0.93 61 483 Performance Fibers / Allied Signal Demand mgd 0.20 3 31 0.93 91 483 Performance Fibers / Allied Signal Demand mgd 0.20 4 1 0.96 92 483 Performance Fibers / Allied Signal Demand mgd 0.20 4 30 0.96 121 483 Performance Fibers / Allied Signal Demand mgd 0.20 5 1 1.06 122 483 Performance Fibers / Allied Signal Demand mgd 0.20 5 31 1.06 152 483 Performance Fibers / Allied Signal Demand mgd 0.20 6 1 1.18 153 483 Performance Fibers / Allied Signal Demand mgd 0.20 6 30 1.18 182 483 Performance Fibers / Allied Signal Demand mgd 0.20 7 1 1.19 183 483 Performance Fibers / Allied Signal Demand mgd 0.20 7 31 1.19 213 483 Performance Fibers / Allied Signal Demand mgd 0.20 8 1 1.14 214 483 Performance Fibers / Allied Signal Demand mgd 0.20 8 31 1.14 244 483 Performance Fibers / Allied Signal Demand mgd 0.20 9 1 1.05 245 483 Performance Fibers / Allied Signal Demand mgd 0.20 9 30 1.05 274 483 Performance Fibers / Allied Signal Demand mgd 0.20 10 1 0.94 275 483 Performance Fibers / Allied Signal Demand mgd 0.20 10 31 0.94 305 483 Performance Fibers / Allied Signal Demand mgd 0.20 11 1 0.89 306 483 Performance Fibers / Allied Signal Demand mgd 0.20 11 30 0.89 335 483 Performance Fibers / Allied Signal Demand mgd 0.20 12 1 0.88 336 483 Performance Fibers / Allied Signal Demand mgd 0.20 12 31 0.88 366 54 Node No. Name Units Factor Month Day Demand julSort 487 Progress Cape Fear water supply mgd 218.30 1 1 0.86 1 487 Progress Cape Fear water supply mgd 218.30 1 31 0.86 31 487 Progress Cape Fear water supply mgd 218.30 2 1 0.88 32 487 Progress Cape Fear water supply mgd 218.30 2 29 0.88 60 487 Progress Cape Fear water supply mgd 218.30 3 1 0.88 61 487 Progress Cape Fear water supply mgd 218.30 3 31 0.88 91 487 Progress Cape Fear water supply mgd 218.30 4 1 0.91 92 487 Progress Cape Fear water supply mgd 218.30 4 30 0.91 121 487 Progress Cape Fear water supply mgd 218.30 5 1 1.03 122 487 Progress Cape Fear water supply mgd 218.30 5 31 1.03 152 487 Progress Cape Fear water supply mgd 218.30 6 1 1.09 153 487 Progress Cape Fear water supply mgd 218.30 6 30 1.09 182 487 Progress Cape Fear water supply mgd 218.30 7 1 1.20 183 487 Progress Cape Fear water supply mgd 218.30 7 31 1.20 213 487 Progress Cape Fear water supply mgd 218.30 8 1 1.15 214 487 Progress Cape Fear water supply mgd 218.30 8 31 1.15 244 487 Progress Cape Fear water supply mgd 218.30 9 1 1.06 245 487 Progress Cape Fear water supply mgd 218.30 9 30 1.06 274 487 Progress Cape Fear water supply mgd 218.30 10 1 0.97 275 487 Progress Cape Fear water supply mgd 218.30 10 31 0.97 305 487 Progress Cape Fear water supply mgd 218.30 11 1 1.01 306 487 Progress Cape Fear water supply mgd 218.30 11 30 1.01 335 487 Progress Cape Fear water supply mgd 218.30 12 1 0.95 336 487 Progress Cape Fear water supply mgd 218.30 12 31 0.95 366 491 Sanford Water Supply mgd 6.52 1 1 0.90 1 491 Sanford Water Supply mgd 6.52 1 31 0.90 31 491 Sanford Water Supply mgd 6.52 2 1 0.89 32 491 Sanford Water Supply mgd 6.52 2 29 0.89 60 491 Sanford Water Supply mgd 6.52 3 1 0.90 61 491 Sanford Water Supply mgd 6.52 3 31 0.90 91 491 Sanford Water Supply mgd 6.52 4 1 0.95 92 491 Sanford Water Supply mgd 6.52 4 30 0.95 121 491 Sanford Water Supply mgd 6.52 5 1 1.02 122 491 Sanford Water Supply mgd 6.52 5 31 1.02 152 491 Sanford Water Supply mgd 6.52 6 1 1.11 153 491 Sanford Water Supply mgd 6.52 6 30 1.11 182 491 Sanford Water Supply mgd 6.52 7 1 1.13 183 491 Sanford Water Supply mgd 6.52 7 31 1.13 213 491 Sanford Water Supply mgd 6.52 8 1 1.14 214 491 Sanford Water Supply mgd 6.52 8 31 1.14 244 491 Sanford Water Supply mgd 6.52 9 1 1.09 245 491 Sanford Water Supply mgd 6.52 9 30 1.09 274 491 Sanford Water Supply mgd 6.52 10 1 1.04 275 491 Sanford Water Supply mgd 6.52 10 31 1.04 305 491 Sanford Water Supply mgd 6.52 11 1 0.95 306 491 Sanford Water Supply mgd 6.52 11 30 0.95 335 491 Sanford Water Supply mgd 6.52 12 1 0.89 336 491 Sanford Water Supply mgd 6.52 12 31 0.89 366 521 Progress Harris water supply mgd 20.00 1 1 1.00 1 521 Progress Harris water supply mgd 20.00 1 31 1.00 31 521 Progress Harris water supply mgd 20.00 2 1 1.00 32 521 Progress Harris water supply mgd 20.00 2 29 1.00 60 521 Progress Harris water supply mgd 20.00 3 1 1.00 61 521 Progress Harris water supply mgd 20.00 3 31 1.00 91 521 Progress Harris water supply mgd 20.00 4 1 1.00 92 55 Node No. Name Units Factor Month Day Demand julSort 521 Progress Harris water supply mgd 20.00 4 30 1.00 121 521 Progress Harris water supply mgd 20.00 5 1 1.00 122 521 Progress Harris water supply mgd 20.00 5 31 1.00 152 521 Progress Harris water supply mgd 20.00 6 1 1.00 153 521 Progress Harris water supply mgd 20.00 6 30 1.00 182 521 Progress Harris water supply mgd 20.00 7 1 1.00 183 521 Progress Harris water supply mgd 20.00 7 31 1.00 213 521 Progress Harris water supply mgd 20.00 8 1 1.00 214 521 Progress Harris water supply mgd 20.00 8 31 1.00 244 521 Progress Harris water supply mgd 20.00 9 1 1.00 245 521 Progress Harris water supply mgd 20.00 9 30 1.00 274 521 Progress Harris water supply mgd 20.00 10 1 1.00 275 521 Progress Harris water supply mgd 20.00 10 31 1.00 305 521 Progress Harris water supply mgd 20.00 11 1 1.00 306 521 Progress Harris water supply mgd 20.00 11 30 1.00 335 521 Progress Harris water supply mgd 20.00 12 1 1.00 336 521 Progress Harris water supply mgd 20.00 12 31 1.00 366 551 Harnett County water supply mgd 15.80 1 1 0.69 1 551 Harnett County water supply mgd 15.80 1 31 0.69 31 551 Harnett County water supply mgd 15.80 2 1 0.71 32 551 Harnett County water supply mgd 15.80 2 29 0.71 60 551 Harnett County water supply mgd 15.80 3 1 0.72 61 551 Harnett County water supply mgd 15.80 3 31 0.72 91 551 Harnett County water supply mgd 15.80 4 1 0.82 92 551 Harnett County water supply mgd 15.80 4 30 0.82 121 551 Harnett County water supply mgd 15.80 5 1 0.94 122 551 Harnett County water supply mgd 15.80 5 31 0.94 152 551 Harnett County water supply mgd 15.80 6 1 1.07 153 551 Harnett County water supply mgd 15.80 6 30 1.07 182 551 Harnett County water supply mgd 15.80 7 1 1.01 183 551 Harnett County water supply mgd 15.80 7 31 1.01 213 551 Harnett County water supply mgd 15.80 8 1 0.95 214 551 Harnett County water supply mgd 15.80 8 31 0.95 244 551 Harnett County water supply mgd 15.80 9 1 0.87 245 551 Harnett County water supply mgd 15.80 9 30 0.87 274 551 Harnett County water supply mgd 15.80 10 1 0.80 275 551 Harnett County water supply mgd 15.80 10 31 0.80 305 551 Harnett County water supply mgd 15.80 11 1 0.76 306 551 Harnett County water supply mgd 15.80 11 30 0.76 335 551 Harnett County water supply mgd 15.80 12 1 0.76 336 551 Harnett County water supply mgd 15.80 12 31 0.73 366 601 Pilgrims Pride WTP mgd 0.97 1 1 1.00 1 601 Pilgrims Pride WTP mgd 0.97 1 31 1.00 31 601 Pilgrims Pride WTP mgd 0.97 2 1 0.99 32 601 Pilgrims Pride WTP mgd 0.97 2 29 0.99 60 601 Pilgrims Pride WTP mgd 0.97 3 1 1.08 61 601 Pilgrims Pride WTP mgd 0.97 3 31 1.08 91 601 Pilgrims Pride WTP mgd 0.97 4 1 0.98 92 601 Pilgrims Pride WTP mgd 0.97 4 30 0.98 121 601 Pilgrims Pride WTP mgd 0.97 5 1 1.08 122 601 Pilgrims Pride WTP mgd 0.97 5 31 1.08 152 601 Pilgrims Pride WTP mgd 0.97 6 1 1.08 153 601 Pilgrims Pride WTP mgd 0.97 6 30 1.08 182 601 Pilgrims Pride WTP mgd 0.97 7 1 0.98 183 601 Pilgrims Pride WTP mgd 0.97 7 31 0.98 213 56 Node No. Name Units Factor Month Day Demand julSort 601 Pilgrims Pride WTP mgd 0.97 8 1 1.04 214 601 Pilgrims Pride WTP mgd 0.97 8 31 1.04 244 601 Pilgrims Pride WTP mgd 0.97 9 1 1.21 245 601 Pilgrims Pride WTP mgd 0.97 9 30 1.21 274 601 Pilgrims Pride WTP mgd 0.97 10 1 0.91 275 601 Pilgrims Pride WTP mgd 0.97 10 31 0.91 305 601 Pilgrims Pride WTP mgd 0.97 11 1 0.81 306 601 Pilgrims Pride WTP mgd 0.97 11 30 0.81 335 601 Pilgrims Pride WTP mgd 0.97 12 1 0.87 336 601 Pilgrims Pride WTP mgd 0.97 12 31 0.87 366 605 Goldston-Gulf WS PWS 03-19-025 mgd 0.00 1 1 0.92 1 605 Goldston-Gulf WS PWS 03-19-025 mgd 0.00 1 31 0.92 31 605 Goldston-Gulf WS PWS 03-19-025 mgd 0.00 2 1 0.98 32 605 Goldston-Gulf WS PWS 03-19-025 mgd 0.00 2 29 0.98 60 605 Goldston-Gulf WS PWS 03-19-025 mgd 0.00 3 1 0.74 61 605 Goldston-Gulf WS PWS 03-19-025 mgd 0.00 3 31 0.74 91 605 Goldston-Gulf WS PWS 03-19-025 mgd 0.00 4 1 0.72 92 605 Goldston-Gulf WS PWS 03-19-025 mgd 0.00 4 30 0.72 121 605 Goldston-Gulf WS PWS 03-19-025 mgd 0.00 5 1 0.77 122 605 Goldston-Gulf WS PWS 03-19-025 mgd 0.00 5 31 0.77 152 605 Goldston-Gulf WS PWS 03-19-025 mgd 0.00 6 1 1.00 153 605 Goldston-Gulf WS PWS 03-19-025 mgd 0.00 6 30 1.00 182 605 Goldston-Gulf WS PWS 03-19-025 mgd 0.00 7 1 1.13 183 605 Goldston-Gulf WS PWS 03-19-025 mgd 0.00 7 31 1.13 213 605 Goldston-Gulf WS PWS 03-19-025 mgd 0.00 8 1 0.97 214 605 Goldston-Gulf WS PWS 03-19-025 mgd 0.00 8 31 0.97 244 605 Goldston-Gulf WS PWS 03-19-025 mgd 0.00 9 1 1.11 245 605 Goldston-Gulf WS PWS 03-19-025 mgd 0.00 9 30 1.11 274 605 Goldston-Gulf WS PWS 03-19-025 mgd 0.00 10 1 1.09 275 605 Goldston-Gulf WS PWS 03-19-025 mgd 0.00 10 31 1.09 305 605 Goldston-Gulf WS PWS 03-19-025 mgd 0.00 11 1 1.34 306 605 Goldston-Gulf WS PWS 03-19-025 mgd 0.00 11 30 1.34 335 605 Goldston-Gulf WS PWS 03-19-025 mgd 0.00 12 1 1.22 336 605 Goldston-Gulf WS PWS 03-19-025 mgd 0.00 12 31 1.22 366 663 Dunn Demand mgd 3.41 1 1 0.93 1 663 Dunn Demand mgd 3.41 1 31 0.93 31 663 Dunn Demand mgd 3.41 2 1 0.88 32 663 Dunn Demand mgd 3.41 2 29 0.88 60 663 Dunn Demand mgd 3.41 3 1 0.90 61 663 Dunn Demand mgd 3.41 3 31 0.90 91 663 Dunn Demand mgd 3.41 4 1 0.96 92 663 Dunn Demand mgd 3.41 4 30 0.96 121 663 Dunn Demand mgd 3.41 5 1 1.04 122 663 Dunn Demand mgd 3.41 5 31 1.04 152 663 Dunn Demand mgd 3.41 6 1 1.14 153 663 Dunn Demand mgd 3.41 6 30 1.14 182 663 Dunn Demand mgd 3.41 7 1 1.14 183 663 Dunn Demand mgd 3.41 7 31 1.14 213 663 Dunn Demand mgd 3.41 8 1 1.10 214 663 Dunn Demand mgd 3.41 8 31 1.10 244 663 Dunn Demand mgd 3.41 9 1 1.05 245 663 Dunn Demand mgd 3.41 9 30 1.05 274 663 Dunn Demand mgd 3.41 10 1 1.00 275 663 Dunn Demand mgd 3.41 10 31 1.00 305 663 Dunn Demand mgd 3.41 11 1 0.95 306 57 Node No. Name Units Factor Month Day Demand julSort 663 Dunn Demand mgd 3.41 11 30 0.95 335 663 Dunn Demand mgd 3.41 12 1 0.91 336 663 Dunn Demand mgd 3.41 12 31 0.91 366 701 Carthage Demand_03-63-025 mgd 0.30 1 1 0.93 1 701 Carthage Demand_03-63-025 mgd 0.30 1 31 0.93 31 701 Carthage Demand_03-63-025 mgd 0.30 2 1 0.82 32 701 Carthage Demand_03-63-025 mgd 0.30 2 29 0.82 60 701 Carthage Demand_03-63-025 mgd 0.30 3 1 0.86 61 701 Carthage Demand_03-63-025 mgd 0.30 3 31 0.86 91 701 Carthage Demand_03-63-025 mgd 0.30 4 1 1.02 92 701 Carthage Demand_03-63-025 mgd 0.30 4 30 1.02 121 701 Carthage Demand_03-63-025 mgd 0.30 5 1 1.08 122 701 Carthage Demand_03-63-025 mgd 0.30 5 31 1.08 152 701 Carthage Demand_03-63-025 mgd 0.30 6 1 1.14 153 701 Carthage Demand_03-63-025 mgd 0.30 6 30 1.14 182 701 Carthage Demand_03-63-025 mgd 0.30 7 1 1.19 183 701 Carthage Demand_03-63-025 mgd 0.30 7 31 1.19 213 701 Carthage Demand_03-63-025 mgd 0.30 8 1 1.13 214 701 Carthage Demand_03-63-025 mgd 0.30 8 31 1.13 244 701 Carthage Demand_03-63-025 mgd 0.30 9 1 1.16 245 701 Carthage Demand_03-63-025 mgd 0.30 9 30 1.16 274 701 Carthage Demand_03-63-025 mgd 0.30 10 1 0.89 275 701 Carthage Demand_03-63-025 mgd 0.30 10 31 0.89 305 701 Carthage Demand_03-63-025 mgd 0.30 11 1 0.88 306 701 Carthage Demand_03-63-025 mgd 0.30 11 30 0.88 335 701 Carthage Demand_03-63-025 mgd 0.30 12 1 0.89 336 701 Carthage Demand_03-63-025 mgd 0.30 12 31 0.89 366 719 Spring Lake WS_03-26-020 AF 0.00 1 1 0.00 1 719 Spring Lake WS_03-26-020 AF 0.00 12 31 0.00 366 721 Old North Ut. FBragg Demand_50-26-019 mgd 4.80 1 1 0.97 1 721 Old North Ut. FBragg Demand_50-26-019 mgd 4.80 1 31 0.97 31 721 Old North Ut. FBragg Demand_50-26-019 mgd 4.80 2 1 0.93 32 721 Old North Ut. FBragg Demand_50-26-019 mgd 4.80 2 29 0.93 60 721 Old North Ut. FBragg Demand_50-26-019 mgd 4.80 3 1 0.87 61 721 Old North Ut. FBragg Demand_50-26-019 mgd 4.80 3 31 0.87 91 721 Old North Ut. FBragg Demand_50-26-019 mgd 4.80 4 1 0.90 92 721 Old North Ut. FBragg Demand_50-26-019 mgd 4.80 4 30 0.90 121 721 Old North Ut. FBragg Demand_50-26-019 mgd 4.80 5 1 1.05 122 721 Old North Ut. FBragg Demand_50-26-019 mgd 4.80 5 31 1.05 152 721 Old North Ut. FBragg Demand_50-26-019 mgd 4.80 6 1 1.17 153 721 Old North Ut. FBragg Demand_50-26-019 mgd 4.80 6 30 1.17 182 721 Old North Ut. FBragg Demand_50-26-019 mgd 4.80 7 1 1.14 183 721 Old North Ut. FBragg Demand_50-26-019 mgd 4.80 7 31 1.14 213 721 Old North Ut. FBragg Demand_50-26-019 mgd 4.80 8 1 1.14 214 721 Old North Ut. FBragg Demand_50-26-019 mgd 4.80 8 31 1.14 244 721 Old North Ut. FBragg Demand_50-26-019 mgd 4.80 9 1 1.05 245 721 Old North Ut. FBragg Demand_50-26-019 mgd 4.80 9 30 1.05 274 721 Old North Ut. FBragg Demand_50-26-019 mgd 4.80 10 1 0.98 275 721 Old North Ut. FBragg Demand_50-26-019 mgd 4.80 10 31 0.98 305 721 Old North Ut. FBragg Demand_50-26-019 mgd 4.80 11 1 0.94 306 721 Old North Ut. FBragg Demand_50-26-019 mgd 4.80 11 30 0.94 335 721 Old North Ut. FBragg Demand_50-26-019 mgd 4.80 12 1 0.88 336 721 Old North Ut. FBragg Demand_50-26-019 mgd 4.80 12 31 0.88 366 733 FayettevillePWC Demand_03-26-010 MGD 28.50 1 1 0.85 1 733 FayettevillePWC Demand_03-26-010 MGD 28.50 1 31 0.85 31 58 Node No. Name Units Factor Month Day Demand julSort 733 FayettevillePWC Demand_03-26-010 MGD 28.50 2 1 0.85 32 733 FayettevillePWC Demand_03-26-010 MGD 28.50 2 29 0.85 60 733 FayettevillePWC Demand_03-26-010 MGD 28.50 3 1 0.90 61 733 FayettevillePWC Demand_03-26-010 MGD 28.50 3 31 0.90 91 733 FayettevillePWC Demand_03-26-010 MGD 28.50 4 1 0.98 92 733 FayettevillePWC Demand_03-26-010 MGD 28.50 4 30 0.98 121 733 FayettevillePWC Demand_03-26-010 MGD 28.50 5 1 1.07 122 733 FayettevillePWC Demand_03-26-010 MGD 28.50 5 31 1.07 152 733 FayettevillePWC Demand_03-26-010 MGD 28.50 6 1 1.23 153 733 FayettevillePWC Demand_03-26-010 MGD 28.50 6 30 1.23 182 733 FayettevillePWC Demand_03-26-010 MGD 28.50 7 1 1.17 183 733 FayettevillePWC Demand_03-26-010 MGD 28.50 7 31 1.17 213 733 FayettevillePWC Demand_03-26-010 MGD 28.50 8 1 1.16 214 733 FayettevillePWC Demand_03-26-010 MGD 28.50 8 31 1.16 244 733 FayettevillePWC Demand_03-26-010 MGD 28.50 9 1 1.08 245 733 FayettevillePWC Demand_03-26-010 MGD 28.50 9 30 1.08 274 733 FayettevillePWC Demand_03-26-010 MGD 28.50 10 1 0.95 275 733 FayettevillePWC Demand_03-26-010 MGD 28.50 10 31 0.95 305 733 FayettevillePWC Demand_03-26-010 MGD 28.50 11 1 0.90 306 733 FayettevillePWC Demand_03-26-010 MGD 28.50 11 30 0.90 335 733 FayettevillePWC Demand_03-26-010 MGD 28.50 12 1 0.87 336 733 FayettevillePWC Demand_03-26-010 MGD 28.50 12 31 0.87 366 771 Monsanto water supply mgd 0.00 1 1 1.94 1 771 Monsanto water supply mgd 0.00 1 31 1.94 31 771 Monsanto water supply mgd 0.00 2 1 2.15 32 771 Monsanto water supply mgd 0.00 2 29 2.15 60 771 Monsanto water supply mgd 0.00 3 1 1.94 61 771 Monsanto water supply mgd 0.00 3 31 1.94 91 771 Monsanto water supply mgd 0.00 4 1 2.01 92 771 Monsanto water supply mgd 0.00 4 30 2.01 121 771 Monsanto water supply mgd 0.00 5 1 1.94 122 771 Monsanto water supply mgd 0.00 5 31 1.94 152 771 Monsanto water supply mgd 0.00 6 1 2.01 153 771 Monsanto water supply mgd 0.00 6 30 2.01 182 771 Monsanto water supply mgd 0.00 7 1 0.00 183 771 Monsanto water supply mgd 0.00 7 31 0.00 213 771 Monsanto water supply mgd 0.00 8 1 0.00 214 771 Monsanto water supply mgd 0.00 8 31 0.00 244 771 Monsanto water supply mgd 0.00 9 1 0.00 245 771 Monsanto water supply mgd 0.00 9 30 0.00 274 771 Monsanto water supply mgd 0.00 10 1 0.00 275 771 Monsanto water supply mgd 0.00 10 31 0.00 305 771 Monsanto water supply mgd 0.00 11 1 0.00 306 771 Monsanto water supply mgd 0.00 11 30 0.00 335 771 Monsanto water supply mgd 0.00 12 1 0.00 336 771 Monsanto water supply mgd 0.00 12 31 0.00 366 781 Dupont WS mgd 11.17 1 1 0.73 1 781 Dupont WS mgd 11.17 1 31 0.73 31 781 Dupont WS mgd 11.17 2 1 0.76 32 781 Dupont WS mgd 11.17 2 29 0.76 60 781 Dupont WS mgd 11.17 3 1 0.78 61 781 Dupont WS mgd 11.17 3 31 0.78 91 781 Dupont WS mgd 11.17 4 1 0.91 92 781 Dupont WS mgd 11.17 4 30 0.91 121 781 Dupont WS mgd 11.17 5 1 1.12 122 59 Node No. Name Units Factor Month Day Demand julSort 781 Dupont WS mgd 11.17 5 31 1.12 152 781 Dupont WS mgd 11.17 6 1 1.32 153 781 Dupont WS mgd 11.17 6 30 1.32 182 781 Dupont WS mgd 11.17 7 1 1.51 183 781 Dupont WS mgd 11.17 7 31 1.51 213 781 Dupont WS mgd 11.17 8 1 1.46 214 781 Dupont WS mgd 11.17 8 31 1.46 244 781 Dupont WS mgd 11.17 9 1 0.99 245 781 Dupont WS mgd 11.17 9 30 0.99 274 781 Dupont WS mgd 11.17 10 1 0.88 275 781 Dupont WS mgd 11.17 10 31 0.88 305 781 Dupont WS mgd 11.17 11 1 0.80 306 781 Dupont WS mgd 11.17 11 30 0.80 335 781 Dupont WS mgd 11.17 12 1 0.76 336 781 Dupont WS mgd 11.17 12 31 0.76 366 785 LCFWSA_BladenBluff Demand_50-09-012 mgd 2.25 1 1 1.00 1 785 LCFWSA_BladenBluff Demand_50-09-012 mgd 2.25 1 31 1.00 31 785 LCFWSA_BladenBluff Demand_50-09-012 mgd 2.25 2 1 1.00 32 785 LCFWSA_BladenBluff Demand_50-09-012 mgd 2.25 2 29 1.00 60 785 LCFWSA_BladenBluff Demand_50-09-012 mgd 2.25 3 1 1.00 61 785 LCFWSA_BladenBluff Demand_50-09-012 mgd 2.25 3 31 1.00 91 785 LCFWSA_BladenBluff Demand_50-09-012 mgd 2.25 4 1 1.00 92 785 LCFWSA_BladenBluff Demand_50-09-012 mgd 2.25 4 30 1.00 121 785 LCFWSA_BladenBluff Demand_50-09-012 mgd 2.25 5 1 1.00 122 785 LCFWSA_BladenBluff Demand_50-09-012 mgd 2.25 5 31 1.00 152 785 LCFWSA_BladenBluff Demand_50-09-012 mgd 2.25 6 1 1.00 153 785 LCFWSA_BladenBluff Demand_50-09-012 mgd 2.25 6 30 1.00 182 785 LCFWSA_BladenBluff Demand_50-09-012 mgd 2.25 7 1 1.00 183 785 LCFWSA_BladenBluff Demand_50-09-012 mgd 2.25 7 31 1.00 213 785 LCFWSA_BladenBluff Demand_50-09-012 mgd 2.25 8 1 1.00 214 785 LCFWSA_BladenBluff Demand_50-09-012 mgd 2.25 8 31 1.00 244 785 LCFWSA_BladenBluff Demand_50-09-012 mgd 2.25 9 1 1.00 245 785 LCFWSA_BladenBluff Demand_50-09-012 mgd 2.25 9 30 1.00 274 785 LCFWSA_BladenBluff Demand_50-09-012 mgd 2.25 10 1 1.00 275 785 LCFWSA_BladenBluff Demand_50-09-012 mgd 2.25 10 31 1.00 305 785 LCFWSA_BladenBluff Demand_50-09-012 mgd 2.25 11 1 1.00 306 785 LCFWSA_BladenBluff Demand_50-09-012 mgd 2.25 11 30 1.00 335 785 LCFWSA_BladenBluff Demand_50-09-012 mgd 2.25 12 1 1.00 336 785 LCFWSA_BladenBluff Demand_50-09-012 mgd 2.25 12 31 1.00 366 823 Cape Fear PUA-Wilmington Demand_04-65-010 mgd 4.67 1 1 0.85 1 823 Cape Fear PUA-Wilmington Demand_04-65-010 mgd 4.67 1 31 0.85 31 823 Cape Fear PUA-Wilmington Demand_04-65-010 mgd 4.67 2 1 0.86 32 823 Cape Fear PUA-Wilmington Demand_04-65-010 mgd 4.67 2 29 0.86 60 823 Cape Fear PUA-Wilmington Demand_04-65-010 mgd 4.67 3 1 0.89 61 823 Cape Fear PUA-Wilmington Demand_04-65-010 mgd 4.67 3 31 0.89 91 823 Cape Fear PUA-Wilmington Demand_04-65-010 mgd 4.67 4 1 0.98 92 823 Cape Fear PUA-Wilmington Demand_04-65-010 mgd 4.67 4 30 0.98 121 823 Cape Fear PUA-Wilmington Demand_04-65-010 mgd 4.67 5 1 1.11 122 823 Cape Fear PUA-Wilmington Demand_04-65-010 mgd 4.67 5 31 1.11 152 823 Cape Fear PUA-Wilmington Demand_04-65-010 mgd 4.67 6 1 1.20 153 823 Cape Fear PUA-Wilmington Demand_04-65-010 mgd 4.67 6 30 1.20 182 823 Cape Fear PUA-Wilmington Demand_04-65-010 mgd 4.67 7 1 1.17 183 823 Cape Fear PUA-Wilmington Demand_04-65-010 mgd 4.67 7 31 1.17 213 823 Cape Fear PUA-Wilmington Demand_04-65-010 mgd 4.67 8 1 1.13 214 823 Cape Fear PUA-Wilmington Demand_04-65-010 mgd 4.67 8 31 1.13 244 60 Node No. Name Units Factor Month Day Demand julSort 823 Cape Fear PUA-Wilmington Demand_04-65-010 mgd 4.67 9 1 1.07 245 823 Cape Fear PUA-Wilmington Demand_04-65-010 mgd 4.67 9 30 1.07 274 823 Cape Fear PUA-Wilmington Demand_04-65-010 mgd 4.67 10 1 0.97 275 823 Cape Fear PUA-Wilmington Demand_04-65-010 mgd 4.67 10 31 0.97 305 823 Cape Fear PUA-Wilmington Demand_04-65-010 mgd 4.67 11 1 0.89 306 823 Cape Fear PUA-Wilmington Demand_04-65-010 mgd 4.67 11 30 0.89 335 823 Cape Fear PUA-Wilmington Demand_04-65-010 mgd 4.67 12 1 0.87 336 823 Cape Fear PUA-Wilmington Demand_04-65-010 mgd 4.67 12 31 0.87 366 825 LCFWSA_KingsBluff Demand_50-09-013 MGD 25.54 1 1 0.90 1 825 LCFWSA_KingsBluff Demand_50-09-013 MGD 25.54 1 31 0.90 31 825 LCFWSA_KingsBluff Demand_50-09-013 MGD 25.54 2 1 0.85 32 825 LCFWSA_KingsBluff Demand_50-09-013 MGD 25.54 2 29 0.85 60 825 LCFWSA_KingsBluff Demand_50-09-013 MGD 25.54 3 1 0.92 61 825 LCFWSA_KingsBluff Demand_50-09-013 MGD 25.54 3 31 0.92 91 825 LCFWSA_KingsBluff Demand_50-09-013 MGD 25.54 4 1 1.09 92 825 LCFWSA_KingsBluff Demand_50-09-013 MGD 25.54 4 30 1.09 121 825 LCFWSA_KingsBluff Demand_50-09-013 MGD 25.54 5 1 1.14 122 825 LCFWSA_KingsBluff Demand_50-09-013 MGD 25.54 5 31 1.14 152 825 LCFWSA_KingsBluff Demand_50-09-013 MGD 25.54 6 1 1.11 153 825 LCFWSA_KingsBluff Demand_50-09-013 MGD 25.54 6 30 1.11 182 825 LCFWSA_KingsBluff Demand_50-09-013 MGD 25.54 7 1 1.32 183 825 LCFWSA_KingsBluff Demand_50-09-013 MGD 25.54 7 31 1.32 213 825 LCFWSA_KingsBluff Demand_50-09-013 MGD 25.54 8 1 1.00 214 825 LCFWSA_KingsBluff Demand_50-09-013 MGD 25.54 8 31 1.00 244 825 LCFWSA_KingsBluff Demand_50-09-013 MGD 25.54 9 1 0.86 245 825 LCFWSA_KingsBluff Demand_50-09-013 MGD 25.54 9 30 0.86 274 825 LCFWSA_KingsBluff Demand_50-09-013 MGD 25.54 10 1 0.76 275 825 LCFWSA_KingsBluff Demand_50-09-013 MGD 25.54 10 31 0.76 305 825 LCFWSA_KingsBluff Demand_50-09-013 MGD 25.54 11 1 0.96 306 825 LCFWSA_KingsBluff Demand_50-09-013 MGD 25.54 11 30 0.96 335 825 LCFWSA_KingsBluff Demand_50-09-013 MGD 25.54 12 1 0.90 336 825 LCFWSA_KingsBluff Demand_50-09-013 MGD 25.54 12 31 0.90 366 903 Jamestown Demand_02-41-030 mgd 0.45 1 1 0.90 1 903 Jamestown Demand_02-41-030 mgd 0.45 1 31 0.90 31 903 Jamestown Demand_02-41-030 mgd 0.45 2 1 0.96 32 903 Jamestown Demand_02-41-030 mgd 0.45 2 29 0.96 60 903 Jamestown Demand_02-41-030 mgd 0.45 3 1 0.92 61 903 Jamestown Demand_02-41-030 mgd 0.45 3 31 0.92 91 903 Jamestown Demand_02-41-030 mgd 0.45 4 1 1.04 92 903 Jamestown Demand_02-41-030 mgd 0.45 4 30 1.04 121 903 Jamestown Demand_02-41-030 mgd 0.45 5 1 1.05 122 903 Jamestown Demand_02-41-030 mgd 0.45 5 31 1.05 152 903 Jamestown Demand_02-41-030 mgd 0.45 6 1 1.18 153 903 Jamestown Demand_02-41-030 mgd 0.45 6 30 1.18 182 903 Jamestown Demand_02-41-030 mgd 0.45 7 1 1.17 183 903 Jamestown Demand_02-41-030 mgd 0.45 7 31 1.17 213 903 Jamestown Demand_02-41-030 mgd 0.45 8 1 1.15 214 903 Jamestown Demand_02-41-030 mgd 0.45 8 31 1.15 244 903 Jamestown Demand_02-41-030 mgd 0.45 9 1 1.09 245 903 Jamestown Demand_02-41-030 mgd 0.45 9 30 1.09 274 903 Jamestown Demand_02-41-030 mgd 0.45 10 1 0.91 275 903 Jamestown Demand_02-41-030 mgd 0.45 10 31 0.91 305 903 Jamestown Demand_02-41-030 mgd 0.45 11 1 0.84 306 903 Jamestown Demand_02-41-030 mgd 0.45 11 30 0.84 335 903 Jamestown Demand_02-41-030 mgd 0.45 12 1 0.79 336 61 Node No. Name Units Factor Month Day Demand julSort 903 Jamestown Demand_02-41-030 mgd 0.45 12 31 0.79 366 904 Archdale Demand Randleman_02-76-030 mgd 0.70 1 1 0.97 1 904 Archdale Demand Randleman_02-76-030 mgd 0.70 1 31 0.97 31 904 Archdale Demand Randleman_02-76-030 mgd 0.70 2 1 1.00 32 904 Archdale Demand Randleman_02-76-030 mgd 0.70 2 29 1.00 60 904 Archdale Demand Randleman_02-76-030 mgd 0.70 3 1 0.97 61 904 Archdale Demand Randleman_02-76-030 mgd 0.70 3 31 0.97 91 904 Archdale Demand Randleman_02-76-030 mgd 0.70 4 1 0.95 92 904 Archdale Demand Randleman_02-76-030 mgd 0.70 4 30 0.95 121 904 Archdale Demand Randleman_02-76-030 mgd 0.70 5 1 1.00 122 904 Archdale Demand Randleman_02-76-030 mgd 0.70 5 31 1.00 152 904 Archdale Demand Randleman_02-76-030 mgd 0.70 6 1 1.07 153 904 Archdale Demand Randleman_02-76-030 mgd 0.70 6 30 1.07 182 904 Archdale Demand Randleman_02-76-030 mgd 0.70 7 1 1.01 183 904 Archdale Demand Randleman_02-76-030 mgd 0.70 7 31 1.01 213 904 Archdale Demand Randleman_02-76-030 mgd 0.70 8 1 1.06 214 904 Archdale Demand Randleman_02-76-030 mgd 0.70 8 31 1.06 244 904 Archdale Demand Randleman_02-76-030 mgd 0.70 9 1 0.93 245 904 Archdale Demand Randleman_02-76-030 mgd 0.70 9 30 0.93 274 904 Archdale Demand Randleman_02-76-030 mgd 0.70 10 1 1.10 275 904 Archdale Demand Randleman_02-76-030 mgd 0.70 10 31 1.10 305 904 Archdale Demand Randleman_02-76-030 mgd 0.70 11 1 0.98 306 904 Archdale Demand Randleman_02-76-030 mgd 0.70 11 30 0.98 335 904 Archdale Demand Randleman_02-76-030 mgd 0.70 12 1 0.96 336 904 Archdale Demand Randleman_02-76-030 mgd 0.70 12 31 0.96 366 906 Randolph Co Demand Randleman mgd 1.25 1 1 1.00 1 906 Randolph Co Demand Randleman mgd 1.25 1 31 1.00 31 906 Randolph Co Demand Randleman mgd 1.25 2 1 1.00 32 906 Randolph Co Demand Randleman mgd 1.25 2 29 1.00 60 906 Randolph Co Demand Randleman mgd 1.25 3 1 1.00 61 906 Randolph Co Demand Randleman mgd 1.25 3 31 1.00 91 906 Randolph Co Demand Randleman mgd 1.25 4 1 1.00 92 906 Randolph Co Demand Randleman mgd 1.25 4 30 1.00 121 906 Randolph Co Demand Randleman mgd 1.25 5 1 1.00 122 906 Randolph Co Demand Randleman mgd 1.25 5 31 1.00 152 906 Randolph Co Demand Randleman mgd 1.25 6 1 1.00 153 906 Randolph Co Demand Randleman mgd 1.25 6 30 1.00 182 906 Randolph Co Demand Randleman mgd 1.25 7 1 1.00 183 906 Randolph Co Demand Randleman mgd 1.25 7 31 1.00 213 906 Randolph Co Demand Randleman mgd 1.25 8 1 1.00 214 906 Randolph Co Demand Randleman mgd 1.25 8 31 1.00 244 906 Randolph Co Demand Randleman mgd 1.25 9 1 1.00 245 906 Randolph Co Demand Randleman mgd 1.25 9 30 1.00 274 906 Randolph Co Demand Randleman mgd 1.25 10 1 1.00 275 906 Randolph Co Demand Randleman mgd 1.25 10 31 1.00 305 906 Randolph Co Demand Randleman mgd 1.25 11 1 1.00 306 906 Randolph Co Demand Randleman mgd 1.25 11 30 1.00 335 906 Randolph Co Demand Randleman mgd 1.25 12 1 1.00 336 906 Randolph Co Demand Randleman mgd 1.25 12 31 1.00 366 921 Orange Co Demand Jordan mgd 0.00 1 1 0.96 1 921 Orange Co Demand Jordan mgd 0.00 1 31 0.96 31 921 Orange Co Demand Jordan mgd 0.00 2 1 0.94 32 921 Orange Co Demand Jordan mgd 0.00 2 29 0.94 60 921 Orange Co Demand Jordan mgd 0.00 3 1 0.94 61 921 Orange Co Demand Jordan mgd 0.00 3 31 0.94 91 62 Node No. Name Units Factor Month Day Demand julSort 921 Orange Co Demand Jordan mgd 0.00 4 1 0.95 92 921 Orange Co Demand Jordan mgd 0.00 4 30 0.95 121 921 Orange Co Demand Jordan mgd 0.00 5 1 1.01 122 921 Orange Co Demand Jordan mgd 0.00 5 31 1.01 152 921 Orange Co Demand Jordan mgd 0.00 6 1 1.05 153 921 Orange Co Demand Jordan mgd 0.00 6 30 1.05 182 921 Orange Co Demand Jordan mgd 0.00 7 1 1.07 183 921 Orange Co Demand Jordan mgd 0.00 7 31 1.07 213 921 Orange Co Demand Jordan mgd 0.00 8 1 1.08 214 921 Orange Co Demand Jordan mgd 0.00 8 31 1.08 244 921 Orange Co Demand Jordan mgd 0.00 9 1 1.06 245 921 Orange Co Demand Jordan mgd 0.00 9 30 1.06 274 921 Orange Co Demand Jordan mgd 0.00 10 1 1.00 275 921 Orange Co Demand Jordan mgd 0.00 10 31 1.00 305 921 Orange Co Demand Jordan mgd 0.00 11 1 0.96 306 921 Orange Co Demand Jordan mgd 0.00 11 30 0.96 335 921 Orange Co Demand Jordan mgd 0.00 12 1 0.96 336 921 Orange Co Demand Jordan mgd 0.00 12 31 0.96 366 923 Holly Springs Demand_03-92-050 MGD 1.78 1 1 0.78 1 923 Holly Springs Demand_03-92-050 MGD 1.78 1 31 0.78 31 923 Holly Springs Demand_03-92-050 MGD 1.78 2 1 0.74 32 923 Holly Springs Demand_03-92-050 MGD 1.78 2 29 0.74 60 923 Holly Springs Demand_03-92-050 MGD 1.78 3 1 0.80 61 923 Holly Springs Demand_03-92-050 MGD 1.78 3 31 0.80 91 923 Holly Springs Demand_03-92-050 MGD 1.78 4 1 0.94 92 923 Holly Springs Demand_03-92-050 MGD 1.78 4 30 0.94 121 923 Holly Springs Demand_03-92-050 MGD 1.78 5 1 1.08 122 923 Holly Springs Demand_03-92-050 MGD 1.78 5 31 1.08 152 923 Holly Springs Demand_03-92-050 MGD 1.78 6 1 1.22 153 923 Holly Springs Demand_03-92-050 MGD 1.78 6 30 1.22 182 923 Holly Springs Demand_03-92-050 MGD 1.78 7 1 1.22 183 923 Holly Springs Demand_03-92-050 MGD 1.78 7 31 1.22 213 923 Holly Springs Demand_03-92-050 MGD 1.78 8 1 1.20 214 923 Holly Springs Demand_03-92-050 MGD 1.78 8 31 1.20 244 923 Holly Springs Demand_03-92-050 MGD 1.78 9 1 1.13 245 923 Holly Springs Demand_03-92-050 MGD 1.78 9 30 1.13 274 923 Holly Springs Demand_03-92-050 MGD 1.78 10 1 1.10 275 923 Holly Springs Demand_03-92-050 MGD 1.78 10 31 1.10 305 923 Holly Springs Demand_03-92-050 MGD 1.78 11 1 0.92 306 923 Holly Springs Demand_03-92-050 MGD 1.78 11 30 0.92 335 923 Holly Springs Demand_03-92-050 MGD 1.78 12 1 0.84 336 923 Holly Springs Demand_03-92-050 MGD 1.78 12 31 0.84 366 1046 Orange_Alamance Demand_03-68-020 MGD 0.18 1 1 0.95 1 1046 Orange_Alamance Demand_03-68-020 MGD 0.18 1 31 0.95 31 1046 Orange_Alamance Demand_03-68-020 MGD 0.18 2 1 0.93 32 1046 Orange_Alamance Demand_03-68-020 MGD 0.18 2 29 0.93 60 1046 Orange_Alamance Demand_03-68-020 MGD 0.18 3 1 0.91 61 1046 Orange_Alamance Demand_03-68-020 MGD 0.18 3 31 0.91 91 1046 Orange_Alamance Demand_03-68-020 MGD 0.18 4 1 0.98 92 1046 Orange_Alamance Demand_03-68-020 MGD 0.18 4 30 0.98 121 1046 Orange_Alamance Demand_03-68-020 MGD 0.18 5 1 1.03 122 1046 Orange_Alamance Demand_03-68-020 MGD 0.18 5 31 1.03 152 1046 Orange_Alamance Demand_03-68-020 MGD 0.18 6 1 1.06 153 1046 Orange_Alamance Demand_03-68-020 MGD 0.18 6 30 1.06 182 1046 Orange_Alamance Demand_03-68-020 MGD 0.18 7 1 1.08 183 63 Node No. Name Units Factor Month Day Demand julSort 1046 Orange_Alamance Demand_03-68-020 MGD 0.18 7 31 1.08 213 1046 Orange_Alamance Demand_03-68-020 MGD 0.18 8 1 1.09 214 1046 Orange_Alamance Demand_03-68-020 MGD 0.18 8 31 1.09 244 1046 Orange_Alamance Demand_03-68-020 MGD 0.18 9 1 1.05 245 1046 Orange_Alamance Demand_03-68-020 MGD 0.18 9 30 1.05 274 1046 Orange_Alamance Demand_03-68-020 MGD 0.18 10 1 1.01 275 1046 Orange_Alamance Demand_03-68-020 MGD 0.18 10 31 1.01 305 1046 Orange_Alamance Demand_03-68-020 MGD 0.18 11 1 0.97 306 1046 Orange_Alamance Demand_03-68-020 MGD 0.18 11 30 0.97 335 1046 Orange_Alamance Demand_03-68-020 MGD 0.18 12 1 0.96 336 1046 Orange_Alamance Demand_03-68-020 MGD 0.18 12 31 0.96 366 1106 Hillsborough Demand_03-68-015 MGD 1.16 1 1 0.97 1 1106 Hillsborough Demand_03-68-015 MGD 1.16 1 31 0.97 31 1106 Hillsborough Demand_03-68-015 MGD 1.16 2 1 0.94 32 1106 Hillsborough Demand_03-68-015 MGD 1.16 2 29 0.94 60 1106 Hillsborough Demand_03-68-015 MGD 1.16 3 1 0.96 61 1106 Hillsborough Demand_03-68-015 MGD 1.16 3 31 0.96 91 1106 Hillsborough Demand_03-68-015 MGD 1.16 4 1 0.95 92 1106 Hillsborough Demand_03-68-015 MGD 1.16 4 30 0.95 121 1106 Hillsborough Demand_03-68-015 MGD 1.16 5 1 1.00 122 1106 Hillsborough Demand_03-68-015 MGD 1.16 5 31 1.00 152 1106 Hillsborough Demand_03-68-015 MGD 1.16 6 1 1.02 153 1106 Hillsborough Demand_03-68-015 MGD 1.16 6 30 1.02 182 1106 Hillsborough Demand_03-68-015 MGD 1.16 7 1 1.05 183 1106 Hillsborough Demand_03-68-015 MGD 1.16 7 31 1.05 213 1106 Hillsborough Demand_03-68-015 MGD 1.16 8 1 1.07 214 1106 Hillsborough Demand_03-68-015 MGD 1.16 8 31 1.07 244 1106 Hillsborough Demand_03-68-015 MGD 1.16 9 1 1.05 245 1106 Hillsborough Demand_03-68-015 MGD 1.16 9 30 1.05 274 1106 Hillsborough Demand_03-68-015 MGD 1.16 10 1 1.00 275 1106 Hillsborough Demand_03-68-015 MGD 1.16 10 31 1.00 305 1106 Hillsborough Demand_03-68-015 MGD 1.16 11 1 0.97 306 1106 Hillsborough Demand_03-68-015 MGD 1.16 11 30 0.97 335 1106 Hillsborough Demand_03-68-015 MGD 1.16 12 1 0.97 336 1106 Hillsborough Demand_03-68-015 MGD 1.16 12 31 0.97 366 1116 Piedmont Minerals Demand mgd 0.00 1 1 1.00 1 1116 Piedmont Minerals Demand mgd 0.00 1 31 1.00 31 1116 Piedmont Minerals Demand mgd 0.00 2 1 1.00 32 1116 Piedmont Minerals Demand mgd 0.00 2 29 1.00 60 1116 Piedmont Minerals Demand mgd 0.00 3 1 1.00 61 1116 Piedmont Minerals Demand mgd 0.00 3 31 1.00 91 1116 Piedmont Minerals Demand mgd 0.00 4 1 1.00 92 1116 Piedmont Minerals Demand mgd 0.00 4 30 1.00 121 1116 Piedmont Minerals Demand mgd 0.00 5 1 1.00 122 1116 Piedmont Minerals Demand mgd 0.00 5 31 1.00 152 1116 Piedmont Minerals Demand mgd 0.00 6 1 1.00 153 1116 Piedmont Minerals Demand mgd 0.00 6 30 1.00 182 1116 Piedmont Minerals Demand mgd 0.00 7 1 1.00 183 1116 Piedmont Minerals Demand mgd 0.00 7 31 1.00 213 1116 Piedmont Minerals Demand mgd 0.00 8 1 1.00 214 1116 Piedmont Minerals Demand mgd 0.00 8 31 1.00 244 1116 Piedmont Minerals Demand mgd 0.00 9 1 1.00 245 1116 Piedmont Minerals Demand mgd 0.00 9 30 1.00 274 1116 Piedmont Minerals Demand mgd 0.00 10 1 1.00 275 1116 Piedmont Minerals Demand mgd 0.00 10 31 1.00 305 64 Node No. Name Units Factor Month Day Demand julSort 1116 Piedmont Minerals Demand mgd 0.00 11 1 1.00 306 1116 Piedmont Minerals Demand mgd 0.00 11 30 1.00 335 1116 Piedmont Minerals Demand mgd 0.00 12 1 1.00 336 1116 Piedmont Minerals Demand mgd 0.00 12 31 1.00 366 1162 Durham Service Area Demand MGD 28.23 1 1 0.83 1 1162 Durham Service Area Demand MGD 28.23 1 31 0.83 31 1162 Durham Service Area Demand MGD 28.23 2 1 0.85 32 1162 Durham Service Area Demand MGD 28.23 2 29 0.85 60 1162 Durham Service Area Demand MGD 28.23 3 1 0.90 61 1162 Durham Service Area Demand MGD 28.23 3 31 0.90 91 1162 Durham Service Area Demand MGD 28.23 4 1 0.97 92 1162 Durham Service Area Demand MGD 28.23 4 30 0.97 121 1162 Durham Service Area Demand MGD 28.23 5 1 1.03 122 1162 Durham Service Area Demand MGD 28.23 5 31 1.03 152 1162 Durham Service Area Demand MGD 28.23 6 1 1.16 153 1162 Durham Service Area Demand MGD 28.23 6 30 1.16 182 1162 Durham Service Area Demand MGD 28.23 7 1 1.17 183 1162 Durham Service Area Demand MGD 28.23 7 31 1.17 213 1162 Durham Service Area Demand MGD 28.23 8 1 1.18 214 1162 Durham Service Area Demand MGD 28.23 8 31 1.18 244 1162 Durham Service Area Demand MGD 28.23 9 1 1.12 245 1162 Durham Service Area Demand MGD 28.23 9 30 1.12 274 1162 Durham Service Area Demand MGD 28.23 10 1 1.01 275 1162 Durham Service Area Demand MGD 28.23 10 31 1.01 305 1162 Durham Service Area Demand MGD 28.23 11 1 0.90 306 1162 Durham Service Area Demand MGD 28.23 11 30 0.90 335 1162 Durham Service Area Demand MGD 28.23 12 1 0.85 336 1162 Durham Service Area Demand MGD 28.23 12 31 0.85 366 1256 SGWASA Demand_02-39-107 MGD 2.99 1 1 0.91 1 1256 SGWASA Demand_02-39-107 MGD 2.99 1 31 0.91 31 1256 SGWASA Demand_02-39-107 MGD 2.99 2 1 0.89 32 1256 SGWASA Demand_02-39-107 MGD 2.99 2 29 0.89 60 1256 SGWASA Demand_02-39-107 MGD 2.99 3 1 0.96 61 1256 SGWASA Demand_02-39-107 MGD 2.99 3 31 0.96 91 1256 SGWASA Demand_02-39-107 MGD 2.99 4 1 1.04 92 1256 SGWASA Demand_02-39-107 MGD 2.99 4 30 1.04 121 1256 SGWASA Demand_02-39-107 MGD 2.99 5 1 1.01 122 1256 SGWASA Demand_02-39-107 MGD 2.99 5 31 1.01 152 1256 SGWASA Demand_02-39-107 MGD 2.99 6 1 1.07 153 1256 SGWASA Demand_02-39-107 MGD 2.99 6 30 1.07 182 1256 SGWASA Demand_02-39-107 MGD 2.99 7 1 1.10 183 1256 SGWASA Demand_02-39-107 MGD 2.99 7 31 1.10 213 1256 SGWASA Demand_02-39-107 MGD 2.99 8 1 1.11 214 1256 SGWASA Demand_02-39-107 MGD 2.99 8 31 1.11 244 1256 SGWASA Demand_02-39-107 MGD 2.99 9 1 1.06 245 1256 SGWASA Demand_02-39-107 MGD 2.99 9 30 1.06 274 1256 SGWASA Demand_02-39-107 MGD 2.99 10 1 1.04 275 1256 SGWASA Demand_02-39-107 MGD 2.99 10 31 1.04 305 1256 SGWASA Demand_02-39-107 MGD 2.99 11 1 0.94 306 1256 SGWASA Demand_02-39-107 MGD 2.99 11 30 0.94 335 1256 SGWASA Demand_02-39-107 MGD 2.99 12 1 0.88 336 1256 SGWASA Demand_02-39-107 MGD 2.99 12 31 0.88 366 1258 Creedmor Demand_02-39-015 MGD 0.32 1 1 0.99 1 1258 Creedmor Demand_02-39-015 MGD 0.32 1 31 0.99 31 1258 Creedmor Demand_02-39-015 MGD 0.32 2 1 0.92 32 65 Node No. Name Units Factor Month Day Demand julSort 1258 Creedmor Demand_02-39-015 MGD 0.32 2 29 0.92 60 1258 Creedmor Demand_02-39-015 MGD 0.32 3 1 0.96 61 1258 Creedmor Demand_02-39-015 MGD 0.32 3 31 0.96 91 1258 Creedmor Demand_02-39-015 MGD 0.32 4 1 1.08 92 1258 Creedmor Demand_02-39-015 MGD 0.32 4 30 1.08 121 1258 Creedmor Demand_02-39-015 MGD 0.32 5 1 1.03 122 1258 Creedmor Demand_02-39-015 MGD 0.32 5 31 1.03 152 1258 Creedmor Demand_02-39-015 MGD 0.32 6 1 1.06 153 1258 Creedmor Demand_02-39-015 MGD 0.32 6 30 1.06 182 1258 Creedmor Demand_02-39-015 MGD 0.32 7 1 1.05 183 1258 Creedmor Demand_02-39-015 MGD 0.32 7 31 1.05 213 1258 Creedmor Demand_02-39-015 MGD 0.32 8 1 1.07 214 1258 Creedmor Demand_02-39-015 MGD 0.32 8 31 1.07 244 1258 Creedmor Demand_02-39-015 MGD 0.32 9 1 1.04 245 1258 Creedmor Demand_02-39-015 MGD 0.32 9 30 1.04 274 1258 Creedmor Demand_02-39-015 MGD 0.32 10 1 0.90 275 1258 Creedmor Demand_02-39-015 MGD 0.32 10 31 0.90 305 1258 Creedmor Demand_02-39-015 MGD 0.32 11 1 0.93 306 1258 Creedmor Demand_02-39-015 MGD 0.32 11 30 0.93 335 1258 Creedmor Demand_02-39-015 MGD 0.32 12 1 0.98 336 1258 Creedmor Demand_02-39-015 MGD 0.32 12 31 0.98 366 1306 Raleigh Demand_03-92-010 MGD 52.00 1 1 0.86 1 1306 Raleigh Demand_03-92-010 MGD 52.00 1 31 0.86 31 1306 Raleigh Demand_03-92-010 MGD 52.00 2 1 0.87 32 1306 Raleigh Demand_03-92-010 MGD 52.00 2 29 0.87 60 1306 Raleigh Demand_03-92-010 MGD 52.00 3 1 0.88 61 1306 Raleigh Demand_03-92-010 MGD 52.00 3 31 0.88 91 1306 Raleigh Demand_03-92-010 MGD 52.00 4 1 0.94 92 1306 Raleigh Demand_03-92-010 MGD 52.00 4 30 0.94 121 1306 Raleigh Demand_03-92-010 MGD 52.00 5 1 1.04 122 1306 Raleigh Demand_03-92-010 MGD 52.00 5 31 1.04 152 1306 Raleigh Demand_03-92-010 MGD 52.00 6 1 1.15 153 1306 Raleigh Demand_03-92-010 MGD 52.00 6 30 1.15 182 1306 Raleigh Demand_03-92-010 MGD 52.00 7 1 1.18 183 1306 Raleigh Demand_03-92-010 MGD 52.00 7 31 1.18 213 1306 Raleigh Demand_03-92-010 MGD 52.00 8 1 1.16 214 1306 Raleigh Demand_03-92-010 MGD 52.00 8 31 1.16 244 1306 Raleigh Demand_03-92-010 MGD 52.00 9 1 1.11 245 1306 Raleigh Demand_03-92-010 MGD 52.00 9 30 1.11 274 1306 Raleigh Demand_03-92-010 MGD 52.00 10 1 1.01 275 1306 Raleigh Demand_03-92-010 MGD 52.00 10 31 1.01 305 1306 Raleigh Demand_03-92-010 MGD 52.00 11 1 0.90 306 1306 Raleigh Demand_03-92-010 MGD 52.00 11 30 0.90 335 1306 Raleigh Demand_03-92-010 MGD 52.00 12 1 0.89 336 1306 Raleigh Demand_03-92-010 MGD 52.00 12 31 0.87 366 1506 Wilson Demand_04-98-010 MGD 8.96 1 1 0.88 1 1506 Wilson Demand_04-98-010 MGD 8.96 1 31 0.88 31 1506 Wilson Demand_04-98-010 MGD 8.96 2 1 0.88 32 1506 Wilson Demand_04-98-010 MGD 8.96 2 29 0.88 60 1506 Wilson Demand_04-98-010 MGD 8.96 3 1 0.88 61 1506 Wilson Demand_04-98-010 MGD 8.96 3 31 0.88 91 1506 Wilson Demand_04-98-010 MGD 8.96 4 1 0.97 92 1506 Wilson Demand_04-98-010 MGD 8.96 4 30 0.97 121 1506 Wilson Demand_04-98-010 MGD 8.96 5 1 1.07 122 1506 Wilson Demand_04-98-010 MGD 8.96 5 31 1.07 152 66 Node No. Name Units Factor Month Day Demand julSort 1506 Wilson Demand_04-98-010 MGD 8.96 6 1 1.17 153 1506 Wilson Demand_04-98-010 MGD 8.96 6 30 1.17 182 1506 Wilson Demand_04-98-010 MGD 8.96 7 1 1.11 183 1506 Wilson Demand_04-98-010 MGD 8.96 7 31 1.11 213 1506 Wilson Demand_04-98-010 MGD 8.96 8 1 1.21 214 1506 Wilson Demand_04-98-010 MGD 8.96 8 31 1.21 244 1506 Wilson Demand_04-98-010 MGD 8.96 9 1 1.02 245 1506 Wilson Demand_04-98-010 MGD 8.96 9 30 1.02 274 1506 Wilson Demand_04-98-010 MGD 8.96 10 1 0.99 275 1506 Wilson Demand_04-98-010 MGD 8.96 10 31 0.99 305 1506 Wilson Demand_04-98-010 MGD 8.96 11 1 0.91 306 1506 Wilson Demand_04-98-010 MGD 8.96 11 30 0.91 335 1506 Wilson Demand_04-98-010 MGD 8.96 12 1 0.89 336 1506 Wilson Demand_04-98-010 MGD 8.96 12 31 0.89 366 1646 Johnston County Demand_03-51-070 MGD 8.56 1 1 0.88 1 1646 Johnston County Demand_03-51-070 MGD 8.56 1 31 0.88 31 1646 Johnston County Demand_03-51-070 MGD 8.56 2 1 0.90 32 1646 Johnston County Demand_03-51-070 MGD 8.56 2 29 0.90 60 1646 Johnston County Demand_03-51-070 MGD 8.56 3 1 0.90 61 1646 Johnston County Demand_03-51-070 MGD 8.56 3 31 0.90 91 1646 Johnston County Demand_03-51-070 MGD 8.56 4 1 0.95 92 1646 Johnston County Demand_03-51-070 MGD 8.56 4 30 0.95 121 1646 Johnston County Demand_03-51-070 MGD 8.56 5 1 1.04 122 1646 Johnston County Demand_03-51-070 MGD 8.56 5 31 1.04 152 1646 Johnston County Demand_03-51-070 MGD 8.56 6 1 1.16 153 1646 Johnston County Demand_03-51-070 MGD 8.56 6 30 1.16 182 1646 Johnston County Demand_03-51-070 MGD 8.56 7 1 1.19 183 1646 Johnston County Demand_03-51-070 MGD 8.56 7 31 1.19 213 1646 Johnston County Demand_03-51-070 MGD 8.56 8 1 1.11 214 1646 Johnston County Demand_03-51-070 MGD 8.56 8 31 1.11 244 1646 Johnston County Demand_03-51-070 MGD 8.56 9 1 1.07 245 1646 Johnston County Demand_03-51-070 MGD 8.56 9 30 1.07 274 1646 Johnston County Demand_03-51-070 MGD 8.56 10 1 0.99 275 1646 Johnston County Demand_03-51-070 MGD 8.56 10 31 0.99 305 1646 Johnston County Demand_03-51-070 MGD 8.56 11 1 0.93 306 1646 Johnston County Demand_03-51-070 MGD 8.56 11 30 0.93 335 1646 Johnston County Demand_03-51-070 MGD 8.56 12 1 0.89 336 1646 Johnston County Demand_03-51-070 MGD 8.56 12 31 0.89 366 1666 Smithfield Demand_03-51-010 MGD 2.96 1 1 0.85 1 1666 Smithfield Demand_03-51-010 MGD 2.96 1 31 0.85 31 1666 Smithfield Demand_03-51-010 MGD 2.96 2 1 0.85 32 1666 Smithfield Demand_03-51-010 MGD 2.96 2 29 0.85 60 1666 Smithfield Demand_03-51-010 MGD 2.96 3 1 0.81 61 1666 Smithfield Demand_03-51-010 MGD 2.96 3 31 0.81 91 1666 Smithfield Demand_03-51-010 MGD 2.96 4 1 0.95 92 1666 Smithfield Demand_03-51-010 MGD 2.96 4 30 0.95 121 1666 Smithfield Demand_03-51-010 MGD 2.96 5 1 1.04 122 1666 Smithfield Demand_03-51-010 MGD 2.96 5 31 1.04 152 1666 Smithfield Demand_03-51-010 MGD 2.96 6 1 1.23 153 1666 Smithfield Demand_03-51-010 MGD 2.96 6 30 1.23 182 1666 Smithfield Demand_03-51-010 MGD 2.96 7 1 1.23 183 1666 Smithfield Demand_03-51-010 MGD 2.96 7 31 1.23 213 1666 Smithfield Demand_03-51-010 MGD 2.96 8 1 1.21 214 1666 Smithfield Demand_03-51-010 MGD 2.96 8 31 1.21 244 1666 Smithfield Demand_03-51-010 MGD 2.96 9 1 1.09 245 67 Node No. Name Units Factor Month Day Demand julSort 1666 Smithfield Demand_03-51-010 MGD 2.96 9 30 1.09 274 1666 Smithfield Demand_03-51-010 MGD 2.96 10 1 1.01 275 1666 Smithfield Demand_03-51-010 MGD 2.96 10 31 1.01 305 1666 Smithfield Demand_03-51-010 MGD 2.96 11 1 0.83 306 1666 Smithfield Demand_03-51-010 MGD 2.96 11 30 0.83 335 1666 Smithfield Demand_03-51-010 MGD 2.96 12 1 0.92 336 1666 Smithfield Demand_03-51-010 MGD 2.96 12 31 0.92 366 1706 Fuquay-Varina Demand_03-92-055 MGD 1.87 1 1 0.86 1 1706 Fuquay-Varina Demand_03-92-055 MGD 1.87 1 31 0.86 31 1706 Fuquay-Varina Demand_03-92-055 MGD 1.87 2 1 0.99 32 1706 Fuquay-Varina Demand_03-92-055 MGD 1.87 2 29 0.99 60 1706 Fuquay-Varina Demand_03-92-055 MGD 1.87 3 1 0.84 61 1706 Fuquay-Varina Demand_03-92-055 MGD 1.87 3 31 0.84 91 1706 Fuquay-Varina Demand_03-92-055 MGD 1.87 4 1 1.07 92 1706 Fuquay-Varina Demand_03-92-055 MGD 1.87 4 30 1.07 121 1706 Fuquay-Varina Demand_03-92-055 MGD 1.87 5 1 0.96 122 1706 Fuquay-Varina Demand_03-92-055 MGD 1.87 5 31 0.96 152 1706 Fuquay-Varina Demand_03-92-055 MGD 1.87 6 1 1.22 153 1706 Fuquay-Varina Demand_03-92-055 MGD 1.87 6 30 1.22 182 1706 Fuquay-Varina Demand_03-92-055 MGD 1.87 7 1 1.17 183 1706 Fuquay-Varina Demand_03-92-055 MGD 1.87 7 31 1.17 213 1706 Fuquay-Varina Demand_03-92-055 MGD 1.87 8 1 1.13 214 1706 Fuquay-Varina Demand_03-92-055 MGD 1.87 8 31 1.13 244 1706 Fuquay-Varina Demand_03-92-055 MGD 1.87 9 1 0.95 245 1706 Fuquay-Varina Demand_03-92-055 MGD 1.87 9 30 0.95 274 1706 Fuquay-Varina Demand_03-92-055 MGD 1.87 10 1 1.01 275 1706 Fuquay-Varina Demand_03-92-055 MGD 1.87 10 31 1.01 305 1706 Fuquay-Varina Demand_03-92-055 MGD 1.87 11 1 0.85 306 1706 Fuquay-Varina Demand_03-92-055 MGD 1.87 11 30 0.85 335 1706 Fuquay-Varina Demand_03-92-055 MGD 1.87 12 1 0.89 336 1706 Fuquay-Varina Demand_03-92-055 MGD 1.87 12 31 0.89 366 1766 Progress Lee Steam Plant Demand_CUR0001 MGD 8.91 1 1 0.45 1 1766 Progress Lee Steam Plant Demand_CUR0001 MGD 8.91 1 31 0.45 31 1766 Progress Lee Steam Plant Demand_CUR0001 MGD 8.91 2 1 0.78 32 1766 Progress Lee Steam Plant Demand_CUR0001 MGD 8.91 2 29 0.78 60 1766 Progress Lee Steam Plant Demand_CUR0001 MGD 8.91 3 1 0.64 61 1766 Progress Lee Steam Plant Demand_CUR0001 MGD 8.91 3 31 0.64 91 1766 Progress Lee Steam Plant Demand_CUR0001 MGD 8.91 4 1 0.92 92 1766 Progress Lee Steam Plant Demand_CUR0001 MGD 8.91 4 30 0.92 121 1766 Progress Lee Steam Plant Demand_CUR0001 MGD 8.91 5 1 0.95 122 1766 Progress Lee Steam Plant Demand_CUR0001 MGD 8.91 5 31 0.95 152 1766 Progress Lee Steam Plant Demand_CUR0001 MGD 8.91 6 1 1.38 153 1766 Progress Lee Steam Plant Demand_CUR0001 MGD 8.91 6 30 1.38 182 1766 Progress Lee Steam Plant Demand_CUR0001 MGD 8.91 7 1 1.97 183 1766 Progress Lee Steam Plant Demand_CUR0001 MGD 8.91 7 31 1.97 213 1766 Progress Lee Steam Plant Demand_CUR0001 MGD 8.91 8 1 1.08 214 1766 Progress Lee Steam Plant Demand_CUR0001 MGD 8.91 8 31 1.08 244 1766 Progress Lee Steam Plant Demand_CUR0001 MGD 8.91 9 1 1.64 245 1766 Progress Lee Steam Plant Demand_CUR0001 MGD 8.91 9 30 1.64 274 1766 Progress Lee Steam Plant Demand_CUR0001 MGD 8.91 10 1 0.51 275 1766 Progress Lee Steam Plant Demand_CUR0001 MGD 8.91 10 31 0.51 305 1766 Progress Lee Steam Plant Demand_CUR0001 MGD 8.91 11 1 0.66 306 1766 Progress Lee Steam Plant Demand_CUR0001 MGD 8.91 11 30 0.66 335 1766 Progress Lee Steam Plant Demand_CUR0001 MGD 8.91 12 1 1.02 336 1766 Progress Lee Steam Plant Demand_CUR0001 MGD 8.91 12 31 1.02 366 68 Node No. Name Units Factor Month Day Demand julSort 1786 Goldsboro Demand_04-96-010 MGD 4.78 1 1 0.95 1 1786 Goldsboro Demand_04-96-010 MGD 4.78 1 31 0.95 31 1786 Goldsboro Demand_04-96-010 MGD 4.78 2 1 0.93 32 1786 Goldsboro Demand_04-96-010 MGD 4.78 2 29 0.93 60 1786 Goldsboro Demand_04-96-010 MGD 4.78 3 1 0.95 61 1786 Goldsboro Demand_04-96-010 MGD 4.78 3 31 0.95 91 1786 Goldsboro Demand_04-96-010 MGD 4.78 4 1 0.98 92 1786 Goldsboro Demand_04-96-010 MGD 4.78 4 30 0.98 121 1786 Goldsboro Demand_04-96-010 MGD 4.78 5 1 1.01 122 1786 Goldsboro Demand_04-96-010 MGD 4.78 5 31 1.01 152 1786 Goldsboro Demand_04-96-010 MGD 4.78 6 1 1.08 153 1786 Goldsboro Demand_04-96-010 MGD 4.78 6 30 1.08 182 1786 Goldsboro Demand_04-96-010 MGD 4.78 7 1 1.09 183 1786 Goldsboro Demand_04-96-010 MGD 4.78 7 31 1.09 213 1786 Goldsboro Demand_04-96-010 MGD 4.78 8 1 1.12 214 1786 Goldsboro Demand_04-96-010 MGD 4.78 8 31 1.12 244 1786 Goldsboro Demand_04-96-010 MGD 4.78 9 1 1.04 245 1786 Goldsboro Demand_04-96-010 MGD 4.78 9 30 1.04 274 1786 Goldsboro Demand_04-96-010 MGD 4.78 10 1 0.99 275 1786 Goldsboro Demand_04-96-010 MGD 4.78 10 31 0.99 305 1786 Goldsboro Demand_04-96-010 MGD 4.78 11 1 0.94 306 1786 Goldsboro Demand_04-96-010 MGD 4.78 11 30 0.94 335 1786 Goldsboro Demand_04-96-010 MGD 4.78 12 1 0.93 336 1786 Goldsboro Demand_04-96-010 MGD 4.78 12 31 0.93 366 1806 Neuse Regional WASA_60-54-001 MGD 7.82 1 1 0.91 1 1806 Neuse Regional WASA_60-54-001 MGD 7.82 1 31 0.91 31 1806 Neuse Regional WASA_60-54-001 MGD 7.82 2 1 0.89 32 1806 Neuse Regional WASA_60-54-001 MGD 7.82 2 28 0.89 59 1806 Neuse Regional WASA_60-54-001 MGD 7.82 3 1 0.88 61 1806 Neuse Regional WASA_60-54-001 MGD 7.82 3 31 0.88 91 1806 Neuse Regional WASA_60-54-001 MGD 7.82 4 1 1.04 92 1806 Neuse Regional WASA_60-54-001 MGD 7.82 4 30 1.04 121 1806 Neuse Regional WASA_60-54-001 MGD 7.82 5 1 0.99 122 1806 Neuse Regional WASA_60-54-001 MGD 7.82 5 31 0.99 152 1806 Neuse Regional WASA_60-54-001 MGD 7.82 6 1 1.07 153 1806 Neuse Regional WASA_60-54-001 MGD 7.82 6 30 1.07 182 1806 Neuse Regional WASA_60-54-001 MGD 7.82 7 1 1.06 183 1806 Neuse Regional WASA_60-54-001 MGD 7.82 7 31 1.06 213 1806 Neuse Regional WASA_60-54-001 MGD 7.82 8 1 1.07 214 1806 Neuse Regional WASA_60-54-001 MGD 7.82 8 31 1.07 244 1806 Neuse Regional WASA_60-54-001 MGD 7.82 9 1 1.03 245 1806 Neuse Regional WASA_60-54-001 MGD 7.82 9 30 1.03 274 1806 Neuse Regional WASA_60-54-001 MGD 7.82 10 1 1.02 275 1806 Neuse Regional WASA_60-54-001 MGD 7.82 10 31 1.02 305 1806 Neuse Regional WASA_60-54-001 MGD 7.82 11 1 1.01 306 1806 Neuse Regional WASA_60-54-001 MGD 7.82 11 30 1.01 335 1806 Neuse Regional WASA_60-54-001 MGD 7.82 12 1 1.02 336 1806 Neuse Regional WASA_60-54-001 MGD 7.82 12 31 1.02 366 1906 Weyerhauser Demand MGD 14.47 1 1 0.95 1 1906 Weyerhauser Demand MGD 14.47 1 31 0.95 31 1906 Weyerhauser Demand MGD 14.47 2 1 0.91 32 1906 Weyerhauser Demand MGD 14.47 2 29 0.91 60 1906 Weyerhauser Demand MGD 14.47 3 1 0.93 61 1906 Weyerhauser Demand MGD 14.47 3 31 0.93 91 1906 Weyerhauser Demand MGD 14.47 4 1 1.00 92 69 Node No. Name Units Factor Month Day Demand julSort 1906 Weyerhauser Demand MGD 14.47 4 30 1.00 121 1906 Weyerhauser Demand MGD 14.47 5 1 1.02 122 1906 Weyerhauser Demand MGD 14.47 5 31 1.02 152 1906 Weyerhauser Demand MGD 14.47 6 1 1.02 153 1906 Weyerhauser Demand MGD 14.47 6 30 1.02 182 1906 Weyerhauser Demand MGD 14.47 7 1 1.17 183 1906 Weyerhauser Demand MGD 14.47 7 31 1.17 213 1906 Weyerhauser Demand MGD 14.47 8 1 1.05 214 1906 Weyerhauser Demand MGD 14.47 8 31 1.05 244 1906 Weyerhauser Demand MGD 14.47 9 1 0.83 245 1906 Weyerhauser Demand MGD 14.47 9 30 0.83 274 1906 Weyerhauser Demand MGD 14.47 10 1 1.03 275 1906 Weyerhauser Demand MGD 14.47 10 31 1.03 305 1906 Weyerhauser Demand MGD 14.47 11 1 1.09 306 1906 Weyerhauser Demand MGD 14.47 11 30 1.09 335 1906 Weyerhauser Demand MGD 14.47 12 1 1.00 336 1906 Weyerhauser Demand MGD 14.47 12 31 1.00 366 1162 Durham Service Area Demand MGD 24.80 2 1 0.85 32 1162 Durham Service Area Demand MGD 24.80 2 29 0.85 60 1162 Durham Service Area Demand MGD 24.80 3 1 0.92 61 1162 Durham Service Area Demand MGD 24.80 3 31 0.92 91 1162 Durham Service Area Demand MGD 24.80 4 1 0.94 92 1162 Durham Service Area Demand MGD 24.80 4 30 0.94 121 1162 Durham Service Area Demand MGD 24.80 5 1 1.00 122 1162 Durham Service Area Demand MGD 24.80 5 31 1.00 152 1162 Durham Service Area Demand MGD 24.80 6 1 1.07 153 1162 Durham Service Area Demand MGD 24.80 6 30 1.07 182 1162 Durham Service Area Demand MGD 24.80 7 1 1.13 183 1162 Durham Service Area Demand MGD 24.80 7 31 1.13 213 1162 Durham Service Area Demand MGD 24.80 8 1 1.12 214 1162 Durham Service Area Demand MGD 24.80 8 31 1.12 244 1162 Durham Service Area Demand MGD 24.80 9 1 1.08 245 1162 Durham Service Area Demand MGD 24.80 9 30 1.08 274 1162 Durham Service Area Demand MGD 24.80 10 1 1.04 275 1162 Durham Service Area Demand MGD 24.80 10 31 1.04 305 1162 Durham Service Area Demand MGD 24.80 11 1 0.95 306 1162 Durham Service Area Demand MGD 24.80 11 30 0.95 335 1162 Durham Service Area Demand MGD 24.80 12 1 0.94 336 1162 Durham Service Area Demand MGD 24.80 12 31 0.94 366 1256 SGWASA Demand_02-39-107 MGD 3.50 1 1 0.97 1 1256 SGWASA Demand_02-39-107 MGD 3.50 1 31 0.97 31 1256 SGWASA Demand_02-39-107 MGD 3.50 2 1 0.97 32 1256 SGWASA Demand_02-39-107 MGD 3.50 2 29 0.97 60 1256 SGWASA Demand_02-39-107 MGD 3.50 3 1 0.96 61 1256 SGWASA Demand_02-39-107 MGD 3.50 3 31 0.96 91 1256 SGWASA Demand_02-39-107 MGD 3.50 4 1 0.94 92 1256 SGWASA Demand_02-39-107 MGD 3.50 4 30 0.94 121 1256 SGWASA Demand_02-39-107 MGD 3.50 5 1 0.97 122 1256 SGWASA Demand_02-39-107 MGD 3.50 5 31 0.97 152 1256 SGWASA Demand_02-39-107 MGD 3.50 6 1 1.03 153 1256 SGWASA Demand_02-39-107 MGD 3.50 6 30 1.03 182 1256 SGWASA Demand_02-39-107 MGD 3.50 7 1 0.99 183 1256 SGWASA Demand_02-39-107 MGD 3.50 7 31 0.99 213 1256 SGWASA Demand_02-39-107 MGD 3.50 8 1 1.00 214 1256 SGWASA Demand_02-39-107 MGD 3.50 8 31 1.00 244 70 Node No. Name Units Factor Month Day Demand julSort 1256 SGWASA Demand_02-39-107 MGD 3.50 9 1 0.97 245 1256 SGWASA Demand_02-39-107 MGD 3.50 9 30 0.97 274 1256 SGWASA Demand_02-39-107 MGD 3.50 10 1 1.12 275 1256 SGWASA Demand_02-39-107 MGD 3.50 10 31 1.12 305 1256 SGWASA Demand_02-39-107 MGD 3.50 11 1 1.06 306 1256 SGWASA Demand_02-39-107 MGD 3.50 11 30 1.06 335 1256 SGWASA Demand_02-39-107 MGD 3.50 12 1 1.03 336 1256 SGWASA Demand_02-39-107 MGD 3.50 12 31 1.03 366 1258 Creedmor Demand_02-39-015 MGD 0.40 1 1 0.94 1 1258 Creedmor Demand_02-39-015 MGD 0.40 1 31 0.94 31 1258 Creedmor Demand_02-39-015 MGD 0.40 2 1 0.92 32 1258 Creedmor Demand_02-39-015 MGD 0.40 2 29 0.92 60 1258 Creedmor Demand_02-39-015 MGD 0.40 3 1 0.89 61 1258 Creedmor Demand_02-39-015 MGD 0.40 3 31 0.89 91 1258 Creedmor Demand_02-39-015 MGD 0.40 4 1 0.90 92 1258 Creedmor Demand_02-39-015 MGD 0.40 4 30 0.90 121 1258 Creedmor Demand_02-39-015 MGD 0.40 5 1 1.02 122 1258 Creedmor Demand_02-39-015 MGD 0.40 5 31 1.02 152 1258 Creedmor Demand_02-39-015 MGD 0.40 6 1 1.00 153 1258 Creedmor Demand_02-39-015 MGD 0.40 6 30 1.00 182 1258 Creedmor Demand_02-39-015 MGD 0.40 7 1 1.06 183 1258 Creedmor Demand_02-39-015 MGD 0.40 7 31 1.06 213 1258 Creedmor Demand_02-39-015 MGD 0.40 8 1 1.03 214 1258 Creedmor Demand_02-39-015 MGD 0.40 8 31 1.03 244 1258 Creedmor Demand_02-39-015 MGD 0.40 9 1 1.17 245 1258 Creedmor Demand_02-39-015 MGD 0.40 9 30 1.17 274 1258 Creedmor Demand_02-39-015 MGD 0.40 10 1 1.10 275 1258 Creedmor Demand_02-39-015 MGD 0.40 10 31 1.10 305 1258 Creedmor Demand_02-39-015 MGD 0.40 11 1 1.00 306 1258 Creedmor Demand_02-39-015 MGD 0.40 11 30 1.00 335 1258 Creedmor Demand_02-39-015 MGD 0.40 12 1 0.96 336 1258 Creedmor Demand_02-39-015 MGD 0.40 12 31 0.96 366 1306 Raleigh Demand_03-92-010 MGD 50.00 1 1 0.83 1 1306 Raleigh Demand_03-92-010 MGD 50.00 1 31 0.83 31 1306 Raleigh Demand_03-92-010 MGD 50.00 2 1 0.85 32 1306 Raleigh Demand_03-92-010 MGD 50.00 2 29 0.85 60 1306 Raleigh Demand_03-92-010 MGD 50.00 3 1 0.84 61 1306 Raleigh Demand_03-92-010 MGD 50.00 3 31 0.84 91 1306 Raleigh Demand_03-92-010 MGD 50.00 4 1 0.98 92 1306 Raleigh Demand_03-92-010 MGD 50.00 4 30 0.98 121 1306 Raleigh Demand_03-92-010 MGD 50.00 5 1 1.07 122 1306 Raleigh Demand_03-92-010 MGD 50.00 5 31 1.07 152 1306 Raleigh Demand_03-92-010 MGD 50.00 6 1 1.12 153 1306 Raleigh Demand_03-92-010 MGD 50.00 6 30 1.12 182 1306 Raleigh Demand_03-92-010 MGD 50.00 7 1 1.19 183 1306 Raleigh Demand_03-92-010 MGD 50.00 7 31 1.19 213 1306 Raleigh Demand_03-92-010 MGD 50.00 8 1 1.11 214 1306 Raleigh Demand_03-92-010 MGD 50.00 8 31 1.11 244 1306 Raleigh Demand_03-92-010 MGD 50.00 9 1 1.18 245 1306 Raleigh Demand_03-92-010 MGD 50.00 9 30 1.18 274 1306 Raleigh Demand_03-92-010 MGD 50.00 10 1 1.06 275 1306 Raleigh Demand_03-92-010 MGD 50.00 10 31 1.06 305 1306 Raleigh Demand_03-92-010 MGD 50.00 11 1 0.92 306 1306 Raleigh Demand_03-92-010 MGD 50.00 11 30 0.92 335 1306 Raleigh Demand_03-92-010 MGD 50.00 12 1 0.85 336 71 Node No. Name Units Factor Month Day Demand julSort 1306 Raleigh Demand_03-92-010 MGD 50.00 12 31 0.85 366 1506 Wilson Demand_04-98-010 MGD 8.96 1 1 0.88 1 1506 Wilson Demand_04-98-010 MGD 8.96 1 31 0.88 31 1506 Wilson Demand_04-98-010 MGD 8.96 2 1 0.88 32 1506 Wilson Demand_04-98-010 MGD 8.96 2 29 0.88 60 1506 Wilson Demand_04-98-010 MGD 8.96 3 1 0.88 61 1506 Wilson Demand_04-98-010 MGD 8.96 3 31 0.88 91 1506 Wilson Demand_04-98-010 MGD 8.96 4 1 0.97 92 1506 Wilson Demand_04-98-010 MGD 8.96 4 30 0.97 121 1506 Wilson Demand_04-98-010 MGD 8.96 5 1 1.07 122 1506 Wilson Demand_04-98-010 MGD 8.96 5 31 1.07 152 1506 Wilson Demand_04-98-010 MGD 8.96 6 1 1.17 153 1506 Wilson Demand_04-98-010 MGD 8.96 6 30 1.17 182 1506 Wilson Demand_04-98-010 MGD 8.96 7 1 1.11 183 1506 Wilson Demand_04-98-010 MGD 8.96 7 31 1.11 213 1506 Wilson Demand_04-98-010 MGD 8.96 8 1 1.21 214 1506 Wilson Demand_04-98-010 MGD 8.96 8 31 1.21 244 1506 Wilson Demand_04-98-010 MGD 8.96 9 1 1.02 245 1506 Wilson Demand_04-98-010 MGD 8.96 9 30 1.02 274 1506 Wilson Demand_04-98-010 MGD 8.96 10 1 0.99 275 1506 Wilson Demand_04-98-010 MGD 8.96 10 31 0.99 305 1506 Wilson Demand_04-98-010 MGD 8.96 11 1 0.91 306 1506 Wilson Demand_04-98-010 MGD 8.96 11 30 0.91 335 1506 Wilson Demand_04-98-010 MGD 8.96 12 1 0.89 336 1506 Wilson Demand_04-98-010 MGD 8.96 12 31 0.89 366 1646 Johnston County Demand_03-51-070 MGD 8.90 1 1 1.00 1 1646 Johnston County Demand_03-51-070 MGD 8.90 1 31 1.00 31 1646 Johnston County Demand_03-51-070 MGD 8.90 2 1 0.99 32 1646 Johnston County Demand_03-51-070 MGD 8.90 2 29 0.99 60 1646 Johnston County Demand_03-51-070 MGD 8.90 3 1 1.00 61 1646 Johnston County Demand_03-51-070 MGD 8.90 3 31 1.00 91 1646 Johnston County Demand_03-51-070 MGD 8.90 4 1 0.95 92 1646 Johnston County Demand_03-51-070 MGD 8.90 4 30 0.95 121 1646 Johnston County Demand_03-51-070 MGD 8.90 5 1 0.95 122 1646 Johnston County Demand_03-51-070 MGD 8.90 5 31 0.95 152 1646 Johnston County Demand_03-51-070 MGD 8.90 6 1 1.00 153 1646 Johnston County Demand_03-51-070 MGD 8.90 6 30 1.00 182 1646 Johnston County Demand_03-51-070 MGD 8.90 7 1 1.11 183 1646 Johnston County Demand_03-51-070 MGD 8.90 7 31 1.11 213 1646 Johnston County Demand_03-51-070 MGD 8.90 8 1 0.96 214 1646 Johnston County Demand_03-51-070 MGD 8.90 8 31 0.96 244 1646 Johnston County Demand_03-51-070 MGD 8.90 9 1 0.92 245 1646 Johnston County Demand_03-51-070 MGD 8.90 9 30 0.92 274 1646 Johnston County Demand_03-51-070 MGD 8.90 10 1 1.01 275 1646 Johnston County Demand_03-51-070 MGD 8.90 10 31 1.01 305 1646 Johnston County Demand_03-51-070 MGD 8.90 11 1 1.09 306 1646 Johnston County Demand_03-51-070 MGD 8.90 11 30 1.09 335 1646 Johnston County Demand_03-51-070 MGD 8.90 12 1 1.00 336 1646 Johnston County Demand_03-51-070 MGD 8.90 12 31 1.00 366 1666 Smithfield Demand_03-51-010 MGD 2.96 1 1 0.88 1 1666 Smithfield Demand_03-51-010 MGD 2.96 1 31 0.88 31 1666 Smithfield Demand_03-51-010 MGD 2.96 2 1 0.81 32 1666 Smithfield Demand_03-51-010 MGD 2.96 2 29 0.81 60 1666 Smithfield Demand_03-51-010 MGD 2.96 3 1 0.83 61 1666 Smithfield Demand_03-51-010 MGD 2.96 3 31 0.83 91 72 Node No. Name Units Factor Month Day Demand julSort 1666 Smithfield Demand_03-51-010 MGD 2.96 4 1 0.96 92 1666 Smithfield Demand_03-51-010 MGD 2.96 4 30 0.96 121 1666 Smithfield Demand_03-51-010 MGD 2.96 5 1 1.27 122 1666 Smithfield Demand_03-51-010 MGD 2.96 5 31 1.27 152 1666 Smithfield Demand_03-51-010 MGD 2.96 6 1 1.26 153 1666 Smithfield Demand_03-51-010 MGD 2.96 6 30 1.26 182 1666 Smithfield Demand_03-51-010 MGD 2.96 7 1 1.19 183 1666 Smithfield Demand_03-51-010 MGD 2.96 7 31 1.19 213 1666 Smithfield Demand_03-51-010 MGD 2.96 8 1 1.17 214 1666 Smithfield Demand_03-51-010 MGD 2.96 8 31 1.17 244 1666 Smithfield Demand_03-51-010 MGD 2.96 9 1 1.20 245 1666 Smithfield Demand_03-51-010 MGD 2.96 9 30 1.20 274 1666 Smithfield Demand_03-51-010 MGD 2.96 10 1 1.02 275 1666 Smithfield Demand_03-51-010 MGD 2.96 10 31 1.02 305 1666 Smithfield Demand_03-51-010 MGD 2.96 11 1 0.77 306 1666 Smithfield Demand_03-51-010 MGD 2.96 11 30 0.77 335 1666 Smithfield Demand_03-51-010 MGD 2.96 12 1 0.64 336 1666 Smithfield Demand_03-51-010 MGD 2.96 12 31 0.64 366 1766 Progress Lee Steam Plant Demand_CUR0001 MGD 8.91 1 1 0.58 1 1766 Progress Lee Steam Plant Demand_CUR0001 MGD 8.91 1 31 0.58 31 1766 Progress Lee Steam Plant Demand_CUR0001 MGD 8.91 2 1 0.92 32 1766 Progress Lee Steam Plant Demand_CUR0001 MGD 8.91 2 29 0.92 60 1766 Progress Lee Steam Plant Demand_CUR0001 MGD 8.91 3 1 0.77 61 1766 Progress Lee Steam Plant Demand_CUR0001 MGD 8.91 3 31 0.77 91 1766 Progress Lee Steam Plant Demand_CUR0001 MGD 8.91 4 1 1.22 92 1766 Progress Lee Steam Plant Demand_CUR0001 MGD 8.91 4 30 1.22 121 1766 Progress Lee Steam Plant Demand_CUR0001 MGD 8.91 5 1 0.90 122 1766 Progress Lee Steam Plant Demand_CUR0001 MGD 8.91 5 31 0.90 152 1766 Progress Lee Steam Plant Demand_CUR0001 MGD 8.91 6 1 1.65 153 1766 Progress Lee Steam Plant Demand_CUR0001 MGD 8.91 6 30 1.65 182 1766 Progress Lee Steam Plant Demand_CUR0001 MGD 8.91 7 1 1.36 183 1766 Progress Lee Steam Plant Demand_CUR0001 MGD 8.91 7 31 1.36 213 1766 Progress Lee Steam Plant Demand_CUR0001 MGD 8.91 8 1 1.66 214 1766 Progress Lee Steam Plant Demand_CUR0001 MGD 8.91 8 31 1.66 244 1766 Progress Lee Steam Plant Demand_CUR0001 MGD 8.91 9 1 0.65 245 1766 Progress Lee Steam Plant Demand_CUR0001 MGD 8.91 9 30 0.65 274 1766 Progress Lee Steam Plant Demand_CUR0001 MGD 8.91 10 1 1.33 275 1766 Progress Lee Steam Plant Demand_CUR0001 MGD 8.91 10 31 1.33 305 1766 Progress Lee Steam Plant Demand_CUR0001 MGD 8.91 11 1 0.49 306 1766 Progress Lee Steam Plant Demand_CUR0001 MGD 8.91 11 30 0.49 335 1766 Progress Lee Steam Plant Demand_CUR0001 MGD 8.91 12 1 0.48 336 1766 Progress Lee Steam Plant Demand_CUR0001 MGD 8.91 12 31 0.48 366 1786 Goldsboro Demand_04-96-010 MGD 4.78 1 1 0.96 1 1786 Goldsboro Demand_04-96-010 MGD 4.78 1 31 0.96 31 1786 Goldsboro Demand_04-96-010 MGD 4.78 2 1 0.93 32 1786 Goldsboro Demand_04-96-010 MGD 4.78 2 29 0.93 60 1786 Goldsboro Demand_04-96-010 MGD 4.78 3 1 0.91 61 1786 Goldsboro Demand_04-96-010 MGD 4.78 3 31 0.91 91 1786 Goldsboro Demand_04-96-010 MGD 4.78 4 1 0.97 92 1786 Goldsboro Demand_04-96-010 MGD 4.78 4 30 0.97 121 1786 Goldsboro Demand_04-96-010 MGD 4.78 5 1 1.06 122 1786 Goldsboro Demand_04-96-010 MGD 4.78 5 31 1.06 152 1786 Goldsboro Demand_04-96-010 MGD 4.78 6 1 1.21 153 1786 Goldsboro Demand_04-96-010 MGD 4.78 6 30 1.21 182 1786 Goldsboro Demand_04-96-010 MGD 4.78 7 1 1.14 183 73 Node No. Name Units Factor Month Day Demand julSort 1786 Goldsboro Demand_04-96-010 MGD 4.78 7 31 1.14 213 1786 Goldsboro Demand_04-96-010 MGD 4.78 8 1 1.08 214 1786 Goldsboro Demand_04-96-010 MGD 4.78 8 31 1.08 244 1786 Goldsboro Demand_04-96-010 MGD 4.78 9 1 1.02 245 1786 Goldsboro Demand_04-96-010 MGD 4.78 9 30 1.02 274 1786 Goldsboro Demand_04-96-010 MGD 4.78 10 1 0.98 275 1786 Goldsboro Demand_04-96-010 MGD 4.78 10 31 0.98 305 1786 Goldsboro Demand_04-96-010 MGD 4.78 11 1 0.89 306 1786 Goldsboro Demand_04-96-010 MGD 4.78 11 30 0.89 335 1786 Goldsboro Demand_04-96-010 MGD 4.78 12 1 0.84 336 1786 Goldsboro Demand_04-96-010 MGD 4.78 12 31 0.84 366 1806 Neuse Regional WASA_60-54-001 MGD 7.82 1 1 0.93 1 1806 Neuse Regional WASA_60-54-001 MGD 7.82 1 31 0.93 31 1806 Neuse Regional WASA_60-54-001 MGD 7.82 2 1 0.91 32 1806 Neuse Regional WASA_60-54-001 MGD 7.82 2 28 0.91 59 1806 Neuse Regional WASA_60-54-001 MGD 7.82 3 1 0.95 61 1806 Neuse Regional WASA_60-54-001 MGD 7.82 3 31 0.95 91 1806 Neuse Regional WASA_60-54-001 MGD 7.82 4 1 0.98 92 1806 Neuse Regional WASA_60-54-001 MGD 7.82 4 30 0.98 121 1806 Neuse Regional WASA_60-54-001 MGD 7.82 5 1 1.08 122 1806 Neuse Regional WASA_60-54-001 MGD 7.82 5 31 1.08 152 1806 Neuse Regional WASA_60-54-001 MGD 7.82 6 1 1.11 153 1806 Neuse Regional WASA_60-54-001 MGD 7.82 6 30 1.11 182 1806 Neuse Regional WASA_60-54-001 MGD 7.82 7 1 1.09 183 1806 Neuse Regional WASA_60-54-001 MGD 7.82 7 31 1.09 213 1806 Neuse Regional WASA_60-54-001 MGD 7.82 8 1 1.11 214 1806 Neuse Regional WASA_60-54-001 MGD 7.82 8 31 1.11 244 1806 Neuse Regional WASA_60-54-001 MGD 7.82 9 1 1.04 245 1806 Neuse Regional WASA_60-54-001 MGD 7.82 9 30 1.04 274 1806 Neuse Regional WASA_60-54-001 MGD 7.82 10 1 0.99 275 1806 Neuse Regional WASA_60-54-001 MGD 7.82 10 31 0.99 305 1806 Neuse Regional WASA_60-54-001 MGD 7.82 11 1 0.91 306 1806 Neuse Regional WASA_60-54-001 MGD 7.82 11 30 0.91 335 1806 Neuse Regional WASA_60-54-001 MGD 7.82 12 1 0.90 336 1806 Neuse Regional WASA_60-54-001 MGD 7.82 12 31 0.90 366 1906 Weyerhauser Demand MGD 14.40 1 1 0.95 1 1906 Weyerhauser Demand MGD 14.40 1 31 0.95 31 1906 Weyerhauser Demand MGD 14.40 2 1 0.91 32 1906 Weyerhauser Demand MGD 14.40 2 29 0.91 60 1906 Weyerhauser Demand MGD 14.40 3 1 0.93 61 1906 Weyerhauser Demand MGD 14.40 3 31 0.93 91 1906 Weyerhauser Demand MGD 14.40 4 1 1.00 92 1906 Weyerhauser Demand MGD 14.40 4 30 1.00 121 1906 Weyerhauser Demand MGD 14.40 5 1 1.02 122 1906 Weyerhauser Demand MGD 14.40 5 31 1.02 152 1906 Weyerhauser Demand MGD 14.40 6 1 1.02 153 1906 Weyerhauser Demand MGD 14.40 6 30 1.02 182 1906 Weyerhauser Demand MGD 14.40 7 1 1.17 183 1906 Weyerhauser Demand MGD 14.40 7 31 1.17 213 1906 Weyerhauser Demand MGD 14.40 8 1 1.05 214 1906 Weyerhauser Demand MGD 14.40 8 31 1.05 244 1906 Weyerhauser Demand MGD 14.40 9 1 0.83 245 1906 Weyerhauser Demand MGD 14.40 9 30 0.83 274 1906 Weyerhauser Demand MGD 14.40 10 1 1.03 275 1906 Weyerhauser Demand MGD 14.40 10 31 1.03 305 74 Node No. Name Units Factor Month Day Demand julSort 1906 Weyerhauser Demand MGD 14.40 11 1 1.09 306 1906 Weyerhauser Demand MGD 14.40 11 30 1.09 335 1906 Weyerhauser Demand MGD 14.40 12 1 1.00 336 1906 Weyerhauser Demand MGD 14.40 12 31 1.00 366 75 Lookup Tables - Wastewater Return Patterns, Spillway Curves, Etc. Name Interp Independent Dependent 1400Outflow Interp 305 0 1400Outflow Interp 306 47 1400Outflow Interp 306.9 83 1400Outflow Interp 310 92 1400Outflow Interp 312.5 98 1400Outflow Interp 315 104 1400Outflow Interp 316 106 1400Outflow Interp 316.5 264 1400Outflow Interp 317 615 1400Outflow Interp 317.5 1120 1400Outflow Interp 318 1373 1400Outflow Interp 319 3399 1400Outflow Interp 320 5481 1400Outflow Interp 321 7998 1400Outflow Interp 321.5 9377 1400Outflow Interp 322 11654 1400Outflow Interp 322.5 15020 1400Outflow Interp 323 19186 1400Outflow Interp 323.5 23410 1400Outflow Interp 324 28020 1402Outflow Interp 326 0 1402Outflow Interp 328 10 1402Outflow Interp 330 15.3 1402Outflow Interp 333 20.6 1402Outflow Interp 333.5 38 1402Outflow Interp 334.4 96 1402Outflow Interp 335 97.8 1402Outflow Interp 335.5 99 1402Outflow Interp 336 179 1402Outflow Interp 336.5 356.2 1402Outflow Interp 337 612.3 1402Outflow Interp 338 1325.5 1402Outflow Interp 339 2282.6 1402Outflow Interp 340 3489.7 1402Outflow Interp 341.5 5630 1402Outflow Interp 342 7323.7 1402Outflow Interp 342.5 10010 1402Outflow Interp 343 13250 1402Outflow Interp 343.5 17050 1402Outflow Interp 344 21116.7 1404Outflow Interp 342.5 0 1404Outflow Interp 344 12.8 76 Name Interp Independent Dependent 1404Outflow Interp 346 22 1404Outflow Interp 349.5 32 1404Outflow Interp 351.1 151 1404Outflow Interp 352 154 1404Outflow Interp 352.5 155 1404Outflow Interp 353 314 1404Outflow Interp 353.5 665 1404Outflow Interp 354 1170 1404Outflow Interp 354.5 1796 1404Outflow Interp 355 2567 1404Outflow Interp 355.5 3452 1404Outflow Interp 356 4423 1404Outflow Interp 357 6735 1404Outflow Interp 358 9433 1404Outflow Interp 358.5 10920 1404Outflow Interp 359 13552 1404Outflow Interp 359.5 17990 1404Outflow Interp 360.5 28800 1406Outflow Interp 306.5 0 1406Outflow Interp 307 14.8 1406Outflow Interp 307.5 41.9 1406Outflow Interp 308 76.9 1406Outflow Interp 308.7 135.5 1406Outflow Interp 310 139.5 1406Outflow Interp 312 145.6 1406Outflow Interp 314 151.4 1406Outflow Interp 317 159.7 1406Outflow Interp 320 167.5 1406Outflow Interp 322.1 172.8 1406Outflow Interp 322.6 278 1406Outflow Interp 323.1 470.4 1406Outflow Interp 323.6 719.5 1406Outflow Interp 324.1 1014.5 1406Outflow Interp 326.1 2553.6 1406Outflow Interp 327 3770 1406Outflow Interp 327.5 5470 1406Outflow Interp 328 7880 1406Outflow Interp 329 14820 1408Outflow Interp 313 0 1408Outflow Interp 314 47 1408Outflow Interp 314.3 66 1408Outflow Interp 320 84 1408Outflow Interp 324 94 77 Name Interp Independent Dependent 1408Outflow Interp 328 104 1408Outflow Interp 328.5 105 1408Outflow Interp 329 106 1408Outflow Interp 329.5 301 1408Outflow Interp 330 732 1408Outflow Interp 330.5 1350 1408Outflow Interp 331 2117 1408Outflow Interp 332 4087 1408Outflow Interp 333 6687 1408Outflow Interp 334 9756 1408Outflow Interp 334.5 11480 1408Outflow Interp 335 14292 1408Outflow Interp 335.5 18830 1408Outflow Interp 336 24560 1408Outflow Interp 336.5 31050 1410Outflow Interp 306.5 0 1410Outflow Interp 307.6 76 1410Outflow Interp 308.6 225 1410Outflow Interp 310 235 1410Outflow Interp 315 268 1410Outflow Interp 318.5 289 1410Outflow Interp 319 372 1410Outflow Interp 319.5 585 1410Outflow Interp 320.5 1251 1410Outflow Interp 322.5 3662 1410Outflow Interp 324.5 7372 1410Outflow Interp 328.5 18742 1410Outflow Interp 330.5 26300 1410Outflow Interp 331 29430 1410Outflow Interp 331.5 32900 1410Outflow Interp 332 39020 1410Outflow Interp 332.5 44910 1410Outflow Interp 333 51190 1410Outflow Interp 333.5 57110 1412Outflow Interp 276 0 1412Outflow Interp 277 162.4 1412Outflow Interp 279.1 843.9 1412Outflow Interp 280.1 1299.3 1412Outflow Interp 281.9 1376.9 1412Outflow Interp 283.7 1447.2 1412Outflow Interp 284.9 1492.2 1412Outflow Interp 286.4 2177.3 1412Outflow Interp 289.4 5352.3 78 Name Interp Independent Dependent 1412Outflow Interp 292.5 10287.1 1412Outflow Interp 296.2 17930 1412Outflow Interp 300 27361.9 1412Outflow Interp 301 29526.6 1414Outflow Interp 301 0 1414Outflow Interp 301.8 32.8 1414Outflow Interp 302.6 79.5 1414Outflow Interp 303.9 82.7 1414Outflow Interp 306 87.4 1414Outflow Interp 309.2 94.1 1414Outflow Interp 313.4 102.5 1414Outflow Interp 318.1 111 1414Outflow Interp 319.6 879.1 1414Outflow Interp 322.4 2362.8 1414Outflow Interp 326.5 9510.1 1414Outflow Interp 329.4 14962.5 1414Outflow Interp 331 17744.5 1414Outflow Interp 331.5 18634.5 1416Outflow Interp 230 0 1416Outflow Interp 232.4 152.6 1416Outflow Interp 234.7 421 1416Outflow Interp 237.1 750.1 1416Outflow Interp 239.4 1143.5 1416Outflow Interp 241.8 1526.1 1416Outflow Interp 244.1 1890.1 1416Outflow Interp 246.5 2104 1416Outflow Interp 248.8 2315 1416Outflow Interp 251.2 2520.6 1416Outflow Interp 253.5 2716.9 1416Outflow Interp 255.9 2907.8 1416Outflow Interp 258.5 3096 1416Outflow Interp 259.3 3695.3 1416Outflow Interp 260.4 4411.4 1416Outflow Interp 262.3 7133.6 1416Outflow Interp 264.7 11803.7 1416Outflow Interp 269.1 23166.7 1416Outflow Interp 274.6 41322.8 1416Outflow Interp 280 63291.1 1418Outflow Interp 335 0 1418Outflow Interp 336.6 94 1418Outflow Interp 340 101 1418Outflow Interp 345 111 1418Outflow Interp 349 119 79 Name Interp Independent Dependent 1418Outflow Interp 349.5 181.6 1418Outflow Interp 350 312.7 1418Outflow Interp 350.5 520.7 1418Outflow Interp 351 776.2 1418Outflow Interp 354 4914 1418Outflow Interp 354.3 5540.2 1418Outflow Interp 354.6 6336.3 1418Outflow Interp 355.1 8470.1 1418Outflow Interp 355.8 11605.5 1418Outflow Interp 357 18689.1 1422Outflow Interp 252 0 1422Outflow Interp 253 56 1422Outflow Interp 254 122 1422Outflow Interp 258 132 1422Outflow Interp 265 151 1422Outflow Interp 270 164 1422Outflow Interp 275 175 1422Outflow Interp 275.5 311 1422Outflow Interp 276 653 1422Outflow Interp 277 1864 1422Outflow Interp 278 3718 1422Outflow Interp 285 4719 AlliedSignalWW_NC0001899 Lower 1 1.14 AlliedSignalWW_NC0001899 Lower 2 2.05 AlliedSignalWW_NC0001899 Lower 3 0.74 AlliedSignalWW_NC0001899 Lower 4 0.6 AlliedSignalWW_NC0001899 Lower 5 0.71 AlliedSignalWW_NC0001899 Lower 6 0.98 AlliedSignalWW_NC0001899 Lower 7 0.65 AlliedSignalWW_NC0001899 Lower 8 0.7 AlliedSignalWW_NC0001899 Lower 9 1.42 AlliedSignalWW_NC0001899 Lower 10 1.2 AlliedSignalWW_NC0001899 Lower 11 0.71 AlliedSignalWW_NC0001899 Lower 12 0.76 ApexWRFReturn Lower 1 0.86 ApexWRFReturn Lower 2 1.06 ApexWRFReturn Lower 3 1.07 ApexWRFReturn Lower 4 0.93 ApexWRFReturn Lower 5 0.99 ApexWRFReturn Lower 6 0.89 ApexWRFReturn Lower 7 0.89 ApexWRFReturn Lower 8 1.18 ApexWRFReturn Lower 9 1.25 80 Name Interp Independent Dependent ApexWRFReturn Lower 10 0.97 ApexWRFReturn Lower 11 0.94 ApexWRFReturn Lower 12 0.94 ArchdaleWW Lower 1 0.91 ArchdaleWW Lower 2 1.09 ArchdaleWW Lower 3 0.94 ArchdaleWW Lower 4 1.13 ArchdaleWW Lower 5 1.18 ArchdaleWW Lower 6 0.89 ArchdaleWW Lower 7 0.75 ArchdaleWW Lower 8 0.77 ArchdaleWW Lower 9 0.84 ArchdaleWW Lower 10 0.92 ArchdaleWW Lower 11 1.08 AydenGriftonWW Lower 1 0.23 AydenGriftonWW Lower 2 0.27 AydenGriftonWW Lower 3 0.23 AydenGriftonWW Lower 4 0.16 AydenGriftonWW Lower 5 0.14 AydenGriftonWW Lower 6 0.13 AydenGriftonWW Lower 7 0.13 AydenGriftonWW Lower 8 0.15 AydenGriftonWW Lower 9 0.15 AydenGriftonWW Lower 10 0.16 AydenGriftonWW Lower 11 0.16 AydenGriftonWW Lower 12 0.16 BensonWW_nc0020389 Lower 1 0.28 BensonWW_nc0020389 Lower 2 0.42 BensonWW_nc0020389 Lower 3 0.37 BensonWW_nc0020389 Lower 4 0.26 BensonWW_nc0020389 Lower 5 0.3 BensonWW_nc0020389 Lower 6 0.31 BensonWW_nc0020389 Lower 7 0.28 BensonWW_nc0020389 Lower 8 0.38 BensonWW_nc0020389 Lower 9 0.47 BensonWW_nc0020389 Lower 10 0.29 BensonWW_nc0020389 Lower 11 0.31 BensonWW_nc0020389 Lower 12 0.32 BurlingtonEastWW_NC0023868 Lower 1 2.09 BurlingtonEastWW_NC0023868 Lower 2 2.06 BurlingtonEastWW_NC0023868 Lower 3 2.09 BurlingtonEastWW_NC0023868 Lower 4 1.59 BurlingtonEastWW_NC0023868 Lower 5 1.86 81 Name Interp Independent Dependent BurlingtonEastWW_NC0023868 Lower 6 1.38 BurlingtonEastWW_NC0023868 Lower 7 1.46 BurlingtonEastWW_NC0023868 Lower 8 1.38 BurlingtonEastWW_NC0023868 Lower 9 1.59 BurlingtonEastWW_NC0023868 Lower 10 1.35 BurlingtonEastWW_NC0023868 Lower 11 1.32 BurlingtonEastWW_NC0023868 Lower 12 1.54 BurlingtonMackintoshWW_NC0023828 Lower 1 0.04 BurlingtonMackintoshWW_NC0023828 Lower 2 0.04 BurlingtonMackintoshWW_NC0023828 Lower 3 0.04 BurlingtonMackintoshWW_NC0023828 Lower 4 0.03 BurlingtonMackintoshWW_NC0023828 Lower 5 0.03 BurlingtonMackintoshWW_NC0023828 Lower 6 0.03 BurlingtonMackintoshWW_NC0023828 Lower 7 0.03 BurlingtonMackintoshWW_NC0023828 Lower 8 0.03 BurlingtonMackintoshWW_NC0023828 Lower 9 0.03 BurlingtonMackintoshWW_NC0023828 Lower 10 0.03 BurlingtonMackintoshWW_NC0023828 Lower 11 0.03 BurlingtonMackintoshWW_NC0023828 Lower 12 0.04 BurlingtonSouthsideWW_NC0023876 Lower 1 1 BurlingtonSouthsideWW_NC0023876 Lower 2 1 BurlingtonSouthsideWW_NC0023876 Lower 3 1 BurlingtonSouthsideWW_NC0023876 Lower 4 1 BurlingtonSouthsideWW_NC0023876 Lower 5 1 BurlingtonSouthsideWW_NC0023876 Lower 6 1 BurlingtonSouthsideWW_NC0023876 Lower 7 1 BurlingtonSouthsideWW_NC0023876 Lower 8 1 BurlingtonSouthsideWW_NC0023876 Lower 9 1 BurlingtonSouthsideWW_NC0023876 Lower 10 1 BurlingtonSouthsideWW_NC0023876 Lower 11 1 BurlingtonSouthsideWW_NC0023876 Lower 12 1 BurlingtonTotalWWRF Lower 1 0.82 BurlingtonTotalWWRF Lower 2 0.85 BurlingtonTotalWWRF Lower 3 0.95 BurlingtonTotalWWRF Lower 4 0.98 BurlingtonTotalWWRF Lower 5 0.83 BurlingtonTotalWWRF Lower 6 0.69 BurlingtonTotalWWRF Lower 7 0.7 BurlingtonTotalWWRF Lower 8 0.76 BurlingtonTotalWWRF Lower 9 0.74 BurlingtonTotalWWRF Lower 10 0.74 BurlingtonTotalWWRF Lower 11 0.87 BurlingtonTotalWWRF Lower 12 0.89 82 Name Interp Independent Dependent CaryApexReturn Lower 1 1.06 CaryApexReturn Lower 2 1.06 CaryApexReturn Lower 3 0.92 CaryApexReturn Lower 4 0.86 CaryApexReturn Lower 5 0.69 CaryApexReturn Lower 6 0.57 CaryApexReturn Lower 7 0.6 CaryApexReturn Lower 8 0.63 CaryApexReturn Lower 9 0.73 CaryApexReturn Lower 10 0.79 CaryApexReturn Lower 11 0.97 CaryApexReturn Lower 12 1.05 CaryApexWTFReturn Lower 1 0.18 CaryApexWTFReturn Lower 2 0.19 CaryApexWTFReturn Lower 3 0.16 CaryApexWTFReturn Lower 4 0.14 CaryApexWTFReturn Lower 5 0.15 CaryApexWTFReturn Lower 6 0.11 CaryApexWTFReturn Lower 7 0.12 CaryApexWTFReturn Lower 8 0.12 CaryApexWTFReturn Lower 9 0.15 CaryApexWTFReturn Lower 10 0.15 CaryApexWTFReturn Lower 11 0.16 CaryApexWTFReturn Lower 12 0.17 CaryNWRFReturn Lower 1 1.05 CaryNWRFReturn Lower 2 1.01 CaryNWRFReturn Lower 3 1.08 CaryNWRFReturn Lower 4 1.03 CaryNWRFReturn Lower 5 0.97 CaryNWRFReturn Lower 6 0.95 CaryNWRFReturn Lower 7 0.94 CaryNWRFReturn Lower 8 0.94 CaryNWRFReturn Lower 9 0.96 CaryNWRFReturn Lower 10 0.99 CaryNWRFReturn Lower 11 1.02 CaryNWRFReturn Lower 12 1.05 CarySWRFReturn Lower 1 1.06 CarySWRFReturn Lower 2 1.11 CarySWRFReturn Lower 3 1.15 CarySWRFReturn Lower 4 1.07 CarySWRFReturn Lower 5 0.98 CarySWRFReturn Lower 6 0.97 CarySWRFReturn Lower 7 0.9 83 Name Interp Independent Dependent CarySWRFReturn Lower 8 0.95 CarySWRFReturn Lower 9 0.93 CarySWRFReturn Lower 10 0.94 CarySWRFReturn Lower 11 0.96 CarySWRFReturn Lower 12 0.99 ClaytReturn_nc0064564&nc0025453 Lower 1 0.33 ClaytReturn_nc0064564&nc0025453 Lower 2 0.31 ClaytReturn_nc0064564&nc0025453 Lower 3 0.32 ClaytReturn_nc0064564&nc0025453 Lower 4 0.28 ClaytReturn_nc0064564&nc0025453 Lower 5 0.23 ClaytReturn_nc0064564&nc0025453 Lower 6 0.2 ClaytReturn_nc0064564&nc0025453 Lower 7 0.2 ClaytReturn_nc0064564&nc0025453 Lower 8 0.22 ClaytReturn_nc0064564&nc0025453 Lower 9 0.23 ClaytReturn_nc0064564&nc0025453 Lower 10 0.25 ClaytReturn_nc0064564&nc0025453 Lower 11 0.28 ClaytReturn_nc0064564&nc0025453 Lower 12 0.31 ConeMillsWW Lower 1 0 ConeMillsWW Lower 2 0 ConeMillsWW Lower 3 0 ConeMillsWW Lower 4 0 ConeMillsWW Lower 5 0 ConeMillsWW Lower 6 0 ConeMillsWW Lower 7 0 ConeMillsWW Lower 8 0 ConeMillsWW Lower 9 0 ConeMillsWW Lower 10 0 ConeMillsWW Lower 11 0 ConeMillsWW Lower 12 0 DunnWW_nc0078955 Lower 1 0.06 DunnWW_nc0078955 Lower 2 0.05 DunnWW_nc0078955 Lower 3 0.04 DunnWW_nc0078955 Lower 4 0.04 DunnWW_nc0078955 Lower 5 0.04 DunnWW_nc0078955 Lower 6 0.03 DunnWW_nc0078955 Lower 7 0.04 DunnWW_nc0078955 Lower 8 0.04 DunnWW_nc0078955 Lower 9 0.05 DunnWW_nc0078955 Lower 10 0.04 DunnWW_nc0078955 Lower 11 0.04 DunnWW_nc0078955 Lower 12 0.04 DunnWWTP_nc0043176 Lower 1 0.78 DunnWWTP_nc0043176 Lower 2 0.87 84 Name Interp Independent Dependent DunnWWTP_nc0043176 Lower 3 0.92 DunnWWTP_nc0043176 Lower 4 0.78 DunnWWTP_nc0043176 Lower 5 0.55 DunnWWTP_nc0043176 Lower 6 0.43 DunnWWTP_nc0043176 Lower 7 0.43 DunnWWTP_nc0043176 Lower 8 0.55 DunnWWTP_nc0043176 Lower 9 0.54 DunnWWTP_nc0043176 Lower 10 0.51 DunnWWTP_nc0043176 Lower 11 0.6 DunnWWTP_nc0043176 Lower 12 0.72 DupontWW_nc0003573 Lower 1 1 DupontWW_nc0003573 Lower 2 1 DupontWW_nc0003573 Lower 3 1 DupontWW_nc0003573 Lower 4 1 DupontWW_nc0003573 Lower 5 1 DupontWW_nc0003573 Lower 6 1 DupontWW_nc0003573 Lower 7 1 DupontWW_nc0003573 Lower 8 1 DupontWW_nc0003573 Lower 9 1 DupontWW_nc0003573 Lower 10 1 DupontWW_nc0003573 Lower 11 1 DupontWW_nc0003573 Lower 12 1 DurhamCtyTriangleWW_nc0026051 Lower 1 0.16 DurhamCtyTriangleWW_nc0026051 Lower 2 0.16 DurhamCtyTriangleWW_nc0026051 Lower 3 0.16 DurhamCtyTriangleWW_nc0026051 Lower 4 0.14 DurhamCtyTriangleWW_nc0026051 Lower 5 0.12 DurhamCtyTriangleWW_nc0026051 Lower 6 0.1 DurhamCtyTriangleWW_nc0026051 Lower 7 0.1 DurhamCtyTriangleWW_nc0026051 Lower 8 0.1 DurhamCtyTriangleWW_nc0026051 Lower 9 0.11 DurhamCtyTriangleWW_nc0026051 Lower 10 0.12 DurhamCtyTriangleWW_nc0026051 Lower 11 0.14 DurhamCtyTriangleWW_nc0026051 Lower 12 0.15 DurhamReclamationW_nc0047597 Lower 1 0.45 DurhamReclamationW_nc0047597 Lower 2 0.47 DurhamReclamationW_nc0047597 Lower 3 0.45 DurhamReclamationW_nc0047597 Lower 4 0.4 DurhamReclamationW_nc0047597 Lower 5 0.35 DurhamReclamationW_nc0047597 Lower 6 0.3 DurhamReclamationW_nc0047597 Lower 7 0.29 DurhamReclamationW_nc0047597 Lower 8 0.28 DurhamReclamationW_nc0047597 Lower 9 0.32 85 Name Interp Independent Dependent DurhamReclamationW_nc0047597 Lower 10 0.34 DurhamReclamationW_nc0047597 Lower 11 0.41 DurhamReclamationW_nc0047597 Lower 12 0.44 DurhamReturn_nc0023841 Lower 1 0.41 DurhamReturn_nc0023841 Lower 2 0.4 DurhamReturn_nc0023841 Lower 3 0.4 DurhamReturn_nc0023841 Lower 4 0.35 DurhamReturn_nc0023841 Lower 5 0.3 DurhamReturn_nc0023841 Lower 6 0.26 DurhamReturn_nc0023841 Lower 7 0.24 DurhamReturn_nc0023841 Lower 8 0.23 DurhamReturn_nc0023841 Lower 9 0.28 DurhamReturn_nc0023841 Lower 10 0.29 DurhamReturn_nc0023841 Lower 11 0.39 DurhamReturn_nc0023841 Lower 12 0.4 FallsSpillway Interp 264.8 0 FallsSpillway Interp 265 200 FallsSpillway Interp 266 700 FallsSpillway Interp 267 1400 FallsSpillway Interp 268 2100 FallsSpillway Interp 269 3000 FallsSpillway Interp 270 3800 FallsSpillway Interp 271 5000 FallsSpillway Interp 272 6000 FallsSpillway Interp 273 7400 FallsSpillway Interp 274 8600 FallsSpillway Interp 275 10200 FallsSpillway Interp 276 11800 FallsSpillway Interp 277 13400 FallsSpillway Interp 278 15000 FallsSpillway Interp 279 17000 FallsSpillway Interp 280 18800 FallsSpillway Interp 281 20800 FallsSpillway Interp 282 22800 FallsSpillway Interp 283 25000 FallsSpillway Interp 284 27400 FallsSpillway Interp 285 29800 FallsSpillway Interp 286 32400 FallsSpillway Interp 287 35000 FallsSpillway Interp 288 37400 FallsSvcGate Interp 268 11954 FallsSvcGate Interp 269 12056 FallsSvcGate Interp 270 12157 86 Name Interp Independent Dependent FallsSvcGate Interp 271 12259 FallsSvcGate Interp 272 12360 FallsSvcGate Interp 273 12462 FallsSvcGate Interp 274 12563 FallsSvcGate Interp 275 12664 FallsSvcGate Interp 276 12766 FallsSvcGate Interp 277 12867 FallsSvcGate Interp 278 12969 FallsSvcGate Interp 279 13070 FallsSvcGate Interp 280 13171 FallsSvcGate Interp 281 13273 FallsSvcGate Interp 282 13374 FallsSvcGate Interp 283 13476 FallsSvcGate Interp 284 13577 FallsSvcGate Interp 285 13679 FallsSvcGate Interp 286 13780 FallsSvcGate Interp 287 13881 FallsSvcGate Interp 288 13983 FallsSvcGate Interp 289 14084 Fay_Glenville_WD Lower 1 0.24 Fay_Glenville_WD Lower 2 0.27 Fay_Glenville_WD Lower 3 0.26 Fay_Glenville_WD Lower 4 0.21 Fay_Glenville_WD Lower 5 0.13 Fay_Glenville_WD Lower 6 0.14 Fay_Glenville_WD Lower 7 0.1 Fay_Glenville_WD Lower 8 0.12 Fay_Glenville_WD Lower 9 0.14 Fay_Glenville_WD Lower 10 0.14 Fay_Glenville_WD Lower 11 0.2 Fay_Glenville_WD Lower 12 0.23 Fay_POHoffer_WD Lower 1 0.76 Fay_POHoffer_WD Lower 2 0.74 Fay_POHoffer_WD Lower 3 0.74 Fay_POHoffer_WD Lower 4 0.79 Fay_POHoffer_WD Lower 5 0.87 Fay_POHoffer_WD Lower 6 0.86 Fay_POHoffer_WD Lower 7 0.9 Fay_POHoffer_WD Lower 8 0.89 Fay_POHoffer_WD Lower 9 0.87 Fay_POHoffer_WD Lower 10 0.86 Fay_POHoffer_WD Lower 11 0.8 Fay_POHoffer_WD Lower 12 0.77 87 Name Interp Independent Dependent FayPOHofferWW_NC0076783 Lower 1 0.57 FayPOHofferWW_NC0076783 Lower 2 0.59 FayPOHofferWW_NC0076783 Lower 3 0.57 FayPOHofferWW_NC0076783 Lower 4 0.5 FayPOHofferWW_NC0076783 Lower 5 0.43 FayPOHofferWW_NC0076783 Lower 6 0.39 FayPOHofferWW_NC0076783 Lower 7 0.4 FayPOHofferWW_NC0076783 Lower 8 0.42 FayPOHofferWW_NC0076783 Lower 9 0.46 FayPOHofferWW_NC0076783 Lower 10 0.48 FayPOHofferWW_NC0076783 Lower 11 0.5 FayPOHofferWW_NC0076783 Lower 12 0.53 FayRockfishCkWW_NC0050105 Lower 1 0.59 FayRockfishCkWW_NC0050105 Lower 2 0.6 FayRockfishCkWW_NC0050105 Lower 3 0.57 FayRockfishCkWW_NC0050105 Lower 4 0.53 FayRockfishCkWW_NC0050105 Lower 5 0.47 FayRockfishCkWW_NC0050105 Lower 6 0.41 FayRockfishCkWW_NC0050105 Lower 7 0.43 FayRockfishCkWW_NC0050105 Lower 8 0.45 FayRockfishCkWW_NC0050105 Lower 9 0.48 FayRockfishCkWW_NC0050105 Lower 10 0.52 FayRockfishCkWW_NC0050105 Lower 11 0.57 FayRockfishCkWW_NC0050105 Lower 12 0.58 FtBraggWW_NC0003964 Lower 1 1.21 FtBraggWW_NC0003964 Lower 2 1.26 FtBraggWW_NC0003964 Lower 3 1.31 FtBraggWW_NC0003964 Lower 4 1.21 FtBraggWW_NC0003964 Lower 5 1.04 FtBraggWW_NC0003964 Lower 6 1 FtBraggWW_NC0003964 Lower 7 1.01 FtBraggWW_NC0003964 Lower 8 1.02 FtBraggWW_NC0003964 Lower 9 1.09 FtBraggWW_NC0003964 Lower 10 1.09 FtBraggWW_NC0003964 Lower 11 1.17 FtBraggWW_NC0003964 Lower 12 1.23 FuquayReturn_nc0066516&nc0066150 Lower 1 0.41 FuquayReturn_nc0066516&nc0066150 Lower 2 0.39 FuquayReturn_nc0066516&nc0066150 Lower 3 0.41 FuquayReturn_nc0066516&nc0066150 Lower 4 0.33 FuquayReturn_nc0066516&nc0066150 Lower 5 0.3 FuquayReturn_nc0066516&nc0066150 Lower 6 0.28 FuquayReturn_nc0066516&nc0066150 Lower 7 0.25 88 Name Interp Independent Dependent FuquayReturn_nc0066516&nc0066150 Lower 8 0.27 FuquayReturn_nc0066516&nc0066150 Lower 9 0.33 FuquayReturn_nc0066516&nc0066150 Lower 10 0.3 FuquayReturn_nc0066516&nc0066150 Lower 11 0.38 FuquayReturn_nc0066516&nc0066150 Lower 12 0.38 FuquayReturn_toHarnettCo Lower 1 0.59 FuquayReturn_toHarnettCo Lower 2 0.56 FuquayReturn_toHarnettCo Lower 3 0.59 FuquayReturn_toHarnettCo Lower 4 0.48 FuquayReturn_toHarnettCo Lower 5 0.43 FuquayReturn_toHarnettCo Lower 6 0.4 FuquayReturn_toHarnettCo Lower 7 0.36 FuquayReturn_toHarnettCo Lower 8 0.39 FuquayReturn_toHarnettCo Lower 9 0.48 FuquayReturn_toHarnettCo Lower 10 0.43 FuquayReturn_toHarnettCo Lower 11 0.55 FuquayReturn_toHarnettCo Lower 12 0.54 GBMitchellWTPNC0081426 Lower 1 0.02 GBMitchellWTPNC0081426 Lower 2 0.02 GBMitchellWTPNC0081426 Lower 3 0.02 GBMitchellWTPNC0081426 Lower 4 0.02 GBMitchellWTPNC0081426 Lower 5 0.02 GBMitchellWTPNC0081426 Lower 6 0.02 GBMitchellWTPNC0081426 Lower 7 0.03 GBMitchellWTPNC0081426 Lower 8 0.02 GBMitchellWTPNC0081426 Lower 9 0.02 GBMitchellWTPNC0081426 Lower 10 0.01 GBMitchellWTPNC0081426 Lower 11 0.02 GBMitchellWTPNC0081426 Lower 12 0.02 GBNBuffaloCrWWNC0024325 Lower 1 0.29 GBNBuffaloCrWWNC0024325 Lower 2 0.28 GBNBuffaloCrWWNC0024325 Lower 3 0.27 GBNBuffaloCrWWNC0024325 Lower 4 0.28 GBNBuffaloCrWWNC0024325 Lower 5 0.3 GBNBuffaloCrWWNC0024325 Lower 6 0.3 GBNBuffaloCrWWNC0024325 Lower 7 0.3 GBNBuffaloCrWWNC0024325 Lower 8 0.3 GBNBuffaloCrWWNC0024325 Lower 9 0.29 GBNBuffaloCrWWNC0024325 Lower 10 0.29 GBNBuffaloCrWWNC0024325 Lower 11 0.25 GBNBuffaloCrWWNC0024325 Lower 12 0.25 GBOzborneWWNC0047384 Lower 1 0.73 GBOzborneWWNC0047384 Lower 2 0.74 89 Name Interp Independent Dependent GBOzborneWWNC0047384 Lower 3 0.75 GBOzborneWWNC0047384 Lower 4 0.74 GBOzborneWWNC0047384 Lower 5 0.72 GBOzborneWWNC0047384 Lower 6 0.72 GBOzborneWWNC0047384 Lower 7 0.72 GBOzborneWWNC0047384 Lower 8 0.72 GBOzborneWWNC0047384 Lower 9 0.73 GBOzborneWWNC0047384 Lower 10 0.73 GBOzborneWWNC0047384 Lower 11 0.77 GBOzborneWWNC0047384 Lower 12 0.77 GBTownsendWTPNC0081671 Lower 1 0.12 GBTownsendWTPNC0081671 Lower 2 0.09 GBTownsendWTPNC0081671 Lower 3 0.11 GBTownsendWTPNC0081671 Lower 4 0.11 GBTownsendWTPNC0081671 Lower 5 0.1 GBTownsendWTPNC0081671 Lower 6 0.11 GBTownsendWTPNC0081671 Lower 7 0.12 GBTownsendWTPNC0081671 Lower 8 0.16 GBTownsendWTPNC0081671 Lower 9 0.16 GBTownsendWTPNC0081671 Lower 10 0.17 GBTownsendWTPNC0081671 Lower 11 0.17 GBTownsendWTPNC0081671 Lower 12 0.16 GoldsReturn_nc0023949 Lower 1 1.66 GoldsReturn_nc0023949 Lower 2 1.82 GoldsReturn_nc0023949 Lower 3 1.75 GoldsReturn_nc0023949 Lower 4 1.45 GoldsReturn_nc0023949 Lower 5 1.35 GoldsReturn_nc0023949 Lower 6 1.08 GoldsReturn_nc0023949 Lower 7 1.02 GoldsReturn_nc0023949 Lower 8 1 GoldsReturn_nc0023949 Lower 9 1.31 GoldsReturn_nc0023949 Lower 10 1.28 GoldsReturn_nc0023949 Lower 11 1.53 GoldsReturn_nc0023949 Lower 12 1.64 GrMebTotWW_nc0045292 Lower 1 0.91 GrMebTotWW_nc0045292 Lower 2 0.94 GrMebTotWW_nc0045292 Lower 3 0.99 GrMebTotWW_nc0045292 Lower 4 0.86 GrMebTotWW_nc0045292 Lower 5 0.75 GrMebTotWW_nc0045292 Lower 6 0.68 GrMebTotWW_nc0045292 Lower 7 0.56 GrMebTotWW_nc0045292 Lower 8 0.58 GrMebTotWW_nc0045292 Lower 9 0.61 90 Name Interp Independent Dependent GrMebTotWW_nc0045292 Lower 10 0.66 GrMebTotWW_nc0045292 Lower 11 0.83 GrMebTotWW_nc0045292 Lower 12 0.91 Harris_Spill interp 220 0 Harris_Spill interp 222 500 Harris_Spill interp 223 750 Harris_Spill interp 224 1250 Harris_Spill interp 226 2200 Harris_Spill interp 228 3500 Harris_Spill interp 230 5000 Harris_Spill interp 234 8700 Harris_Spill interp 240 15500 HighPointWW Lower 1 1.13 HighPointWW Lower 2 1.21 HighPointWW Lower 3 1.34 HighPointWW Lower 4 1.23 HighPointWW Lower 5 1.11 HighPointWW Lower 6 0.87 HighPointWW Lower 7 0.91 HighPointWW Lower 8 0.86 HighPointWW Lower 9 1 HighPointWW Lower 10 1.01 HighPointWW Lower 11 1.14 HighPointWW Lower 12 1.21 HillsReturn_nc0026433 Lower 1 0.69 HillsReturn_nc0026433 Lower 2 0.74 HillsReturn_nc0026433 Lower 3 0.77 HillsReturn_nc0026433 Lower 4 0.71 HillsReturn_nc0026433 Lower 5 0.58 HillsReturn_nc0026433 Lower 6 0.61 HillsReturn_nc0026433 Lower 7 0.53 HillsReturn_nc0026433 Lower 8 0.55 HillsReturn_nc0026433 Lower 9 0.58 HillsReturn_nc0026433 Lower 10 0.56 HillsReturn_nc0026433 Lower 11 0.68 HillsReturn_nc0026433 Lower 12 0.73 HollySpringsWW_nc0063098 Lower 1 0.94 HollySpringsWW_nc0063098 Lower 2 1.02 HollySpringsWW_nc0063098 Lower 3 1.04 HollySpringsWW_nc0063098 Lower 4 0.83 HollySpringsWW_nc0063098 Lower 5 0.69 HollySpringsWW_nc0063098 Lower 6 0.62 HollySpringsWW_nc0063098 Lower 7 0.59 91 Name Interp Independent Dependent HollySpringsWW_nc0063098 Lower 8 0.66 HollySpringsWW_nc0063098 Lower 9 0.67 HollySpringsWW_nc0063098 Lower 10 0.67 HollySpringsWW_nc0063098 Lower 11 0.81 HollySpringsWW_nc0063098 Lower 12 0.93 JohnstonCFlow Interp 198 0 JohnstonCFlow Interp 199 1 JohnstonCFlow Interp 203 9 JohnstonCFlow Interp 204 10 JohnstonCFlow Interp 218 19 JohnstonCFlow Interp 219 20 JohnstonCFlow Interp 936 24 JohnstonCFlow Interp 937 30 JohnstReturn_nc0030716 Lower 1 0.34 JohnstReturn_nc0030716 Lower 2 0.33 JohnstReturn_nc0030716 Lower 3 0.35 JohnstReturn_nc0030716 Lower 4 0.26 JohnstReturn_nc0030716 Lower 5 0.21 JohnstReturn_nc0030716 Lower 6 0.2 JohnstReturn_nc0030716 Lower 7 0.18 JohnstReturn_nc0030716 Lower 8 0.21 JohnstReturn_nc0030716 Lower 9 0.2 JohnstReturn_nc0030716 Lower 10 0.21 JohnstReturn_nc0030716 Lower 11 0.28 JohnstReturn_nc0030716 Lower 12 0.31 JordanHydro Interp 150 494.19 JordanHydro Interp 160 526.5 JordanHydro Interp 170 558.69 JordanHydro Interp 180 590.75 JordanHydro Interp 190 622.67 JordanHydro Interp 200 680.42 JordanHydro Interp 210 713.29 JordanHydro Interp 220 737.37 JordanHydro Interp 230 769.52 JordanHydro Interp 240 801.5 JordanHydro Interp 250 921.54 JordanHydro Interp 260 956.48 JordanHydro Interp 270 991.19 JordanHydro Interp 280 1025.67 JordanHydro Interp 290 1059.9 JordanHydro Interp 300 1123.16 JordanHydro Interp 310 1157.79 JordanHydro Interp 320 1192.13 92 Name Interp Independent Dependent JordanHydro Interp 330 1226.19 JordanHydro Interp 340 1259.96 JordanHydro Interp 350 1308.08 JordanHydro Interp 360 1341.6 JordanHydro Interp 370 1374.8 JordanHydro Interp 380 1409.59 JordanHydro Interp 390 1442.16 JordanHydro Interp 400 1479.91 JordanHydro Interp 410 1511.88 JordanHydro Interp 420 1543.48 JordanHydro Interp 430 1574.7 JordanHydro Interp 440 1607.3 JordanHydro Interp 450 1644.4 JordanHydro Interp 460 1674.58 JordanHydro Interp 470 1704.33 JordanHydro Interp 480 1733.65 JordanHydro Interp 490 1759.12 JordanHydro Interp 500 1790.87 JordanHydro Interp 510 1818.85 JordanHydro Interp 520 1846.37 JordanHydro Interp 530 1873.41 JordanHydro Interp 540 1899.96 JordanHydro Interp 550 1924.72 JordanHydro Interp 560 2051.34 JordanHydro Interp 570 2085.64 JordanHydro Interp 580 2119.81 JordanHydro Interp 590 2153.85 JordanHydro Interp 600 2246.33 JordanHydro Interp 610 2281.02 JordanHydro Interp 620 2315.57 JordanHydro Interp 630 2349.99 JordanHydro Interp 640 2384.27 JordanHydro Interp 650 2418.4 JordanHydro Interp 660 2452.39 JordanHydro Interp 670 2486.22 JordanHydro Interp 680 2519.92 JordanHydro Interp 690 2547.46 JordanHydro Interp 700 2616.16 JordanHydro Interp 710 2649.76 JordanHydro Interp 720 2683.21 JordanHydro Interp 730 2716.49 JordanHydro Interp 740 2749.61 JordanHydro Interp 750 2786.36 93 Name Interp Independent Dependent JordanHydro Interp 760 2819.18 JordanHydro Interp 770 2851.83 JordanHydro Interp 780 2884.31 JordanHydro Interp 790 2916.62 JordanHydro Interp 800 2959.82 JordanHydro Interp 810 2991.88 JordanHydro Interp 820 3023.76 JordanHydro Interp 830 3055.45 JordanHydro Interp 840 3086.96 JordanHydro Interp 850 3118.27 JordanHydro Interp 860 3149.39 JordanHydro Interp 870 3183.84 JordanHydro Interp 880 3214.61 JordanHydro Interp 890 3245.17 JordanHydro Interp 900 3288.81 JordanHydro Interp 910 3319.08 JordanHydro Interp 920 3349.15 JordanHydro Interp 930 3379.01 JordanHydro Interp 940 3408.66 JordanHydro Interp 950 3438.09 JordanHydro Interp 960 3467.3 JordanHydro Interp 970 3489.53 JordanHydro Interp 980 3518.25 JordanHydro Interp 990 3546.74 JordanHydro Interp 1000 3581.74 JordanHydro Interp 1100 3849.44 JordanHydro Interp 1200 3849.44 JordanHydro Interp 1300 3849.44 JordanHydro Interp 1400 3849.44 JordanHydro Interp 1500 3849.44 JordanHydro Interp 1600 3849.44 JordanHydro Interp 1700 3849.44 JordanHydro Interp 1800 3849.44 JordanHydro Interp 1900 3849.44 JordanHydro Interp 2000 3849.44 JordanHydro Interp 2100 3849.44 JordanHydro Interp 2200 3849.44 JordanHydro Interp 2300 3849.44 JordanHydro Interp 2400 3849.44 JordanHydro Interp 2500 3849.44 JordanHydro Interp 2600 3849.44 JordanHydro Interp 2700 3849.44 JordanHydro Interp 2800 3849.44 94 Name Interp Independent Dependent JordanHydro Interp 2900 3849.44 JordanHydro Interp 3000 3849.44 JordanHydro Interp 3100 3849.44 JordanHydro Interp 3200 3849.44 JordanHydro Interp 3300 3849.44 JordanHydro Interp 3400 3849.44 JordanHydro Interp 3500 3849.44 JordanHydro Interp 3600 3849.44 JordanHydro Interp 3700 3849.44 JordanHydro Interp 3800 3849.44 JordanHydro Interp 3900 3849.44 JordanHydro Interp 4000 3849.44 JordanHydro Interp 4100 3849.44 JordanHydro Interp 4200 3849.44 JordanHydro Interp 4300 3849.44 JordanHydro Interp 4400 3849.44 JordanHydro Interp 4500 3849.44 JordanHydro Interp 4600 3849.44 JordanHydro Interp 4700 3849.44 JordanHydro Interp 4800 3849.44 JordanHydro Interp 4900 3849.44 JordanHydro Interp 5000 3849.44 JordanHydro Interp 5100 3849.44 JordanHydro Interp 5200 3849.44 JordanHydro Interp 5300 3849.44 JordanHydro Interp 5400 3849.44 JordanHydro Interp 5500 3849.44 JordanHydro Interp 5600 3849.44 JordanHydro Interp 5700 3849.44 JordanHydro Interp 5800 3849.44 JordanHydro Interp 5900 3849.44 JordanHydro Interp 6000 3849.44 JordanHydro Interp 6100 3849.44 JordanHydro Interp 6200 3849.44 JordanHydro Interp 6300 3849.44 JordanHydro Interp 6400 3849.44 JordanHydro Interp 6500 3849.44 JordanHydro Interp 6600 3849.44 JordanHydro Interp 6700 3849.44 JordanHydro Interp 6800 3849.44 JordanHydro Interp 6900 3849.44 JordanHydro Interp 7000 3849.44 JordanSpillway Interp 240 0 95 Name Interp Independent Dependent JordanSpillway Interp 241 1500 JordanSpillway Interp 241.2 2000 JordanSpillway Interp 241.4 2450 JordanSpillway Interp 241.6 3000 JordanSpillway Interp 241.8 3600 JordanSpillway Interp 242 4300 JordanSpillway Interp 242.5 6600 JordanSpillway Interp 243 9500 JordanSpillway Interp 243.5 12250 JordanSpillway Interp 244 15500 JordanSpillway Interp 244.5 19000 JordanSpillway Interp 245 23000 JordanSpillway Interp 245.5 27000 JordanSpillway Interp 246 31500 JordanSpillway Interp 246.5 36000 JordanSpillway Interp 247 41000 JordanSpillway Interp 247.5 46000 JordanSpillway Interp 248 49500 JordanSpillway Interp 249 60500 JordanSpillway Interp 250 73500 JordanSpillway Interp 251 84000 JordanSpillway Interp 252 96800 JordanSpillway Interp 253 110500 JordanSpillway Interp 254 126500 JordanSpillway Interp 255 142500 JordanSpillway Interp 256 158500 JordanSpillway Interp 257 175500 JordanSpillway Interp 258 192000 JordanSpillway Interp 259 209000 JordanSpillway Interp 260 226500 JordanSpillway Interp 261 244000 JordanSpillway Interp 262 261500 JordanSpillway Interp 263 279400 JordanSpillway Interp 264 293500 KenlyReturn_nc0064891 Lower 1 0.07 KenlyReturn_nc0064891 Lower 2 0.06 KenlyReturn_nc0064891 Lower 3 0.07 KenlyReturn_nc0064891 Lower 4 0.05 KenlyReturn_nc0064891 Lower 5 0.04 KenlyReturn_nc0064891 Lower 6 0.03 KenlyReturn_nc0064891 Lower 7 0.03 KenlyReturn_nc0064891 Lower 8 0.03 KenlyReturn_nc0064891 Lower 9 0.04 96 Name Interp Independent Dependent KenlyReturn_nc0064891 Lower 10 0.04 KenlyReturn_nc0064891 Lower 11 0.05 KenlyReturn_nc0064891 Lower 12 0.06 KinstonWW_nc0024236 Lower 1 0.8 KinstonWW_nc0024236 Lower 2 0.9 KinstonWW_nc0024236 Lower 3 0.87 KinstonWW_nc0024236 Lower 4 0.6 KinstonWW_nc0024236 Lower 5 0.5 KinstonWW_nc0024236 Lower 6 0.46 KinstonWW_nc0024236 Lower 7 0.45 KinstonWW_nc0024236 Lower 8 0.52 KinstonWW_nc0024236 Lower 9 0.58 KinstonWW_nc0024236 Lower 10 0.6 KinstonWW_nc0024236 Lower 11 0.6 KinstonWW_nc0024236 Lower 12 0.67 MonsantoWW_NC0003719 Lower 1 0.07 MonsantoWW_NC0003719 Lower 2 0.06 MonsantoWW_NC0003719 Lower 3 0.06 MonsantoWW_NC0003719 Lower 4 0.07 MonsantoWW_NC0003719 Lower 5 0.04 MonsantoWW_NC0003719 Lower 6 0.06 MonsantoWW_NC0003719 Lower 7 0.05 MonsantoWW_NC0003719 Lower 8 0.07 MonsantoWW_NC0003719 Lower 9 0.08 MonsantoWW_NC0003719 Lower 10 0.07 MonsantoWW_NC0003719 Lower 11 0.07 MonsantoWW_NC0003719 Lower 12 0.07 MorrisReturn Lower 1 1.13 MorrisReturn Lower 2 1.27 MorrisReturn Lower 3 0.99 MorrisReturn Lower 4 0.98 MorrisReturn Lower 5 0.73 MorrisReturn Lower 6 0.56 MorrisReturn Lower 7 0.6 MorrisReturn Lower 8 0.63 MorrisReturn Lower 9 0.76 MorrisReturn Lower 10 0.83 MorrisReturn Lower 11 0.99 MorrisReturn Lower 12 1.11 NorthChathamWTP_nc0084093 Lower 1 0.18 NorthChathamWTP_nc0084093 Lower 2 0.16 NorthChathamWTP_nc0084093 Lower 3 0.19 NorthChathamWTP_nc0084093 Lower 4 0.12 97 Name Interp Independent Dependent NorthChathamWTP_nc0084093 Lower 5 0.14 NorthChathamWTP_nc0084093 Lower 6 0.1 NorthChathamWTP_nc0084093 Lower 7 0.12 NorthChathamWTP_nc0084093 Lower 8 0.12 NorthChathamWTP_nc0084093 Lower 9 0.12 NorthChathamWTP_nc0084093 Lower 10 0.13 NorthChathamWTP_nc0084093 Lower 11 0.13 NorthChathamWTP_nc0084093 Lower 12 0.16 NRWASAReturnWTP_nc0088111 Lower 1 0.08 NRWASAReturnWTP_nc0088111 Lower 2 0.08 NRWASAReturnWTP_nc0088111 Lower 3 0.07 NRWASAReturnWTP_nc0088111 Lower 4 0.06 NRWASAReturnWTP_nc0088111 Lower 5 0.07 NRWASAReturnWTP_nc0088111 Lower 6 0.05 NRWASAReturnWTP_nc0088111 Lower 7 0.04 NRWASAReturnWTP_nc0088111 Lower 8 0.06 NRWASAReturnWTP_nc0088111 Lower 9 0.06 NRWASAReturnWTP_nc0088111 Lower 10 0.08 NRWASAReturnWTP_nc0088111 Lower 11 0.08 NRWASAReturnWTP_nc0088111 Lower 12 0.09 OrAlaReturn_nc0082759 Lower 1 0.09 OrAlaReturn_nc0082759 Lower 2 0.11 OrAlaReturn_nc0082759 Lower 3 0.09 OrAlaReturn_nc0082759 Lower 4 0.13 OrAlaReturn_nc0082759 Lower 5 0.1 OrAlaReturn_nc0082759 Lower 6 0.1 OrAlaReturn_nc0082759 Lower 7 0.09 OrAlaReturn_nc0082759 Lower 8 0.08 OrAlaReturn_nc0082759 Lower 9 0.07 OrAlaReturn_nc0082759 Lower 10 0.08 OrAlaReturn_nc0082759 Lower 11 0.08 OrAlaReturn_nc0082759 Lower 12 0.08 OWASA_WW_nc0025241 Lower 1 1.06 OWASA_WW_nc0025241 Lower 2 1.09 OWASA_WW_nc0025241 Lower 3 1.09 OWASA_WW_nc0025241 Lower 4 0.99 OWASA_WW_nc0025241 Lower 5 0.9 OWASA_WW_nc0025241 Lower 6 0.85 OWASA_WW_nc0025241 Lower 7 0.82 OWASA_WW_nc0025241 Lower 8 0.85 OWASA_WW_nc0025241 Lower 9 0.87 OWASA_WW_nc0025241 Lower 10 0.87 OWASA_WW_nc0025241 Lower 11 0.97 98 Name Interp Independent Dependent OWASA_WW_nc0025241 Lower 12 1.1 PiggybackGate Interp 208.8 0 PiggybackGate Interp 210 4.8 PiggybackGate Interp 215 23.2 PiggybackGate Interp 220 31.6 PiggybackGate Interp 225 38 PiggybackGate Interp 230 44 PiggybackGate Interp 235 48.4 PiggybackGate Interp 240 53.2 PiggybackGate Interp 245 57.6 PiggybackGate Interp 249 60.4 PiggybackGate Interp 250 61.2 PiggybackGate Interp 251.5 62.4 PiggybackGate Interp 255 65.2 PiggybackGate Interp 260 68.4 PiggybackGate Interp 265 71.6 PiggybackGate Interp 270 75.6 PiggybackGate Interp 275 78 PiggybackGate Interp 280 80.8 PiggybackGate Interp 285 83.6 PilgrimsPride_nc0083852 Lower 1 0.11 PilgrimsPride_nc0083852 Lower 2 0.06 PilgrimsPride_nc0083852 Lower 3 0.07 PilgrimsPride_nc0083852 Lower 4 0.06 PilgrimsPride_nc0083852 Lower 5 0.06 PilgrimsPride_nc0083852 Lower 6 0.03 PilgrimsPride_nc0083852 Lower 7 0.04 PilgrimsPride_nc0083852 Lower 8 0.03 PilgrimsPride_nc0083852 Lower 9 0.05 PilgrimsPride_nc0083852 Lower 10 0.03 PilgrimsPride_nc0083852 Lower 11 0.04 PilgrimsPride_nc0083852 Lower 12 0.05 PittsboroWW_nc0020354 Lower 1 0.69 PittsboroWW_nc0020354 Lower 2 0.68 PittsboroWW_nc0020354 Lower 3 0.81 PittsboroWW_nc0020354 Lower 4 0.69 PittsboroWW_nc0020354 Lower 5 0.51 PittsboroWW_nc0020354 Lower 6 0.46 PittsboroWW_nc0020354 Lower 7 0.43 PittsboroWW_nc0020354 Lower 8 0.43 PittsboroWW_nc0020354 Lower 9 0.46 PittsboroWW_nc0020354 Lower 10 0.47 PittsboroWW_nc0020354 Lower 11 0.63 99 Name Interp Independent Dependent PittsboroWW_nc0020354 Lower 12 0.73 ProgressCapeFearWW_nc0003433 Lower 1 1 ProgressCapeFearWW_nc0003433 Lower 2 1 ProgressCapeFearWW_nc0003433 Lower 3 1 ProgressCapeFearWW_nc0003433 Lower 4 1 ProgressCapeFearWW_nc0003433 Lower 5 0.99 ProgressCapeFearWW_nc0003433 Lower 6 0.98 ProgressCapeFearWW_nc0003433 Lower 7 0.97 ProgressCapeFearWW_nc0003433 Lower 8 0.96 ProgressCapeFearWW_nc0003433 Lower 9 0.98 ProgressCapeFearWW_nc0003433 Lower 10 0.99 ProgressCapeFearWW_nc0003433 Lower 11 1 ProgressCapeFearWW_nc0003433 Lower 12 1 ProgressHarrisWW_nc0039586 Lower 1 0.65 ProgressHarrisWW_nc0039586 Lower 2 0.66 ProgressHarrisWW_nc0039586 Lower 3 0.66 ProgressHarrisWW_nc0039586 Lower 4 0.64 ProgressHarrisWW_nc0039586 Lower 5 0.64 ProgressHarrisWW_nc0039586 Lower 6 0.64 ProgressHarrisWW_nc0039586 Lower 7 0.67 ProgressHarrisWW_nc0039586 Lower 8 0.64 ProgressHarrisWW_nc0039586 Lower 9 0.64 ProgressHarrisWW_nc0039586 Lower 10 0.59 ProgressHarrisWW_nc0039586 Lower 11 0.34 ProgressHarrisWW_nc0039586 Lower 12 0.62 RaleighReturn_nc0029033 Lower 1 0.97 RaleighReturn_nc0029033 Lower 2 0.97 RaleighReturn_nc0029033 Lower 3 1 RaleighReturn_nc0029033 Lower 4 0.91 RaleighReturn_nc0029033 Lower 5 0.81 RaleighReturn_nc0029033 Lower 6 0.72 RaleighReturn_nc0029033 Lower 7 0.68 RaleighReturn_nc0029033 Lower 8 0.73 RaleighReturn_nc0029033 Lower 9 0.78 RaleighReturn_nc0029033 Lower 10 0.81 RaleighReturn_nc0029033 Lower 11 0.91 RaleighReturn_nc0029033 Lower 12 0.95 RalLitCrReturn_nc0079316 Lower 1 0.02 RalLitCrReturn_nc0079316 Lower 2 0.02 RalLitCrReturn_nc0079316 Lower 3 0.02 RalLitCrReturn_nc0079316 Lower 4 0.02 RalLitCrReturn_nc0079316 Lower 5 0.01 RalLitCrReturn_nc0079316 Lower 6 0.01 100 Name Interp Independent Dependent RalLitCrReturn_nc0079316 Lower 7 0.01 RalLitCrReturn_nc0079316 Lower 8 0.01 RalLitCrReturn_nc0079316 Lower 9 0.01 RalLitCrReturn_nc0079316 Lower 10 0.01 RalLitCrReturn_nc0079316 Lower 11 0.01 RalLitCrReturn_nc0079316 Lower 12 0.02 RalSmithCrReturn_nc0030759 Lower 1 0.58 RalSmithCrReturn_nc0030759 Lower 2 0.56 RalSmithCrReturn_nc0030759 Lower 3 0.55 RalSmithCrReturn_nc0030759 Lower 4 0.5 RalSmithCrReturn_nc0030759 Lower 5 0.44 RalSmithCrReturn_nc0030759 Lower 6 0.39 RalSmithCrReturn_nc0030759 Lower 7 0.38 RalSmithCrReturn_nc0030759 Lower 8 0.41 RalSmithCrReturn_nc0030759 Lower 9 0.43 RalSmithCrReturn_nc0030759 Lower 10 0.47 RalSmithCrReturn_nc0030759 Lower 11 0.56 RalSmithCrReturn_nc0030759 Lower 12 0.59 RamseurWW_NC0026565 Lower 1 0.39 RamseurWW_NC0026565 Lower 2 0.4 RamseurWW_NC0026565 Lower 3 0.44 RamseurWW_NC0026565 Lower 4 0.39 RamseurWW_NC0026565 Lower 5 0.32 RamseurWW_NC0026565 Lower 6 0.27 RamseurWW_NC0026565 Lower 7 0.26 RamseurWW_NC0026565 Lower 8 0.25 RamseurWW_NC0026565 Lower 9 0.26 RamseurWW_NC0026565 Lower 10 0.3 RamseurWW_NC0026565 Lower 11 0.41 RamseurWW_NC0026565 Lower 12 0.43 RandlemanWW_NC0025445 Lower 1 1 RandlemanWW_NC0025445 Lower 2 1 RandlemanWW_NC0025445 Lower 3 1 RandlemanWW_NC0025445 Lower 4 1 RandlemanWW_NC0025445 Lower 5 1 RandlemanWW_NC0025445 Lower 6 1 RandlemanWW_NC0025445 Lower 7 1 RandlemanWW_NC0025445 Lower 8 1 RandlemanWW_NC0025445 Lower 9 1 RandlemanWW_NC0025445 Lower 10 1 RandlemanWW_NC0025445 Lower 11 1 RandlemanWW_NC0025445 Lower 12 1 ReidsvilleWTP_WW_nc0046345 Lower 1 0.14 101 Name Interp Independent Dependent ReidsvilleWTP_WW_nc0046345 Lower 2 0.25 ReidsvilleWTP_WW_nc0046345 Lower 3 0.06 ReidsvilleWTP_WW_nc0046345 Lower 4 0.13 ReidsvilleWTP_WW_nc0046345 Lower 5 0.17 ReidsvilleWTP_WW_nc0046345 Lower 6 0.02 ReidsvilleWTP_WW_nc0046345 Lower 7 0.03 ReidsvilleWTP_WW_nc0046345 Lower 8 0.03 ReidsvilleWTP_WW_nc0046345 Lower 9 0.02 ReidsvilleWTP_WW_nc0046345 Lower 10 0.05 ReidsvilleWTP_WW_nc0046345 Lower 11 0.06 ReidsvilleWTP_WW_nc0046345 Lower 12 0.14 ReidsvilleWWTP_NC0024881 Lower 1 0.61 ReidsvilleWWTP_NC0024881 Lower 2 0.62 ReidsvilleWWTP_NC0024881 Lower 3 0.56 ReidsvilleWWTP_NC0024881 Lower 4 0.53 ReidsvilleWWTP_NC0024881 Lower 5 0.55 ReidsvilleWWTP_NC0024881 Lower 6 0.51 ReidsvilleWWTP_NC0024881 Lower 7 0.44 ReidsvilleWWTP_NC0024881 Lower 8 0.39 ReidsvilleWWTP_NC0024881 Lower 9 0.4 ReidsvilleWWTP_NC0024881 Lower 10 0.44 ReidsvilleWWTP_NC0024881 Lower 11 0.46 ReidsvilleWWTP_NC0024881 Lower 12 0.51 RTPReturn Lower 1 0.73 RTPReturn Lower 2 0.72 RTPReturn Lower 3 0.6 RTPReturn Lower 4 0.63 RTPReturn Lower 5 0.46 RTPReturn Lower 6 0.35 RTPReturn Lower 7 0.37 RTPReturn Lower 8 0.36 RTPReturn Lower 9 0.44 RTPReturn Lower 10 0.5 RTPReturn Lower 11 0.59 RTPReturn Lower 12 0.7 Sanford_WWTP_nc0024147 Lower 1 0.71 Sanford_WWTP_nc0024147 Lower 2 0.75 Sanford_WWTP_nc0024147 Lower 3 0.8 Sanford_WWTP_nc0024147 Lower 4 0.67 Sanford_WWTP_nc0024147 Lower 5 0.56 Sanford_WWTP_nc0024147 Lower 6 0.52 Sanford_WWTP_nc0024147 Lower 7 0.52 Sanford_WWTP_nc0024147 Lower 8 0.52 102 Name Interp Independent Dependent Sanford_WWTP_nc0024147 Lower 9 0.54 Sanford_WWTP_nc0024147 Lower 10 0.54 Sanford_WWTP_nc0024147 Lower 11 0.65 Sanford_WWTP_nc0024147 Lower 12 0.69 SanfordWW_nc0002861&nc0059242 Lower 1 0.16 SanfordWW_nc0002861&nc0059242 Lower 2 0.16 SanfordWW_nc0002861&nc0059242 Lower 3 0.16 SanfordWW_nc0002861&nc0059242 Lower 4 0.12 SanfordWW_nc0002861&nc0059242 Lower 5 0.09 SanfordWW_nc0002861&nc0059242 Lower 6 0.08 SanfordWW_nc0002861&nc0059242 Lower 7 0.07 SanfordWW_nc0002861&nc0059242 Lower 8 0.08 SanfordWW_nc0002861&nc0059242 Lower 9 0.08 SanfordWW_nc0002861&nc0059242 Lower 10 0.07 SanfordWW_nc0002861&nc0059242 Lower 11 0.08 SanfordWW_nc0002861&nc0059242 Lower 12 0.09 SfieldReturn Lower 1 1.08 SfieldReturn Lower 2 1.09 SfieldReturn Lower 3 1.18 SfieldReturn Lower 4 0.79 SfieldReturn Lower 5 0.62 SfieldReturn Lower 6 0.52 SfieldReturn Lower 7 0.5 SfieldReturn Lower 8 0.56 SfieldReturn Lower 9 0.59 SfieldReturn Lower 10 0.63 SfieldReturn Lower 11 0.95 SfieldReturn Lower 12 0.91 SGWASAReturn_nc0026824 Lower 1 0.7 SGWASAReturn_nc0026824 Lower 2 0.74 SGWASAReturn_nc0026824 Lower 3 0.76 SGWASAReturn_nc0026824 Lower 4 0.59 SGWASAReturn_nc0026824 Lower 5 0.64 SGWASAReturn_nc0026824 Lower 6 0.54 SGWASAReturn_nc0026824 Lower 7 0.48 SGWASAReturn_nc0026824 Lower 8 0.52 SGWASAReturn_nc0026824 Lower 9 0.53 SGWASAReturn_nc0026824 Lower 10 0.53 SGWASAReturn_nc0026824 Lower 11 0.7 SGWASAReturn_nc0026824 Lower 12 0.76 SilerCityWW_nc0026441 Lower 1 0.96 SilerCityWW_nc0026441 Lower 2 0.97 SilerCityWW_nc0026441 Lower 3 1 103 Name Interp Independent Dependent SilerCityWW_nc0026441 Lower 4 1 SilerCityWW_nc0026441 Lower 5 0.89 SilerCityWW_nc0026441 Lower 6 0.82 SilerCityWW_nc0026441 Lower 7 0.74 SilerCityWW_nc0026441 Lower 8 0.72 SilerCityWW_nc0026441 Lower 9 0.82 SilerCityWW_nc0026441 Lower 10 1 SilerCityWW_nc0026441 Lower 11 0.99 SilerCityWW_nc0026441 Lower 12 1 SpringLakeWWTP_NC0030970 Lower 1 0.91 SpringLakeWWTP_NC0030970 Lower 2 0.98 SpringLakeWWTP_NC0030970 Lower 3 1.06 SpringLakeWWTP_NC0030970 Lower 4 0.95 SpringLakeWWTP_NC0030970 Lower 5 0.87 SpringLakeWWTP_NC0030970 Lower 6 1.05 SpringLakeWWTP_NC0030970 Lower 7 0.82 SpringLakeWWTP_NC0030970 Lower 8 0.83 SpringLakeWWTP_NC0030970 Lower 9 0.86 SpringLakeWWTP_NC0030970 Lower 10 0.83 SpringLakeWWTP_NC0030970 Lower 11 0.85 SpringLakeWWTP_NC0030970 Lower 12 0.94 Total_HarnettWW Lower 1 0.63 Total_HarnettWW Lower 2 0.68 Total_HarnettWW Lower 3 0.68 Total_HarnettWW Lower 4 0.6 Total_HarnettWW Lower 5 0.48 Total_HarnettWW Lower 6 0.48 Total_HarnettWW Lower 7 0.48 Total_HarnettWW Lower 8 0.55 Total_HarnettWW Lower 9 0.54 Total_HarnettWW Lower 10 0.55 Total_HarnettWW Lower 11 0.59 Total_HarnettWW Lower 12 0.64 WestWakeWRFReturn Lower 1 0.98 WestWakeWRFReturn Lower 2 1.05 WestWakeWRFReturn Lower 3 1.04 WestWakeWRFReturn Lower 4 1.01 WestWakeWRFReturn Lower 5 0.96 WestWakeWRFReturn Lower 6 0.96 WestWakeWRFReturn Lower 7 0.93 WestWakeWRFReturn Lower 8 1.03 WestWakeWRFReturn Lower 9 0.97 WestWakeWRFReturn Lower 10 0.96 104 Name Interp Independent Dependent WestWakeWRFReturn Lower 11 0.97 WestWakeWRFReturn Lower 12 0.97 WeyerhaeuserWW_nc0023442 Lower 1 0.22 WeyerhaeuserWW_nc0023442 Lower 2 0.18 WeyerhaeuserWW_nc0023442 Lower 3 0.15 WeyerhaeuserWW_nc0023442 Lower 4 0.33 WeyerhaeuserWW_nc0023442 Lower 5 0.21 WeyerhaeuserWW_nc0023442 Lower 6 0.25 WeyerhaeuserWW_nc0023442 Lower 7 0.17 WeyerhaeuserWW_nc0023442 Lower 8 0.19 WeyerhaeuserWW_nc0023442 Lower 9 0.11 WeyerhaeuserWW_nc0023442 Lower 10 0.19 WeyerhaeuserWW_nc0023442 Lower 11 0.1 WeyerhaeuserWW_nc0023442 Lower 12 0.06 WeyerReturn_nc0003191 Lower 1 0.92 WeyerReturn_nc0003191 Lower 2 0.97 WeyerReturn_nc0003191 Lower 3 0.95 WeyerReturn_nc0003191 Lower 4 0.96 WeyerReturn_nc0003191 Lower 5 0.98 WeyerReturn_nc0003191 Lower 6 0.95 WeyerReturn_nc0003191 Lower 7 0.95 WeyerReturn_nc0003191 Lower 8 0.97 WeyerReturn_nc0003191 Lower 9 1.28 WeyerReturn_nc0003191 Lower 10 0.84 WeyerReturn_nc0003191 Lower 11 0.96 WeyerReturn_nc0003191 Lower 12 0.94 WilsonReturn_nc0023906 Lower 1 1.13 WilsonReturn_nc0023906 Lower 2 1.17 WilsonReturn_nc0023906 Lower 3 1.21 WilsonReturn_nc0023906 Lower 4 0.96 WilsonReturn_nc0023906 Lower 5 0.74 WilsonReturn_nc0023906 Lower 6 0.62 WilsonReturn_nc0023906 Lower 7 0.58 WilsonReturn_nc0023906 Lower 8 0.62 WilsonReturn_nc0023906 Lower 9 0.75 WilsonReturn_nc0023906 Lower 10 0.7 WilsonReturn_nc0023906 Lower 11 0.9 WilsonReturn_nc0023906 Lower 12 1.01 105 Independent Wastewater Return Patterns Node No. Name units factor Month Day Inflow julSort 148 Martin Marietta-Hicone WW Return mgd 0 1 1 1 1 148 Martin Marietta-Hicone WW Return mgd 0 1 31 1 31 148 Martin Marietta-Hicone WW Return mgd 0 2 1 1 32 148 Martin Marietta-Hicone WW Return mgd 0 2 29 1 60 148 Martin Marietta-Hicone WW Return mgd 0 3 1 1 61 148 Martin Marietta-Hicone WW Return mgd 0 3 31 1 91 148 Martin Marietta-Hicone WW Return mgd 0 4 1 1 92 148 Martin Marietta-Hicone WW Return mgd 0 4 30 1 121 148 Martin Marietta-Hicone WW Return mgd 0 5 1 1 122 148 Martin Marietta-Hicone WW Return mgd 0 5 31 1 152 148 Martin Marietta-Hicone WW Return mgd 0 6 1 1 153 148 Martin Marietta-Hicone WW Return mgd 0 6 30 1 182 148 Martin Marietta-Hicone WW Return mgd 0 7 1 1 183 148 Martin Marietta-Hicone WW Return mgd 0 7 31 1 213 148 Martin Marietta-Hicone WW Return mgd 0 8 1 1 214 148 Martin Marietta-Hicone WW Return mgd 0 8 31 1 244 148 Martin Marietta-Hicone WW Return mgd 0 9 1 1 245 148 Martin Marietta-Hicone WW Return mgd 0 9 30 1 274 148 Martin Marietta-Hicone WW Return mgd 0 10 1 1 275 148 Martin Marietta-Hicone WW Return mgd 0 10 31 1 305 148 Martin Marietta-Hicone WW Return mgd 0 11 1 1 306 148 Martin Marietta-Hicone WW Return mgd 0 11 30 1 335 148 Martin Marietta-Hicone WW Return mgd 0 12 1 1 336 148 Martin Marietta-Hicone WW Return mgd 0 12 31 1 366 192 Colonial Pipeline WW Return mgd 0.1 1 1 1.2 1 192 Colonial Pipeline WW Return mgd 0.1 1 31 1.2 31 192 Colonial Pipeline WW Return mgd 0.1 2 1 2.46 32 192 Colonial Pipeline WW Return mgd 0.1 2 29 2.46 60 192 Colonial Pipeline WW Return mgd 0.1 3 1 0.47 61 192 Colonial Pipeline WW Return mgd 0.1 3 31 0.47 91 192 Colonial Pipeline WW Return mgd 0.1 4 1 0.53 92 192 Colonial Pipeline WW Return mgd 0.1 4 30 0.53 121 192 Colonial Pipeline WW Return mgd 0.1 5 1 0.47 122 192 Colonial Pipeline WW Return mgd 0.1 5 31 0.47 152 192 Colonial Pipeline WW Return mgd 0.1 6 1 0.95 153 192 Colonial Pipeline WW Return mgd 0.1 6 30 0.95 182 192 Colonial Pipeline WW Return mgd 0.1 7 1 0.35 183 192 Colonial Pipeline WW Return mgd 0.1 7 31 0.35 213 192 Colonial Pipeline WW Return mgd 0.1 8 1 0.38 214 192 Colonial Pipeline WW Return mgd 0.1 8 31 0.38 244 192 Colonial Pipeline WW Return mgd 0.1 9 1 1.96 245 192 Colonial Pipeline WW Return mgd 0.1 9 30 1.96 274 192 Colonial Pipeline WW Return mgd 0.1 10 1 0.36 275 192 Colonial Pipeline WW Return mgd 0.1 10 31 0.36 305 192 Colonial Pipeline WW Return mgd 0.1 11 1 0.15 306 192 Colonial Pipeline WW Return mgd 0.1 11 30 0.15 335 192 Colonial Pipeline WW Return mgd 0.1 12 1 2.73 336 192 Colonial Pipeline WW Return mgd 0.1 12 31 2.73 366 282 Asheboro WW Return_nc0026123 mgd 3.6 5 31 0.98 152 282 Asheboro WW Return_nc0026123 mgd 3.6 6 1 0.94 153 282 Asheboro WW Return_nc0026123 mgd 3.6 6 30 0.94 182 282 Asheboro WW Return_nc0026123 mgd 3.6 7 1 0.87 183 282 Asheboro WW Return_nc0026123 mgd 3.6 7 31 0.87 213 282 Asheboro WW Return_nc0026123 mgd 3.6 8 1 0.86 214 106 Node No. Name units factor Month Day Inflow julSort 282 Asheboro WW Return_nc0026123 mgd 3.6 8 31 0.86 244 282 Asheboro WW Return_nc0026123 mgd 3.6 9 1 0.91 245 282 Asheboro WW Return_nc0026123 mgd 3.6 9 30 0.91 274 282 Asheboro WW Return_nc0026123 mgd 3.6 10 1 0.9 275 282 Asheboro WW Return_nc0026123 mgd 3.6 10 31 0.9 305 282 Asheboro WW Return_nc0026123 mgd 3.6 11 1 0.96 306 282 Asheboro WW Return_nc0026123 mgd 3.6 11 30 0.96 335 282 Asheboro WW Return_nc0026123 mgd 3.6 12 1 1.05 336 282 Asheboro WW Return_nc0026123 mgd 3.6 12 31 1.05 366 282 Asheboro WW Return_nc0026123 mgd 3.6 1 1 1.06 1 282 Asheboro WW Return_nc0026123 mgd 3.6 1 31 1.06 31 282 Asheboro WW Return_nc0026123 mgd 3.6 2 1 1.12 32 282 Asheboro WW Return_nc0026123 mgd 3.6 2 29 1.12 60 282 Asheboro WW Return_nc0026123 mgd 3.6 3 1 1.23 61 282 Asheboro WW Return_nc0026123 mgd 3.6 3 31 1.23 91 282 Asheboro WW Return_nc0026123 mgd 3.6 4 1 1.13 92 282 Asheboro WW Return_nc0026123 mgd 3.6 4 30 1.13 121 282 Asheboro WW Return_nc0026123 mgd 3.6 5 1 0.98 122 464 Fearington Utilities WW_nc0043559 mgd 0.01 1 1 0.14 1 464 Fearington Utilities WW_nc0043559 mgd 0.01 1 31 0.14 31 464 Fearington Utilities WW_nc0043559 mgd 0.01 2 1 0.14 32 464 Fearington Utilities WW_nc0043559 mgd 0.01 2 29 0.14 60 464 Fearington Utilities WW_nc0043559 mgd 0.01 3 1 0.14 61 464 Fearington Utilities WW_nc0043559 mgd 0.01 3 31 0.14 91 464 Fearington Utilities WW_nc0043559 mgd 0.01 4 1 0.14 92 464 Fearington Utilities WW_nc0043559 mgd 0.01 4 30 0.14 121 464 Fearington Utilities WW_nc0043559 mgd 0.01 5 1 0.14 122 464 Fearington Utilities WW_nc0043559 mgd 0.01 5 31 0.14 152 464 Fearington Utilities WW_nc0043559 mgd 0.01 6 1 0.14 153 464 Fearington Utilities WW_nc0043559 mgd 0.01 6 30 0.14 182 464 Fearington Utilities WW_nc0043559 mgd 0.01 7 1 0.14 183 464 Fearington Utilities WW_nc0043559 mgd 0.01 7 31 0.14 213 464 Fearington Utilities WW_nc0043559 mgd 0.01 8 1 0.14 214 464 Fearington Utilities WW_nc0043559 mgd 0.01 8 31 0.14 244 464 Fearington Utilities WW_nc0043559 mgd 0.01 9 1 0.14 245 464 Fearington Utilities WW_nc0043559 mgd 0.01 9 30 0.14 274 464 Fearington Utilities WW_nc0043559 mgd 0.01 10 1 0.14 275 464 Fearington Utilities WW_nc0043559 mgd 0.01 10 31 0.14 305 464 Fearington Utilities WW_nc0043559 mgd 0.01 11 1 0.14 306 464 Fearington Utilities WW_nc0043559 mgd 0.01 11 30 0.14 335 464 Fearington Utilities WW_nc0043559 mgd 0.01 12 1 0.14 336 464 Fearington Utilities WW_nc0043559 mgd 0.01 12 31 0.14 366 591 Robbins Demand_03-63-015 mgd 1 1 1 1.17 1 591 Robbins Demand_03-63-015 mgd 1 1 31 1.17 31 591 Robbins Demand_03-63-015 mgd 1 2 1 1.3 32 591 Robbins Demand_03-63-015 mgd 1 2 29 1.3 60 591 Robbins Demand_03-63-015 mgd 1 3 1 1.4 61 591 Robbins Demand_03-63-015 mgd 1 3 31 1.4 91 591 Robbins Demand_03-63-015 mgd 1 4 1 1.04 92 591 Robbins Demand_03-63-015 mgd 1 4 30 1.04 121 591 Robbins Demand_03-63-015 mgd 1 5 1 0.85 122 591 Robbins Demand_03-63-015 mgd 1 5 31 0.85 152 591 Robbins Demand_03-63-015 mgd 1 6 1 0.67 153 591 Robbins Demand_03-63-015 mgd 1 6 30 0.67 182 591 Robbins Demand_03-63-015 mgd 1 7 1 0.61 183 107 Node No. Name units factor Month Day Inflow julSort 591 Robbins Demand_03-63-015 mgd 1 7 31 0.61 213 591 Robbins Demand_03-63-015 mgd 1 8 1 0.55 214 591 Robbins Demand_03-63-015 mgd 1 8 31 0.55 244 591 Robbins Demand_03-63-015 mgd 1 9 1 0.76 245 591 Robbins Demand_03-63-015 mgd 1 9 30 0.76 274 591 Robbins Demand_03-63-015 mgd 1 10 1 0.7 275 591 Robbins Demand_03-63-015 mgd 1 10 31 0.7 305 591 Robbins Demand_03-63-015 mgd 1 11 1 0.88 306 591 Robbins Demand_03-63-015 mgd 1 11 30 0.88 335 591 Robbins Demand_03-63-015 mgd 1 12 1 1.08 336 591 Robbins Demand_03-63-015 mgd 1 12 31 1.08 366 592 Star WWTP Return_nc0058548 mgd 0.05 1 1 0.07 1 592 Star WWTP Return_nc0058548 mgd 0.05 1 31 0.07 31 592 Star WWTP Return_nc0058548 mgd 0.05 2 1 0.08 32 592 Star WWTP Return_nc0058548 mgd 0.05 2 29 0.08 60 592 Star WWTP Return_nc0058548 mgd 0.05 3 1 0.09 61 592 Star WWTP Return_nc0058548 mgd 0.05 3 31 0.09 91 592 Star WWTP Return_nc0058548 mgd 0.05 4 1 0.07 92 592 Star WWTP Return_nc0058548 mgd 0.05 4 30 0.07 121 592 Star WWTP Return_nc0058548 mgd 0.05 5 1 0.06 122 592 Star WWTP Return_nc0058548 mgd 0.05 5 31 0.06 152 592 Star WWTP Return_nc0058548 mgd 0.05 6 1 0.06 153 592 Star WWTP Return_nc0058548 mgd 0.05 6 30 0.06 182 592 Star WWTP Return_nc0058548 mgd 0.05 7 1 0.06 183 592 Star WWTP Return_nc0058548 mgd 0.05 7 31 0.06 213 592 Star WWTP Return_nc0058548 mgd 0.05 8 1 0.05 214 592 Star WWTP Return_nc0058548 mgd 0.05 8 31 0.05 244 592 Star WWTP Return_nc0058548 mgd 0.05 9 1 0.05 245 592 Star WWTP Return_nc0058548 mgd 0.05 9 30 0.05 274 592 Star WWTP Return_nc0058548 mgd 0.05 10 1 0.05 275 592 Star WWTP Return_nc0058548 mgd 0.05 10 31 0.05 305 592 Star WWTP Return_nc0058548 mgd 0.05 11 1 0.05 306 592 Star WWTP Return_nc0058548 mgd 0.05 11 30 0.05 335 592 Star WWTP Return_nc0058548 mgd 0.05 12 1 0.06 336 592 Star WWTP Return_nc0058548 mgd 0.05 12 31 0.06 366 772 Raeford WWTP Return_nc0026514 mgd 4.1 1 1 0.93 1 772 Raeford WWTP Return_nc0026514 mgd 4.1 1 31 0.93 31 772 Raeford WWTP Return_nc0026514 mgd 4.1 2 1 1.11 32 772 Raeford WWTP Return_nc0026514 mgd 4.1 2 29 1.11 60 772 Raeford WWTP Return_nc0026514 mgd 4.1 3 1 1.02 61 772 Raeford WWTP Return_nc0026514 mgd 4.1 3 31 1.02 91 772 Raeford WWTP Return_nc0026514 mgd 4.1 4 1 1.3 92 772 Raeford WWTP Return_nc0026514 mgd 4.1 4 30 1.3 121 772 Raeford WWTP Return_nc0026514 mgd 4.1 5 1 1.37 122 772 Raeford WWTP Return_nc0026514 mgd 4.1 5 31 1.37 152 772 Raeford WWTP Return_nc0026514 mgd 4.1 6 1 1.16 153 772 Raeford WWTP Return_nc0026514 mgd 4.1 6 30 1.16 182 772 Raeford WWTP Return_nc0026514 mgd 4.1 7 1 1.09 183 772 Raeford WWTP Return_nc0026514 mgd 4.1 7 31 1.09 213 772 Raeford WWTP Return_nc0026514 mgd 4.1 8 1 1.08 214 772 Raeford WWTP Return_nc0026514 mgd 4.1 8 31 1.08 244 772 Raeford WWTP Return_nc0026514 mgd 4.1 9 1 0.65 245 772 Raeford WWTP Return_nc0026514 mgd 4.1 9 30 0.65 274 772 Raeford WWTP Return_nc0026514 mgd 4.1 10 1 0.86 275 772 Raeford WWTP Return_nc0026514 mgd 4.1 10 31 0.86 305 108 Node No. Name units factor Month Day Inflow julSort 772 Raeford WWTP Return_nc0026514 mgd 4.1 11 1 0.84 306 772 Raeford WWTP Return_nc0026514 mgd 4.1 11 30 0.84 335 772 Raeford WWTP Return_nc0026514 mgd 4.1 12 1 0.58 336 772 Raeford WWTP Return_nc0026514 mgd 4.1 12 31 0.58 366 910 Franklinville WW NC007820 mgd 0.04 1 1 1.1 1 910 Franklinville WW NC007820 mgd 0.04 1 31 1.1 31 910 Franklinville WW NC007820 mgd 0.04 2 1 1.09 32 910 Franklinville WW NC007820 mgd 0.04 2 29 1.09 60 910 Franklinville WW NC007820 mgd 0.04 3 1 1.2 61 910 Franklinville WW NC007820 mgd 0.04 3 31 1.2 91 910 Franklinville WW NC007820 mgd 0.04 4 1 1.14 92 910 Franklinville WW NC007820 mgd 0.04 4 30 1.14 121 910 Franklinville WW NC007820 mgd 0.04 5 1 0.98 122 910 Franklinville WW NC007820 mgd 0.04 5 31 0.98 152 910 Franklinville WW NC007820 mgd 0.04 6 1 0.92 153 910 Franklinville WW NC007820 mgd 0.04 6 30 0.92 182 910 Franklinville WW NC007820 mgd 0.04 7 1 0.8 183 910 Franklinville WW NC007820 mgd 0.04 7 31 0.8 213 910 Franklinville WW NC007820 mgd 0.04 8 1 0.8 214 910 Franklinville WW NC007820 mgd 0.04 8 31 0.8 244 910 Franklinville WW NC007820 mgd 0.04 9 1 0.88 245 910 Franklinville WW NC007820 mgd 0.04 9 30 0.88 274 910 Franklinville WW NC007820 mgd 0.04 10 1 0.87 275 910 Franklinville WW NC007820 mgd 0.04 10 31 0.87 305 910 Franklinville WW NC007820 mgd 0.04 11 1 1.03 306 910 Franklinville WW NC007820 mgd 0.04 11 30 1.03 335 910 Franklinville WW NC007820 mgd 0.04 12 1 1.18 336 910 Franklinville WW NC007820 mgd 0.04 12 31 1.18 366 960 Elizabethtown WWTP Return_nc0026671 mgd 1.25 1 1 1.19 1 960 Elizabethtown WWTP Return_nc0026671 mgd 1.25 1 31 1.19 31 960 Elizabethtown WWTP Return_nc0026671 mgd 1.25 2 1 1.21 32 960 Elizabethtown WWTP Return_nc0026671 mgd 1.25 2 29 1.21 60 960 Elizabethtown WWTP Return_nc0026671 mgd 1.25 3 1 1.16 61 960 Elizabethtown WWTP Return_nc0026671 mgd 1.25 3 31 1.16 91 960 Elizabethtown WWTP Return_nc0026671 mgd 1.25 4 1 1 92 960 Elizabethtown WWTP Return_nc0026671 mgd 1.25 4 30 1 121 960 Elizabethtown WWTP Return_nc0026671 mgd 1.25 5 1 0.87 122 960 Elizabethtown WWTP Return_nc0026671 mgd 1.25 5 31 0.87 152 960 Elizabethtown WWTP Return_nc0026671 mgd 1.25 6 1 0.82 153 960 Elizabethtown WWTP Return_nc0026671 mgd 1.25 6 30 0.82 182 960 Elizabethtown WWTP Return_nc0026671 mgd 1.25 7 1 0.85 183 960 Elizabethtown WWTP Return_nc0026671 mgd 1.25 7 31 0.85 213 960 Elizabethtown WWTP Return_nc0026671 mgd 1.25 8 1 0.87 214 960 Elizabethtown WWTP Return_nc0026671 mgd 1.25 8 31 0.87 244 960 Elizabethtown WWTP Return_nc0026671 mgd 1.25 9 1 0.94 245 960 Elizabethtown WWTP Return_nc0026671 mgd 1.25 9 30 0.94 274 960 Elizabethtown WWTP Return_nc0026671 mgd 1.25 10 1 0.97 275 960 Elizabethtown WWTP Return_nc0026671 mgd 1.25 10 31 0.97 305 960 Elizabethtown WWTP Return_nc0026671 mgd 1.25 11 1 1.05 306 960 Elizabethtown WWTP Return_nc0026671 mgd 1.25 11 30 1.05 335 960 Elizabethtown WWTP Return_nc0026671 mgd 1.25 12 1 1.07 336 960 Elizabethtown WWTP Return_nc0026671 mgd 1.25 12 31 1.07 366 1307 Riverplace II LLC Discharge_nc0001376 mgd 0.1 1 1 0 1 1307 Riverplace II LLC Discharge_nc0001376 mgd 0.1 1 31 0 31 1307 Riverplace II LLC Discharge_nc0001376 mgd 0.1 2 1 4.21 32 109 Node No. Name units factor Month Day Inflow julSort 1307 Riverplace II LLC Discharge_nc0001376 mgd 0.1 2 29 4.21 60 1307 Riverplace II LLC Discharge_nc0001376 mgd 0.1 3 1 0 61 1307 Riverplace II LLC Discharge_nc0001376 mgd 0.1 3 31 0 91 1307 Riverplace II LLC Discharge_nc0001376 mgd 0.1 4 1 0 92 1307 Riverplace II LLC Discharge_nc0001376 mgd 0.1 4 30 0 121 1307 Riverplace II LLC Discharge_nc0001376 mgd 0.1 5 1 0 122 1307 Riverplace II LLC Discharge_nc0001376 mgd 0.1 5 31 0 152 1307 Riverplace II LLC Discharge_nc0001376 mgd 0.1 6 1 0 153 1307 Riverplace II LLC Discharge_nc0001376 mgd 0.1 6 30 0 182 1307 Riverplace II LLC Discharge_nc0001376 mgd 0.1 7 1 0 183 1307 Riverplace II LLC Discharge_nc0001376 mgd 0.1 7 31 0 213 1307 Riverplace II LLC Discharge_nc0001376 mgd 0.1 8 1 0 214 1307 Riverplace II LLC Discharge_nc0001376 mgd 0.1 8 31 0 244 1307 Riverplace II LLC Discharge_nc0001376 mgd 0.1 9 1 0 245 1307 Riverplace II LLC Discharge_nc0001376 mgd 0.1 9 30 0 274 1307 Riverplace II LLC Discharge_nc0001376 mgd 0.1 10 1 0 275 1307 Riverplace II LLC Discharge_nc0001376 mgd 0.1 10 31 0 305 1307 Riverplace II LLC Discharge_nc0001376 mgd 0.1 11 1 7.79 306 1307 Riverplace II LLC Discharge_nc0001376 mgd 0.1 11 30 7.79 335 1307 Riverplace II LLC Discharge_nc0001376 mgd 0.1 12 1 7.79 336 1307 Riverplace II LLC Discharge_nc0001376 mgd 0.1 12 31 7.79 366 1407 Motiva Enterprises WW_nc0022217 mgd 0.17 1 1 1 1 1407 Motiva Enterprises WW_nc0022217 mgd 0.17 1 31 1 31 1407 Motiva Enterprises WW_nc0022217 mgd 0.17 2 1 1 32 1407 Motiva Enterprises WW_nc0022217 mgd 0.17 2 29 1 60 1407 Motiva Enterprises WW_nc0022217 mgd 0.17 3 1 1 61 1407 Motiva Enterprises WW_nc0022217 mgd 0.17 3 31 1 91 1407 Motiva Enterprises WW_nc0022217 mgd 0.17 4 1 1 92 1407 Motiva Enterprises WW_nc0022217 mgd 0.17 4 30 1 121 1407 Motiva Enterprises WW_nc0022217 mgd 0.17 5 1 1 122 1407 Motiva Enterprises WW_nc0022217 mgd 0.17 5 31 1 152 1407 Motiva Enterprises WW_nc0022217 mgd 0.17 6 1 1 153 1407 Motiva Enterprises WW_nc0022217 mgd 0.17 6 30 1 182 1407 Motiva Enterprises WW_nc0022217 mgd 0.17 7 1 1 183 1407 Motiva Enterprises WW_nc0022217 mgd 0.17 7 31 1 213 1407 Motiva Enterprises WW_nc0022217 mgd 0.17 8 1 1 214 1407 Motiva Enterprises WW_nc0022217 mgd 0.17 8 31 1 244 1407 Motiva Enterprises WW_nc0022217 mgd 0.17 9 1 1 245 1407 Motiva Enterprises WW_nc0022217 mgd 0.17 9 30 1 274 1407 Motiva Enterprises WW_nc0022217 mgd 0.17 10 1 1 275 1407 Motiva Enterprises WW_nc0022217 mgd 0.17 10 31 1 305 1407 Motiva Enterprises WW_nc0022217 mgd 0.17 11 1 1 306 1407 Motiva Enterprises WW_nc0022217 mgd 0.17 11 30 1 335 1407 Motiva Enterprises WW_nc0022217 mgd 0.17 12 1 1 336 1407 Motiva Enterprises WW_nc0022217 mgd 0.17 12 31 1 366 1563 Stantonsburg WWTP_nc0007536 mgd 0.22 1 1 1.11 1 1563 Stantonsburg WWTP_nc0007536 mgd 0.22 1 31 1.11 31 1563 Stantonsburg WWTP_nc0007536 mgd 0.22 2 1 1.57 32 1563 Stantonsburg WWTP_nc0007536 mgd 0.22 2 29 1.57 60 1563 Stantonsburg WWTP_nc0007536 mgd 0.22 3 1 1.16 61 1563 Stantonsburg WWTP_nc0007536 mgd 0.22 3 31 1.16 91 1563 Stantonsburg WWTP_nc0007536 mgd 0.22 4 1 0.83 92 1563 Stantonsburg WWTP_nc0007536 mgd 0.22 4 30 0.83 121 1563 Stantonsburg WWTP_nc0007536 mgd 0.22 5 1 1.14 122 1563 Stantonsburg WWTP_nc0007536 mgd 0.22 5 31 1.14 152 110 Node No. Name units factor Month Day Inflow julSort 1563 Stantonsburg WWTP_nc0007536 mgd 0.22 6 1 1.02 153 1563 Stantonsburg WWTP_nc0007536 mgd 0.22 6 30 1.02 182 1563 Stantonsburg WWTP_nc0007536 mgd 0.22 7 1 0.88 183 1563 Stantonsburg WWTP_nc0007536 mgd 0.22 7 31 0.88 213 1563 Stantonsburg WWTP_nc0007536 mgd 0.22 8 1 1.05 214 1563 Stantonsburg WWTP_nc0007536 mgd 0.22 8 31 1.05 244 1563 Stantonsburg WWTP_nc0007536 mgd 0.22 9 1 0.96 245 1563 Stantonsburg WWTP_nc0007536 mgd 0.22 9 30 0.96 274 1563 Stantonsburg WWTP_nc0007536 mgd 0.22 10 1 0.7 275 1563 Stantonsburg WWTP_nc0007536 mgd 0.22 10 31 0.7 305 1563 Stantonsburg WWTP_nc0007536 mgd 0.22 11 1 0.76 306 1563 Stantonsburg WWTP_nc0007536 mgd 0.22 11 30 0.76 335 1563 Stantonsburg WWTP_nc0007536 mgd 0.22 12 1 0.76 336 1563 Stantonsburg WWTP_nc0007536 mgd 0.22 12 31 0.76 366 1565 Snow Hill WWTP_nc0020842 mgd 0.19 1 1 0.9 1 1565 Snow Hill WWTP_nc0020842 mgd 0.19 1 31 0.9 31 1565 Snow Hill WWTP_nc0020842 mgd 0.19 2 1 0.96 32 1565 Snow Hill WWTP_nc0020842 mgd 0.19 2 29 0.96 60 1565 Snow Hill WWTP_nc0020842 mgd 0.19 3 1 0.93 61 1565 Snow Hill WWTP_nc0020842 mgd 0.19 3 31 0.93 91 1565 Snow Hill WWTP_nc0020842 mgd 0.19 4 1 0.92 92 1565 Snow Hill WWTP_nc0020842 mgd 0.19 4 30 0.92 121 1565 Snow Hill WWTP_nc0020842 mgd 0.19 5 1 1.06 122 1565 Snow Hill WWTP_nc0020842 mgd 0.19 5 31 1.06 152 1565 Snow Hill WWTP_nc0020842 mgd 0.19 6 1 1.01 153 1565 Snow Hill WWTP_nc0020842 mgd 0.19 6 30 1.01 182 1565 Snow Hill WWTP_nc0020842 mgd 0.19 7 1 1.02 183 1565 Snow Hill WWTP_nc0020842 mgd 0.19 7 31 1.02 213 1565 Snow Hill WWTP_nc0020842 mgd 0.19 8 1 1.14 214 1565 Snow Hill WWTP_nc0020842 mgd 0.19 8 31 1.14 244 1565 Snow Hill WWTP_nc0020842 mgd 0.19 9 1 1.14 245 1565 Snow Hill WWTP_nc0020842 mgd 0.19 9 30 1.14 274 1565 Snow Hill WWTP_nc0020842 mgd 0.19 10 1 1.01 275 1565 Snow Hill WWTP_nc0020842 mgd 0.19 10 31 1.01 305 1565 Snow Hill WWTP_nc0020842 mgd 0.19 11 1 0.99 306 1565 Snow Hill WWTP_nc0020842 mgd 0.19 11 30 0.99 335 1565 Snow Hill WWTP_nc0020842 mgd 0.19 12 1 0.99 336 1565 Snow Hill WWTP_nc0020842 mgd 0.19 12 31 0.99 366 1567 Farmville WWTP_nc0029572 mgd 1.26 1 1 1.1 1 1567 Farmville WWTP_nc0029572 mgd 1.26 1 31 1.1 31 1567 Farmville WWTP_nc0029572 mgd 1.26 2 1 1.18 32 1567 Farmville WWTP_nc0029572 mgd 1.26 2 29 1.18 60 1567 Farmville WWTP_nc0029572 mgd 1.26 3 1 1.08 61 1567 Farmville WWTP_nc0029572 mgd 1.26 3 31 1.08 91 1567 Farmville WWTP_nc0029572 mgd 1.26 4 1 1.19 92 1567 Farmville WWTP_nc0029572 mgd 1.26 4 30 1.19 121 1567 Farmville WWTP_nc0029572 mgd 1.26 5 1 0.98 122 1567 Farmville WWTP_nc0029572 mgd 1.26 5 31 0.98 152 1567 Farmville WWTP_nc0029572 mgd 1.26 6 1 0.9 153 1567 Farmville WWTP_nc0029572 mgd 1.26 6 30 0.9 182 1567 Farmville WWTP_nc0029572 mgd 1.26 7 1 0.8 183 1567 Farmville WWTP_nc0029572 mgd 1.26 7 31 0.8 213 1567 Farmville WWTP_nc0029572 mgd 1.26 8 1 0.83 214 1567 Farmville WWTP_nc0029572 mgd 1.26 8 31 0.83 244 1567 Farmville WWTP_nc0029572 mgd 1.26 9 1 0.97 245 111 Node No. Name units factor Month Day Inflow julSort 1567 Farmville WWTP_nc0029572 mgd 1.26 9 30 0.97 274 1567 Farmville WWTP_nc0029572 mgd 1.26 10 1 0.87 275 1567 Farmville WWTP_nc0029572 mgd 1.26 10 31 0.87 305 1567 Farmville WWTP_nc0029572 mgd 1.26 11 1 1.05 306 1567 Farmville WWTP_nc0029572 mgd 1.26 11 30 1.05 335 1567 Farmville WWTP_nc0029572 mgd 1.26 12 1 1.06 336 1567 Farmville WWTP_nc0029572 mgd 1.26 12 31 1.06 366 1569 Maury Sant. Dist WWTP_nc0061492 mgd 0.12 1 1 0.9 1 1569 Maury Sant. Dist WWTP_nc0061492 mgd 0.12 1 31 0.9 31 1569 Maury Sant. Dist WWTP_nc0061492 mgd 0.12 2 1 1.02 32 1569 Maury Sant. Dist WWTP_nc0061492 mgd 0.12 2 28 1.02 59 1569 Maury Sant. Dist WWTP_nc0061492 mgd 0.12 3 1 0.88 61 1569 Maury Sant. Dist WWTP_nc0061492 mgd 0.12 3 31 0.88 91 1569 Maury Sant. Dist WWTP_nc0061492 mgd 0.12 4 1 0.85 92 1569 Maury Sant. Dist WWTP_nc0061492 mgd 0.12 4 30 0.85 121 1569 Maury Sant. Dist WWTP_nc0061492 mgd 0.12 5 1 0.92 122 1569 Maury Sant. Dist WWTP_nc0061492 mgd 0.12 5 31 0.92 152 1569 Maury Sant. Dist WWTP_nc0061492 mgd 0.12 6 1 0.98 153 1569 Maury Sant. Dist WWTP_nc0061492 mgd 0.12 6 30 0.98 182 1569 Maury Sant. Dist WWTP_nc0061492 mgd 0.12 7 1 0.9 183 1569 Maury Sant. Dist WWTP_nc0061492 mgd 0.12 7 31 0.9 213 1569 Maury Sant. Dist WWTP_nc0061492 mgd 0.12 8 1 1.17 214 1569 Maury Sant. Dist WWTP_nc0061492 mgd 0.12 8 31 1.17 244 1569 Maury Sant. Dist WWTP_nc0061492 mgd 0.12 9 1 1.26 245 1569 Maury Sant. Dist WWTP_nc0061492 mgd 0.12 9 30 1.26 274 1569 Maury Sant. Dist WWTP_nc0061492 mgd 0.12 10 1 1.02 275 1569 Maury Sant. Dist WWTP_nc0061492 mgd 0.12 10 31 1.02 305 1569 Maury Sant. Dist WWTP_nc0061492 mgd 0.12 11 1 1.05 306 1569 Maury Sant. Dist WWTP_nc0061492 mgd 0.12 11 30 1.05 335 1569 Maury Sant. Dist WWTP_nc0061492 mgd 0.12 12 1 1.06 336 1569 Maury Sant. Dist WWTP_nc0061492 mgd 0.12 12 31 1.06 366 1643 TransMontaigne WW_nc0003549 mgd 0.07 1 1 0 1 1643 TransMontaigne WW_nc0003549 mgd 0.07 1 31 0 31 1643 TransMontaigne WW_nc0003549 mgd 0.07 2 1 2.21 32 1643 TransMontaigne WW_nc0003549 mgd 0.07 2 29 2.21 60 1643 TransMontaigne WW_nc0003549 mgd 0.07 3 1 1.79 61 1643 TransMontaigne WW_nc0003549 mgd 0.07 3 31 1.79 91 1643 TransMontaigne WW_nc0003549 mgd 0.07 4 1 0 92 1643 TransMontaigne WW_nc0003549 mgd 0.07 4 30 0 121 1643 TransMontaigne WW_nc0003549 mgd 0.07 5 1 4.3 122 1643 TransMontaigne WW_nc0003549 mgd 0.07 5 31 4.3 152 1643 TransMontaigne WW_nc0003549 mgd 0.07 6 1 0 153 1643 TransMontaigne WW_nc0003549 mgd 0.07 6 30 0 182 1643 TransMontaigne WW_nc0003549 mgd 0.07 7 1 0 183 1643 TransMontaigne WW_nc0003549 mgd 0.07 7 31 0 213 1643 TransMontaigne WW_nc0003549 mgd 0.07 8 1 3.52 214 1643 TransMontaigne WW_nc0003549 mgd 0.07 8 31 3.52 244 1643 TransMontaigne WW_nc0003549 mgd 0.07 9 1 0.17 245 1643 TransMontaigne WW_nc0003549 mgd 0.07 9 30 0.17 274 1643 TransMontaigne WW_nc0003549 mgd 0.07 10 1 0 275 1643 TransMontaigne WW_nc0003549 mgd 0.07 10 31 0 305 1643 TransMontaigne WW_nc0003549 mgd 0.07 11 1 0 306 1643 TransMontaigne WW_nc0003549 mgd 0.07 11 30 0 335 1643 TransMontaigne WW_nc0003549 mgd 0.07 12 1 0 336 1643 TransMontaigne WW_nc0003549 mgd 0.07 12 31 0 366 112 Node No. Name units factor Month Day Inflow julSort 1645 Magellan Terminals WW_nc0052311 mgd 0.08 1 1 0.63 1 1645 Magellan Terminals WW_nc0052311 mgd 0.08 1 31 0.63 31 1645 Magellan Terminals WW_nc0052311 mgd 0.08 2 1 0.5 32 1645 Magellan Terminals WW_nc0052311 mgd 0.08 2 29 0.5 60 1645 Magellan Terminals WW_nc0052311 mgd 0.08 3 1 0.52 61 1645 Magellan Terminals WW_nc0052311 mgd 0.08 3 31 0.52 91 1645 Magellan Terminals WW_nc0052311 mgd 0.08 4 1 0.56 92 1645 Magellan Terminals WW_nc0052311 mgd 0.08 4 30 0.56 121 1645 Magellan Terminals WW_nc0052311 mgd 0.08 5 1 0.42 122 1645 Magellan Terminals WW_nc0052311 mgd 0.08 5 31 0.42 152 1645 Magellan Terminals WW_nc0052311 mgd 0.08 6 1 5.86 153 1645 Magellan Terminals WW_nc0052311 mgd 0.08 6 30 5.86 182 1645 Magellan Terminals WW_nc0052311 mgd 0.08 7 1 0.52 183 1645 Magellan Terminals WW_nc0052311 mgd 0.08 7 31 0.52 213 1645 Magellan Terminals WW_nc0052311 mgd 0.08 8 1 0.65 214 1645 Magellan Terminals WW_nc0052311 mgd 0.08 8 31 0.65 244 1645 Magellan Terminals WW_nc0052311 mgd 0.08 9 1 0.52 245 1645 Magellan Terminals WW_nc0052311 mgd 0.08 9 30 0.52 274 1645 Magellan Terminals WW_nc0052311 mgd 0.08 10 1 0.57 275 1645 Magellan Terminals WW_nc0052311 mgd 0.08 10 31 0.57 305 1645 Magellan Terminals WW_nc0052311 mgd 0.08 11 1 0.51 306 1645 Magellan Terminals WW_nc0052311 mgd 0.08 11 30 0.51 335 1645 Magellan Terminals WW_nc0052311 mgd 0.08 12 1 0.51 336 1645 Magellan Terminals WW_nc0052311 mgd 0.08 12 31 0.51 366 1705 Aqua NC Inc. Hawthorne WWTP_nc0049662 mgd 0.14 12 31 1.03 366 1705 Aqua NC Inc. Hawthorne WWTP_nc0049662 mgd 0.14 1 1 0.87 1 1705 Aqua NC Inc. Hawthorne WWTP_nc0049662 mgd 0.14 1 31 0.87 31 1705 Aqua NC Inc. Hawthorne WWTP_nc0049662 mgd 0.14 2 1 1.02 32 1705 Aqua NC Inc. Hawthorne WWTP_nc0049662 mgd 0.14 2 29 1.02 60 1705 Aqua NC Inc. Hawthorne WWTP_nc0049662 mgd 0.14 3 1 0.94 61 1705 Aqua NC Inc. Hawthorne WWTP_nc0049662 mgd 0.14 3 31 0.94 91 1705 Aqua NC Inc. Hawthorne WWTP_nc0049662 mgd 0.14 4 1 0.96 92 1705 Aqua NC Inc. Hawthorne WWTP_nc0049662 mgd 0.14 4 30 0.96 121 1705 Aqua NC Inc. Hawthorne WWTP_nc0049662 mgd 0.14 5 1 0.93 122 1705 Aqua NC Inc. Hawthorne WWTP_nc0049662 mgd 0.14 5 31 0.93 152 1705 Aqua NC Inc. Hawthorne WWTP_nc0049662 mgd 0.14 6 1 0.99 153 1705 Aqua NC Inc. Hawthorne WWTP_nc0049662 mgd 0.14 6 30 0.99 182 1705 Aqua NC Inc. Hawthorne WWTP_nc0049662 mgd 0.14 7 1 1.06 183 1705 Aqua NC Inc. Hawthorne WWTP_nc0049662 mgd 0.14 7 31 1.06 213 1705 Aqua NC Inc. Hawthorne WWTP_nc0049662 mgd 0.14 8 1 1.19 214 1705 Aqua NC Inc. Hawthorne WWTP_nc0049662 mgd 0.14 8 31 1.19 244 1705 Aqua NC Inc. Hawthorne WWTP_nc0049662 mgd 0.14 9 1 1.03 245 1705 Aqua NC Inc. Hawthorne WWTP_nc0049662 mgd 0.14 9 30 1.03 274 1705 Aqua NC Inc. Hawthorne WWTP_nc0049662 mgd 0.14 10 1 0.96 275 1705 Aqua NC Inc. Hawthorne WWTP_nc0049662 mgd 0.14 10 31 0.96 305 1705 Aqua NC Inc. Hawthorne WWTP_nc0049662 mgd 0.14 11 1 1.03 306 1705 Aqua NC Inc. Hawthorne WWTP_nc0049662 mgd 0.14 11 30 1.03 335 1705 Aqua NC Inc. Hawthorne WWTP_nc0049662 mgd 0.14 12 1 1.03 336 1753 Princeton WWTP_nc0026662 mgd 0.19 1 1 0.55 1 1753 Princeton WWTP_nc0026662 mgd 0.19 1 31 0.55 31 1753 Princeton WWTP_nc0026662 mgd 0.19 2 1 1.3 32 1753 Princeton WWTP_nc0026662 mgd 0.19 2 29 1.3 60 1753 Princeton WWTP_nc0026662 mgd 0.19 3 1 1.72 61 1753 Princeton WWTP_nc0026662 mgd 0.19 3 31 1.72 91 1753 Princeton WWTP_nc0026662 mgd 0.19 4 1 1.32 92 113 Node No. Name units factor Month Day Inflow julSort 1753 Princeton WWTP_nc0026662 mgd 0.19 4 30 1.32 121 1753 Princeton WWTP_nc0026662 mgd 0.19 5 1 1.27 122 1753 Princeton WWTP_nc0026662 mgd 0.19 5 31 1.27 152 1753 Princeton WWTP_nc0026662 mgd 0.19 6 1 1.27 153 1753 Princeton WWTP_nc0026662 mgd 0.19 6 30 1.27 182 1753 Princeton WWTP_nc0026662 mgd 0.19 7 1 0.84 183 1753 Princeton WWTP_nc0026662 mgd 0.19 7 31 0.84 213 1753 Princeton WWTP_nc0026662 mgd 0.19 8 1 0.85 214 1753 Princeton WWTP_nc0026662 mgd 0.19 8 31 0.85 244 1753 Princeton WWTP_nc0026662 mgd 0.19 9 1 0.86 245 1753 Princeton WWTP_nc0026662 mgd 0.19 9 30 0.86 274 1753 Princeton WWTP_nc0026662 mgd 0.19 10 1 0.59 275 1753 Princeton WWTP_nc0026662 mgd 0.19 10 31 0.59 305 1753 Princeton WWTP_nc0026662 mgd 0.19 11 1 0.69 306 1753 Princeton WWTP_nc0026662 mgd 0.19 11 30 0.69 335 1753 Princeton WWTP_nc0026662 mgd 0.19 12 1 0.69 336 1753 Princeton WWTP_nc0026662 mgd 0.19 12 31 0.69 366 1759 Jerry_G_Williams WW mgd 0.14 1 1 1 1 1759 Jerry_G_Williams WW mgd 0.14 1 31 1 31 1759 Jerry_G_Williams WW mgd 0.14 2 1 1 32 1759 Jerry_G_Williams WW mgd 0.14 2 29 1 60 1759 Jerry_G_Williams WW mgd 0.14 3 1 1 61 1759 Jerry_G_Williams WW mgd 0.14 3 31 1 91 1759 Jerry_G_Williams WW mgd 0.14 4 1 1 92 1759 Jerry_G_Williams WW mgd 0.14 4 30 1 121 1759 Jerry_G_Williams WW mgd 0.14 5 1 1 122 1759 Jerry_G_Williams WW mgd 0.14 5 31 1 152 1759 Jerry_G_Williams WW mgd 0.14 6 1 1 153 1759 Jerry_G_Williams WW mgd 0.14 6 30 1 182 1759 Jerry_G_Williams WW mgd 0.14 7 1 1 183 1759 Jerry_G_Williams WW mgd 0.14 7 31 1 213 1759 Jerry_G_Williams WW mgd 0.14 8 1 1 214 1759 Jerry_G_Williams WW mgd 0.14 8 31 1 244 1759 Jerry_G_Williams WW mgd 0.14 9 1 1 245 1759 Jerry_G_Williams WW mgd 0.14 9 30 1 274 1759 Jerry_G_Williams WW mgd 0.14 10 1 1 275 1759 Jerry_G_Williams WW mgd 0.14 10 31 1 305 1759 Jerry_G_Williams WW mgd 0.14 11 1 1 306 1759 Jerry_G_Williams WW mgd 0.14 11 30 1 335 1759 Jerry_G_Williams WW mgd 0.14 12 1 1 336 1759 Jerry_G_Williams WW mgd 0.14 12 31 1 366 1787 La Grange WWTP_nc0021644 mgd 0.38 1 1 1.05 1 1787 La Grange WWTP_nc0021644 mgd 0.38 1 31 1.05 31 1787 La Grange WWTP_nc0021644 mgd 0.38 2 1 1.11 32 1787 La Grange WWTP_nc0021644 mgd 0.38 2 29 1.11 60 1787 La Grange WWTP_nc0021644 mgd 0.38 3 1 1.08 61 1787 La Grange WWTP_nc0021644 mgd 0.38 3 31 1.08 91 1787 La Grange WWTP_nc0021644 mgd 0.38 4 1 1.05 92 1787 La Grange WWTP_nc0021644 mgd 0.38 4 30 1.05 121 1787 La Grange WWTP_nc0021644 mgd 0.38 5 1 0.9 122 1787 La Grange WWTP_nc0021644 mgd 0.38 5 31 0.9 152 1787 La Grange WWTP_nc0021644 mgd 0.38 6 1 0.76 153 1787 La Grange WWTP_nc0021644 mgd 0.38 6 30 0.76 182 1787 La Grange WWTP_nc0021644 mgd 0.38 7 1 0.83 183 1787 La Grange WWTP_nc0021644 mgd 0.38 7 31 0.83 213 114 Node No. Name units factor Month Day Inflow julSort 1787 La Grange WWTP_nc0021644 mgd 0.38 8 1 0.9 214 1787 La Grange WWTP_nc0021644 mgd 0.38 8 31 0.9 244 1787 La Grange WWTP_nc0021644 mgd 0.38 9 1 1.26 245 1787 La Grange WWTP_nc0021644 mgd 0.38 9 30 1.26 274 1787 La Grange WWTP_nc0021644 mgd 0.38 10 1 0.87 275 1787 La Grange WWTP_nc0021644 mgd 0.38 10 31 0.87 305 1787 La Grange WWTP_nc0021644 mgd 0.38 11 1 1.04 306 1787 La Grange WWTP_nc0021644 mgd 0.38 11 30 1.04 335 1787 La Grange WWTP_nc0021644 mgd 0.38 12 1 1.17 336 1787 La Grange WWTP_nc0021644 mgd 0.38 12 31 1.17 366 115 Arc Minimum Flows U/S Number D/S Number Name Units Month Day Min Flow julSort 030 040 Reidsville release cfs 1 1 3.5 1 030 040 Reidsville release cfs 12 31 3.5 366 120 140 Brandt release cfs 1 1 3 1 120 140 Brandt release cfs 12 31 3 366 220 230 High Pt release cfs 1 1 1.3 1 220 230 High Pt release cfs 12 31 1.3 366 320 100 GraMebane release cfs 1 1 2 1 320 100 GraMebane release cfs 12 31 2 366 390 370 Cane Creek release cfs 1 1 0.22 1 390 370 Cane Creek release cfs 12 31 0.22 366 760 740 Glenville release cfs 1 1 4 1 760 740 Glenville release cfs 12 31 4 366 140 145 G/T release OCL Defined 270 280 Randleman release OCL Defined 325 328 325>328 OCL Defined 470 480 Jordan release OCL Defined 550 555 Lillington_Unrouted_Flow OCL Defined 1050 1080 1050>1080 OCL Defined 1060 1080 1060>1080 OCL Defined 1200 1205 L.River Min Release OCL Defined 1300 1310 Falls Release OCL Defined 1440 1700 Swift Creek OCL Defined 1500 1520 1500>1520 OCL Defined 1630 1640 Clayton Gage Flow OCL Defined 116 County Agricultural Data Crop Units Alamance Bladen Caswell Chatham Cumberland Durham Forsyth IrrTobacco acres 1072 21 1604 129 490 65 100 Turf acres 40 1067 0 0 283 0 0 Golf acres 414 91 0 385 725 420 0 ContNurs acres 3 5 0 66 11 2.4 0 FieldNurs acres 3 0 0 5 6 6.2 0 IrrCotton acres 0 0 0 0 161 0 0 IrrEarlySoy acres 0 0 0 0 0 0 0 IrrLateSoy acres 4 1209 0 0 393 0 0 IrrCorn acres 17 195 0 0 283 57.8 0 IrrVeg acres 116 60 3 133 1609 11.5 10 IrrPas&Hay acres 127 5881 193 294 825 0 146 IrrPeanut acres 0 138 0 0 72 0 0 IrrBlueberry acres 0 3725 0 5 0 0 14 IrrStrawberry acres 8 3 8 21 20 0 19 IrrFruit acres 0 20 0 10 0 0 0 Beef Cattle animals 16600 5800 10100 32400 4500 2068.4 5100 Dairy Cows animals 1800 0 0 1600 0 0 0 Horses animals 834 952 274 1942 953 235.9 1715 Pigs animals 1100 867000 0 5000 119000 0 0 Chickens animals 1110000 3000000 0 9820000 850000 0 0 Turkeys animals 0 1300000 0 0 0 0 0 OtherAnimal animals 271 307 77 2458 120 423.6 394 Crop Units Guilford Harnett Hoke Lee Montgom Moore Orange IrrTobacco acres 1898 2805 75 978 0 1037 45.9 Turf acres 30 42 400 0 250 250 163 Golf acres 1974 518 173 380 0 2795 148.5 ContNurs acres 715 88 7 6 3 144 0.5 FieldNurs acres 266 429 8 0 23 293 6.1 IrrCotton acres 0 0 0 0 0 94 0 IrrEarlySoy acres 0 0 0 0 0 0 0 IrrLateSoy acres 0 42 215 0 0 0 0 IrrCorn acres 79 127 0 89 0 108 0 IrrVeg acres 134 2000 12 320 10 292 8.6 IrrPas&Hay acres 7109 808 41 145 244 0 IrrPeanut acres 0 0 0 0 0 0 0 IrrBlueberry acres 7 5 1 0 0 2 0.5 IrrStrawberry acres 32 25 2 18 0 12 1.5 IrrFruit acres 13 0 2 30 0 22 0 Beef Cattle animals 13800 9000 0 3700 6200 9000 3874.2 Dairy Cows animals 1700 0 0 0 0 0 33.4 Horses animals 4030.5 948 618.5 379 223 2407.5 150.4 Pigs animals 9300 75000 84000 4200 27000 44000 0 Chickens animals 355000 6500000 600000 1625000 4875000 8750000 0 Turkeys animals 0 0 0 0 0 0 0 OtherAnimal animals 545 334 280 1000 42 975 459 117 Crop Units Randolph Rockingha Wake Craven Franklin Granville Greene IrrTobacco acres 478 2639 1795.8 64.6 267.9 280.3 181 Turf acres 0 0 66.5 0 20 0 0 Golf acres 173 759 1170 136 0 0 22 ContNurs acres 8 38 12.8 0.6 3.5 0 0 FieldNurs acres 23 13 544.2 83 126 0 0 IrrCotton acres 0 0 0 0 0 0 0 IrrEarlySoy acres 0 0 0 0 0.8 0 0 IrrLateSoy acres 0 58 0 0 1.4 0 0 IrrCorn acres 0 398 164.1 0 0 0 330 IrrVeg acres 77 9 385.1 1 34 92.5 50.6 IrrPas&Hay acres 838 335 0 137.8 0 0 451.6 IrrPeanut acres 0 0 0 0 0 0 0 IrrBlueberry acres 2 10 4.3 0 0 0 0 IrrStrawberry acres 7 18 8.5 1.4 1.8 0 0 IrrFruit acres 5 4 0 0 0.8 0 0 Beef Cattle animals 35600 10000 3733.2 0 0 889.9 114 Dairy Cows animals 4400 700 649 0 0 0 0 Horses animals 1903 2620.5 791.2 0 0 241.2 0 Pigs animals 31700 6000 693 0 0 0 0 Chickens animals 13275000 0 2085.4 0 0 0 0 Turkeys animals 0 0 0 0 0 0 0 OtherAnimal animals 1166 731 1984.4 0 0 0 0 Crop Units Johnston Lenoir Nash Person Pitt Wayne Wilson IrrTobacco acres 1880 366.6 327.9 134.3 12.2 530 108.5 Turf acres 37.5 75 0 0 0 0 0 Golf acres 367.5 22 0 0 364 315 0 ContNurs acres 11.9 2.9 3.9 0 2.7 5 3.4 FieldNurs acres 208.8 20 86.2 0 61.9 51 364.1 IrrCotton acres 0 0 8.5 0 0 0 0 IrrEarlySoy acres 0 0 0.2 0 0 0 0 IrrLateSoy acres 0 0 0.2 0 0 0 0 IrrCorn acres 370.5 414.5 20.2 0 0.7 95.2 0 IrrVeg acres 87.3 82.3 383.6 0 8 134.7 456.8 IrrPas&Hay acres 43.1 0 0 0 0 0 401 IrrPeanut acres 0 0 6.6 0 25.6 0 0 IrrBlueberry acres 0 0 0 0 0 0 0 IrrStrawberry acres 21 0 3.2 0.9 0 0 5 IrrFruit acres 0 0 0.4 0 0 0 0 Beef Cattle animals 2316.2 327.8 0 2260.8 244.8 1281.9 864.5 Dairy Cows animals 0 0 0 40 0 0 0 Horses animals 0 0 0 64.7 5 0 132.8 Pigs animals 0 0 0 0 0 0 0 Chickens animals 0 0 0 0 0 0 0 Turkeys animals 0 0 0 0 0 0 0 OtherAnimal animals 3295.8 8.5 0 0 7.4 46.6 0 118 Crop Irrigation Coefficients Name Month Day Value Name Month Day Value IrrCoef_Beef 1 1 12 IrrCoef_OtherAnimal 1 1 2 IrrCoef_Beef 12 31 12 IrrCoef_OtherAnimal 12 31 2 IrrCoef_Blueberry 1 1 0 IrrCoef_PastHay 1 1 0 IrrCoef_Blueberry 2 28 0 IrrCoef_PastHay 4 30 0 IrrCoef_Blueberry 3 1 1 IrrCoef_PastHay 5 1 0.142857 IrrCoef_Blueberry 4 14 1 IrrCoef_PastHay 9 30 0.142857 IrrCoef_Blueberry 4 15 0.178571 IrrCoef_PastHay 10 1 0 IrrCoef_Blueberry 9 30 0.178571 IrrCoef_PastHay 12 31 0 IrrCoef_Blueberry 10 1 0 IrrCoef_Peanut 1 1 0 IrrCoef_Blueberry 12 31 0 IrrCoef_Peanut 5 7 0 IrrCoef_Chicken 1 1 9 IrrCoef_Peanut 5 8 0.00014 IrrCoef_Chicken 12 31 9 IrrCoef_Peanut 5 9 0.00028 IrrCoef_ContNurs 1 1 0.2 IrrCoef_Peanut 5 10 0.00042 IrrCoef_ContNurs 3 31 0.2 IrrCoef_Peanut 5 11 0.00056 IrrCoef_ContNurs 4 1 0.5 IrrCoef_Peanut 5 12 0.0007 IrrCoef_ContNurs 5 31 0.5 IrrCoef_Peanut 5 13 0.00084 IrrCoef_ContNurs 6 1 0.75 IrrCoef_Peanut 5 14 0.00098 IrrCoef_ContNurs 8 31 0.75 IrrCoef_Peanut 5 15 0.00112 IrrCoef_ContNurs 9 1 0.5 IrrCoef_Peanut 5 16 0.00126 IrrCoef_ContNurs 10 31 0.5 IrrCoef_Peanut 5 17 0.0014 IrrCoef_ContNurs 11 1 0.2 IrrCoef_Peanut 5 18 0.0028 IrrCoef_ContNurs 12 31 0.2 IrrCoef_Peanut 5 19 0.0042 IrrCoef_Corn 1 1 0 IrrCoef_Peanut 5 20 0.0056 IrrCoef_Corn 4 23 0 IrrCoef_Peanut 5 21 0.007 IrrCoef_Corn 5 4 0.02 IrrCoef_Peanut 5 22 0.0084 IrrCoef_Corn 5 14 0.039 IrrCoef_Peanut 5 23 0.0098 IrrCoef_Corn 5 23 0.0543 IrrCoef_Peanut 5 24 0.0112 IrrCoef_Corn 5 24 0.056 IrrCoef_Peanut 5 25 0.0126 IrrCoef_Corn 6 2 0.0722 IrrCoef_Peanut 5 26 0.014 IrrCoef_Corn 6 3 0.074 IrrCoef_Peanut 5 27 0.0158 IrrCoef_Corn 6 12 0.0974 IrrCoef_Peanut 5 28 0.0176 IrrCoef_Corn 6 13 0.1 IrrCoef_Peanut 5 29 0.0194 IrrCoef_Corn 6 18 0.115 IrrCoef_Peanut 5 30 0.0212 IrrCoef_Corn 6 23 0.1425 IrrCoef_Peanut 5 31 0.023 IrrCoef_Corn 7 2 0.21675 IrrCoef_Peanut 6 1 0.0248 IrrCoef_Corn 7 3 0.225 IrrCoef_Peanut 6 2 0.0266 IrrCoef_Corn 7 4 0.229 IrrCoef_Peanut 6 3 0.0284 IrrCoef_Corn 7 5 0.233 IrrCoef_Peanut 6 4 0.0302 IrrCoef_Corn 7 6 0.237 IrrCoef_Peanut 6 5 0.032 IrrCoef_Corn 7 7 0.241 IrrCoef_Peanut 6 6 0.0338 IrrCoef_Corn 7 8 0.245 IrrCoef_Peanut 6 7 0.0356 IrrCoef_Corn 7 9 0.247 IrrCoef_Peanut 6 8 0.0374 IrrCoef_Corn 7 10 0.249 IrrCoef_Peanut 6 9 0.0392 IrrCoef_Corn 7 11 0.251 IrrCoef_Peanut 6 10 0.041 IrrCoef_Corn 7 12 0.253 IrrCoef_Peanut 6 11 0.0428 IrrCoef_Corn 7 13 0.255 IrrCoef_Peanut 6 12 0.0446 IrrCoef_Corn 7 17 0.261 IrrCoef_Peanut 6 13 0.0464 IrrCoef_Corn 7 18 0.2625 IrrCoef_Peanut 6 14 0.0482 IrrCoef_Corn 7 22 0.2565 IrrCoef_Peanut 6 15 0.05 IrrCoef_Corn 7 23 0.255 IrrCoef_Peanut 6 16 0.0526 IrrCoef_Corn 8 1 0.23925 IrrCoef_Peanut 6 17 0.0552 IrrCoef_Corn 8 2 0.2375 IrrCoef_Peanut 6 18 0.0578 IrrCoef_Corn 8 11 0.206 IrrCoef_Peanut 6 19 0.0604 IrrCoef_Corn 8 12 0.2025 IrrCoef_Peanut 6 20 0.063 IrrCoef_Corn 8 21 0.1665 IrrCoef_Peanut 6 21 0.0656 IrrCoef_Corn 8 22 0.1625 IrrCoef_Peanut 6 22 0.0682 IrrCoef_Corn 8 31 0.12875 IrrCoef_Peanut 6 23 0.0708 IrrCoef_Corn 9 1 0.125 IrrCoef_Peanut 6 24 0.0734 119 Name Month Day Value Name Month Day Value IrrCoef_Corn 9 10 0.0935 IrrCoef_Peanut 6 25 0.076 IrrCoef_Corn 9 11 0.09 IrrCoef_Peanut 6 26 0.07915 IrrCoef_Corn 9 20 0.072 IrrCoef_Peanut 6 27 0.0823 IrrCoef_Corn 9 21 0.07 IrrCoef_Peanut 6 28 0.08545 IrrCoef_Corn 9 30 0.061 IrrCoef_Peanut 6 29 0.0886 IrrCoef_Corn 10 1 0.06 IrrCoef_Peanut 6 30 0.09175 IrrCoef_Corn 10 12 0.050833 IrrCoef_Peanut 7 1 0.0949 IrrCoef_Corn 10 13 0.05 IrrCoef_Peanut 7 2 0.09805 IrrCoef_Corn 10 14 0 IrrCoef_Peanut 7 3 0.1012 IrrCoef_Corn 12 31 0 IrrCoef_Peanut 7 4 0.10435 IrrCoef_Cotton 1 1 0 IrrCoef_Peanut 7 5 0.1075 IrrCoef_Cotton 5 7 0 IrrCoef_Peanut 7 6 0.113 IrrCoef_Cotton 5 8 0.001 IrrCoef_Peanut 7 7 0.1185 IrrCoef_Cotton 5 9 0.002 IrrCoef_Peanut 7 8 0.124 IrrCoef_Cotton 5 30 0.0288 IrrCoef_Peanut 7 9 0.1295 IrrCoef_Cotton 5 31 0.0304 IrrCoef_Peanut 7 10 0.135 IrrCoef_Cotton 6 1 0.032 IrrCoef_Peanut 7 11 0.1405 IrrCoef_Cotton 6 2 0.0336 IrrCoef_Peanut 7 12 0.146 IrrCoef_Cotton 6 3 0.0352 IrrCoef_Peanut 7 13 0.1515 IrrCoef_Cotton 6 4 0.0368 IrrCoef_Peanut 7 14 0.157 IrrCoef_Cotton 6 5 0.0384 IrrCoef_Peanut 7 15 0.1625 IrrCoef_Cotton 6 6 0.04 IrrCoef_Peanut 7 16 0.168 IrrCoef_Cotton 6 7 0.0417 IrrCoef_Peanut 7 17 0.1735 IrrCoef_Cotton 6 8 0.0434 IrrCoef_Peanut 7 18 0.179 IrrCoef_Cotton 6 9 0.0451 IrrCoef_Peanut 7 19 0.1845 IrrCoef_Cotton 6 10 0.0468 IrrCoef_Peanut 7 20 0.19 IrrCoef_Cotton 6 11 0.0485 IrrCoef_Peanut 7 21 0.1955 IrrCoef_Cotton 6 12 0.0502 IrrCoef_Peanut 7 22 0.201 IrrCoef_Cotton 6 13 0.0519 IrrCoef_Peanut 7 23 0.2065 IrrCoef_Cotton 6 14 0.0536 IrrCoef_Peanut 7 24 0.212 IrrCoef_Cotton 6 15 0.0553 IrrCoef_Peanut 7 25 0.2175 IrrCoef_Cotton 6 16 0.057 IrrCoef_Peanut 7 26 0.22 IrrCoef_Cotton 6 17 0.0587 IrrCoef_Peanut 7 27 0.2225 IrrCoef_Cotton 6 18 0.0604 IrrCoef_Peanut 7 28 0.225 IrrCoef_Cotton 6 19 0.0621 IrrCoef_Peanut 7 29 0.2275 IrrCoef_Cotton 6 20 0.0638 IrrCoef_Peanut 7 30 0.23 IrrCoef_Cotton 6 21 0.0655 IrrCoef_Peanut 7 31 0.2325 IrrCoef_Cotton 6 22 0.0672 IrrCoef_Peanut 8 1 0.235 IrrCoef_Cotton 6 23 0.0689 IrrCoef_Peanut 8 2 0.2375 IrrCoef_Cotton 6 24 0.0706 IrrCoef_Peanut 8 3 0.24 IrrCoef_Cotton 6 25 0.0723 IrrCoef_Peanut 8 4 0.2425 IrrCoef_Cotton 6 26 0.074 IrrCoef_Peanut 8 5 0.243 IrrCoef_Cotton 6 27 0.0764 IrrCoef_Peanut 8 6 0.2435 IrrCoef_Cotton 6 28 0.0788 IrrCoef_Peanut 8 7 0.244 IrrCoef_Cotton 6 29 0.0812 IrrCoef_Peanut 8 8 0.2445 IrrCoef_Cotton 6 30 0.0836 IrrCoef_Peanut 8 9 0.245 IrrCoef_Cotton 7 1 0.086 IrrCoef_Peanut 8 10 0.2455 IrrCoef_Cotton 7 2 0.0884 IrrCoef_Peanut 8 11 0.246 IrrCoef_Cotton 7 3 0.0908 IrrCoef_Peanut 8 12 0.2465 IrrCoef_Cotton 7 4 0.0932 IrrCoef_Peanut 8 13 0.247 IrrCoef_Cotton 7 5 0.0956 IrrCoef_Peanut 8 14 0.2475 IrrCoef_Cotton 7 6 0.098 IrrCoef_Peanut 8 15 0.247 IrrCoef_Cotton 7 7 0.1009 IrrCoef_Peanut 8 16 0.2465 IrrCoef_Cotton 7 8 0.1038 IrrCoef_Peanut 8 17 0.246 IrrCoef_Cotton 7 9 0.1067 IrrCoef_Peanut 8 18 0.2455 IrrCoef_Cotton 7 10 0.1096 IrrCoef_Peanut 8 19 0.245 IrrCoef_Cotton 7 11 0.1125 IrrCoef_Peanut 8 20 0.2445 IrrCoef_Cotton 7 12 0.1175 IrrCoef_Peanut 8 21 0.244 IrrCoef_Cotton 7 13 0.1225 IrrCoef_Peanut 8 22 0.2435 IrrCoef_Cotton 7 14 0.1275 IrrCoef_Peanut 8 23 0.243 120 Name Month Day Value Name Month Day Value IrrCoef_Cotton 7 15 0.1325 IrrCoef_Peanut 8 24 0.2425 IrrCoef_Cotton 7 16 0.1375 IrrCoef_Peanut 8 25 0.24075 IrrCoef_Cotton 7 17 0.145 IrrCoef_Peanut 8 26 0.239 IrrCoef_Cotton 7 18 0.1525 IrrCoef_Peanut 8 27 0.23725 IrrCoef_Cotton 7 19 0.16 IrrCoef_Peanut 8 28 0.2355 IrrCoef_Cotton 7 20 0.1675 IrrCoef_Peanut 8 29 0.23375 IrrCoef_Cotton 7 21 0.175 IrrCoef_Peanut 8 30 0.232 IrrCoef_Cotton 7 22 0.1825 IrrCoef_Peanut 8 31 0.23025 IrrCoef_Cotton 7 23 0.19 IrrCoef_Peanut 9 1 0.2285 IrrCoef_Cotton 7 24 0.1975 IrrCoef_Peanut 9 2 0.22675 IrrCoef_Cotton 7 25 0.205 IrrCoef_Peanut 9 3 0.225 IrrCoef_Cotton 7 26 0.2125 IrrCoef_Peanut 9 4 0.22275 IrrCoef_Cotton 7 27 0.2175 IrrCoef_Peanut 9 5 0.2205 IrrCoef_Cotton 7 28 0.2225 IrrCoef_Peanut 9 6 0.21825 IrrCoef_Cotton 7 29 0.2275 IrrCoef_Peanut 9 7 0.216 IrrCoef_Cotton 7 30 0.2325 IrrCoef_Peanut 9 8 0.21375 IrrCoef_Cotton 7 31 0.2375 IrrCoef_Peanut 9 9 0.2115 IrrCoef_Cotton 8 1 0.24 IrrCoef_Peanut 9 10 0.20925 IrrCoef_Cotton 8 2 0.2425 IrrCoef_Peanut 9 11 0.207 IrrCoef_Cotton 8 3 0.245 IrrCoef_Peanut 9 12 0.20475 IrrCoef_Cotton 8 4 0.2475 IrrCoef_Peanut 9 13 0.2025 IrrCoef_Cotton 8 5 0.25 IrrCoef_Peanut 9 14 0.19975 IrrCoef_Cotton 8 6 0.25 IrrCoef_Peanut 9 15 0.197 IrrCoef_Cotton 8 7 0.25 IrrCoef_Peanut 9 16 0.19425 IrrCoef_Cotton 8 8 0.25 IrrCoef_Peanut 9 17 0.1915 IrrCoef_Cotton 8 9 0.25 IrrCoef_Peanut 9 18 0.18875 IrrCoef_Cotton 8 10 0.25 IrrCoef_Peanut 9 19 0.186 IrrCoef_Cotton 8 11 0.25 IrrCoef_Peanut 9 20 0.18325 IrrCoef_Cotton 8 12 0.25 IrrCoef_Peanut 9 21 0.1805 IrrCoef_Cotton 8 13 0.25 IrrCoef_Peanut 9 22 0.17775 IrrCoef_Cotton 8 14 0.25 IrrCoef_Peanut 9 23 0.175 IrrCoef_Cotton 8 15 0.25 IrrCoef_Peanut 9 24 0.1725 IrrCoef_Cotton 8 16 0.2485 IrrCoef_Peanut 9 25 0.17 IrrCoef_Cotton 8 17 0.247 IrrCoef_Peanut 9 26 0.1675 IrrCoef_Cotton 8 18 0.2455 IrrCoef_Peanut 9 27 0.165 IrrCoef_Cotton 8 19 0.244 IrrCoef_Peanut 9 28 0.1625 IrrCoef_Cotton 8 20 0.2425 IrrCoef_Peanut 9 29 0.16 IrrCoef_Cotton 8 21 0.241 IrrCoef_Peanut 9 30 0.1575 IrrCoef_Cotton 8 22 0.2395 IrrCoef_Peanut 10 1 0.155 IrrCoef_Cotton 8 23 0.238 IrrCoef_Peanut 10 2 0.1525 IrrCoef_Cotton 8 24 0.2365 IrrCoef_Peanut 10 3 0.15 IrrCoef_Cotton 8 25 0.235 IrrCoef_Peanut 10 4 0.14775 IrrCoef_Cotton 8 26 0.232 IrrCoef_Peanut 10 5 0.1455 IrrCoef_Cotton 8 27 0.229 IrrCoef_Peanut 10 6 0.14325 IrrCoef_Cotton 8 28 0.226 IrrCoef_Peanut 10 7 0.141 IrrCoef_Cotton 8 29 0.223 IrrCoef_Peanut 10 8 0.13875 IrrCoef_Cotton 8 30 0.22 IrrCoef_Peanut 10 9 0.1365 IrrCoef_Cotton 8 31 0.217 IrrCoef_Peanut 10 10 0.13425 IrrCoef_Cotton 9 1 0.214 IrrCoef_Peanut 10 11 0.132 IrrCoef_Cotton 9 2 0.211 IrrCoef_Peanut 10 12 0.12975 IrrCoef_Cotton 9 3 0.208 IrrCoef_Peanut 10 13 0.1275 IrrCoef_Cotton 9 4 0.205 IrrCoef_Peanut 10 14 0.126 IrrCoef_Cotton 9 5 0.202 IrrCoef_Peanut 10 15 0.1245 IrrCoef_Cotton 9 6 0.199 IrrCoef_Peanut 10 16 0.123 IrrCoef_Cotton 9 7 0.196 IrrCoef_Peanut 10 17 0.1215 IrrCoef_Cotton 9 8 0.193 IrrCoef_Peanut 10 18 0.12 IrrCoef_Cotton 9 9 0.19 IrrCoef_Peanut 10 19 0.1185 IrrCoef_Cotton 9 10 0.187 IrrCoef_Peanut 10 20 0.117 IrrCoef_Cotton 9 11 0.184 IrrCoef_Peanut 10 21 0.1155 IrrCoef_Cotton 9 12 0.181 IrrCoef_Peanut 10 22 0.114 121 Name Month Day Value Name Month Day Value IrrCoef_Cotton 9 13 0.178 IrrCoef_Peanut 10 23 0.1125 IrrCoef_Cotton 9 14 0.175 IrrCoef_Peanut 10 24 0.110417 IrrCoef_Cotton 9 15 0.1725 IrrCoef_Peanut 10 25 0.108333 IrrCoef_Cotton 9 16 0.17 IrrCoef_Peanut 10 26 0.10625 IrrCoef_Cotton 9 17 0.1675 IrrCoef_Peanut 10 27 0.104167 IrrCoef_Cotton 9 18 0.165 IrrCoef_Peanut 10 28 0.102083 IrrCoef_Cotton 9 19 0.1625 IrrCoef_Peanut 10 29 0.1 IrrCoef_Cotton 9 20 0.16 IrrCoef_Peanut 10 30 0 IrrCoef_Cotton 9 21 0.1575 IrrCoef_Peanut 12 31 0 IrrCoef_Cotton 9 22 0.155 IrrCoef_Pig 1 1 4 IrrCoef_Cotton 9 23 0.1525 IrrCoef_Pig 12 31 4 IrrCoef_Cotton 9 24 0.15 IrrCoef_Strawberry 1 1 0 IrrCoef_Cotton 9 25 0.1475 IrrCoef_Strawberry 2 28 0 IrrCoef_Cotton 9 26 0.145 IrrCoef_Strawberry 3 1 1 IrrCoef_Cotton 9 27 0.1425 IrrCoef_Strawberry 3 31 1 IrrCoef_Cotton 9 28 0.14 IrrCoef_Strawberry 4 1 0.178571 IrrCoef_Cotton 9 29 0.1375 IrrCoef_Strawberry 5 31 0.178571 IrrCoef_Cotton 9 30 0.135 IrrCoef_Strawberry 6 1 0 IrrCoef_Cotton 10 1 0.1325 IrrCoef_Strawberry 9 14 0 IrrCoef_Cotton 10 2 0.13 IrrCoef_Strawberry 9 15 0.178571 IrrCoef_Cotton 10 3 0.1275 IrrCoef_Strawberry 9 30 0.178571 IrrCoef_Cotton 10 4 0.125 IrrCoef_Strawberry 10 1 1 IrrCoef_Cotton 10 5 0.12275 IrrCoef_Strawberry 11 15 1 IrrCoef_Cotton 10 6 0.1205 IrrCoef_Strawberry 11 16 0 IrrCoef_Cotton 10 7 0.11825 IrrCoef_Strawberry 12 31 0 IrrCoef_Cotton 10 8 0.116 IrrCoef_Tobacco 1 1 0 IrrCoef_Cotton 10 9 0.11375 IrrCoef_Tobacco 5 20 0 IrrCoef_Cotton 10 10 0.1115 IrrCoef_Tobacco 5 21 0.06 IrrCoef_Cotton 10 11 0.10925 IrrCoef_Tobacco 6 10 0.06 IrrCoef_Cotton 10 12 0.107 IrrCoef_Tobacco 6 11 0.062 IrrCoef_Cotton 10 13 0.10475 IrrCoef_Tobacco 6 12 0.064 IrrCoef_Cotton 10 14 0.1025 IrrCoef_Tobacco 6 22 0.083333 IrrCoef_Cotton 10 15 0 IrrCoef_Tobacco 6 23 0.086667 IrrCoef_Cotton 12 31 0 IrrCoef_Tobacco 6 24 0.09 IrrCoef_Cotton 5 10 0.003 IrrCoef_Tobacco 6 25 0.0933 IrrCoef_Cotton 5 11 0.004 IrrCoef_Tobacco 6 26 0.0967 IrrCoef_Cotton 5 12 0.005 IrrCoef_Tobacco 6 27 0.1 IrrCoef_Cotton 5 13 0.006 IrrCoef_Tobacco 6 28 0.10625 IrrCoef_Cotton 5 14 0.007 IrrCoef_Tobacco 6 29 0.1125 IrrCoef_Cotton 5 15 0.008 IrrCoef_Tobacco 6 30 0.11875 IrrCoef_Cotton 5 16 0.009 IrrCoef_Tobacco 7 1 0.125 IrrCoef_Cotton 5 17 0.01 IrrCoef_Tobacco 7 2 0.133333 IrrCoef_Cotton 5 18 0.0114 IrrCoef_Tobacco 7 3 0.141667 IrrCoef_Cotton 5 19 0.0128 IrrCoef_Tobacco 7 4 0.15 IrrCoef_Cotton 5 20 0.0142 IrrCoef_Tobacco 7 5 0.155625 IrrCoef_Cotton 5 21 0.0156 IrrCoef_Tobacco 7 6 0.16125 IrrCoef_Cotton 5 22 0.017 IrrCoef_Tobacco 7 7 0.166875 IrrCoef_Cotton 5 23 0.0184 IrrCoef_Tobacco 7 8 0.1725 IrrCoef_Cotton 5 24 0.0198 IrrCoef_Tobacco 7 9 0.18 IrrCoef_Cotton 5 25 0.0212 IrrCoef_Tobacco 7 10 0.1875 IrrCoef_Cotton 5 26 0.0226 IrrCoef_Tobacco 7 11 0.195 IrrCoef_Cotton 5 27 0.024 IrrCoef_Tobacco 7 12 0.200625 IrrCoef_Cotton 5 28 0.0256 IrrCoef_Tobacco 7 13 0.20625 IrrCoef_Cotton 5 29 0.0272 IrrCoef_Tobacco 7 14 0.211875 IrrCoef_Dairy 1 1 40 IrrCoef_Tobacco 7 15 0.2175 IrrCoef_Dairy 12 31 40 IrrCoef_Tobacco 7 18 0.2325 IrrCoef_EarlySoy 1 1 0 IrrCoef_Tobacco 7 23 0.24 IrrCoef_EarlySoy 5 20 0 IrrCoef_Tobacco 7 24 0.241667 IrrCoef_EarlySoy 5 21 0.001 IrrCoef_Tobacco 7 25 0.243333 IrrCoef_EarlySoy 5 30 0.01 IrrCoef_Tobacco 7 26 0.245 122 Name Month Day Value Name Month Day Value IrrCoef_EarlySoy 5 31 0.012 IrrCoef_Tobacco 7 30 0.24 IrrCoef_EarlySoy 6 19 0.05 IrrCoef_Tobacco 7 31 0.235 IrrCoef_EarlySoy 6 29 0.075 IrrCoef_Tobacco 8 1 0.23 IrrCoef_EarlySoy 7 9 0.11 IrrCoef_Tobacco 8 2 0.225 IrrCoef_EarlySoy 7 19 0.16 IrrCoef_Tobacco 8 3 0.219375 IrrCoef_EarlySoy 7 29 0.2025 IrrCoef_Tobacco 8 4 0.21375 IrrCoef_EarlySoy 8 8 0.2375 IrrCoef_Tobacco 8 5 0.208125 IrrCoef_EarlySoy 8 18 0.2525 IrrCoef_Tobacco 8 6 0.2025 IrrCoef_EarlySoy 8 28 0.2475 IrrCoef_Tobacco 8 7 0.193333 IrrCoef_EarlySoy 9 7 0.21 IrrCoef_Tobacco 8 8 0.184167 IrrCoef_EarlySoy 9 27 0.09 IrrCoef_Tobacco 8 9 0.175 IrrCoef_EarlySoy 10 7 0.059 IrrCoef_Tobacco 8 10 0.17 IrrCoef_EarlySoy 10 17 0.034 IrrCoef_Tobacco 8 11 0.165 IrrCoef_EarlySoy 10 27 0.019 IrrCoef_Tobacco 8 12 0.16 IrrCoef_EarlySoy 10 28 0 IrrCoef_Tobacco 8 13 0.155 IrrCoef_EarlySoy 12 31 0 IrrCoef_Tobacco 8 14 0.1475 IrrCoef_FieldNurs 1 1 0 IrrCoef_Tobacco 8 18 0.125 IrrCoef_FieldNurs 4 30 0 IrrCoef_Tobacco 8 19 0.12125 IrrCoef_FieldNurs 5 1 0.178571 IrrCoef_Tobacco 8 20 0.1175 IrrCoef_FieldNurs 10 31 0.178571 IrrCoef_Tobacco 8 21 0.113333 IrrCoef_FieldNurs 11 1 0 IrrCoef_Tobacco 8 22 0.109167 IrrCoef_FieldNurs 12 31 0 IrrCoef_Tobacco 8 23 0.105 IrrCoef_Fruit 1 1 0 IrrCoef_Tobacco 8 24 0.10125 IrrCoef_Fruit 2 28 0 IrrCoef_Tobacco 8 25 0.0975 IrrCoef_Fruit 3 1 1.214286 IrrCoef_Tobacco 8 26 0.09375 IrrCoef_Fruit 4 15 1.214286 IrrCoef_Tobacco 8 27 0.09 IrrCoef_Fruit 4 16 0.178571 IrrCoef_Tobacco 8 28 0.089 IrrCoef_Fruit 8 31 0.178571 IrrCoef_Tobacco 8 29 0.088 IrrCoef_Fruit 9 1 0 IrrCoef_Tobacco 9 6 0.08 IrrCoef_Fruit 12 31 0 IrrCoef_Tobacco 9 7 0 IrrCoef_Golf 1 1 0.0145 IrrCoef_Tobacco 12 31 0 IrrCoef_Golf 3 31 0.0145 IrrCoef_Turf 1 1 0 IrrCoef_Golf 4 1 0.081429 IrrCoef_Turf 4 14 0 IrrCoef_Golf 10 31 0.081429 IrrCoef_Turf 4 15 0.178571 IrrCoef_Golf 11 1 0.0145 IrrCoef_Turf 10 15 0.178571 IrrCoef_Golf 12 31 0.0145 IrrCoef_Turf 10 16 0 IrrCoef_Horse 1 1 12 IrrCoef_Turf 12 31 0 IrrCoef_Horse 12 31 12 IrrCoef_Turkey 1 1 9 IrrCoef_LateSoy 1 1 0 IrrCoef_Turkey 12 31 9 IrrCoef_LateSoy 6 20 0 IrrCoef_Veg 1 1 0 IrrCoef_LateSoy 6 21 0.001 IrrCoef_Veg 3 31 0 IrrCoef_LateSoy 6 30 0.01 IrrCoef_Veg 4 1 0.178571 IrrCoef_LateSoy 7 1 0.012 IrrCoef_Veg 8 15 0.178571 IrrCoef_LateSoy 7 20 0.05 IrrCoef_Veg 8 16 0.142857 IrrCoef_LateSoy 7 30 0.075 IrrCoef_Veg 10 31 0.142857 IrrCoef_LateSoy 8 9 0.11 IrrCoef_Veg 11 1 0 IrrCoef_LateSoy 8 19 0.16 IrrCoef_Veg 12 31 0 IrrCoef_LateSoy 8 29 0.2025 IrrCoef_LateSoy 9 8 0.2375 IrrCoef_LateSoy 9 18 0.2525 IrrCoef_LateSoy 9 28 0.2475 IrrCoef_LateSoy 10 8 0.21 IrrCoef_LateSoy 10 28 0.09 IrrCoef_LateSoy 11 7 0.059 IrrCoef_LateSoy 11 17 0.034 IrrCoef_LateSoy 11 27 0.019 IrrCoef_LateSoy 11 28 0 IrrCoef_LateSoy 12 31 0 123 main.ocl :INCLUDE: OCL\constants.ocl :INCLUDE: OCL\Forecast-Trigger_Parms.ocl :Static: statdata.mdb :Time: [HomeDir]\basedata\basedata.dss :if: {[UseForecast]=1} :if: {[ForecastData]=cond} :Time: [HomeDir]\basedata\forecasts_cond.dss :else: :Time: [HomeDir]\basedata\forecasts_non_cond.dss :endif: :endif: :if: {[Drought_Plans_On] = 1} :Time: [HomeDir]\basedata\forecasts_non_cond.dss :endif: :MODULE: DLL AgricDem = modules\AgricDem.DLL :Include: ocl\udef_list.ocl :Commands: // For both basins :Include: ocl\Agric_Calculation.ocl :Include: ocl\Agric_Allocation.ocl :Include: ocl\filter_inflows.ocl // For the Cape Fear /* :Include: ocl\user_def_ops.ocl */ :Include: ocl\routing_cf.ocl :Include: ocl\Harris_ops.ocl :Include: ocl\drought_protocol_jordan.ocl :Include: ocl\Greensboro_ops.ocl :Include: ocl\owasa_ops.ocl :Include: ocl\Jordan_ops.ocl :Include: ocl\Randleman_ops.ocl :Include: ocl\SilerCity_ops.ocl :Include: ocl\Fayetteville_ops.ocl :Include: ocl\FtBragg_ops.ocl :Include: ocl\SpringLake_ops.ocl :Include: ocl\drought_plans_cf.ocl :Include: ocl\WW_Returns.ocl // For the Neuse :Include: ocl\routing_neuse.ocl :Include: ocl\crabtree_ops.ocl :Include: ocl\upper_eno_ops.ocl :Include: ocl\durham_ops.ocl :Include: ocl\falls_bdam_ops.ocl :Include: ocl\falls_flood_ops.ocl :Include: ocl\raleigh_ops.ocl :Include: ocl\Johnston_ops.ocl :Include: ocl\Fuquay_ops.ocl :Include: ocl\buckhorn_Wilson_ops.ocl :Include: ocl\drought_plans_neuse.ocl // Misc. Cape Fear Ops. // Set Cape Fear Arcs/Interconnects not used in basecase to zero Constraint : {dFlow0071.0075 = 0} // Haw R. Burl. WS Constraint : {dFlow0075.0072 = 0} // Haw R. Burl. WW 124 Constraint : {dFlow0075.1046 = 0} // Haw R. Or-Ala WW Constraint : {dFlow0321.0077 = 0} // Green Level Gr-Meb WS Constraint : {dFlow0077.0072 = 0} // Green Level Burl WW Constraint : {dFlow0479.0923 = 0} // JL Holly Springs Constraint : {dFlow0921.0321 = 0} // Orange Co. Gr-Meb Constraint : {dFlow0921.1106 = 0} // Orange Co. Hills Constraint : {dFlow0921.1162 = 0} // Orange Co. Durham // Misc. Neuse Ops. /* Set demands not used in basecase run to zero */ Set : demand1318 { value : 0 } /* Old Burlington Industries */ /* Set interconnects not used in basecase run to zero */ Constraint : {dFlow1300.0471 = 0} /* Raleigh-Cary Interconnect */ Constraint : {dFlow1300.0923 = 0} /* Raleigh-Holly Springs Interconnect */ /* Set Creedmor WD from L. Rogers to zero - currently buying water from SGWASA */ Constraint : {dFlow1270.1258 = 0} /* Set inflows not used in basecase run to zero*/ Set : inflow1252 { value : 0 } /* Kerr Lake indirect transfer*/ Set : inflow1403 { value : 0 } /* Quarry dewatering */ Set : inflow1528 { value : 0 } /* Tar River transfer */ // Solve model Solve : {Priority : 1} // Compute the Falls/Beaverdam Jordan water quality and supply accounting after the SOLVE statement :Include: ocl\Falls_Bdam_WQ_WS_accounts.ocl :Include: ocl\Jordan_WQ_WS_Accounts.ocl :End: 125 udef_list.ocl :Udef: // --------------------------- /* Udefs for inflow filtering */ :For: { [node] = { 0020, 0040, 0070, 0090, 0300, 0310, 0324, 0325, 0590, 0760, 0110, 0140, 0145, 0170, 0210, 0220, 0260, 0270, 0280, 0340, 0380, 0400, 0430, 0450, 0470, 0495, 0520, 0527, 0550, 0640, 0700, 0780, 0820, 1010, 1050, 1060, 1080, 1100, 1110, 1115, 1250, 1270, 1290, 1420, 1440, 1445, 1450, 1480, 1500, 1560, 1630, 1740, 1780, 1800, 1900, 0044, 0112, 0120, 0328, 0570, 0580, 0600, 0610, 0660, 0680, 0720, 0730, 0770, 0790, 1205, 1320, 1405, 1409, 1471, 1520, 1600, 1620, 1650, 1660, 1700, 1747, 1750, 1755, 1760, 1775, 1795, 1570, 1850, 1999 } } Udef : _TempInf[node] Udef : _InfDeficit[node] init{0} :Next: /* Udefs for Crabtree inflow filtering */ Udef : _TempInfCrabtree Udef : _TotInfCrabtree Udef : _InfDeficitCrabtree init{0} // For Harris Ops Udef : _Proj_Harris_Storage Udef : _Proj_Harris_Elev Udef : _30day_Harris_Spill Udef : _Avg_30day_Harris_Inflow Udef : _Harris_Baseflow Udef : _TransferPumps // For Siler City operations Udef : _SilerCity_UsableStor init {5348.79} Udef : _SilerCity_UsableStorPct init {1} Udef : _SilerCityTrig2 Udef : _SilerCityTrig3 Udef : _Tier_MinRelease // Use for the Jordan Lake drought protocol Udef : _JLake_Inflow init {0} Udef : _Avg_JLake_Inflow Udef : _WQZone Udef : _Drought_Stage Udef : _Level_Drawdown // FOR:NEXT loop to declare udefs :FOR: { [level_num] = { 1, 2, 3, 4 } } Udef : _Trigger_[level_num]_On init {[Trigger_[level_num]_On]} Udef : _Count_Trigger_[level_num] init {0} Udef : _Total_Count_Trigger_[level_num] init {0} Udef : _CumDayWithinInt_[level_num] init {0} Udef : _Lill_Target_[level_num] init {0} Udef : _Ph_[level_num]_event_count init {0} :NEXT: // Jordan hydropower generation Udef : _Jordan_hydropower // ------------------ /* For the agricultural demand computations */ 126 // FOR:NEXT loop to declare udefs :FOR: { [county] = { 01, 02, 03, 04, 05, 06, 07, 08, 09, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, 30, 31 } } Udef : dem[county] :NEXT: // ----------------------- /* Udefs for the Jordan Lake pool allocation */ Udef : _JLakeInf Udef : _JLake_WQ_Inf Udef : _JLake_WS_Inf Udef : _Inf_avail_to_WS_pool Udef : _Inf_used_for_WS_pool Udef : _WS_Total_Demand Udef : _WS_Total_Deliv // FOR:NEXT loop to declare udefs :FOR: { [accounts] = { CaryAp, Chatham, RTP, Other, Durham, Morris, Orange, OWASA, Holly } } Udef : _Req_Refill_[Accounts] Udef : _Inf_[Accounts] Udef : _Rem_def_[Accounts] Udef : _Rem_Inf_[Accounts] Udef : _Inf_Total_[Accounts] Udef : _Storage_[Accounts] init{ [Starting_Storage_[Accounts]] } Udef : _Stor_Final_[Accounts] Udef : _Stor_Final_Pct_[Accounts] :NEXT: Udef : _Inf_Rem_WS Udef : _Rem_def_Total Udef : _Total_WS_Storage Udef : _Req_Refill_WS_Pool Udef : _WS_Pool_Excess Udef : _WQ_Release Udef : _WQ_Storage init {[Starting_WQ_Storage]} Udef : _WQ_Storage_Pct Udef : _Req_Refill_WQ Udef : _WQ_Pool_Excess // FOR THE NEUSE // // /* Udefs for cumulative tracking variables */ Udef : _CumWSupplyDemand init {0} Udef : _CumWSupplyDelivery init {0} Udef : _CumWWReturn init {0} Udef : _CumWSupplyWWReturn init {0} /* Udefs for Eno operations */ Udef : _Orange_streamflow init {3.376} /* Initially set to 1.1 mgd*/ Udef : _Eno_Channel_Loss init {0} Udef : _Max_Hills_WD init {4.634} /* Initially set to 1.51 mgd */ Udef : _Max_OrAl_WD init {2.157} /* Initially set to 0.82 mgd */ Udef : _Max_Pied_WD init {1.320} /* Initially set to 0.43 mgd */ Udef : _WFER_Tier init {1} /* For proportional drawdown for Durham*/ Udef : _StorRatio Decision { 0 , unbounded } Udef : _StorRatio2 Decision { 0 , unbounded } 127 /* Udef for Local Clayton Inflow for Falls Flood control */ Udef : _ClaytLocal init {0} /* Udefs for Falls/Clayton minimum flow */ Udef : ClaytonTarget_Override Udef : ClaytonTarget_SafeFact Udef : FLake_WQ_Threshold Udef : FLakeMin_SafeFact /* Udefs for Raleigh system storage pct. - only used when Swift Creek WD being used. */ UDef : _Raleigh_Sys_Stor_Pct /* Udefs for the Falls and Beaverdam pool allocation */ Udef : _Pct_Max_WQ_Storage Udef : _Pct_Max_WS_Storage Udef : _FLake_Max_WQ_Storage Udef : _FLake_Max_WS_Storage Udef : _Bdam_Max_WQ_Storage Udef : _Bdam_Max_WS_Storage Udef : _Bdam_Inf Udef : _Bdam_Inf_WS Udef : _Bdam_WS_Rel Udef : _Bdam_WS_Stor_Init Udef : _Bdam_WStoWQ_Spill Udef : _Bdam_Inf_WQ Udef : _Bdam_WQ_Rel Udef : _Bdam_WQ_Stor init {[Bdam_WQ_Stor] } Udef : _Bdam_WQtoWS_Spill Udef : _Bdam_WS_Stor init {[Bdam_WS_Stor] } Udef : _FLake_Inf Udef : _FLake_Inf_WS Udef : _Flake_WS_Rel Udef : _FLake_WS_Stor_Init Udef : _FLake_WStoWQ_Spill Udef : _FLake_Inf_WQ Udef : _Flake_WQ_Rel Udef : _FLake_WQ_Stor init {[FLake_WQ_Stor] } Udef : _Total_WQ_Stor Udef : _FLake_WQtoWS_Spill Udef : _FLake_WS_Stor init {[FLake_WS_Stor] } Udef : _Total_WS_Stor Udef : _Bdam_WS_Pct Udef : _Bdam_WQ_Pct Udef : _FLake_WS_Pct Udef : _FLake_WQ_Pct Udef : _Total_WS_Pct Udef : _Total_WQ_Pct Udef : _WtAvgRunoff // Set usable storage & DSR udefs for drought plans Udef : _OWASA_Max_Usable_Stor Udef : _OWASA_Usable_Stor Udef : _OWASA_Usable_Stor_Pct init {100} Udef : _Burl_Max_Usable_Stor Udef : _Burl_Usable_Stor Udef : _Burl_Usable_Stor_Pct init {100} Udef : _Gree_Max_Usable_Stor Udef : _Gree_Usable_Stor Udef : _Gree_Usable_Stor_Pct init {100} Udef : _Gree_DSR Udef : _High_Max_Usable_Stor Udef : _High_Usable_Stor 128 Udef : _High_Usable_Stor_Pct init {100} Udef : _Reid_Max_Usable_Stor Udef : _Reid_Usable_Stor Udef : _Reid_Usable_Stor_Pct init {100} Udef : _Reid_DSR Udef : _Rams_Max_Usable_Stor Udef : _Rams_Usable_Stor Udef : _Rams_Usable_Stor_Pct init {100} Udef : _GramMeb_Max_Usable_Stor Udef : _GramMeb_Usable_Stor Udef : _GramMeb_Usable_Stor_Pct init {100} Udef : _GramMeb_DSR Udef : _Siler_Max_Usable_Stor Udef : _Siler_Usable_Stor Udef : _Siler_Usable_Stor_Pct init {100} Udef : _Cary_DSR Udef : _ChatNo_Usable_Stor_Pct init {100} Udef : _Durham_add_sources init {0} Udef : _Durham_usable_stor Udef : _Max_Durham_usable_stor Udef : _Durham_usable_pct // Udefs for drought plan triggers :FOR: { [Util] = { Burl, Burl1, Burl2, Gree, Gree1, Gree2, High, Reid, Rams, GramMeb, Siler, Cary, RTP, Morris, ChatNo, Dunn, Carth, Ral, Durham, SGWASA, Wilson } } :FOR: { [level_num] = { 1, 2, 3, 4, 5, 6 } } Udef : _[Util]_Consvn_[level_num]_Demand Udef : _[Util]_Trigger_[level_num]_On init {0} Udef : _[Util]_Stage_[level_num]_counter init {0} Udef : _[Util]_Ph_[level_num]_event_counter init {0} :NEXT: :NEXT: Udef : _CaryApex_WW_Consvn init{1} :FOR: { [level_num] = { 1, 2, 3 } } Udef : _OWASA_ProjInflow[level_num] Udef : _OWASA_ProjDemand[level_num] Udef : _OWASA_ProjMinFlow[level_num] Udef : _OWASA_ProjEvap[level_num] Udef : _OWASA_ProjStorage[level_num] Udef : _OWASA_ProjStorage_Pct[level_num] Udef : _OWASA_Consvn_[level_num]_Demand Udef : _OWASA_Trigger_[level_num]_On init {0} Udef : _OWASA_Stage_[level_num]_counter init {0} Udef : _OWASA_Ph_[level_num]_event_counter init {0} :NEXT: // Udefs for the Cary/Apex WW system Udef : _CaryApexWW Udef : _RTPWW Udef : _MorrisWW Udef : _CarySystemWW 129 // Allocate the total to the various discharge points, assigning monthly patterns and conservation factors (if any) Udef : _CaryNorthWW Udef : _CarySouthWW Udef : _ApexWW Udef : _CaryDTCWWTP Udef : _CaryWestWakeWWTP // --------------------------------- // For use in output tables :substitute: [accounts] = "CaryAp, Chatham, RTP, Other, Durham, Morris, Orange, OWASA, Holly" // for WQ_WS accounting for Jordan Lake :substitute: [level_num] = "1, 2, 3, 4" // for drought trigger and level determination for Jordan Lake drought protocol // Natural inflows in both basins :substitute: [InflowNd_CFear] = "0020, 0040, 0044, 0070, 0090, 0110, 0112, 0120, 0140, 0145, 0170, 0210, 0220, 0260, 0270, 0280, 0300, 0310, 0324, 0325, 0328, 0340, 0380, 0395, 0400, 0430, 0450, 0470, 0495, 0520, 0527, 0550, 0570, 0580, 0590, 0600, 0610, 0640, 0660, 0680, 0700, 0720, 0730, 0760, 0770, 0777, 0780, 0790, 0820" :substitute: [InflowNd_Neuse] = "1010, 1050, 1060, 1080, 1100, 1110, 1115, 1140, 1200, 1205, 1230, 1250, 1270, 1290, 1300, 1320, 1400, 1402, 1404, 1405, 1406, 1408, 1409, 1410, 1412, 1414, 1416, 1418, 1420, 1422, 1440, 1445, 1450, 1471, 1480, 1500, 1520, 1560, 1570, 1600, 1620, 1630, 1650, 1660, 1700, 1740, 1747, 1750, 1755, 1760, 1775, 1780, 1795, 1800, 1850, 1900, 1999" // Reservoir nodes :substitute: [ResNd_CFear] = "0030, 0070, 0112, 0120, 0140, 0220, 0270, 0300, 0320, 0324, 0325, 0340, 0390, 0395, 0430, 0470, 0520, 0528, 0760, 0777, 0790" :substitute: [ResNd_Neuse] = "1010, 1050, 1060, 1080, 1100, 1120, 1140, 1200, 1230, 1250, 1270, 1290, 1300, 1420, 1440, 1445, 1450, 1500, 1647, 1648, 1740" :substitute: [CrabtreeNd] = "1400, 1402, 1404, 1406, 1408, 1410, 1412, 1414, 1416, 1418, 1422" // For Crabtree impoundments // for some of the Neuse reservoirs, we are not modeling with a "rule curve" - see reservoir rules table on GUI :substitute: [ResNd_RCurves_Neuse] = "1050, 1060, 1140, 1200, 1230, 1250, 1290, 1300, 1420, 1440, 1500" // For municipal and industrial demands :substitute: [DemandNd_CFear] = "0031, 0123, 0223, 0261, 0301, 0321, 0327, 0341, 0401, 0431, 0471, 0473, 0474, 0475, 0477, 0483, 0487, 0491, 0521, 0551, 0601, 0605, 0663, 0701, 0719, 0721, 0733, 0771, 0781, 0785, 0823, 0825, 0903, 0904, 0906, 0921, 0923" :substitute: [DemandNd_Neuse] = "1046, 1106, 1116, 1162, 1256, 1258, 1306, 1506, 1646, 1666, 1706, 1766, 1786, 1806, 1906" // For WW returns linked to demands :substitute: [LinkedWWRetArc_CFear] = "0031.0040, 0341.0072, 0072.0100, 0072.0350, 0341.0350, 0121.0140, 0122.0170, 0122.0180, 0223.0222, 0261.0280, 0904.0224, 0301.0570, 0321.0100, 130 0401.0410, 0431.0440, 0473.0470, 1162.0453, 1162.0463, 0483.0480, 0487.0490, 0491.0490, 0491.0610, 0521.0520, 0554.0686, 0554.0664, 0554.0550, 0554.0556, 0601.0610, 0327.0328, 0663.0680, 0663.0690, 0733.0740, 0733.0770, 0771.0770, 0781.0790, 0785.0790, 0923.0520, 0471.0472, 0474.0472, 0477.0472, 0472.0453, 0472.0930, 0479.0470" :substitute: [LinkedWWRetArc_Neuse] = "1046.1100, 1106.1109, 1162.1163, 1259.1300, 1306.1620, 1306.1500, 1306.1320, 1646.1630, 1646.1675, 1666.1675, 0663.1756, 1756.1757, 1766.1770, 1675.1747, 1786.1780, 1806.1795, 1806.1850, 1806.1845, 1506.1560, 1906.1999, 1706.1409, 1706.0554, 0472.1401, 0472.1471, 0472.1405" // For independent WW returns :substitute: [IndepWWRetNd_CFear] = "0148, 0192, 0227, 0282, 0464, 0591, 0592, 0772, 0774, 0910, 0960, 0962" :substitute: [IndepWWRetNd_Neuse] = "1307, 1407, 1563, 1565, 1567, 1569, 1643, 1645, 1705, 1753, 1759, 1787, 1847" // For agricultural demand :substitute: [AgricNd_CFear] = "0021, 0041, 0043, 0051, 0075, 0077, 0081, 0083, 0111, 0161, 0211, 0231, 0263, 0281, 0311, 0331, 0361, 0371, 0381, 0403, 0411, 0441, 0461, 0481, 0511, 0531, 0541, 0553, 0581, 0593, 0595, 0603, 0621, 0623, 0671, 0674, 0681, 0691, 0713, 0741, 0773, 0775, 0783, 0801, 0811, 0821, 0940" :substitute: [AgricNd_Neuse] = "1052, 1062, 1112, 1142, 1202, 1302, 1318, 1482, 1502, 1562, 1632, 1752, 1756, 1782, 1802, 1902" 131 constants.ocl This file is automatically generated by the OASIS GUI. Any changes you make to this file will be overwritten by the program. To edit the Constants table, do not edit this file. Instead, go to the 'OCL' tab of the GUI and edit the 'OCL Constants' table. */ :substitute: [Bdam_WQ_Stor] = 2663 /* Initial water quality storage for Beaverdam */ :substitute: [Bdam_WS_Stor] = 1954 /* Initial water supply storage for Beaverdam */ :substitute: [ClaytonTarget_Override] = 0 /* 0 = Normal Clayton target; 1 = Override target when Falls WQ < threshold */ :substitute: [ClaytonTarget_SafeFact] = 10 /* Pct. safety factor for Clayton minimum target */ :substitute: [Demand_Multiplier] = 1 /* Multiplication factor used to adjust all demands in the system */ :substitute: [Drought_Plans_On] = 0 /* 1 = Use drought plans, 0 = do not use drought plans */ :substitute: [FLake_Max_WQ_WS_Storage] = 101705 /* Total WQ and WS storage in Falls */ :substitute: [FLake_WQ_Stor] = 58659 /* Initial water quality storage for Falls */ :substitute: [FLake_WQ_Threshold] = 20 /* Threshold pct. for Falls WQ storage used for Clayton override */ :substitute: [FLake_WS_Stor] = 43046 /* Initial water supply storage for Falls */ :substitute: [FLakeMin_SafeFact] = 0 /* Pct. safety factor for Falls minimum releases */ :substitute: [Jordan_Minimum_Release_Normal] = 40 /* In cfs */ :substitute: [Jordan_Minimum_Release_Stage_1] = 40 /* In cfs */ :substitute: [Jordan_Minimum_Release_Stage_2] = 40 /* In cfs */ :substitute: [Jordan_Minimum_Release_Stage_3] = 200 /* In cfs */ :substitute: [Jordan_Minimum_Release_Stage_4] = 100 /* In cfs */ :substitute: [Level_Change_Time_Interval] = 7 /* In days */ :substitute: [Lillington_Increment_Stage_1] = 50 /* In cfs */ :substitute: [Lillington_Increment_Stage_2] = 50 /* In cfs */ :substitute: [Lillington_Increment_Stage_3] = 0 /* In cfs */ :substitute: [Lillington_Increment_Stage_4] = 0 /* In cfs */ :substitute: [Lillington_Lower_Target_Stage_1] = 450 /* In cfs */ :substitute: [Lillington_Lower_Target_Stage_2] = 300 /* In cfs */ :substitute: [Lillington_Lower_Target_Stage_3] = 0 /* In cfs */ :substitute: [Lillington_Lower_Target_Stage_4] = 0 /* In cfs */ :substitute: [Lillington_Target_Normal] = 600 /* In cfs */ :substitute: [Lillington_Upper_Target_Stage_1] = 600 /* In cfs */ :substitute: [Lillington_Upper_Target_Stage_2] = 450 /* In cfs */ :substitute: [Lillington_Upper_Target_Stage_3] = 0 /* In cfs */ :substitute: [Lillington_Upper_Target_Stage_4] = 0 /* In cfs */ :substitute: [Max_WQ_Storage] = 94600 /* Total water quality storage in Jordan Lake (in acre feet) */ :substitute: [Max_WQ_WS_Storage] = 140400 /* Total water quality and supply storage in Jordan Lake (in acre feet) */ :substitute: [Max_WS_Storage] = 45800 /* Total water supply storage in Jordan Lake (in acre feet) */ :substitute: [Starting_Storage_CaryAp] = 14656 /* Initial condition for the CaryApex account (in acre feet) */ :substitute: [Starting_Storage_Chatham] = 2748 /* Initial condition for the Chatham account (in acre feet) */ :substitute: [Starting_Storage_Durham] = 4580 /* Initial condition for the Durham account (in acre feet) */ :substitute: [Starting_Storage_Holly] = 916 /* Initial condition for the Holly Springs account (in acre feet) */ :substitute: [Starting_Storage_Morris] = 1603 /* Initial condition for the Morrisville account (in acre feet) */ :substitute: [Starting_Storage_Orange] = 458 /* Initial condition for the Orange Co. account (in acre feet) */ :substitute: [Starting_Storage_Other] = 16946 /* Initial condition for the unallocated account (in acre feet) */ :substitute: [Starting_Storage_OWASA] = 2290 /* Initial condition for the OWASA account (in acre feet) */ :substitute: [Starting_Storage_RTP] = 1603 /* Initial condition for the RTP account (in acre feet) */ :substitute: [Starting_WQ_Storage] = 94600 /* Initial Jordan Lake WQ storage (in acre feet) */ :substitute: [Total_Max_WQ_Storage] = 61322 /* Total WQ storage for Falls and Beaverdam */ :substitute: [Total_Max_WQ_WS_Storage] = 106322 /* Total WQ and WS storage in Falls and Beaverdam */ :substitute: [Total_Max_WS_Storage] = 45000 /* Total WS storage for Falls and Beaverdam */ :substitute: [Trigger_1_On] = 0 /* Initial condition for the 1st drought trigger ( 1= On) */ :substitute: [Trigger_2_On] = 0 /* Initial condition for the 2nd drought trigger ( 1= On) */ :substitute: [Trigger_3_On] = 0 /* Initial condition for the 3rd drought trigger ( 1= On) */ :substitute: [Trigger_4_On] = 0 /* Initial condition for the 4th drought trigger ( 1= On) */ :substitute: [Use_Demand_Multiplier] = 0 /* Flag tells whether to adjust all demands in the system with a mult. factor */ :substitute: [WQ_Fraction] = 0.674 /* Water quality storage as a fraction of the total water quality and supply storage in Jordan Lake */ :substitute: [WQ_Pct_Remaining_Stage_1] = 80 /* Water quality storage remaining as a fraction in Stage 1 for Jordan */ :substitute: [WQ_Pct_Remaining_Stage_2] = 60 /* Water quality storage remaining as a fraction in Stage 2 for Jordan */ :substitute: [WQ_Pct_Remaining_Stage_3] = 40 /* Water quality storage remaining as a fraction in Stage 3 for Jordan */ 132 :substitute: [WQ_Pct_Remaining_Stage_4] = 20 /* Water quality storage remaining as a fraction in Stage 4 for Jordan */ :substitute: [WS_CaryAp_Fraction] = 0.32 /* Available water supply storage for Cary Apex (as a fraction of the total pool) */ :substitute: [WS_Chatham_Fraction] = 0.06 /* Available water supply storage for Chatham Co. (as a fraction of the total pool) */ :substitute: [WS_Durham_Fraction] = 0.1 /* Available water supply storage for Durham (as a fraction of the total pool) */ :substitute: [WS_Holly_Fraction] = 0.02 /* Available water supply storage for Holly Springs (as a fraction of the total pool) */ :substitute: [WS_Morris_Fraction] = 0.035 /* Available water supply storage for Morrisville(as a fraction of the total pool) */ :substitute: [WS_Orange_Fraction] = 0.01 /* Available water supply storage for Orange Co. (as a fraction of the total pool) */ :substitute: [WS_Other_Fraction] = 0.37 /* Available water supply storage for unallocated (as a fraction of the total pool) */ :substitute: [WS_OWASA_Fraction] = 0.05 /* Available water supply storage for OWASA (as a fraction of the total pool) */ :substitute: [WS_RTP_Fraction] = 0.035 /* Available water supply storage for RTP (as a fraction of the total pool) */ 133 agric_calculation.ocl /* Note the precip data is contained in the basedata file and for simplicity uses Jordan Lake for the Cape Fear and Falls Lake for the Neuse. */ // The first 17 counties are for the Cape Fear Basin. The next 11 are for the Neuse. Three counties are in both basins (Wake, Durham, and Orange). // For the combined model, the more recent acreages (from the Neuse model) for these counties are used. // First compute agricultural water demand for Cape Fear counties based on Jordan Lake precip. The counties are // labeled in the Edit Agricultural Data dialog box in the GUI. Note - counties in both basins (Durham, Orange, Wake) use the CF precip. :For: { [cty] = {01, 02, 03, 04, 05, 06, 07, 08, 09, 10, 11, 12, 13, 14, 15, 16, 17} } RUN_MODULE: AgricDem { Input: { [cty], // County number timesers(CFear/precip), // Precip for Jordan Lake in inches pattern(IrrCoef_Tobacco), // Water Use Coefficients for Tobacco, etc. pattern(IrrCoef_Turf), pattern(IrrCoef_Golf), pattern(IrrCoef_ContNurs), pattern(IrrCoef_FieldNurs), pattern(IrrCoef_Cotton), pattern(IrrCoef_EarlySoy), pattern(IrrCoef_LateSoy), pattern(IrrCoef_Corn), pattern(IrrCoef_Veg), pattern(IrrCoef_PastHay), pattern(IrrCoef_Peanut), pattern(IrrCoef_Blueberry), pattern(IrrCoef_Strawberry), pattern(IrrCoef_Fruit), pattern(IrrCoef_Beef), pattern(IrrCoef_Dairy), pattern(IrrCoef_Horse), pattern(IrrCoef_Pig), pattern(IrrCoef_Chicken), pattern(IrrCoef_Turkey), pattern(IrrCoef_OtherAnimal) } Output: { dem[cty] } } :Next: // Then compute agricultural demand for the Neuse counties based on Falls Lake precip. Note - counties in both basins (Durham, Orange, Wake) use the CF precip. :For: { [cty] = {18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28} } RUN_MODULE: AgricDem { Input: { [cty], // County number timesers(Neuse/precip), // Precip for Falls Lake in inches pattern(IrrCoef_Tobacco), // Water Use Coefficients for Tobacco, etc. pattern(IrrCoef_Turf), pattern(IrrCoef_Golf), pattern(IrrCoef_ContNurs), pattern(IrrCoef_FieldNurs), pattern(IrrCoef_Cotton), pattern(IrrCoef_EarlySoy), pattern(IrrCoef_LateSoy), pattern(IrrCoef_Corn), pattern(IrrCoef_Veg), 134 pattern(IrrCoef_PastHay), pattern(IrrCoef_Peanut), pattern(IrrCoef_Blueberry), pattern(IrrCoef_Strawberry), pattern(IrrCoef_Fruit), pattern(IrrCoef_Beef), pattern(IrrCoef_Dairy), pattern(IrrCoef_Horse), pattern(IrrCoef_Pig), pattern(IrrCoef_Chicken), pattern(IrrCoef_Turkey), pattern(IrrCoef_OtherAnimal) } Output: { dem[cty] } } :Next: /* The results are in mgd. Now convert these to acre feet for use in the agric_allocation.ocl file */ // For the Cape Fear Set : dem01 { value : convert_units {dem01, mgd, af } } Set : dem02 { value : convert_units {dem02, mgd, af } } Set : dem03 { value : convert_units {dem03, mgd, af } } Set : dem04 { value : convert_units {dem04, mgd, af } } Set : dem05 { value : convert_units {dem05, mgd, af } } Set : dem06 { value : convert_units {dem06, mgd, af } } Set : dem07 { value : convert_units {dem07, mgd, af } } Set : dem08 { value : convert_units {dem08, mgd, af } } Set : dem09 { value : convert_units {dem09, mgd, af } } Set : dem10 { value : convert_units {dem10, mgd, af } } Set : dem11 { value : convert_units {dem11, mgd, af } } Set : dem12 { value : convert_units {dem12, mgd, af } } Set : dem13 { value : convert_units {dem13, mgd, af } } Set : dem14 { value : convert_units {dem14, mgd, af } } Set : dem15 { value : convert_units {dem15, mgd, af } } Set : dem16 { value : convert_units {dem16, mgd, af } } Set : dem17 { value : convert_units {dem17, mgd, af } } // For the Neuse Set : dem18 { value : convert_units {dem18, mgd, af } } Set : dem19 { value : convert_units {dem19, mgd, af } } Set : dem20 { value : convert_units {dem20, mgd, af } } Set : dem21 { value : convert_units {dem21, mgd, af } } Set : dem22 { value : convert_units {dem22, mgd, af } } Set : dem23 { value : convert_units {dem23, mgd, af } } Set : dem24 { value : convert_units {dem24, mgd, af } } Set : dem25 { value : convert_units {dem25, mgd, af } } Set : dem26 { value : convert_units {dem26, mgd, af } } Set : dem27 { value : convert_units {dem27, mgd, af } } Set : dem28 { value : convert_units {dem28, mgd, af } } 135 agric_allocation.ocl /* Note the precip data is contained in the basedata file and for simplicity uses Jordan Lake for the Cape Fear and Falls Lake for the Neuse. */ // The first 17 counties are for the Cape Fear Basin. The next 11 are for the Neuse. Three counties are in both basins (Wake, Durham, and Orange). // For the combined model, the more recent acreages (from the Neuse model) for these counties are used. // First compute agricultural water demand for Cape Fear counties based on Jordan Lake precip. The counties are // labeled in the Edit Agricultural Data dialog box in the GUI. Note - counties in both basins (Durham, Orange, Wake) use the CF precip. :For: { [cty] = {01, 02, 03, 04, 05, 06, 07, 08, 09, 10, 11, 12, 13, 14, 15, 16, 17} } RUN_MODULE: AgricDem { Input: { [cty], // County number timesers(CFear/precip), // Precip for Jordan Lake in inches pattern(IrrCoef_Tobacco), // Water Use Coefficients for Tobacco, etc. pattern(IrrCoef_Turf), pattern(IrrCoef_Golf), pattern(IrrCoef_ContNurs), pattern(IrrCoef_FieldNurs), pattern(IrrCoef_Cotton), pattern(IrrCoef_EarlySoy), pattern(IrrCoef_LateSoy), pattern(IrrCoef_Corn), pattern(IrrCoef_Veg), pattern(IrrCoef_PastHay), pattern(IrrCoef_Peanut), pattern(IrrCoef_Blueberry), pattern(IrrCoef_Strawberry), pattern(IrrCoef_Fruit), pattern(IrrCoef_Beef), pattern(IrrCoef_Dairy), pattern(IrrCoef_Horse), pattern(IrrCoef_Pig), pattern(IrrCoef_Chicken), pattern(IrrCoef_Turkey), pattern(IrrCoef_OtherAnimal) } Output: { dem[cty] } } :Next: // Then compute agricultural demand for the Neuse counties based on Falls Lake precip. Note - counties in both basins (Durham, Orange, Wake) use the CF precip. :For: { [cty] = {18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28} } RUN_MODULE: AgricDem { Input: { [cty], // County number timesers(Neuse/precip), // Precip for Falls Lake in inches pattern(IrrCoef_Tobacco), // Water Use Coefficients for Tobacco, etc. pattern(IrrCoef_Turf), pattern(IrrCoef_Golf), pattern(IrrCoef_ContNurs), pattern(IrrCoef_FieldNurs), pattern(IrrCoef_Cotton), pattern(IrrCoef_EarlySoy), pattern(IrrCoef_LateSoy), pattern(IrrCoef_Corn), pattern(IrrCoef_Veg), 136 pattern(IrrCoef_PastHay), pattern(IrrCoef_Peanut), pattern(IrrCoef_Blueberry), pattern(IrrCoef_Strawberry), pattern(IrrCoef_Fruit), pattern(IrrCoef_Beef), pattern(IrrCoef_Dairy), pattern(IrrCoef_Horse), pattern(IrrCoef_Pig), pattern(IrrCoef_Chicken), pattern(IrrCoef_Turkey), pattern(IrrCoef_OtherAnimal) } Output: { dem[cty] } } :Next: /* The results are in mgd. Now convert these to acre feet for use in the agric_allocation.ocl file */ // For the Cape Fear Set : dem01 { value : convert_units {dem01, mgd, af } } Set : dem02 { value : convert_units {dem02, mgd, af } } Set : dem03 { value : convert_units {dem03, mgd, af } } Set : dem04 { value : convert_units {dem04, mgd, af } } Set : dem05 { value : convert_units {dem05, mgd, af } } Set : dem06 { value : convert_units {dem06, mgd, af } } Set : dem07 { value : convert_units {dem07, mgd, af } } Set : dem08 { value : convert_units {dem08, mgd, af } } Set : dem09 { value : convert_units {dem09, mgd, af } } Set : dem10 { value : convert_units {dem10, mgd, af } } Set : dem11 { value : convert_units {dem11, mgd, af } } Set : dem12 { value : convert_units {dem12, mgd, af } } Set : dem13 { value : convert_units {dem13, mgd, af } } Set : dem14 { value : convert_units {dem14, mgd, af } } Set : dem15 { value : convert_units {dem15, mgd, af } } Set : dem16 { value : convert_units {dem16, mgd, af } } Set : dem17 { value : convert_units {dem17, mgd, af } } // For the Neuse Set : dem18 { value : convert_units {dem18, mgd, af } } Set : dem19 { value : convert_units {dem19, mgd, af } } Set : dem20 { value : convert_units {dem20, mgd, af } } Set : dem21 { value : convert_units {dem21, mgd, af } } Set : dem22 { value : convert_units {dem22, mgd, af } } Set : dem23 { value : convert_units {dem23, mgd, af } } Set : dem24 { value : convert_units {dem24, mgd, af } } Set : dem25 { value : convert_units {dem25, mgd, af } } Set : dem26 { value : convert_units {dem26, mgd, af } } Set : dem27 { value : convert_units {dem27, mgd, af } } Set : dem28 { value : convert_units {dem28, mgd, af } } 137 filter_inflows.ocl /* Sets the inflows for nodes that need to be filtered. The finalized inflows (through Sept 2004 for the Cape Fear and April 2008 for the Neuse) were already filtered; however, the provisional inflows from the update record routine can be negative due to time of travel or imperfect impairment estimations, and therefore are filtered here to prevent model infeasibility or unrealistic reservoir releases and/or demand shortages. All Neuse inflows are filtered except Falls/Bdam, which can have negatives due to the use of back-calculated inflows; and Michie/LRR in Durham, which are based on already unimpaired gages that will not be negative. The inflows to the Crabtree Creek system are set and filtered separately in Crabtree.ocl. Negative back-calculated inflows for Falls/Bdam are not physically possible since we've adjusted for net evap and net withdrawals; however, reservoir storage can handle these negatives. The negatives are not used in developing regressions to fill in other gages, so we do not need to adjust the negatives. */ // The Cape Fear inflow nodes could be expanded :For: { [node] = { 0020, 0040, 0070, 0090, 0300, 0310, 0324, 0325, 0590, 0760, 0110, 0145, 0170, 0210, 0220, 0260, 0270, 0280, 0340, 0380, 0400, 0430, 0450, 0470, 0495, 0520, 0527, 0550, 0700, 1010, 1050, 1060, 1080, 1100, 1110, 1115, 1250, 1270, 1290, 1420, 1440, 1445, 1450, 1500, 1560, 1630, 1740 } } Set : _TempInf[node] { Value : timesers([node]/inflow) } Set : inflow[node] { Value : max{0, _TempInf[node] - _InfDeficit[node](-1) } } Set : _InfDeficit[node] { Value : max{0, _InfDeficit[node](-1) - _TempInf[node] } } :Next: // In addition to filtering, this also sets inflows to points of interest // that are not contained in the basedata file, and adjusts existing inflows accordingly // New inflows for CF // Greensboro Haw intake Set : _TempInf0044 { Value : timesers(0090/inflow)*(14/174.6) } Set : inflow0044 { Value : max{0, _TempInf0044 - _InfDeficit0044(-1) } } Set : _InfDeficit0044 { Value : max{0, _InfDeficit0044(-1) - _TempInf0044 } } // Adj Haw gage Set : _TempInf0090 { Value : timesers(0090/inflow)*(160.6/174.6) } Set : inflow0090 { Value : max{0, _TempInf0090 - _InfDeficit0090(-1) } } Set : _InfDeficit0090 { Value : max{0, _InfDeficit0090(-1) - _TempInf0090 } } // Lake Higgins Set : _TempInf0112 { Value : timesers(0140/inflow)*(11/84.4) } Set : inflow0112 { Value : max{0, _TempInf0112 - _InfDeficit0112(-1) } } Set : _InfDeficit0112 { Value : max{0, _InfDeficit0112(-1) - _TempInf0112 } } // Brandt Reservoir Set : _TempInf0120 { Value : timesers(0140/inflow)*(27.4/84.4) } Set : inflow0120 { Value : max{0, _TempInf0120 - _InfDeficit0120(-1) } } Set : _InfDeficit0120 { Value : max{0, _InfDeficit0120(-1) - _TempInf0120 } } // Adj Townsend Inflow Set : _TempInf0140 { Value : timesers(0140/inflow)*(46.8/84.4) } Set : inflow0140 { Value : max{0, _TempInf0140 - _InfDeficit0140(-1) } } Set : _InfDeficit0140 { Value : max{0, _InfDeficit0140(-1) - _TempInf0140 } } // Rocky River Discharge Set : _TempInf0328 { Value : (timesers(0324/inflow)+timesers(0325/inflow))*(22.8/55) } Set : inflow0328 { Value : max{0, _TempInf0328 - _InfDeficit0328(-1) } } Set : _InfDeficit0328 { Value : max{0, _InfDeficit0328(-1) - _TempInf0328 } } // Ramseur Discharge Set : _TempInf0570 { Value : timesers(0300/inflow)*(6/355) } Set : inflow0570 { Value : max{0, _TempInf0570 - _InfDeficit0570(-1) } } Set : _InfDeficit0570 { Value : max{0, _InfDeficit0570(-1) - _TempInf0570 } } 138 // Adj 590 for Robbins intake Set : _TempInf0590 { Value : timesers(0590/inflow)*(268/400) } Set : inflow0590 { Value : max{0, _TempInf0590 - _InfDeficit0590(-1) } } Set : _InfDeficit0590 { Value : max{0, _InfDeficit0590(-1) - _TempInf0590 } } // Robbins intake Set : _TempInf0580 { Value : timesers(0590/inflow)*(132/400) } Set : inflow0580 { Value : max{0, _TempInf0580 - _InfDeficit0580(-1) } } Set : _InfDeficit0580 { Value : max{0, _InfDeficit0580(-1) - _TempInf0580 } } // Pilgrims Pride intake Set : _TempInf0600 { Value : timesers(0640/inflow)*(371/630) } Set : inflow0600 { Value : max{0, _TempInf0600 - _InfDeficit0600(-1) } } Set : _InfDeficit0600 { Value : max{0, _InfDeficit0600(-1) - _TempInf0600 } } // Node 610 Set : _TempInf0610 { Value : timesers(0640/inflow)*(40/630) } Set : inflow0610 { Value : max{0, _TempInf0610 - _InfDeficit0610(-1) } } Set : _InfDeficit0610 { Value : max{0, _InfDeficit0610(-1) - _TempInf0610 } } // Adj Deep Moncure Gage Set : _TempInf0640 { Value : timesers(0640/inflow)*(219/630) - inflow0328 - inflow0570} Set : inflow0640 { Value : max{0, _TempInf0640 - _InfDeficit0640(-1) } } Set : _InfDeficit0640 { Value : max{0, _InfDeficit0640(-1) - _TempInf0640 } } // Node 660 Set : _TempInf0660 { Value : timesers(0780/inflow)*(280/1372.6) } Set : inflow0660 { Value : max{0, _TempInf0660 - _InfDeficit0660(-1) } } Set : _InfDeficit0660 { Value : max{0, _InfDeficit0660(-1) - _TempInf0660 } } // Node 680 Set : _TempInf0680 { Value : timesers(0780/inflow)*(20/1372.6) } Set : inflow0680 { Value : max{0, _TempInf0680 - _InfDeficit0680(-1) } } Set : _InfDeficit0680 { Value : max{0, _InfDeficit0680(-1) - _TempInf0680 } } // Node 720 Set : _TempInf0720 { Value : timesers(0780/inflow)*(157/1372.6) } Set : inflow0720 { Value : max{0, _TempInf0720 - _InfDeficit0720(-1) } } Set : _InfDeficit0720 { Value : max{0, _InfDeficit0720(-1) - _TempInf0720 } } // Fayetteville PWC Intake Set : _TempInf0730 { Value : timesers(0780/inflow)*(233/1372.6) } Set : inflow0730 { Value : max{0, _TempInf0730 - _InfDeficit0730(-1) } } Set : _InfDeficit0730 { Value : max{0, _InfDeficit0730(-1) - _TempInf0730 } } // Monsanto WS Intake Set : _TempInf0770 { Value : timesers(0780/inflow)*(430/1372.6) } Set : inflow0770 { Value : max{0, _TempInf0770 - _InfDeficit0770(-1) } } Set : _InfDeficit0770 { Value : max{0, _InfDeficit0770(-1) - _TempInf0770 } } // Adj CF Tarheel Gage Set : _TempInf0780 { Value : timesers(0780/inflow)*(430/1372.6) } Set : inflow0780 { Value : max{0, _TempInf0780 - _InfDeficit0780(-1) } } Set : _InfDeficit0780 { Value : max{0, _InfDeficit0780(-1) - _TempInf0780 } } // L&D #2 / Elizabethtown WWTP Set : _TempInf0790 { Value : timesers(0820/inflow)*(168/403) } Set : inflow0790 { Value : max{0, _TempInf0790 - _InfDeficit0790(-1) } } Set : _InfDeficit0790 { Value : max{0, _InfDeficit0790(-1) - _TempInf0790 } } // Adj of CF Kelly Gage Set : _TempInf0820 { Value : timesers(0820/inflow)*(235/403) } Set : inflow0820 { Value : max{0, _TempInf0820 - _InfDeficit0820(-1) } } Set : _InfDeficit0820 { Value : max{0, _InfDeficit0820(-1) - _TempInf0820 } } // New inflows for Neuse // 205 - Little R @ Eno R 139 Set : _TempInf1205 { Value : timesers(1115/inflow)*(105/75) } Set : inflow1205 { Value : max{0, _TempInf1205 - _InfDeficit1205(-1) } } Set : _InfDeficit1205 { Value : max{0, _InfDeficit1205(-1) - _TempInf1205 } } // Adj Falls inflow (not filtered) Set : inflow1300 { Value : timesers(1300/inflow) - inflow1205 } // Apex WW Discharge Set : _TempInf1405 { Value : timesers(1480/inflow)*(0.9/83.5) } Set : inflow1405 { Value : max{0, _TempInf1405 - _InfDeficit1405(-1) } } Set : _InfDeficit1405 { Value : max{0, _InfDeficit1405(-1) - _TempInf1405 } } // Fuquay-Varina WW Discharge Set : _TempInf1409 { Value : timesers(1480/inflow)*(7.6/83.5) } Set : inflow1409 { Value : max{0, _TempInf1409 - _InfDeficit1409(-1) } } Set : _InfDeficit1409 { Value : max{0, _InfDeficit1409(-1) - _TempInf1409 } } // Cary SWRF Discharge Set : _TempInf1471 { Value : timesers(1480/inflow)*(21.5/83.5) } Set : inflow1471 { Value : max{0, _TempInf1471 - _InfDeficit1471(-1) } } Set : _InfDeficit1471 { Value : max{0, _InfDeficit1471(-1) - _TempInf1471 } } // Adj Middle Ck Gage Set : _TempInf1480 { Value : timesers(1480/inflow)*(53.5/83.5) } Set : inflow1480 { Value : max{0, _TempInf1480 - _InfDeficit1480(-1) } } Set : _InfDeficit1480 { Value : max{0, _InfDeficit1480(-1) - _TempInf1480 } } // Wiggons Mill Lake Set : _TempInf1520 { Value : timesers(1560/inflow)*(77/575) } Set : inflow1520 { Value : max{0, _TempInf1520 - _InfDeficit1520(-1) } } Set : _InfDeficit1520 { Value : max{0, _InfDeficit1520(-1) - _TempInf1520 } } // Adj Contentnea Hookerton Gage Set : _TempInf1560 { Value : timesers(1560/inflow)*(575/575) } Set : inflow1560 { Value : max{0, _TempInf1560 - _InfDeficit1560(-1) } } Set : _InfDeficit1560 { Value : max{0, _InfDeficit1560(-1) - _TempInf1560 } } // Smith Confluence Set : _TempInf1320 { Value : timesers(1630/inflow)*(23/271) } Set : inflow1320 { Value : max{0, _TempInf1320 - _InfDeficit1320(-1) } } Set : _InfDeficit1320 { Value : max{0, _InfDeficit1320(-1) - _TempInf1320 } } // Crabtree Ck Confluence Set : _TempInf1600 { Value : timesers(1630/inflow)*(90/271) } Set : inflow1600 { Value : max{0, _TempInf1600 - _InfDeficit1600(-1) } } Set : _InfDeficit1600 { Value : max{0, _InfDeficit1600(-1) - _TempInf1600 } } // Walnut Ck Confluence Set : _TempInf1620 { Value : timesers(1630/inflow)*(147/271) } Set : inflow1620 { Value : max{0, _TempInf1620 - _InfDeficit1620(-1) } } Set : _InfDeficit1620 { Value : max{0, _InfDeficit1620(-1) - _TempInf1620 } } // Adj Neuse Clayton Gage Set : _TempInf1630 { Value : timesers(1630/inflow)*(11/271) } Set : inflow1630 { Value : max{0, _TempInf1630 - _InfDeficit1630(-1) } } Set : _InfDeficit1630 { Value : max{0, _InfDeficit1630(-1) - _TempInf1630 } } // Kenly WW Set : _TempInf1747 { Value : timesers(1750/inflow)*(165.2/181.2) } Set : inflow1747 { Value : max{0, _TempInf1747 - _InfDeficit1747(-1) } } Set : _InfDeficit1747 { Value : max{0, _InfDeficit1747(-1) - _TempInf1747 } } // Adj Little R Princeton Gage Set : _TempInf1750 { Value : timesers(1750/inflow)*(16/181.2) } Set : inflow1750 { Value : max{0, _TempInf1750 - _InfDeficit1750(-1) } } Set : _InfDeficit1750 { Value : max{0, _InfDeficit1750(-1) - _TempInf1750 } } // Johnston County Intake Set : _TempInf1650 { Value : timesers(1780/inflow)*(30/918.7) } Set : inflow1650 { Value : max{0, _TempInf1650 - _InfDeficit1650(-1) } } 140 Set : _InfDeficit1650 { Value : max{0, _InfDeficit1650(-1) - _TempInf1650 } } // Neuse Smithfield Set : _TempInf1660 { Value : timesers(1780/inflow)*(26/918.7) } Set : inflow1660 { Value : max{0, _TempInf1660 - _InfDeficit1660(-1) } } Set : _InfDeficit1660 { Value : max{0, _InfDeficit1660(-1) - _TempInf1660 } } // Swift Ck Confluence Set : _TempInf1700 { Value : timesers(1780/inflow)*(4/918.7) } Set : inflow1700 { Value : max{0, _TempInf1700 - _InfDeficit1700(-1) } } Set : _InfDeficit1700 { Value : max{0, _InfDeficit1700(-1) - _TempInf1700 } } // Princeton WWTP Set : _TempInf1755 { Value : timesers(1780/inflow)*(32/918.7) } Set : inflow1755 { Value : max{0, _TempInf1755 - _InfDeficit1755(-1) } } Set : _InfDeficit1755 { Value : max{0, _InfDeficit1755(-1) - _TempInf1755 } } // Progress Energy Intake Set : _TempInf1760 { Value : timesers(1780/inflow)*(576/918.7) } Set : inflow1760 { Value : max{0, _TempInf1760 - _InfDeficit1760(-1) } } Set : _InfDeficit1760 { Value : max{0, _InfDeficit1760(-1) - _TempInf1760 } } // Little R Confluence Set : _TempInf1775 { Value : timesers(1780/inflow)*(10/918.7) } Set : inflow1775 { Value : max{0, _TempInf1775 - _InfDeficit1775(-1) } } Set : _InfDeficit1775 { Value : max{0, _InfDeficit1775(-1) - _TempInf1775 } } // Adj Neuse Goldsboro Gage Set : _TempInf1775 { Value : timesers(1780/inflow)*(240.7/918.7) } Set : inflow1775 { Value : max{0, _TempInf1775 - _InfDeficit1775(-1) } } Set : _InfDeficit1775 { Value : max{0, _InfDeficit1775(-1) - _TempInf1775 } } // NRWASA Intake Set : _TempInf1795 { Value : timesers(1800/inflow)*(211/293) } Set : inflow1795 { Value : max{0, _TempInf1795 - _InfDeficit1795(-1) } } Set : _InfDeficit1795 { Value : max{0, _InfDeficit1795(-1) - _TempInf1795 } } // Adj Neuse Kinston Gage Set : _TempInf1800 { Value : timesers(1800/inflow)*(82/293) } Set : inflow1800 { Value : max{0, _TempInf1800 - _InfDeficit1800(-1) } } Set : _InfDeficit1800 { Value : max{0, _InfDeficit1800(-1) - _TempInf1800 } } // Little Contentnea Confluence Set : _TempInf1570 { Value : timesers(1900/inflow)*(62/625) } Set : inflow1570 { Value : max{0, _TempInf1570 - _InfDeficit1570(-1) } } Set : _InfDeficit1570 { Value : max{0, _InfDeficit1570(-1) - _TempInf1570 } } // Contentnea Confluence Set : _TempInf1850 { Value : timesers(1900/inflow)*(208/625) } Set : inflow1850 { Value : max{0, _TempInf1850 - _InfDeficit1850(-1) } } Set : _InfDeficit1850 { Value : max{0, _InfDeficit1850(-1) - _TempInf1850 } } // Adj Weyerhauser Gain Set : _TempInf1900 { Value : timesers(1900/inflow)*(355/625) } Set : inflow1900 { Value : max{0, _TempInf1900 - _InfDeficit1900(-1) } } Set : _InfDeficit1900 { Value : max{0, _InfDeficit1900(-1) - _TempInf1900 } } // New Bern Set : _TempInf1999 { Value : timesers(1900/inflow)*(10/625) } Set : inflow1999 { Value : max{0, _TempInf1999 - _InfDeficit1999(-1) } } Set : _InfDeficit1999 { Value : max{0, _InfDeficit1999(-1) - _TempInf1999 } } 141 WW_Returns.ocl // Note that WW only returns are handled as inflows (see inflow pattern under the Node tab for the monthly patterns). /* Set inflow fractions for WW returns associated with demands */ // Cape Fear River Basin discharges Constraint ReidsvilleWW_nc0024881_WTP_WW_nc0046345 : {dFlow0031.0040 = lookup {ReidsvilleWWTP_NC0024881, month} * dDelivery0031 + lookup {ReidsvilleWTP_WW_nc0046345, month} * dDelivery0031} Constraint BurlingtonTotalWW : {dFlow0341.0072 = lookup {BurlingtonTotalWWRF, month} * dDelivery0341} Constraint BurlingtonEastWW_nc0023868 : {dFlow0072.0100 = lookup {BurlingtonTotalWWRF, month} * dDelivery0341 * 0.41} // Eastside is 41% of total Constraint BurlingtonSouthsideWW_NC0023876 : {dFlow0072.0350 = lookup {BurlingtonTotalWWRF, month} * dDelivery0341 * 0.59} // Southside is 59% of total Constraint BurlingtonMackintoshWW_NC0023828 : {dFlow0341.0350 = lookup {BurlingtonMackintoshWW_NC0023828, month} * dDelivery0341} Constraint GreensboroLakeTownsendWW_nc0081671 : {dFlow0121.0140 = lookup {GBTownsendWTPNC0081671, month} * dDelivery0123} Constraint GreensboroNBuffaloCrkWW_nc0024325 : {dFlow0122.0170 = lookup {GBNBuffaloCrWWNC0024325, month} * dDelivery0123 + lookup {GBMitchellWTPNC0081426, month} * dDelivery0123} Constraint GBOzborneWWNC0047384 : {dFlow0122.0180 = lookup {GBOzborneWWNC0047384, month} * dDelivery0123} Constraint HighPointWW_nc0081256_nc0024210 : {dFlow0223.0222 = lookup {HighPointWW, month} * dDelivery0223} Constraint RandlemanWW_nc0025445 : {dFlow0261.0280 = lookup {RandlemanWW_nc0025445, month} * dDelivery0261} Constraint ArchdaleWW : {dFlow0904.0224 = lookup {ArchdaleWW, month} * dDelivery0904} Constraint RamseurWW_nc0026565 : {dFlow0301.0570 = lookup {RamseurWW_nc0026565, month} * dDelivery0301} Constraint GrahamMebaneTotWW_nc0045292_nc0021211_nc0021474 : {dFlow0321.0100 = lookup {GrMebTotWW_nc0045292, month} * dDelivery0321} Constraint PittsboroWW_nc0020354 : {dFlow0401.0410 = lookup {PittsboroWW_nc0020354, month} * dDelivery0401} Constraint OWASA_WW_nc0025241 : {dFlow0431.0440 = lookup {OWASA_WW_nc0025241, month} * dDelivery0431} Constraint NorthChathamWWWTP_nc0084093 : {dFlow0473.0470 = lookup {NorthChathamWTP_nc0084093, month} * dDelivery0473} Constraint DurhamCtyTriangleWW_nc0026051 : {dFlow1162.0453 = lookup {DurhamCtyTriangleWW_nc0026051, month} * dDelivery1162} Constraint DurhamReclamationWW_nc0047967 : {dFlow1162.0463 = lookup {DurhamReclamationW_nc0047597, month} * dDelivery1162} Constraint AlliedSignalWW_NC0001899 : {dFlow0483.0480 = lookup {AlliedSignalWW_NC0001899, month} * dDelivery0483} Constraint ProgressCapeFearWW_nc0003433 : {dFlow0487.0490 = lookup {ProgressCapeFearWW_nc0003433, month} * dDelivery0487} Constraint SanfordWWTP_nc0002861 : {dFlow0491.0490 = lookup {SanfordWW_nc0002861&nc0059242, month} * dDelivery0491} Constraint Sanford_WWTP_nc0024147 : {dFlow0491.0610 = lookup {Sanford_WWTP_nc0024147, month} * (dDelivery0491-dDelivery0605)} Constraint ProgressHarrisWW_nc0039586 : {dFlow0521.0520 = 0 * dDelivery0521} // Accounted for in the consumptive use represented by the demand value // Use substitutes for the breakdown of Harnett Co. WW :Substitute: [HarnettErwinWWTPs] = 0.119 :Substitute: [HarnettLillWWTP] = 0.265 :Substitute: [HarnettWTP_WW] = 0.535 :Substitute: [SouthHarnettRegionalWWTP] = 0.081 Constraint HarnettErwinWWTPs : {dFlow0554.0686 = lookup {Total_HarnettWW, month} * dDelivery0551 * [HarnettErwinWWTPs] } Constraint HarnettLillWWTP : {dFlow0554.0664 = lookup {Total_HarnettWW, month} * dDelivery0551 * [HarnettLillWWTP] } Constraint HarnettWTP_WW : {dFlow0554.0550 = lookup {Total_HarnettWW, month} * dDelivery0551 * [HarnettWTP_WW] } 142 Constraint SouthHarnettRegionalWWTP : {dFlow0554.0556 = lookup {Total_HarnettWW, month} * dDelivery0551 * [SouthHarnettRegionalWWTP] } Constraint PilgrimsPride_nc0083852 : {dFlow0601.0610 = lookup {PilgrimsPride_nc0083852, month} * dDelivery0601} Constraint SilerCityWW_nc0026441 : {dFlow0327.0328 = lookup {SilerCityWW_nc0026441, month} * dDelivery0327} Constraint DunnWWTP_nc0078955 : {dFlow0663.0680 = lookup {DunnWW_nc0078955, month} * dDelivery0663} Constraint DunnWWTP_nc0043176 : {dFlow0663.0690 = lookup {DunnWWTP_nc0043176, month} * dDelivery0663} Constraint FayettevillePOHoffer_CrossWWTP_nc0023957 : {dFlow0733.0740 = lookup {FayPOHofferWW_NC0076783, month} * dDelivery0733} Constraint FayettevilleRockfishCreekWWTP_nc0050105 : {dFlow0733.0770 = lookup {FayRockfishCkWW_NC0050105, month} * dDelivery0733} Constraint MonsantoWW : {dFlow0771.0770 = lookup {MonsantoWW_NC0003719, month} * dDelivery0771} Constraint DupontWW : {dFlow0781.0790 = lookup {DupontWW_nc0003573, month} * dDelivery0781} Constraint LCFWSA-BladenBluffsWW_nc0078344 : {dFlow0785.0790 = 0 * dDelivery0785} // No return in 2010 scenario Constraint HollySpringsWW_nc0063098 : {dFlow0923.0520 = lookup {HollySpringsWW_nc0063098, month} * dDelivery0923} // Neuse River Basin discharges Constraint OrAlaReturn_nc0082759 : {dFlow1046.1100 = lookup {OrAlaReturn_nc0082759, month} * dDelivery1046} Constraint Hillsborough_nc0026433 : {dFlow1106.1109 = lookup {HillsReturn_nc0026433, month} * dDelivery1106} Constraint Durham_nc0023841 : {dFlow1162.1163 = lookup {DurhamReturn_nc0023841, month} * dDelivery1162} Constraint SGWASA_nc0026824 : {dFlow1259.1300 = lookup {SGWASAReturn_nc0026824, month} * (dDelivery1256 + ddelivery1258)} // Includes Creedmor Constraint Raleigh_NeuseWWTP_nc0029033 : {dFlow1306.1620 = lookup {RaleighReturn_nc0029033, month} * dDelivery1306} Constraint Raleigh_LittleCreek_nc0079316 : {dFlow1306.1500 = lookup {RalLitCrReturn_nc0079316, month} * dDelivery1306 } Constraint Raleigh_SmithCreek_nc0030759 : {dFlow1306.1320 = lookup {RalSmithCrReturn_nc0030759, month} * 0.05 * dDelivery1306} Constraint ClaytonWW_nc0064564&nc0025453 : {dFlow1646.1630 = lookup {ClaytReturn_nc0064564&nc0025453, month} * dDelivery1646} // Clayton demand is included in Johnst Co. Constraint JohnstReturn_nc0030716 : {dFlow1646.1675 = lookup {JohnstReturn_nc0030716, month} * (dDelivery1646)} Constraint SfieldReturn : {dFlow1666.1675 = lookup {SfieldReturn, month} * (dDelivery1666)} Constraint BensonWW_Dun : {dFlow0663.1756 = lookup {BensonWW_nc0020389, month} * dDelivery0663} Constraint BensonWW_nc0020389 : {dFlow1756.1757 = lookup {BensonWW_nc0020389, month} * dDelivery0663} Constraint ProgressEnergy : {dFlow1766.1770 = 0.0 * dDelivery1766} Constraint KenlyWW_nc0064891 : {dFlow1675.1747 = lookup {KenlyReturn_nc0064891, month} * dDelivery1646} Constraint GoldsboroWW_nc0023949 : {dFlow1786.1780 = lookup {GoldsReturn_nc0023949, month} * dDelivery1786} Constraint NRWASA_nc0088111 : {dFlow1806.1795 = lookup {NRWASAReturnWTP_nc0088111, month} * dDelivery1806} Constraint KinstonWW_nc0024236 : {dFlow1806.1850 = lookup {KinstonWW_nc0024236, month} * dDelivery1806} Constraint AydenGriftonWW : {dFlow1806.1845 = lookup {AydenGriftonWW, month} * dDelivery1806} Constraint WilsonWW_nc0023906 : {dFlow1506.1560 = lookup {WilsonReturn_nc0023906, month} * dDelivery1506} Constraint Weyerhauser_nc0003191 : {dFlow1906.1999 = lookup {WeyerReturn_nc0003191, month} * dDelivery1906} Constraint FuquayWW_nc00516&nc0066150 : {dflow1706.1409 = lookup {FuquayReturn_nc0066516&nc0066150, month} * dDelivery1706} 143 Constraint FuquayWWtoHarnettCo : {dflow1706.0554 = lookup {FuquayReturn_toHarnettCo, month} * dDelivery1706} // Compute Cary/Apex system separately // First compute the amount of reductions to WW discharges expected if the drought plan is active (stages 3-4 only) :If: {[Drought_Plans_On] = 1} // First check if drought plan variable is on Set : _CaryApex_WW_Consvn { Condition : _Cary_Trigger_4_On { Condition : month > 4 and month < 11 Value : 1 - 14 / 100 // 14% reduction for Stg. 4, May-Oct Condition : default Value : 1 - 19 / 100 // 19% reduction for Stg. 4, Nov-Apr } Condition : _Cary_Trigger_3_On { Condition : month > 4 and month < 11 Value : 1 - 6 / 100 // 6% reduction for Stg. 3, May-Oct Condition : default Value : 1 - 7 / 100 // 7% reduction for Stg. 4, Nov-Apr } Condition : default Value : 1 } :else: Set : _CaryApex_WW_Consvn { Condition : default Value : 1 } :EndIf: // Now compute various WW flows and discharges as Udefs, since they'll be used in multiple constraints //Total WW for Cary/Apex, RTP and Morrisville Set : _CaryApexWW { Value : lookup {CaryApexReturn, month} * demand0471 * _CaryApex_WW_Consvn } Set : _RTPWW { Value : lookup {RTPReturn, month} * demand0474 * _CaryApex_WW_Consvn } Set : _MorrisWW { Value : lookup {MorrisReturn, month} * demand0477 * _CaryApex_WW_Consvn } Set : _CarySystemWW { value : _CaryApexWW + _RTPWW + _MorrisWW } // Allocate the total to the various discharge points, assigning monthly patterns and conservation factors (if any) Set : _CaryNorthWW { Value : _CarySystemWW * 0.41 * lookup{CaryNWRFReturn, month}} Set : _CarySouthWW { Value : _CarySystemWW * 0.31 * lookup{CarySWRFReturn, month}} Set : _ApexWW { Value : _CarySystemWW * 0.15 * lookup{ApexWRFReturn, month}} Set : _CaryDTCWWTP { Value : _CarySystemWW * 0.13 } Set : _CaryWestWakeWWTP { Value : _CarySystemWW * 0.00 * lookup{WestWakeWRFReturn, month}} // Next set the constraints that will force the flows to match the udefs Constraint CaryApexTotalWW : {dflow0471.0472 = (_CaryApexWW / _CarySystemWW) * (_CaryNorthWW + _CarySouthWW + _ApexWW + _CaryDTCWWTP + _CaryWestWakeWWTP) } Constraint RTPWW : {dFlow0474.0472 = (_RTPWW / _CarySystemWW) * (_CaryNorthWW + _CarySouthWW + _ApexWW + _CaryDTCWWTP + _CaryWestWakeWWTP) } Constraint MorrisvilleWW : {dFlow0477.0472 = (_MorrisWW / _CarySystemWW) * (_CaryNorthWW + _CarySouthWW + _ApexWW + _CaryDTCWWTP + _CaryWestWakeWWTP) } 144 Constraint CaryNorthWW : {dFlow0472.1401 = _CaryNorthWW} Constraint CarySouthWW : {dFlow0472.1471 = _CarySouthWW} Constraint ApexWW : {dFlow0472.1405 = _ApexWW} Constraint CaryDTCWWTP : {dFlow0472.0453 = _CaryDTCWWTP} Constraint CaryWestWakeWWTP : {dFlow0472.0930 = _CaryWestWakeWWTP} // Finally,compute the WTF discharge back into Jordan Constraint CaryApexWTFWW : {dflow0479.0470 = lookup {CaryApexWTFReturn, month} * (dDelivery0471 + dDelivery0477 + dDelivery0474 + dflow0479.1151)} 145 Routing_neuse.ocl /* Falls-to-Clayton. Falls Release seen at Clayton = .5 * yesterday's release + .5 * today's release. Clayton-to-Goldsboro. Clayton flow seen at Goldsboro = Average flow of previous four days Goldsboro-to-Kinston. Goldsboro flow seen at Kinston = Average flow of previous two days Nodes 310, 640 and 790 are reservoirs used for channel storage. The flow into these three nodes is unrouted; the release from them is routed. The storage in the nodes makes up the difference. Note that for the first day of the simulation the routed flows need to be estimated; the current values set the routed flows equal to the upstream flow for that day when the simulation is started on 01/01/1930; they may need to be adjusted if the run is started on a different date. */ Target FallsRout : dflow1310.1320 - .5 * dflow1300.1310 { Condition : abs_period <= 1 priority : 1 penalty+ : 10000 penalty- : 10000 value : convert_units { 49.25, cfs, af } Condition : default priority : 1 penalty+ : 10000 penalty- : 10000 value : .5 * flow1300.1310(-1) } Target ClaytRout : dflow1640.1650 { Condition : abs_period <= 1 priority : 1 penalty+ : 10000 penalty- : 10000 value : convert_units { 353.6, cfs, af } Condition : abs_period = 2 priority : 1 penalty+ : 10000 penalty- : 10000 value : flow1630.1640(-1) Condition : abs_period = 3 priority : 1 penalty+ : 10000 penalty- : 10000 value : ( flow1630.1640(-2) + flow1630.1640(-1) ) / 2 Condition : abs_period = 4 priority : 1 penalty+ : 10000 penalty- : 10000 value : ( flow1630.1640(-3) + flow1630.1640(-2) + flow1630.1640(-1) ) / 3 Condition : default priority : 1 penalty+ : 10000 penalty- : 10000 value : ( flow1630.1640(-4) + flow1630.1640(-3) + flow1630.1640(-2) + flow1630.1640(-1) ) / 4 } Target GoldsRout : dflow1790.1795 { Condition : abs_period <= 1 priority : 1 146 penalty+ : 10000 penalty- : 10000 value : convert_units { 1047.6, cfs, af } Condition : abs_period = 2 priority : 1 penalty+ : 10000 penalty- : 10000 value : flow1780.1790(-1) Condition : default priority : 1 penalty+ : 10000 penalty- : 10000 value : ( flow1780.1790(-2) + flow1780.1790(-1) ) / 2 } 147 routing_cf.ocl /* Jordan-to-Lillington. Jordan Release seen at Lill. = .5 * yesterday's release + .5 * today's release. Lillington-to-Fayetville. Lillington flow seen at Clayton = Average flow of previous day Nodes 555 and 739 are reservoirs used for channel storage. The flow into these three nodes is unrouted; the release from them is routed. The storage in the nodes makes up the difference. Note that for the first day of the simulation the routed flows need to be estimated; the current values set the routed flows equal to the flow for that day when the simulation is started on 01/01/1930; they may need to be adjusted if the run is started on a different date. */ Target JordanRout : dflow0555.0650 - 0.5 * dflow0550.0555 { Condition : abs_period <= 1 priority : 1 penalty+ : 10000 penalty- : 10000 value : convert_units { 3711, cfs, af } Condition : default priority : 1 penalty+ : 10000 penalty- : 10000 value : 0.5 * flow0550.0555(-1) } Target LillRout : dflow0739.0740 { Condition : abs_period <= 1 priority : 1 penalty+ : 10000 penalty- : 10000 value : convert_units { 4381, cfs, af } Condition : default priority : 1 penalty+ : 10000 penalty- : 10000 value : flow0730.0739(-1) } 148 Greensboro_ops.ocl /* Operational policy for Greensboro's system */ /* Set interconnects unused in basecase to zero */ Constraint : {dFlow0044.0140 = 0 } // Emer Intake Constraint : {dFlow0271.0121 = 0 } // PTRA Constraint : {dFlow0121.0903 = 0 } // High Pt WW Constraint : {dFlow0122.0224 = 0 } // Jamestown // Sets the Townsend minimum release - based on stage Set TownsendRelease : min_flow0140.0145 { condition : elevation0140 < 709.7 value : convert_units { 2.0, cfs, af } condition : elevation0140 < 714.5 value : convert_units { 3.5, cfs, af } condition : default value : convert_units { 7.0, cfs, af } } // Set the transfer (2 MGD constant) from Burlington Target Burl_GB_Transfer : dflow0071.0121 { condition : default priority : 1 penalty+ : 100 penalty- : 100 Value : convert_units { 2, mgd, af } } // Set targets to dictate WDs between reservoirs Target Townsend_WD : dflow0140.0121 { condition : default priority : 1 penalty+ : 100 penalty- : 100 Value : 0.5 * (demand0123 - flow0071.0121) // 50% (less the Burlington transfer) from Townsend, the rest will be from Brandt } 149 Jordan_ops.ocl /* Operational policies for Jordan Lake */ // Limit the increase in flood releases from previous day (per Terry Brown's suggestion) when Jordan is above normal pool Target JordanFloodRelease : dflow0470.0480 { // Above 240 ft just release uncontrolled spill condition : elevation0470 >= 240 priority : 1 penalty+ : 10 penalty- : 0 Value : convert_units { lookup { JordanSpillway, elevation0470 }, cfs, af } // When Jordan is on the way back down (definied by decreasing inflows) limit the decrease in releases for a 'soft landing', making sure not to drop it below the normal pool. condition : elevation0470 >= 216 and inflow0470 < inflow0470(-1) and inflow0470(-1) < inflow0470(-2) and inflow0470(- 2) < inflow0470(-3) priority : 1 penalty+ : 0 penalty- : 10 Value : min {flow0470.0480(-1) - convert_units {4000, cfs, af }, storage0470 - elev_to_stor { 0470, 216 } } // Above 220 ft release no more than the previous days' release + 4000 cfs condition : elevation0470 >= 220 priority : 1 penalty+ : 10 penalty- : 0 Value : flow0470.0480(-1) + convert_units {5500, cfs, af } // Above 216 ft release no more than the previous days' release + 4000 cfs, making sure not to drop it below the normal pool. condition : elevation0470 >= 216 priority : 1 penalty+ : 10 penalty- : 0 Value : min { flow0470.0480(-1) + convert_units {4000, cfs, af }, storage0470 - elev_to_stor { 0470, 216 } } } // Set a flood target of 18,000 cfs at Lillington Target LillingtonMaxFlow : dflow0550.0555 { condition : default priority : 1 penalty+ : 7 penalty- : 0 Value : convert_units {18000, cfs, af } } // Set a flood control target at Fayetteville of 20,000 cfs, meaning Jordan will store water to minimize chance of having flow downstream // exceed this target. Local inflows between Jordan and Fayetteville could cause flows to exceed this target. However, Jordan will not curtail // the minimum release, nor the release to meet local demands. So the penalty for going above the 20000 cfs flow is less than the minimum release weight from Jordan (but is more than the D zone weight for Jordan). Target FayettevilleMaxFlow : dflow0740.0770 { condition : default priority : 1 penalty+ : 7 penalty- : 0 Value : convert_units {20000, cfs, af } } /* Constrain the return arc flow from the Holly Springs Jordan Lake demand to be exactly equal to the delivery */ Set HollySprings_JLakeReturn : max_flow0924.0480 { value : 1.0 * delivery0924 } /* The Jordan water quality and supply accounting file is evaluated after the solve statement, mainly to establish the water quality release based 150 on computation of the decision variable for outflow from Jordan. This determination is made based on weights and min flow targets from Jordan and at Lillington (and points in between). The min flow from Jordan depends on the drought protocol. When the Lillington target applies, the model will release enough water to exactly meet the target after accounting for today's inflows (namely on the Deep River) and demands between Jordan and Lillington (the intent of which is to mimic how the Corps would operate). Extra water will not be released above the target based on how the weighting is done. Set delivery for the water supply users based on amount in the their accounts. Demand will not be fulfilled if the account has gone empty and there is not enough inflow to the water supply account (for simplicity, use yesterday's inflow as factored into yesterday's storage). The water supply account is not allowed to go negative (see the Jordan_WQ_WS_Accounts.ocl file). Similarly, set the water quality release from Jordan (arc 470.480) based on amount in the water quality storage account, again forbidding the account to go negative . Since we refer to yesterday's storage estimates, for the first day of the run, constrain deliveries and releases to the initialized volumes for each account so that deliveries and releases are made */ // Water supply releases Constraint Deliv_Lim_CaryAp : { condition : abs_period = 1 expression : ddelivery0471 <= [WS_CaryAp_Fraction] * [Max_WS_Storage] } Constraint Deliv_Lim_CaryAp : { condition : abs_period > 1 expression : ddelivery0471 <= _Stor_Final_CaryAp(-1) } Constraint Deliv_Lim_Chatham : { condition : abs_period = 1 expression : ddelivery0473 <= [WS_Chatham_Fraction] * [Max_WS_Storage] } Constraint Deliv_Lim_Chatham : { condition : abs_period > 1 expression : ddelivery0473 <= _Stor_Final_Chatham(-1) } Constraint Deliv_Lim_RTP : { condition : abs_period = 1 expression : ddelivery0474 <= [WS_RTP_Fraction] * [Max_WS_Storage] } Constraint Deliv_Lim_RTP : { condition : abs_period > 1 expression : ddelivery0474 <= _Stor_Final_RTP(-1) } Constraint Deliv_Lim_Other : { condition : abs_period = 1 expression : ddelivery0475 <= [WS_Other_Fraction] * [Max_WS_Storage] } Constraint Deliv_Lim_Other : { condition : abs_period > 1 expression : ddelivery0475 <= _Stor_Final_Other(-1) } Constraint Deliv_Lim_Durham : { condition : abs_period = 1 expression : dflow0479.1162 <= [WS_Durham_Fraction] * [Max_WS_Storage] } Constraint Deliv_Lim_Durham : 151 { condition : abs_period > 1 expression : dflow0479.1162 <= _Stor_Final_Durham(-1) } Constraint Deliv_Lim_Morris : { condition : abs_period = 1 expression : ddelivery0477 <= [WS_Morris_Fraction] * [Max_WS_Storage] } Constraint Deliv_Lim_Morris : { condition : abs_period > 1 expression : ddelivery0477 <= _Stor_Final_Morris(-1) } Constraint Deliv_Lim_Orange : { condition : abs_period = 1 expression : ddelivery0921 <= [WS_Orange_Fraction] * [Max_WS_Storage] } Constraint Deliv_Lim_Orange: { condition : abs_period > 1 expression : ddelivery0921 <= _Stor_Final_Orange(-1) } Constraint Deliv_Lim_OWASA : { condition : abs_period = 1 expression : dflow0479.0431 <= [WS_OWASA_Fraction] * [Max_WS_Storage] } Constraint Deliv_Lim_OWASA : { condition : abs_period > 1 expression : dflow0479.0431 <= _Stor_Final_OWASA(-1) } Constraint Deliv_Lim_Holly : { condition : abs_period = 1 expression : ddelivery0924 <= [WS_Holly_Fraction] * [Max_WS_Storage] } Constraint Deliv_Lim_Holly : { condition : abs_period > 1 expression : ddelivery0924 <= _Stor_Final_Holly(-1) } // Water quality release Constraint Release_Limit_Jordan : { condition : abs_period = 1 expression : dflow0470.0480 <= [Max_WQ_Storage] } Constraint Release_Limit_Jordan : { condition : abs_period > 1 expression : dflow0470.0480 <= _WQ_Storage(-1) } // Compute Jordan hydro production (total kW) Set : _Jordan_Hydropower { Value : lookup { JordanHydro, convert_units { flow0470.0480, af, cfs } } } 152 drought_protocol.ocl // Drought protocol // Determine average inflow to WQ account over the last 14 days Set : _Avg_JLake_Inflow { condition : abs_period = 1 value : inflow0470 condition : abs_period <= 14 value : _JLake_WQ_Inf(-1) condition : default value : accumulate{ _JLake_WQ_Inf(-1) , -14, -1 } / 14 } /* Determine which zone of the WQ pool the lake is in. In the udef list, initialize the WQ storage to the starting storage as defined in the constants table.*/ Set : _WQZone { condition : _WQ_Storage(-1) / [Max_WQ_Storage] * 100 <= [WQ_Pct_Remaining_Stage_4] /* WQ Zone 4 (set in constants table from 0 to 20%) */ value : 4 condition : _WQ_Storage(-1) / [Max_WQ_Storage] * 100 <= [WQ_Pct_Remaining_Stage_3] /* WQ Zone 3 (set in constants table from 20 to 40%) */ value : 3 condition : _WQ_Storage(-1) / [Max_WQ_Storage] * 100 <= [WQ_Pct_Remaining_Stage_2] /* WQ Zone 2 (set in constants table from 40 to 60%) */ value : 2 condition : _WQ_Storage(-1) / [Max_WQ_Storage] * 100 <= [WQ_Pct_Remaining_Stage_1] /* WQ Zone 1 (set in constants table from 60 to 80%) */ value : 1 condition : default /* WQ Zone 0 (Normal Operations) [right now, 80% and above) */ value : 0 } /* This is to set the triggers. In all cases, the triggers and associated level counters are reset to zero when the elevation reaches 216 feet. For the first trigger, activate it when the water quality zone reaches 1. The triggers for other levels activate whenever the pond hits that water quality zone (or lower) and a specified number of days in the prior level has elapsed. The specified number of days (specified in the OCL constants) is the minimum interval between levels. In other words, the trigger will stay in place for at least a specified number of days (even if the zone drops below that level) at which time the next trigger goes on. Each level # is associated with the water quality zone. Note that on refill, no skipping of levels is allowed. The WQ Zone must improve two levels before turning off the next level trigger. */ Set : _Trigger_1_On { // For first day of simulation, set to the initial value in the udef list as defined in the constants table. User may wish to simulate conditions // starting with a certain trigger condition. Setting the WQ zone would not be adequate since there is generally a waiting period between triggers. The trigger // condition is important since it sets the minimum release from Jordan and target flow at Lillington. condition : abs_period = 1 value : _Trigger_1_On(-1) // Turning off trigger condition : _Count_Trigger_1(-1) > 0 and elevation0470 < 216 { condition : _Trigger_2_On(-1) = 1 // during drawdown value : 0 153 condition : default // during refill, trigger will stay on as long as pond has not refilled to 216 feet value : _Trigger_1_On(-1) } // Turning on trigger // The first condition is during drawdown. WQ zone could drop to zones 2 through 4, but those triggers cannot go on until passing through the first trigger. // Once we've gotten to the second and higher triggers, the 1st trigger will turn off, as there is no waiting period. condition : _WQZone >= 1 and elevation0470 < 216 and _Trigger_2_On(-1) = 0 and _Trigger_3_On(-1) = 0 and _Trigger_4_On(-1) = 0 Value : 1 // for turning on trigger during refill. It cannot turn on again if pond has refilled to 216 feet. condition : _Trigger_2_On(-1) = 1 and _WQZone = 0 and elevation0470 < 216 Value : 1 // Otherwise, trigger is off Condition : default Value : 0 } // Logic is similar for the other triggers. Set : _Trigger_2_On { condition : abs_period = 1 value : _Trigger_2_On(-1) // Turning off trigger condition : _Count_Trigger_2(-1) > 0 and elevation0470 < 216 { condition : _Trigger_3_On(-1) = 1 // during drawdown value : 0 condition : _WQZone <= 0 // during refill. value : 0 condition : default value : _Trigger_2_On(-1) } // Turning on trigger // The first condition is during drawdown condition : _Count_Trigger_1(-1) >= [Level_Change_Time_Interval] and _WQZone >= 2 and elevation0470 < 216 Value : 1 // The second condition is during refill. It cannot turn on again unless WQ zone is two zones higher than yesterday. condition : _Trigger_3_On(-1) = 1 and _WQZone <= 1 and elevation0470 < 216 value : 1 // Otherwise, trigger is off Condition : default Value : 0 } Set : _Trigger_3_On { condition : abs_period = 1 value : _Trigger_3_On(-1) // Turning off trigger condition : _Count_Trigger_3(-1) > 0 and elevation0470 < 216 { condition : _Trigger_4_On(-1) > 0 // during drawdown value : 0 condition : _WQZone <= 1 // during refill value : 0 154 condition : default value : _Trigger_3_On(-1) } // Turning on trigger // The first condition is during drawdown condition : _Count_Trigger_2(-1) >= [Level_Change_Time_Interval] and _WQZone >= 3 and elevation0470 < 216 Value : 1 // The second condition is during refill. condition : _Trigger_4_On(-1) = 1 and _WQZone <= 2 and elevation0470 < 216 value : 1 // Otherwise, trigger is off Condition : default Value : 0 } Set : _Trigger_4_On { condition : abs_period = 1 value : _Trigger_4_On(-1) // Turning off trigger condition : _Count_Trigger_4(-1) > 0 and elevation0470 < 216 { condition : _WQZone <= 2 // during refill. value : 0 condition : default value : _Trigger_4_On(-1) } // Turning on trigger // During drawdown condition : _Count_Trigger_3(-1) >= [Level_Change_Time_Interval] and _WQZone >= 4 and elevation0470 < 216 Value : 1 // Otherwise, trigger is off Condition : default Value : 0 } /* The following lines set the drought stage according to which triggers are on and for how long.*/ Set : _Drought_Stage { condition : _Trigger_4_On = 1 value : 4 condition : _Trigger_3_On = 1 value : 3 condition : _Trigger_2_On = 1 value : 2 condition : _Trigger_1_On = 1 value : 1 condition : _Trigger_1_On(-1) = 1 or _Trigger_2_On(-1) = 1 or _Trigger_3_On(-1) = 1 or _Trigger_4_On(-1) = 1 value : _WQZone condition : default value : 0 } // This is for determining whether the lake is drawing down based on changing WQ zones (rather than just day to day change in WQ storage while in that zone). // Turn the index off only if the WQ zone increases during refill. Set : _Level_Drawdown { condition : _Level_Drawdown(-1) = 1 155 { condition : _Drought_Stage < _Drought_Stage(-1) value : 0 condition : default value : _Level_Drawdown(-1) } condition : _Drought_Stage > _Drought_Stage(-1) value : 1 condition : default value : 0 } // These are the counters associated with each trigger // Do FOR:NEXT loop since the counters are the same for all Jordan Lake trigger levels. Here, DWR has chosen // to end a trigger level when the next has been reached rather than keeping it on for the entire drought. :FOR: { [Level] = { 1, 2, 3, 4} } // Number of days in which counter is on and the number of days in each drought stage Set : _Count_Trigger_[Level] { Condition : _Count_Trigger_[Level](-1) >= 1 { Condition : _Trigger_[Level]_On = 0 Value : 0 Condition : default Value : _Count_Trigger_[Level](-1) + 1 } Condition : _Trigger_[Level]_On = 1 Value : 1 Condition : default Value : 0 } // DWR included this counter for determining total # of days at each level over the simulation period. Here the // trigger stays on and is counted even if another trigger has been reached. Set : _Total_Count_Trigger_[Level] { Condition : _Count_Trigger_[Level] > 0 Value : _Total_Count_Trigger_[Level](-1) + 1 Condition : default Value : 0 } // Establish a day counter which resets after _ days have elapsed as defined by the user for the [Level Change Time Interval]. // This will be used to determine adjustments to the Lillington target after the day counter reaches the time interval Set : _CumDayWithinInt_[Level] { condition : _CumDayWithinInt_[Level](-1) = [Level_Change_Time_Interval] { condition : _Trigger_[Level]_On = 1 value : 1 condition : default value : 0 } condition : _Trigger_[Level]_On = 1 value : _CumDayWithinInt_[Level](-1) + 1 condition : default value : 0 } 156 :NEXT: /* These are counters to track the number of times (events) in the record each trigger level would have activated. This is not the same as tracking as how often a zone is reached due to the criteria for switching levels (which include a waiting period). Events are arbitrarily selected to last at least 5 days. In other words, the phase 1 counter will solve to 2 if in 2 drought years, trigger 1 is activated twice, each time lasting at least 5 days. If the trigger is reactivated during refill, and if it lasts for 5 days, the phase event will be counted here. To get a better representation of the actual number of drought events, not the drawdown and refill events, may need to adjust this code. */ :FOR: { [Level] = { 1, 2, 3, 4 } } Set : _Ph_[Level]_event_count { Condition : _Count_Trigger_[level] = 5 and _Count_Trigger_[level](-1) = 4 Value : _Ph_[Level]_event_count(-1) + 1 Condition : default Value : _Ph_[Level]_event_count(-1) } :NEXT: // The following lines determine the Lillington target according to the drought level and the number of days at that drought level. // The target at Lillington steps down (on drawdown) or up (on refill) by a specified amount every specified number of days (Level_Change_Time_Interval).*/ :FOR: { [Level] = { 1, 2, 3, 4 } } Set : _Lill_Target_[Level] { // for moving into more restrictive drought phases (based on trigger conditions) during drawdown. On the first day of entering the more restrictive trigger, // set the target to the upper end of the target range associated with that trigger. Do not do this if in the previous phase (as expressed by yesterday's // Lillington target value, or min_flow0550.0555(-1)), the target was at the lower end of the lower phase. In this case, drop down by the user-defined // increment right away. condition : _Drought_Stage > _Drought_Stage(-1) { condition : min_flow0550.0555(-1) = convert_units {[Lillington_Upper_Target_Stage_[Level]], cfs, af} value : convert_units {[Lillington_Upper_Target_Stage_[Level]] - [Lillington_Increment_Stage_[Level]], cfs, af} condition : default value : convert_units {[Lillington_Upper_Target_Stage_[Level]], cfs, af} } // For moving into less restrictive drought phases during refill. Only apply the lower end of the target range to be conservative. For example, if the // range is 450 to 600 cfs, keep the target at 450 cfs throughout that period (even if longer than 7 days). condition : _Drought_Stage < _Drought_Stage(-1) value : convert_units {[Lillington_Lower_Target_Stage_[Level]], cfs, af} // if drawdown is continuing, but the drought phase has not changed condition : _Level_Drawdown = 1 { // reduce target by user-defined increments, but only when the user-defined time interval has been reached. The lowest value it can reach // is the lower range of the target. The target will be reduced even if WQ storage is increasing while in this drought level, again to be conservative. condition : _CumDayWithinInt_[Level] = [Level_Change_Time_Interval] value : max { convert_units {[Lillington_Lower_Target_Stage_[Level]], cfs, af}, _Lill_Target_[Level](-1) - convert_units { [Lillington_Increment_Stage_[Level]], cfs, af} } condition : default 157 value : _Lill_Target_[Level](-1) } // if refill is occuring, but the drought phase has not changed. Set to the lower end of the target range throughout that particular drought phase. condition : _Level_Drawdown = 0 value : _Lill_Target_[Level](-1) // default condition is to set the target to its upper level condition : default value : convert_units {[Lillington_Upper_Target_Stage_[Level]], cfs, af} } :NEXT: // Now set the min flow at Lillington based on the computed target Set : min_flow0550.0555 { condition : _Trigger_4_On = 1 value : _Lill_Target_4 condition : _Trigger_3_On = 1 value : _Lill_Target_3 condition : _Trigger_2_On = 1 value : _Lill_Target_2 condition : _Trigger_1_On = 1 value : _Lill_Target_1 condition : _Trigger_1_On(-1) = 1 or _Trigger_2_On(-1) = 1 or _Trigger_3_On(-1) = 1 or _Trigger_4_On(-1) = 1 value : min_flow0550.0555(-1) condition : default // which will apply if the lake refills value : convert_units {[Lillington_Target_Normal], cfs, af} } // Adjust the min release from Jordan depending on drought trigger condition. Set : min_flow0470.0480 { // For trigger 3 and 4 conditions, reduce the minimum release if there is enough local inflow to provide a minimum of 300 cfs at Lillington. // The net withdrawal in this reach is approximately 90 cfs for the 2050 demand scenario, so factor this in to help meet the 300 cfs minimum. // Releases will be higher to meet local net withdrawals down to Lillington due to weighting. Never release less than 40 cfs. condition : _Trigger_4_On = 1 value : max { convert_units{40, cfs, af}, min {convert_units{ [Jordan_Minimum_Release_Stage_4], cfs, af}, convert_units {300, cfs, af} + convert_units {90, cfs, af} - (inflow0550 + inflow0490 + inflow0640 + flow0620.0640) } } condition : _Trigger_3_On = 1 value : max { convert_units{40, cfs, af}, min {convert_units{ [Jordan_Minimum_Release_Stage_3], cfs, af}, convert_units {300, cfs, af} + convert_units {90, cfs, af} - (inflow0550 + inflow0490 + inflow0640 + flow0620.0640) } } condition : _Trigger_2_On = 1 value : convert_units{ [Jordan_Minimum_Release_Stage_2], cfs, af} condition : _Trigger_1_On = 1 value : convert_units{ [Jordan_Minimum_Release_Stage_1], cfs, af} condition : _Trigger_1_On(-1) = 1 or _Trigger_2_On(-1) = 1 or _Trigger_3_On(-1) = 1 or _Trigger_4_On(-1) = 1 value : min_flow0470.0480(-1) condition : default value : convert_units{ [Jordan_Minimum_Release_Normal], cfs, af} } 158 Jordan_WQ_WS_Accounts.ocl // Note this file is included after the solve statement in the main.ocl file, so references to decision variables like flow and delivery // have already been solved. /* The conservation storage between elevation 202 and 216 feet consists of the water supply storage for up to six users and the water quality storage. Fraction of conservation storage and inflow : WQ = 67.38% allocated (94,600 acft.) WS = 32.62% allocated (45,800 acft.), which is broken down by user: The accounts are numbered as follows: Cary-Apex (node 471) Chatham County (node 473) Wake (RTP South) (node 474) Durham (arc1151) Morrisville (node 477) Orange County (node 921) OWASA (arc 1151.431, via 479.1151) Holly Springs (arc 479.923) To this we add an allocation to a "dummy" account to track the unallocated water or to increase demands on the water supply storage without changing other allocations Other (node 475) The allocations for each account are defined in the constants table */ /* INFLOW DISTRIBUTION BY WATER SUPPLY ACCOUNT */ /* Start with Leila's spreadsheet calculating the water supply inflow distribution */ // Evap (0) since this file is included after the solve statement and we want today's evap, not tomorrow's */ Set : _JLakeInf { value : flow0410.0470 + inflow0470 - evap0470(0) } /* Base it on net inflow */ Set : _JLake_WQ_Inf { value : _JLakeInf * [Max_WQ_Storage] / [Max_WQ_WS_Storage] } Set : _JLake_WS_Inf { value : _JLakeInf * [Max_WS_Storage] / [Max_WQ_WS_Storage] } /* Calculate total inflow available to pool to include any spillover from the water quality account. */ Set : _Inf_avail_to_WS_pool { value : _WQ_Pool_Excess(-1) + _JLake_WS_Inf } /* Calculate the total water supply demand and delivery for all accounts */ Set : _WS_Total_Demand { value : demand0471 + demand0473 + demand0474 + demand0475 + 0 + demand0477 + demand0921 + 0 + 0 } // Since OWASA & Durham are arcs and not demand nodes, sub in zero, can be changed if a Jordan transfer is used. No Holly Springs either. Set : _WS_Total_Deliv { value : delivery0471 + delivery0473 + delivery0474 + delivery0475 + flow0479.1151 + delivery0477 + delivery0921 + flow0479.0923 } // Reset water supply account to 100% if elevation reaches 216 or projected water supply is full. For the first day of simulation, use the starting storage based // on the individual accounts as defined in the constants table. Set : _Total_WS_Storage { condition : abs_period = 1 value : [Starting_Storage_CaryAp] + [Starting_Storage_Chatham] + [Starting_Storage_RTP] + [Starting_Storage_Other] + [Starting_Storage_Durham] + [Starting_Storage_Morris] + [Starting_Storage_Orange] + [Starting_Storage_OWASA] + [Starting_Storage_Holly] condition : elevation0470 >= 216.0 or (_Total_WS_Storage(-1) + _Inf_avail_to_WS_pool - _WS_Total_Deliv ) >= [Max_WS_Storage] value : [Max_WS_Storage] condition : default 159 value : _Total_WS_Storage(-1) + _Inf_avail_to_WS_pool - _WS_Total_Deliv } Set : _Req_Refill_WS_Pool { value : [Max_WS_Storage] - _Total_WS_Storage + _WS_Total_Deliv } Set : _WS_Pool_Excess { value : max { 0, _JLake_WS_Inf - _Req_Refill_WS_Pool } } Set : _Inf_used_for_WS_pool { value : min { _Inf_avail_to_WS_pool, _Req_Refill_WS_Pool } } /* --------------- */ // Determine required refill for each account. Set : _Req_Refill_CaryAp { condition : abs_period = 1 value : delivery0471 condition : default value : [WS_CaryAp_Fraction] * [Max_WS_Storage] - _Stor_Final_CaryAp(-1) + delivery0471 } Set : _Req_Refill_Chatham { condition : abs_period = 1 value : delivery0473 condition : default value : [WS_Chatham_Fraction] * [Max_WS_Storage] - _Stor_Final_Chatham(-1) + delivery0473 } Set : _Req_Refill_RTP { condition : abs_period = 1 value : delivery0474 condition : default value : [WS_RTP_Fraction] * [Max_WS_Storage] - _Stor_Final_RTP(-1) + delivery0474 } Set : _Req_Refill_Other { condition : abs_period = 1 value : delivery0475 condition : default value : [WS_Other_Fraction] * [Max_WS_Storage] - _Stor_Final_Other(-1) + delivery0475 } Set : _Req_Refill_Durham { condition : abs_period = 1 value : flow0479.1151 - flow1151.0431 condition : default value : [WS_Durham_Fraction] * [Max_WS_Storage] - _Stor_Final_Durham(-1) + flow0479.1151 - flow1151.0431 } Set : _Req_Refill_Morris { condition : abs_period = 1 value : delivery0477 condition : default value : [WS_Morris_Fraction] * [Max_WS_Storage] - _Stor_Final_Morris(-1) + delivery0477 } Set : _Req_Refill_Orange { condition : abs_period = 1 value : delivery0921 condition : default value : [WS_Orange_Fraction] * [Max_WS_Storage] - _Stor_Final_Orange(-1) + delivery0921 } Set : _Req_Refill_OWASA 160 { condition : abs_period = 1 value : flow1151.0431 condition : default value : [WS_OWASA_Fraction] * [Max_WS_Storage] - _Stor_Final_OWASA(-1) + flow1151.0431 } Set : _Req_Refill_Holly { condition : abs_period = 1 value : flow0479.0923 condition : default value : [WS_Holly_Fraction] * [Max_WS_Storage] - _Stor_Final_Holly(-1) + flow0479.0923 } /* Establish initial inflow to the accounts */ :FOR: { [Account] = { CaryAp, Chatham, RTP, Other, Durham, Morris, Orange, OWASA, Holly } } // Determine initial inflow to each account Set : _Inf_[Account] { value : min { [WS_[Account]_Fraction] * _Inf_avail_to_WS_pool, _Req_Refill_[Account] } } :NEXT: /* Determine remaining inflow to be distributed */ Set : _Inf_Rem_WS { value : _Inf_used_for_WS_pool - (_Inf_CaryAp + _Inf_Chatham + _Inf_Durham + _Inf_Other + _Inf_RTP + _Inf_Morris +_Inf_Orange + _Inf_OWASA + _Inf_Holly ) } /* Determine remaining deficit by account */ :FOR: { [Account] = { CaryAp, Chatham, RTP, Other, Durham, Morris, Orange, OWASA, Holly } } Set : _Rem_def_[Account] { value : _Req_Refill_[Account] - _Inf_[Account] } :NEXT: Set : _Rem_def_Total { value : _Rem_def_CaryAp + _Rem_def_Chatham + _Rem_def_Durham + _Rem_def_Other + _Rem_def_RTP + _Rem_def_Morris + _Rem_def_Orange + _Rem_def_OWASA + _Rem_Def_Holly } :FOR: { [Account] = { CaryAp, Chatham, RTP, Other, Durham, Morris, Orange, OWASA, Holly } } // Distribute remaining inflow proportional to remaining deficit Set : _Rem_Inf_[Account] { condition : _Rem_def_total > 0 value : min { _Rem_def_[Account], _Inf_Rem_WS * _Rem_def_[Account] / _Rem_def_total } condition : default value : 0 } // Compute total inflow to each pool Set : _Inf_Total_[Account] { value : _Inf_[Account] + _Rem_Inf_[Account] } :NEXT: // Determine water supply storage in each account. For initialization in the udef list, set equal to the starting storage defined in the constants table. // Set the storage to account for starting storage less the delivery plus the total inflow. If that exceeds the max storage for that account, reset // the account to full. The accounts are not allowed to go negative 161 Set : _Storage_CaryAp { value : max { 0, min { [WS_CaryAp_Fraction] * [Max_WS_Storage] , _Stor_Final_CaryAp(-1) + _Inf_Total_CaryAp - delivery0471 } } } Set : _Storage_Chatham { value : max { 0, min { [WS_Chatham_Fraction] * [Max_WS_Storage] , _Stor_Final_Chatham(-1) + _Inf_Total_Chatham - delivery0473 } } } Set : _Storage_RTP { value : max { 0, min { [WS_RTP_Fraction] * [Max_WS_Storage] , _Stor_Final_RTP(-1) + _Inf_Total_RTP - delivery0474 } } } Set : _Storage_Other { value : max { 0, min { [WS_Other_Fraction] * [Max_WS_Storage] , _Stor_Final_Other(- 1) + _Inf_Total_Other - delivery0475 } } } Set : _Storage_Durham { value : max { 0, min { [WS_Durham_Fraction] * [Max_WS_Storage] , _Stor_Final_Durham(-1) + _Inf_Total_Durham - flow0479.1151 - flow1151.0431 } } } Set : _Storage_Morris { value : max { 0, min { [WS_Morris_Fraction] * [Max_WS_Storage] , _Stor_Final_Morris(- 1) + _Inf_Total_Morris - delivery0477 } } } Set : _Storage_Orange { value : max { 0, min { [WS_Orange_Fraction] * [Max_WS_Storage] , _Stor_Final_Orange(-1) + _Inf_Total_Orange - delivery0921 } } } Set : _Storage_OWASA { value : max { 0, min { [WS_OWASA_Fraction] * [Max_WS_Storage] , _Stor_Final_OWASA(-1) + _Inf_Total_OWASA - flow1151.0431 } } } Set : _Storage_Holly { value : max { 0, min { [WS_Holly_Fraction] * [Max_WS_Storage] , _Stor_Final_Holly(-1) + _Inf_Total_Holly - flow0479.0923 } } } // Assume pools are automatically reset to full if the total water supply storage account has refilled (do this by overwriting initial calculation). // Account is refilled automatically when Jordan elevation reaches 216 feet. :FOR: { [Account] = { CaryAp, Chatham, RTP, Other, Durham, Morris, Orange, OWASA, Holly } } Set : _Stor_Final_[Account] { condition : _Total_WS_Storage >= [Max_WS_Storage] value : [WS_[Account]_Fraction] * [Max_WS_Storage] condition : default value : _Storage_[Account] } :NEXT: // Calculate pool volume as percent of max storage :FOR: { [Account] = { CaryAp, Chatham, RTP, Other, Durham, Morris, Orange, OWASA, Holly } } Set : _Stor_Final_Pct_[Account] { condition : [WS_[Account]_Fraction] = 0 value : 0 condition : default value : _Stor_Final_[Account] / ( [WS_[Account]_Fraction] * [Max_WS_Storage] ) * 100 } :NEXT: /* WQ ACCOUNTING */ /* The _WQ_Release is the amount of water required to be released from Jordan Lake to meet the Lillington flow target for days when the lake is not full. This variable's value should be the same as the model's computed Jordan release when the lake is not full. It is done by setting the WQ Release to the model's computed Jordan releases at the dam. When the lake is full, we set the WQ Release to the value that would have been required to meet the Lillington target were the lake not full. So it is the Lillington target minus the Moncure flow minus the Harris Lake release plus demands between the dam at Jordan Lake and Lillington minus the discharges between the dam and Lillington. */ /* The water quality release from Jordan = outflow from Jordan. The release is constrained in the main.ocl file to the amount in the water quality storage pool plus the inflow to that account. This way, the release will not be made if the account has emptied. Note the outflow may 162 include releasing surplus water above the rule curve, which technically would be more than the water quality release. But since the account is reset to full above the rule curve, it makes no difference. However, to make it more realistic, set the WQ release to the minimum flow from Jordan when the elevation is at 216 or above. */ Set : _WQ_Release { condition : elevation0470 >= 216 value : min_flow0470.0480 condition : default value : flow0470.0480 } // Initial value set in the udef list based on starting WQ storage reported in the constants table Set : _WQ_Storage { condition : elevation0470 >= 216.0 value : [Max_WQ_Storage] // the WQ storage is not allowed to go negative condition : default value : max { 0, min { [Max_WQ_Storage], _WQ_Storage(-1) + _JLake_WQ_Inf + _WS_Pool_Excess - _WQ_Release } } } Set : _WQ_Storage_Pct { value : _WQ_Storage / [Max_WQ_Storage] * 100 } Set : _Req_Refill_WQ { value : [Max_WQ_Storage] - _WQ_Storage + _WQ_Release } Set : _WQ_Pool_Excess { condition : _Req_Refill_WS_Pool > _JLake_WS_Inf value : max { 0, _JLake_WQ_Inf - _Req_Refill_WQ } condition : default value : 0 } 163 Harris_ops.ocl /* Operational policies for Harris Lake */ // Spill rating curve for Harris. // The D zone weight is -25, so if in the spill zone, the computed spill will occur because 25 points will otherwise be lost. // However, spill will not exceed the computed amount because 100 points will be lost, or a net loss of 100 -25, or 75 points. // We don't want spill to occur above the computed amount in order to meet shortages downstream on the main stem. Also, we don't // want the spill to be curtailed for a Fayetteville max flow downstream of 20,000 cfs, which is the Corps operating target. Jordan // will curtail releases (but not below the minimum release), but Harris will not, so the D zone penalty is higher than the weight // at Fayetteville. // If reservoir elevation is below the spill zone starting at 220 feet, only the min release (if any is set) will be met since that arc gets a weight // of gets a weight of 10. The spill arc gets a weight of -10. Note releases will not exceed the minimum when below the spill zone since // a weight of -100 is placed on the B zone of the arc. Normally this is not needed but with the interplay with Jordan Lake, the weights in the // reservoir zones are such that we need additional confirmation that Harris won't release more than the minimum in this arc. // Set a udef for the projected end of day elevation will be used to determine spill from the rating curve. Set : _Proj_Harris_Storage { value : min {max_stor0520, storage0520 + inflow0520 - ( timesers(0520/evap) / 12 * stor_to_area{0520,storage0520} ) - delivery0531 - delivery0521 - flow0521.0520 - flow0520.0528 - flow0520.0525 } } Set : _Proj_Harris_Elev { value : stor_to_elev {0520, _Proj_Harris_Storage} } Target Harris_spill: dflow0520.0526 { Condition : default priority : 1 penalty+ : 100 penalty- : 0 Value : convert_units { Lookup{ Harris_Spill, _Proj_Harris_Elev }, cfs, af} } 164 OWASA_ops.ocl // Operations policy for OWASA's system // Set the Stone Quarry inflow - area adjustment of the Univ. Lake inflow // Quarry = 1.2 sq. mi., Univ. Lake = 28.7 sq. mi. Set : inflow0395 { value : 1.2 * inflow0430 / 28.7 } //Set to refill Stone Quarry w/ spill from Cane Ck Res. Target CaneCk_SQ_Trans : dflow0390.0395 { condition : storage0390 >= upper_rule0390 priority : 1 penalty+ : 350 penalty- : 300 Value : max { 0, min { upper_rule0395 - storage0390 - inflow0395 + evap0395 * stor_to_area { 0395, storage0395 } / 12 , inflow0390 - evap0390 * stor_to_area { 0390, storage0390 } / 12 - min_flow0390.0370 - upper_rule0390 } } condition : default priority : 1 penalty+ : 350 penalty- : 350 Value : 0 } // EXISTING OPERATING POLICY // Set the WD from Cane Creek Reservoir, depending on reservoir levels // Stone Quarry will be utilized last. Target CaneCkWD : dflow0390.0431 { // If Univ. Lake full and CCR is below full, make all WDs from Univ. Lake condition : storage0430 >= upper_rule0430 - 0.1 and storage0390 < upper_rule0390 priority : 1 penalty+ : 310 penalty- : 310 Value : 0 // If both reservoirs are full split the WD condition : storage0430 >= upper_rule0430 and storage0390 >= upper_rule0390 priority : 1 penalty+ : 310 penalty- : 310 Value : min { 0.5 * demand0431, max_flow0390.0431 } // Split WDs for the first 100 MG of drawdown (50 MG from Univ Lake) condition : upper_rule0430 - storage0430 <= convert_units { 50, mg, af} priority : 1 penalty+ : 310 penalty- : 310 Value : min { 0.5 * demand0431, max_flow0390.0431 } // After that withdraw the majority, less 1 mgd, from Cane Creek condition : upper_rule0430 - storage0430 > convert_units { 50, mg, af} priority : 1 penalty+ : 310 penalty- : 310 Value : min { demand0431 - convert_units { 1, mgd, af }, max_flow0390.0431 } // Then draw down Cane Creek completely if Univ Lake is depleted condition : default priority : 1 penalty+ : 310 penalty- : 310 Value : min { demand0431, max_flow0390.0431 } } 165 SilerCity_ops.ocl /* Minimum release policy for Siler City's Charles Turner Reservoir on the Rocky River - based on combined usable storage remaining in the reservoirs. */ Set : _SilerCity_UsableStor { Value : max { 0, min { (max_stor0324 - dead_stor0324 + max_stor0325 - dead_stor0325), (storage0324 - dead_stor0324 + storage0325 - dead_stor0325) } } } Set : _SilerCity_UsableStorPct { Value : _SilerCity_UsableStor / (max_stor0324 - dead_stor0324 + max_stor0325 - dead_stor0325) } // Trigger when reaching tier 2 Set : _SilerCityTrig2 { condition : _SilerCity_UsableStorPct < 0.7 value : 1 condition : default value : 0 } // Trigger when reaching tier 3 Set : _SilerCityTrig3 { condition : _SilerCity_UsableStorPct < 0.4 value : 1 condition : default value : 0 } Set : _Tier_MinRelease { // Tier 3 condition : _SilerCityTrig3 = 1 Value : convert_units {pattern(Tier3_RockyRiver),cfs,af} // Tier 2 condition : _SilerCityTrig2 = 1 Value : convert_units {pattern(Tier2_RockyRiver),cfs,af} // Tier 1 condition : default Value : convert_units {pattern(Tier1_RockyRiver),cfs,af} } // Also provide pulsing to simulate storm events (if those do not occur) of 20 cfs for 12 hours, or 20 acre feet per day, once per month, // whenever combined usable storage exceeds 40%. 401 Water Quality Certificate says pulses only required when no natural events of similar // magnitude are observed. Assume we will provide this at the beginning of each month regardless of natural flows. // Set min flow Set : min_flow0325.0328 { condition : day = 1 and _SilerCity_UsableStorPct > 0.4 value : max{_Tier_MinRelease, 20} condition : default value : _Tier_MinRelease } // When in Tier 2, reduce delivery by 10%; when in Tier 3, reduce another 10%. Constraint Consvn_Tier2 : { Condition : _SilerCityTrig2= 1 Expression : ddelivery0327 <= demand0327 * 0.9 } Constraint Consvn_Tier3 : { Condition : _SilerCityTrig3= 1 Expression : ddelivery0327 <= demand0327 * 0.8 } 166 Randleman_ops.ocl /* Operational policies for Randleman Lake */ Set MinReleaseRandleman : min_flow0270.0280 { condition : storage0270 / max_stor0270 <= 0.30 value : convert_units {10, cfs, af } condition : storage0270 / max_stor0270 <= 0.60 value : convert_units {20, cfs, af } condition : default value : convert_units {30, cfs, af } } Fayetteville_ops.ocl /* Operational policies for Fayetteville */ // Switch to river intake only when Glenville < 212.2 ft Target Glenville_WD : dflow0760.0733 { condition : storage0760 < lower_rule0760 priority : 1 penalty+ : 50 penalty- : 50 Value : 0 // Otherwise WD 4.5 mgd (per conversation with Chris Smith at Fayettville). condition : default priority : 1 penalty+ : 50 penalty- : 50 Value : convert_units { 4.5, mgd, af } } FtBragg_ops.ocl /* Operational policy for Ft. Bragg */ // Set targets to dictate WDs between Constraint : {dFlow0663.0721 = 0} // none from Dunn Constraint : {dFlow0720.0721 = 0} // none from old intake // Set the fraction coming from Harnett w/ a substitute :Substitute: [FtBraggWS_Harnett] = 0.5 Target Harnett_WD : dflow0551.0721 { condition : default priority : 1 penalty+ : 100 penalty- : 100 Value : [FtBraggWS_Harnett] * demand0721 // The rest will be from Fayettville } 167 SpringLake_ops.ocl /* Operational policy for Spring Lake */ // Set the fraction coming from Harnett w/ a substitute :Substitute: [SpringLakeWS_Harnett] = 0.21 // Set targets to dictate WDs between sources Target Hatnett_WD : dflow0551.0719 { condition : default priority : 1 penalty+ : 100 penalty- : 100 Value : [SpringLakeWS_Harnett] * demand0719 // 21% from Harnett, rest will be from Fayettville } 168 falls_bdam_ops.ocl /* Operational policies for Falls and Beaverdam */ /* Sets the Falls minimum release - seasonal pattern (100/60 cfs) with user-defined safety factor (only when using service gates) The safety factor can be set in the ocl constants table. */ Set FallsRelease : min_flow1300.1310 { condition : month > 3 and month < 11 value : convert_units { 100, cfs, af } * ( 1 + [FLakeMin_SafeFact] / 100 ) condition : default /* Winter min. release based on amount from Piggyback gates, which is approx. 60 cfs depending on stage. */ value : convert_units { lookup { PiggybackGate, elevation1300 }, cfs, af } } /* Sets the Clayton minimum flow target - seasonal pattern (254/184 cfs) with user-defined safety factor Also can be overridden if user chooses, when WQ storage drops below 20%; this can be truned on in the ocl constants table. */ Set Clayt_Target: min_flow1630.1640 { condition : [ClaytonTarget_Override] = 1 and ( _Total_WQ_Pct(-1) < [FLake_WQ_Threshold] or elevation1300 <= 245 ) value : 0 condition : month > 3 and month < 11 value : convert_units { 254, cfs, af } * ( 1 + [ClaytonTarget_SafeFact] / 100 ) condition : default value : convert_units { 184, cfs, af } * ( 1 + [ClaytonTarget_SafeFact] / 100 ) } /* Beaverdam elevation = projected Falls elevation if at or above 249 ft. */ Target Bdam_elevation : dstorage1230 { condition : elevation1300 >= 249.0 priority : 1 penalty+ : 10000 penalty- : 10000 Value : elev_to_stor {1230, elevation1300} } /*Beaverdam drought release policy*/ Target Beaverdam_release : dflow1230.1300 { /* If Falls is between 237 and 240, and Beaverdam is above 236.5, draw down Beaverdam maximum of 1-ft (down to a minimum of 236.5); next drawdown can occur after 5 days */ condition : elevation1230(-5) - elevation1230 < 5 and elevation1300 < 240 and elevation1230 > elevation1300 and elevation1230> 236.5 priority : 1 penalty+ : 1000 penalty- : 1000 Value : min { elev_to_stor { 1230, elevation1230 } - elev_to_stor { 1230, elevation1230 - 1 }, elev_to_stor { 1230, elevation1230 } - elev_to_stor { 1230, 236.5 } } /* If Falls is below 249 ft, make sure Beaverdam is not above 249 ft */ condition : elevation1230 > 249 and elevation1300 < 249 priority : 1 penalty+ : 1000 penalty- : 1000 Value : elev_to_stor { 1230, elevation1230 } - elev_to_stor { 1230, 249 } /* To ensure accurate accounting of water supply and quality pools, when stressed, release some contents from Beaverdam if either yesterday's water supply or water quality account for Falls was less than 5% full; do not draw down more than 1 ft per day THIS IS NOT PART OF TERRY'S SPREADSHEET (sn) */ condition : _FLake_WS_Pct(-1) < 5 or _FLake_WQ_Pct(-1) < 5 and elevation1230 > elevation1300 + 0.9 and elevation1230(-5) - elevation1230 < 5 priority : 1 penalty+ : 1000 penalty- : 1000 169 Value : max {0, min {elev_to_stor { 1230, elevation1230 } - elev_to_stor { 1230, elevation1230 - 1 } , ( _Bdam_WS_Stor(-1) + _Bdam_WQ_Stor(-1) + inflow1230 - evap1230 )} } condition : default priority : 1 penalty+ : 1000 penalty- : 1000 Value : 0 } /* Constrain the delivery for Raleigh from Falls based on amount in the total (Falls+Bdam) water supply storage account. Demand will not be fulfilled if the account has gone empty and there is not enough inflow to the water supply account (for the previous day). Similarly, constrain the water quality release from Falls (arc 1300.1310) based on amount in the water quality storage account. Since we refer to yesterday's storage estimates, for the first day of the run, constrain deliveries and releases to the initialized volumes for each account (for simplicity, ignore inflows) so that deliveries and releases are made. */ Constraint Deliv_Lim_Raleigh : { condition : abs_period = 1 expression : dflow1300.1306 <= [FLake_WS_Stor] + [Bdam_WS_Stor] } Constraint Deliv_Lim_Raleigh : { condition : abs_period > 1 expression : dflow1300.1306 <= _Total_WS_Stor(-1) } Constraint Release_Limit_Falls : { condition : abs_period = 1 expression : dflow1300.1310 <= [FLake_WQ_Stor] + [Bdam_WQ_Stor] } Constraint Release_Limit_Falls : { condition : abs_period > 1 expression : dflow1300.1310 <= _Total_WQ_Stor(-1) } 170 falls_flood_ops.ocl /* Flood release policy for Falls Lake */ /* Calculate estimated local inflow to Clayton, which is used in determing Falls flood releases */ Set : _ClaytLocal { Value : inflow1290 + inflow1445 + inflow1450 + inflow1630 + /* To increase accuracy, estimate Crabtree outflows by using starting elevation and spillway curve */ min {convert_units { Lookup{ 1416Outflow, elevation1416 }, cfs, af}, storage1416 - elev_to_stor {1416, 230} } + min {convert_units { Lookup{ 1418Outflow, elevation1418 }, cfs, af}, storage1418 - elev_to_stor {1418, 335} } + min {convert_units { Lookup{ 1422Outflow, elevation1422 }, cfs, af}, storage1422 - elev_to_stor {1422, 252} } } /* Falls flood operations per recommendations in Terry Brown's email 02/26/2009 */ Target Falls_release : dflow1300.1310 { /* Release only the minimum release if elevation is less than 255 and est. Clayton inflows >= 7000 cfs */ condition : elevation1300 >= 251.5 and elevation1300 <= 255 and _ClaytLocal >= convert_units { 7000, cfs, af} priority : 1 penalty+ : 50 penalty- : 50 Value : min_flow1300.1310 /* If elev. < 255 and est. Clayton inflow < 7000 cfs, release the lesser of 4000 cfs or (7000 - the Clayt inflow). Also added provision to only drop Falls to the guide curve, but not less than the minimum release */ condition : elevation1300 >= 251.5 and elevation1300 <= 255 and _ClaytLocal < convert_units { 7000, cfs, af} priority : 1 penalty+ : 50 penalty- : 50 Value : max { min_flow1300.1310, min { convert_units { 4000, cfs, af }, convert_units { 7000, cfs, af } - _ClaytLocal, storage1300 - elev_to_stor { 1300, 251.5 } } } /* Release only the minimum release if elevation is less than 255 - 258 and est. Clayton inflows >= 7000 cfs */ condition : elevation1300 > 255 and elevation1300 <= 258 and _ClaytLocal >= convert_units { 7000, cfs, af} priority : 1 penalty+ : 50 penalty- : 50 Value : min_flow1300.1310 /* If elev. is 255 - 258 and est. Clayton inflow < 7000 cfs, release 7000 - the Clayt inflow. */ condition : elevation1300 > 255 and elevation1300 <= 258 and _ClaytLocal < convert_units { 7000, cfs, af} priority : 1 penalty+ : 50 penalty- : 50 Value : convert_units { 7000, cfs, af } - _ClaytLocal /* Release only the minimum release if elevation is 258 - 264.8 and est. Clayton inflows >= 8000 cfs */ condition : elevation1300 > 258 and elevation1300 <= 264.8 and _ClaytLocal >= convert_units { 8000, cfs, af} priority : 1 penalty+ : 50 penalty- : 50 Value : min_flow1300.1310 /* If elev. is 258 - 264.8 and est. Clayton inflow < 8000 cfs, release 8000 - the Clayt inflow. */ condition : elevation1300 > 258 and elevation1300 <= 264.8 and _ClaytLocal < convert_units { 8000, cfs, af} priority : 1 penalty+ : 50 penalty- : 50 Value : convert_units { 8000, cfs, af } - _ClaytLocal /* If elev. is 264.8 - 268 and est. Clayton inflow >= 8000 cfs, release only the computed spillway amount */ condition : elevation1300 > 264.8 and elevation1300 <= 268 and _ClaytLocal >= convert_units { 8000, cfs, af} priority : 1 penalty+ : 50 penalty- : 50 Value : convert_units { lookup { FallsSpillway, elevation1300 }, cfs, af } 171 /* If elev. is 264.8 - 268 and est. Clayton inflow < 8000 cfs, release [(8000 cfs + the computed spillway amount) - the Clayt inflow]. */ condition : elevation1300 > 264.8 and elevation1300 <= 268 and _ClaytLocal < convert_units { 8000, cfs, af} priority : 1 penalty+ : 50 penalty- : 50 Value : convert_units { 8000 + lookup { FallsSpillway, elevation1300 }, cfs, af } - _ClaytLocal /* If elev. is > 268, release the full amounts possible from the service gates and the spillway. */ condition : elevation1300 > 268 priority : 1 penalty+ : 50 penalty- : 50 Value : convert_units { lookup { FallsSvcGate, elevation1300 } + lookup { FallsSpillway, elevation1300 }, cfs, af } } /* Set targets based on flood stages at downstream gages; note that the above release policy takes priorty over these targets */ /* Clayton flood control target */ Target Clayton_max : dflow1630.1640 { condition : default priority : 1 penalty+ : 10 penalty- : 0 Value : convert_units{ 5332, cfs, af } } /* Goldsboro flood control target */ Target Goldsboro_max : dflow1780.1790 { condition : default priority : 1 penalty+ : 10 penalty- : 0 Value : convert_units{ 6003, cfs, af } } /* Kinston flood control target */ Target Kinston_max : dflow1800.1850 { condition : default priority : 1 penalty+ : 10 penalty- : 0 Value : convert_units{ 7168, cfs, af } } 172 Falls_Bdam_WS_WQ_Accounts.ocl /* The Falls conservation storage zone is divided into water quality and water storage accounts Fraction of conservation storage and inflow : WQ = 57.7% allocated (61,322 acft.) WS = 42.3% allocated (45,000 acft.) Beaverdam is also included in the WQ/WS accounting, the proportion to each is the same as Falls. */ /* WQ and WS accounts by lake */ Set : _Pct_Max_WQ_Storage { value : ( [Total_Max_WQ_Storage] / [Total_Max_WQ_WS_Storage] ) * 100 } Set : _Pct_Max_WS_Storage { value : 100 - _Pct_Max_WQ_Storage } Set : _FLake_Max_WQ_Storage { value : _Pct_Max_WQ_Storage / 100 * [FLake_Max_WQ_WS_Storage] } Set : _FLake_Max_WS_Storage { value : _Pct_Max_WS_Storage / 100 * [FLake_Max_WQ_WS_Storage] } Set : _Bdam_Max_WQ_Storage { value : [Total_Max_WQ_Storage] - _FLake_Max_WQ_Storage } Set : _Bdam_Max_WS_Storage { value : [Total_Max_WS_Storage] - _FLake_Max_WS_Storage } /* Beaverdam Accounting */ Set : _Bdam_Inf { value : inflow1230 - evap1230(0) } /* Base it on net inflow for Beaverdam. Evap (0) since this file is included after the solve statement and we want today's evap, not tomorrow's */ Set : _Bdam_Inf_WS { value : _Pct_Max_WS_Storage / 100 * _Bdam_Inf } Set : _Bdam_WS_Rel /* Calculate the WS outflow to Falls from Beaverdam. Assume that the WS amount is simply based on the percent of water supply to total account storage in Beaverdam */ { condition : elevation1230 < 249 /* WS Outflow only if Beaverdam is less than 249ft (spillage is accounted for in Falls) */ value : flow1230.1300 * _Pct_Max_WS_Storage / 100 condition : default value : 0 } Set : _Bdam_WS_Stor_Init /* Calculate the initial Beaverdam WS storage (before computing spill to WQ and back*/ { condition : elevation1230 >= 249 or _Bdam_WS_Stor(-1) + _Bdam_Inf_WS - _Bdam_WS_Rel >= _Bdam_Max_WS_Storage value : _Bdam_Max_WS_Storage /* Prevent the water supply account from going negative */ condition : default value : max { 0, _Bdam_WS_Stor(-1) + _Bdam_Inf_WS - _Bdam_WS_Rel } } Set : _Bdam_WStoWQ_Spill /* Calculate the spillover from WS to WQ*/ { condition : _Bdam_WS_Stor(-1) + _Bdam_Inf_WS - _Bdam_WS_Rel > _Bdam_Max_WS_Storage /* Spillover only if projected WS storage is more than 100% */ value : _Bdam_WS_Stor(-1) + _Bdam_Inf_WS - _Bdam_WS_Rel - _Bdam_Max_WS_Storage condition : default value : 0 } Set : _Bdam_Inf_WQ { value : _Pct_Max_WQ_Storage / 100 * _Bdam_Inf } Set : _Bdam_WQ_Rel /* Calculate the WQ outflow to Falls from Beaverdam */ { condition : elevation1230 < 249 /* WQ Outflow only if Beaverdam is less than 249ft (spillage is accounted for in Falls) */ value : flow1230.1300 * _Pct_Max_WQ_Storage / 100 condition : default value : 0 } Set : _Bdam_WQ_Stor /* Calculate the Beaverdam WQ storage */ { condition : elevation1230 >= 249 or _Bdam_WQ_Stor(-1) + ( _Bdam_WStoWQ_Spill + _Bdam_Inf_WQ - _Bdam_WQ_Rel ) >= _Bdam_Max_WQ_Storage 173 value : _Bdam_Max_WQ_Storage /* Prevent the water quality account from going negative */ condition : default value : max { 0, _Bdam_WQ_Stor(-1) + ( _Bdam_WStoWQ_Spill + _Bdam_Inf_WQ - _Bdam_WQ_Rel ) } } Set : _Bdam_WQtoWS_Spill /* Calculate the spillover from WQ to WS */ { condition : _Bdam_WQ_Stor(-1) + ( _Bdam_WStoWQ_Spill + _Bdam_Inf_WQ - _Bdam_WQ_Rel ) > _Bdam_Max_WQ_Storage /* Spillover only if projected WS storage more than 100% */ value : _Bdam_WQ_Stor(-1) + ( _Bdam_WStoWQ_Spill + _Bdam_Inf_WQ - _Bdam_WQ_Rel ) - _Bdam_Max_WQ_Storage condition : default value : 0 } Set : _Bdam_WS_Stor /* Calculate the final Beaverdam WS storage (after computing spillage) */ { condition : _Bdam_WS_Stor_Init + _Bdam_WQtoWS_Spill >= _Bdam_Max_WS_Storage /* Set at 100% if at or above full */ value : _Bdam_Max_WS_Storage condition : default value : _Bdam_WS_Stor_Init + _Bdam_WQtoWS_Spill } /* Falls Accounting */ /* Falls Lake inflow is Falls gain + upstream flows into Falls*/ Set : _FLake_Inf { /* When Beaverdam is full, inflow to Falls account from Beaverdam will simply be the Beaverdam surplus above 249 (= net inflow). Note for the general accounting (i.e, not the WS/WQ accounting), storage will accumulate in Beaverdam (and Falls) until the upper rule of 251.5 is reached. The point of this is to mirror what historic elevations have been */ condition : elevation1230 >= 249 value : inflow1300 + flow1140.1300 + flow1162.1300 + flow1205.1300 + flow1250.1300 + flow1259.1300 + flow1270.1300 + flow1705.1300 - delivery1302 - evap1300(0) + _Bdam_Inf /* Otherwise, inflow to Falls account from Beaverdam is simply the Beaverdam release defined in the main.ocl (associated with drought operations). This will be today's release since this accounting file is included after the solve statement in the main.ocl file */ condition : default value : inflow1300 + flow1140.1300 + flow1162.1300 + flow1205.1300 + flow1250.1300 + flow1259.1300 + flow1270.1300 + flow1705.1300 - delivery1302 - evap1300(0) + flow1230.1300 } Set : _FLake_Inf_WS { value : _Pct_Max_WS_Storage / 100 * _FLake_Inf } /* Calculate WS portion of Falls inflow */ /* The water supply release from Falls = the delivery to Raleigh. The delivery is constrained in the main.ocl file to the amount in the water supply storage pool plus the inflow to that account. This way, the delivery will not be made if the account has emptied */ Set : _Flake_WS_Rel { value : flow1300.1306 } Set : _FLake_WS_Stor_Init /* Calculate the initial Falls WS storage (before computing spill to WQ and back) */ { condition : elevation1300 >= 251.5 or _FLake_WS_Stor(-1) + ( _FLake_Inf_WS - _Flake_WS_Rel ) >= _FLake_Max_WS_Storage /* Set at 100% if at or above full */ value : _FLake_Max_WS_Storage /* Sets the water supply storage floor as zero minus the storage in Beaverdam */ condition : default value : max { 0 - _Bdam_WS_Stor, _FLake_WS_Stor(-1) + ( _FLake_Inf_WS - _Flake_WS_Rel ) } } Set : _FLake_WStoWQ_Spill /* Calculate the spillover from WS to WQ */ { condition : _FLake_WS_Stor(-1) + ( _FLake_Inf_WS - _Flake_WS_Rel ) > _FLake_Max_WS_Storage /* Spillover only if projected WS storage is more than 100% */ value : _FLake_WS_Stor(-1) + ( _FLake_Inf_WS - _Flake_WS_Rel ) - _FLake_Max_WS_Storage 174 condition : default value : 0 } Set : _FLake_Inf_WQ { value : _Pct_Max_WQ_Storage / 100 * _FLake_Inf } /* Calculate WQ portion of Falls inflow */ /* The water quality release from Falls = outflow from Falls. The release is constrained in the main.ocl file to the amount in the water quality storage pool plus the inflow to that account. This way, the release will not be made if the account has emptied. Note the outflow may include releasing surplus water above the rule curve, which technically would be more than the water quality release. But since the account is reset to full above the rule curve, it makes no difference. However, to make it more realistic, set the WQ release to the minimum flow from Falls (for simplicity) when the elevation is at 251.5 or above. */ Set : _Flake_WQ_Rel { condition : elevation1300 >= 251.5 value : min_flow1300.1310 condition : default value : flow1300.1310 } Set : _FLake_WQ_Stor /* Calculate the Falls WQ storage */ { condition : elevation1300 >= 251.5 or _FLake_WQ_Stor(-1) + ( _FLake_WStoWQ_Spill + _FLake_Inf_WQ - _Flake_WQ_Rel ) >= _FLake_Max_WQ_Storage value : _FLake_Max_WQ_Storage /* Sets the water supply storage floor as zero minus the storage in Beaverdam */ condition : default value : max { 0 - _Bdam_WQ_Stor, _FLake_WQ_Stor(-1) + ( _FLake_WStoWQ_Spill + _FLake_Inf_WQ - _Flake_WQ_Rel ) } /* Appears to be counted twice in terry's spreadsheet, but we are not here.*/ } Set : _FLake_WQtoWS_Spill /* Calculate the spillover from WQ to WS */ { condition : _FLake_WQ_Stor(-1) + ( _FLake_WStoWQ_Spill + _FLake_Inf_WQ - _Flake_WQ_Rel ) > _FLake_Max_WQ_Storage /* Spillover only if projected WS storage more than 100% */ value : _FLake_WQ_Stor(-1) + ( _FLake_WStoWQ_Spill + _FLake_Inf_WQ - _Flake_WQ_Rel ) - _FLake_Max_WQ_Storage condition : default value : 0 } Set : _FLake_WS_Stor /* Calculate the final Falls WS storage (after computing spillage) */ { condition : _FLake_WS_Stor_Init + _FLake_WQtoWS_Spill >= _FLake_Max_WS_Storage /* Set to 100% if more than full */ value : _FLake_Max_WS_Storage condition : default value : _FLake_WS_Stor_Init + _FLake_WQtoWS_Spill } Set : _Total_WS_Stor { value : _FLake_WS_Stor + _Bdam_WS_Stor } /* Sum the total WS storage for Falls + Beaverdam */ Set : _Total_WQ_Stor { value : _FLake_WQ_Stor + _Bdam_WQ_Stor } /* Sum the total WQ storage for Falls + Beaverdam */ /* Calculate the percent of full for the WS and WQ accounts */ Set : _Bdam_WS_Pct { value : 100 * _Bdam_WS_Stor / _Bdam_Max_WS_Storage } Set : _Bdam_WQ_Pct { value : 100 * _Bdam_WQ_Stor / _Bdam_Max_WQ_Storage } Set : _FLake_WS_Pct { value : 100 * _FLake_WS_Stor / _FLake_Max_WS_Storage } Set : _FLake_WQ_Pct { value : 100 * _FLake_WQ_Stor / _FLake_Max_WQ_Storage } Set : _Total_WS_Pct { value : 100 * _Total_WS_Stor / [Total_Max_WS_Storage] } Set : _Total_WQ_Pct { value : 100 * _Total_WQ_Stor / [Total_Max_WQ_Storage] } 175 raleigh_ops.ocl /* Operational policy for other Raleigh systems - Swift Creek and the proposed Little River Reservoir. */ /* Set the minimum release for Benson/Wheeler - per 3/3/08 e-mail from Mary Sadler via Reed Palmer - based on useable storage */ Set : min_flow1440.1700 { condition : (storage1420 - dead_stor1420 + storage1440 - dead_stor1440) / (max_stor1420 - dead_stor1420 + max_stor1440 - dead_stor1440) < 0.3 Value : convert_units { 1 , cfs , af } condition : (storage1420 - dead_stor1420 + storage1440 - dead_stor1440) / (max_stor1420 - dead_stor1420 + max_stor1440 - dead_stor1440) < 0.6 Value : convert_units { 2 , cfs , af } condition : default Value : convert_units { 3 , cfs , af } } /* Operational policy for withdrawals from Benson/Wheeler */ /* Set the maximum delivery from Raleigh WTP's (change the capacities using the substitutes below) */ :Substitute: [EMJ_WTP_capacity] = 86 //MGD :Substitute: [DE_Benton_WTP_production] = 8 // MGD Set : max_flow1440.1306 //Set max WTP flows based on Final EA for D.E. Benton WTP { condition : (storage1420 - dead_stor1420 + storage1440 - dead_stor1440) / (max_stor1420 - dead_stor1420 + max_stor1440 - dead_stor1440) < 0.3 Value : convert_units { 11.2, mgd, af } condition : (storage1420 - dead_stor1420 + storage1440 - dead_stor1440) / (max_stor1420 - dead_stor1420 + max_stor1440 - dead_stor1440) < 0.6 Value : convert_units { 12.6, mgd, af } condition : default Value : convert_units { 14 , mgd , af } } Set : max_flow1300.1306 { condition : default Value : convert_units { [EMJ_WTP_capacity], mgd , af } } // Don't allow Falls/EMJ WD to drop below 36 MGD Target Falls_WTP_Min_production : dflow1300.1306 { condition : default priority : 1 penalty+ : 0 penalty- : 200 Value : convert_units{ 36, mgd, af } } /* Set delivery target for DE Benton WTP */ Target Benton_WTP_Min_production : dflow1440.1306 { condition : default priority : 1 penalty+ : 100 penalty- : 100 Value : convert_units{ [DE_Benton_WTP_production], mgd, af } } // Raleigh's proposed Little River Reservoir -- // Set flow from Little River Reservoir (Raleigh) to Raleigh demand to zero; // basecase simulates Raleigh's withdrawal from Falls; this // can be changed to reflect a future operating policy using that lake. Constraint : {dFlow1740.1306 = 0 } /* Also note that the net evaporation for the propsed reservoir is turned off in the basecase run, to prevent drawdown in the reservoir from cutting off flows in the river when modeling current scenarios with the reservoir. The net evaporation 176 can be turned back on for an alternative scenario by switching the Evaporation Type to "Time Series" under the Net Evaporation table. */ 177 upper_eno_ops.ocl /* Operation policy the Upper Eno, based on the Capacity Use Plan */ /* Compute channel loss factor, which is used in the Lake Orange and WFER min release computations, and to calculate channel loss at the Hillsborough Gage. Based on the values in the WFER dam safety permit. */ Set : _Eno_Channel_Loss { condition : flow1110.1115 < convert_units{4,cfs,af} Value : 0.2 condition : flow1110.1115 <= convert_units{12,cfs,af} Value : 0.1 condition : default Value : 0 } /* Determine the maximum release from Lake Orange for Hillsborough demand; based on stage. */ Set : _Max_Hills_WD { /* For Dead Storage */ Condition : storage1060 / max_stor1060 <= 0.1365 Value : 0 /* Stages 6 */ condition : storage1060 / max_stor1060 <= 0.3 Value : convert_units { 0.68, mgd, af } /* Stages 5 */ condition : storage1060 / max_stor1060 <= 0.4 Value : convert_units { 1.13, mgd, af } /* Stages 3 & 4 */ condition : storage1060 / max_stor1060 <= 0.6 Value : convert_units { 1.28, mgd, af } /* Stage 2 */ condition : storage1060 / max_stor1060 <= 0.8 Value : convert_units { 1.36, mgd, af } /* Stage 1 */ condition : default Value : convert_units { 1.51, mgd, af } } /* Determine the maximum release from Lake Orange for Orange-Alamance demand; based on stage. */ Set : _Max_OrAl_WD { /* For Dead Storage */ Condition : storage1060 / max_stor1060 <= 0.1365 Value : 0 /* Stages 6 */ condition : storage1060 / max_stor1060 <= 0.3 Value : convert_units { 0.37, mgd, af } /* Stages 5 */ condition : storage1060 / max_stor1060 <= 0.4 Value : convert_units { 0.62, mgd, af } /* Stages 3 & 4 */ condition : storage1060 / max_stor1060 <= 0.6 Value : convert_units { 0.70, mgd, af } /* Stage 2 */ condition : storage1060 / max_stor1060 <= 0.8 Value : convert_units { 0.74, mgd, af } /* Stage 1 */ condition : default Value : convert_units { 0.82, mgd, af } } /* Determine the maximum release from Lake Orange for Piedmont Minerals demand; based on stage. */ 178 Set : _Max_Pied_WD { /* Stages 6 */ condition : storage1060 / max_stor1060 <= 0.3 Value : convert_units { 0.00, mgd, af } /* Stages 5 */ condition : storage1060 / max_stor1060 <= 0.4 Value : convert_units { 0.19, mgd, af } /* Stages 4 */ condition : storage1060 / max_stor1060 <= 0.5 Value : convert_units { 0.32, mgd, af } /* Stages 3 */ condition : storage1060 / max_stor1060 <= 0.6 Value : convert_units { 0.36, mgd, af } /* Stage 2 */ condition : storage1060 / max_stor1060 <= 0.8 Value : convert_units { 0.38, mgd, af } /* Stage 1 */ condition : default Value : convert_units { 0.43, mgd, af } } /* Determine the Lake Orange required streamflow augmentation; based on stage. */ Set : _Orange_streamflow { /* Stages 6 */ condition : storage1060 / max_stor1060 <= 0.3 Value : 0 /* Stages 5 */ condition : storage1060 / max_stor1060 <= 0.4 Value : 0 /* Stages 3 & 4 */ condition : storage1060 / max_stor1060 <= 0.6 Value : convert_units { 0.45, mgd, af } /* Stage 2 */ condition : storage1060 / max_stor1060 <= 0.8 Value : convert_units { 0.65, mgd, af } /* Stage 1 */ condition : default Value : convert_units { 1.10, mgd, af } } /* Lake Orange minimum release, based on Eno Capacity Use plan. Includes a streamflow augmentation release plus a release for downstream demands. The release for Hillsborough, Or-Al and Pied. Minerals' demand is only up to the maximum specified in the plan. A multiplier for channel loss, the same as for WFER, is also included. */ Set : min_flow1060.1080 { /* All stage-dependant streamflow augmentation and max. WDs have been determined above */ condition : default Value : (1 + _Eno_Channel_Loss) * (_Orange_streamflow + min { demand1046, _Max_OrAl_WD } + min { demand1106, _Max_Hills_WD } + min { demand1116, _Max_Pied_WD }) } /* Determine which Phase WFER is in. Set to Tier 3 if elevation < 624. Set to Tier 2 if elevation is between 624 and 628 ft. Otherwise set to Tier 1 */ Set : _WFER_Tier { Condition : elevation1050 < 624 Value : 3 Condition : elevation1050 < 628 Value : 2 Condition : default Value : 1 179 } /* WFER Minimm release - depends on storage tier, and remaining Hillsborough demand that cannot be met by Lake Orange. From Eno Capacity Use pland and WFER dam safety permit; either enough to meet downstream requirements, or the specified seasonal pattern, whichever is greater */ Set : min_flow1050.1080 { /* If in Tier1 */ condition : _WFER_Tier = 1 Value : max { (1 + _Eno_Channel_Loss) * (convert_units{1.0,cfs,af} + max { 0, demand1106 - _Max_Hills_WD }) , convert_units{pattern(Tier1),cfs,af} } /* If in Tier2 */ condition : _WFER_Tier = 2 Value : max { (1 + _Eno_Channel_Loss) * (convert_units{1.0,cfs,af} + max { 0, demand1106 - _Max_Hills_WD }) , convert_units{pattern(Tier2),cfs,af} } /* If in Tier3 */ condition : _WFER_Tier = 3 Value : max { (1 + _Eno_Channel_Loss) * (convert_units{1.0,cfs,af} + max { 0, demand1106 - _Max_Hills_WD }) , convert_units{pattern(Tier3),cfs,af} } } /* Compute channel loss at Hills. Gage (computed) */ Target Channel_Loss : dflow1110.1107 { condition : default priority : 1 penalty+ : 1000 penalty- : 1000 Value : max { 0, _Eno_Channel_Loss * (flow1105.1110 + inflow1110) } } 180 durham_ops.ocl /* Operational policy for Durham's system */ /* Set Teer Quarry flows to zero - operating policy can be set in alternative scenarios */ Constraint : {dFlow1115.1120 = 0 } Constraint : {dFlow1140.1120 = 0 } Constraint : {dFlow1200.1120 = 0 } Constraint : {dFlow1120.1151 = 0 } /* Turn off interconnects from Durham for base case - transfers can be simulated with an operating policy in alternative scenarios */ Constraint : {dFlow1151.0473 = 0} /* Durham-Chatham Interconnect */ Constraint : {dFlow1151.0431 = 0} /* Durham-OWASA Interconnect */ Constraint : {dFlow1151.0471 = 0} /* Durham-Cary Interconnect */ Constraint : {dFlow1151.1106 = 0} /* Durham-Hillsborough Interconnect */ Constraint : {dFlow1151.1306 = 0} /* Durham-Raleigh Interconnect */ /* Sets the Little River Reservoir (Durham) minimum release - based on stage and time of year */ Set LittleRiverRelease : min_flow1200.1205 { condition : (storage1200 / max_stor1200) < 0.7 value : convert_units {0.64,cfs,af} condition : month > 5 and month < 12 value : convert_units {2.0,cfs,af} condition : default value : convert_units {6.0,cfs,af} } /* RESERVOIR BALANCING -- Durham With a very low penalty in Priority 1, balance the water (usable stor pct) between the reservoirs. This will draw Michie and Little River Res. down proportionally. This can be replaced with a more comprehensive operating policy from Durham in alternative scenarios */ Constraint Balance1200 : { d_StorRatio > ( Dstorage1200 - lower_rule1200 ) / (upper_rule1200 - lower_rule1200 ) } Constraint Balance1140 : { d_StorRatio > ( Dstorage1140 - lower_rule1140 ) / (upper_rule1140 - lower_rule1140 ) } Minimax : d_StorRatio { priority : 1 penalty : 2 tolerance : .02 } 181 Crabtree_ops.ocl /* Set the Crabtree Creek inflows and net evap for the individual flood control impoundments Instead of having 11 inflow and evap records in the basedata file, base all of them the inflow1400/evap1400 from the main basedata.dss */ /* Variables for the incremental DA into each reservoir */ :Substitute: [1400] = 2.1 :Substitute: [1402] = 1.4 :Substitute: [1404] = 2.3 :Substitute: [1406] = 8.9 :Substitute: [1408] = 5.2 :Substitute: [1410] = 8.2 :Substitute: [1412] = 2.5 :Substitute: [1414] = 11.5 :Substitute: [1416] = 3.7 :Substitute: [1418] = 23.1 :Substitute: [1422] = 24.8 :Substitute: [CrabtreeTotal] = 93.7 /* Filter the total inflow (in case there are any negative provisional inflows) */ Set : _TempInfCrabtree { Value : timesers(1400/inflow) } Set : _TotInfCrabtree { Value : max{0, _TempInfCrabtree - _InfDeficitCrabtree(-1) } } Set : _InfDeficitCrabtree { Value : max{0, _InfDeficitCrabtree(-1) - _TempInfCrabtree } } /* Set the inflows - proportion by drainage area the total inflow to Crabtree Creek */ Set : inflow1400 { value : _TotInfCrabtree / [CrabtreeTotal] * [1400] } Set : inflow1402 { value : _TotInfCrabtree / [CrabtreeTotal] * [1402] } Set : inflow1404 { value : _TotInfCrabtree / [CrabtreeTotal] * [1404] } Set : inflow1406 { value : _TotInfCrabtree / [CrabtreeTotal] * [1406] } Set : inflow1408 { value : _TotInfCrabtree / [CrabtreeTotal] * [1408] } Set : inflow1410 { value : _TotInfCrabtree / [CrabtreeTotal] * [1410] } Set : inflow1412 { value : _TotInfCrabtree / [CrabtreeTotal] * [1412] } Set : inflow1414 { value : _TotInfCrabtree / [CrabtreeTotal] * [1414] } Set : inflow1416 { value : _TotInfCrabtree / [CrabtreeTotal] * [1416] } Set : inflow1418 { value : _TotInfCrabtree / [CrabtreeTotal] * [1418] } Set : inflow1422 { value : _TotInfCrabtree / [CrabtreeTotal] * [1422] } /* Set the evap for all nodes */ :For: { [node] = { 1400, 1402, 1404, 1406, 1408, 1410, 1412, 1414, 1416, 1418, 1422 } } Set : evap[node] { value : stor_to_area { [node], storage[node] } * timesers(1400/evap) / 12 } :Next: /* Set the spillway rating curves for the Crabtree Creek impoundments. Prevent releases from drawing pond below spill elevation */ Target 1400_release: dflow1400.1412 { Condition : default priority : 1 penalty+ : 1000 penalty- : 1000 Value : min {convert_units { Lookup{ 1400Outflow, elevation1400 }, cfs, af}, storage1400 - elev_to_stor {1400, 305} } } Target 1402_release: dflow1402.1412 { Condition : default priority : 1 penalty+ : 1000 penalty- : 1000 Value : min {convert_units { Lookup{ 1402Outflow, elevation1402 }, cfs, af}, storage1402 - elev_to_stor {1402, 326} } } Target 1404_release: dflow1404.1412 { Condition : default priority : 1 penalty+ : 1000 penalty- : 1000 182 Value : min {convert_units { Lookup{ 1404Outflow, elevation1404 }, cfs, af}, storage1404 - elev_to_stor {1404, 342.5} } } Target 1406_release: dflow1406.1412 { Condition : default priority : 1 penalty+ : 1000 penalty- : 1000 Value : min {convert_units { Lookup{ 1406Outflow, elevation1406 }, cfs, af}, storage1406 - elev_to_stor {1406, 306.5} } } Target 1408_release: dflow1408.1412 { Condition : default priority : 1 penalty+ : 1000 penalty- : 1000 Value : min {convert_units { Lookup{ 1408Outflow, elevation1408 }, cfs, af}, storage1408 - elev_to_stor {1408, 313} } } Target 1410_release: dflow1410.1412 { Condition : default priority : 1 penalty+ : 1000 penalty- : 1000 Value : min {convert_units { Lookup{ 1410Outflow, elevation1410 }, cfs, af}, storage1410 - elev_to_stor {1410, 306.5} } } Target 1412_release: dflow1412.1416 { Condition : default priority : 1 penalty+ : 1000 penalty- : 1000 Value : min {convert_units { Lookup{ 1412Outflow, elevation1412 }, cfs, af}, storage1412 - elev_to_stor {1412, 276} } } Target 1414_release: dflow1414.1416 { Condition : default priority : 1 penalty+ : 1000 penalty- : 1000 Value : min {convert_units { Lookup{ 1414Outflow, elevation1414 }, cfs, af}, storage1414 - elev_to_stor {1414, 301 } } } Target 1416_release: dflow1416.1424 { Condition : default priority : 1 penalty+ : 1000 penalty- : 1000 Value : min {convert_units { Lookup{ 1416Outflow, elevation1416 }, cfs, af}, storage1416 - elev_to_stor {1416, 230} } } Target 1418_release: dflow1418.1424 { Condition : default priority : 1 penalty+ : 1000 penalty- : 1000 Value : min {convert_units { Lookup{ 1418Outflow, elevation1418 }, cfs, af}, storage1418 - elev_to_stor {1418, 335} } } Target 1422_release: dflow1422.1424 { Condition : default priority : 1 penalty+ : 1000 penalty- : 1000 Value : min {convert_units { Lookup{ 1422Outflow, elevation1422 }, cfs, af}, storage1422 - elev_to_stor {1422, 252} } } 183 Johnston_ops.ocl /* Operational policy for Johnston County's New Intake and 2 quarries */ /* this block is for balancing intakes for demand*/ Target JCIntake1: dflow1650.1654 { condition : default priority : 1 penalty+ : 50 penalty- : 0 Value : 0.5*demand1646 } /*this block is for main operation constraints*/ Set: max_flow1700.1652 { condition : abs_period <= 1 value : Convert_Units {0, mgd, AF} condition : flow1700.1760 -demand1646 >= convert_units { 198, cfs, af } value : Convert_Units {lookup {JohnstonCFlow, convert_units{flow1700.1760, af, cfs}}, mgd, AF} condition : flow1700.1760 - demand1646 <= convert_units { 198, cfs, af } value : max { 0, flow1700.1760 - demand1646 - convert_units { 198, cfs, af } } } /* set constraint for flow to quarry when full*/ Set: max_flow1652.1653 { condition : elevation1647 >= 450 and elevation1648 >= 275 value : 0 condition : default value : max { 0, max_flow1700.1652 - demand1646 } } 184 Fuquay_ops.ocl /* Operational policy for Fuaquay-Varina's system */ // Set deliveries from Raliegh to zero Constraint : {dFlow1306.1706 = 0} // Set targets to dictate deliveries from Harnett and Johnston Cos. Target Harnett_Del : dflow0551.1706 { condition : default priority : 1 penalty+ : 100 penalty- : 100 Value : 0.82 * demand1706 // 82% from Harnett Co., the rest will be from Johnston Co. (arc 1646.1706) } 185 buckhorn_Wilson_ops.ocl /* Minimum release policy for Wilson's Buckhorn Lake - based on storage remaining. */ Set : min_flow1500.1520 { condition : storage1500 / max_stor1500 < 0.5 Value : convert_units { 1.4 , cfs , af } condition : storage1500 / max_stor1500 < 0.7 Value : convert_units { 5.3 , cfs , af } condition : default Value : convert_units { 7.6 , cfs , af } } 186 drought_plans_cf.ocl :If: {[Drought_Plans_On] = 1} // First check if drought plan variable is on :Include: ocl\OWASA_wsrp.ocl // OWASA's forecast-based plan is in a separate OCL file /* Burlington */ Set : _Burl_Max_Usable_Stor { Value: (upper_rule0070 - lower_rule0070) + (upper_rule0340 - lower_rule0340) } Set : _Burl_Usable_Stor { Value : min { _Burl_Max_Usable_Stor, storage0070 - lower_rule0070 + storage0340 - lower_rule0340 } } Set : _Burl_Usable_Stor_Pct { Value : 100 * _Burl_Usable_Stor / _Burl_Max_Usable_Stor } Set : _Burl_Trigger_6_On { Value : 0 } Set : _Burl_Trigger_5_On { Condition : _Burl_Trigger_5_On(-1) = 1 { Condition : _Burl_Usable_Stor_Pct >= 100 Value : 0 Condition : default Value : _Burl_Trigger_5_On(-1) } Condition : _Burl_Stage_4_Counter(-1) >= 14 // Require a 14 day waiting period before going into phase 5 { Condition : weekday{year, month, day} <= 1 { Condition : _Burl_Usable_Stor_Pct <= 15 Value : 1 } Condition : default Value : _Burl_Trigger_5_On(-1) } Condition : default Value : _Burl_Trigger_5_On(-1) } Set : _Burl_Trigger_4_On { Condition : _Burl_Trigger_4_On(-1) = 1 { Condition : _Burl_Usable_Stor_Pct >= 100 Value : 0 Condition : default Value : _Burl_Trigger_4_On(-1) } Condition : _Burl_Stage_3_Counter(-1) >= 14 // Require a 14 day waiting period before going into phase 4 { Condition : weekday{year, month, day} <= 1 { Condition : _Burl_Usable_Stor_Pct < 30 Value : 1 } Condition : default Value : _Burl_Trigger_4_On(-1) } Condition : default Value : _Burl_Trigger_4_On(-1) } Set : _Burl_Trigger_3_On { Condition : _Burl_Trigger_3_On(-1) = 1 { Condition : _Burl_Usable_Stor_Pct >= 100 Value : 0 Condition : default Value : _Burl_Trigger_3_On(-1) } Condition : _Burl_Stage_2_Counter(-1) >= 14 // Require a 14 day waiting period before going into phase 3 { Condition : weekday{year, month, day} <= 1 { Condition : _Burl_Usable_Stor_Pct < 45 Value : 1 } 187 Condition : default Value : _Burl_Trigger_3_On(-1) } Condition : default Value : _Burl_Trigger_3_On(-1) } Set : _Burl_Trigger_2_On { Condition : _Burl_Trigger_2_On(-1) = 1 { Condition : _Burl_Usable_Stor_Pct >= 100 Value : 0 Condition : default Value : _Burl_Trigger_2_On(-1) } Condition : _Burl_Stage_1_Counter(-1) >= 14 // Require a 14 day waiting period before going into phase 2 { Condition : weekday{year, month, day} <= 1 { Condition : _Burl_Usable_Stor_Pct < 60 Value : 1 } Condition : default Value : _Burl_Trigger_2_On(-1) } Condition : default Value : _Burl_Trigger_2_On(-1) } Set : _Burl_Trigger_1_On { Condition : _Burl_Trigger_1_On(-1) = 1 { Condition : _Burl_Usable_Stor_Pct >= 100 Value : 0 Condition : default Value : _Burl_Trigger_1_On(-1) } Condition : weekday{year, month, day} <= 1 { Condition : _Burl_Usable_Stor_Pct < 75 Value : 1 Condition : default Value : _Burl_Trigger_1_On(-1) } Condition : default Value : _Burl_Trigger_1_On(-1) } /* Grensboro */ Set : _Gree_Max_Usable_Stor { Value: (upper_rule0120 - lower_rule0120) + (upper_rule0140 - lower_rule0140) } Set : _Gree_Usable_Stor { Value : min { _Gree_Max_Usable_Stor, (storage0120 - lower_rule0120) + (storage0140 - lower_rule0140) } } Set : _Gree_Usable_Stor_Pct { Value : 100 * _Gree_Usable_Stor / _Gree_Max_Usable_Stor } Set : _Gree_DSR { Value :_Gree_Usable_Stor / (demand0121 + demand0141) } Set : _Gree_Trigger_6_On { Value : 0 } Set : _Gree_Trigger_5_On { Condition : _Gree_Trigger_5_On(-1) = 1 { Condition : _Gree_Usable_Stor_Pct >= 100 Value : 0 Condition : default Value : _Gree_Trigger_5_On(-1) } Condition : _Gree_Stage_4_Counter(-1) >= 14 // Require a 14 day waiting period before going into phase 5 { Condition : weekday{year, month, day} <= 1 188 { Condition : _Gree_DSR <= 75 Value : 1 } Condition : default Value : _Gree_Trigger_5_On(-1) } Condition : default Value : _Gree_Trigger_5_On(-1) } Set : _Gree_Trigger_4_On { Condition : _Gree_Trigger_4_On(-1) = 1 { Condition : _Gree_Usable_Stor_Pct >= 100 Value : 0 Condition : default Value : _Gree_Trigger_4_On(-1) } Condition : _Gree_Stage_3_Counter(-1) >= 14 // Require a 14 day waiting period before going into phase 4 { Condition : weekday{year, month, day} <= 1 { Condition : _Gree_DSR <= 100 Value : 1 } Condition : default Value : _Gree_Trigger_4_On(-1) } Condition : default Value : _Gree_Trigger_4_On(-1) } Set : _Gree_Trigger_3_On { Condition : _Gree_Trigger_3_On(-1) = 1 { Condition : _Gree_Usable_Stor_Pct >= 100 Value : 0 Condition : default Value : _Gree_Trigger_3_On(-1) } Condition : _Gree_Stage_2_Counter(-1) >= 14 // Require a 14 day waiting period before going into phase 3 { Condition : weekday{year, month, day} <= 1 { Condition : _Gree_DSR <= 125 Value : 1 } Condition : default Value : _Gree_Trigger_3_On(-1) } Condition : default Value : _Gree_Trigger_3_On(-1) } Set : _Gree_Trigger_2_On { Condition : _Gree_Trigger_2_On(-1) = 1 { Condition : _Gree_Usable_Stor_Pct >= 100 Value : 0 Condition : default Value : _Gree_Trigger_2_On(-1) } Condition : _Gree_Stage_1_Counter(-1) >= 14 // Require a 14 day waiting period before going into phase 2 { Condition : weekday{year, month, day} <= 1 { Condition : _Gree_DSR <= 150 Value : 1 } Condition : default Value : _Gree_Trigger_2_On(-1) } 189 Condition : default Value : _Gree_Trigger_2_On(-1) } Set : _Gree_Trigger_1_On { Condition : _Gree_Trigger_1_On(-1) = 1 { Condition : _Gree_Usable_Stor_Pct >= 100 Value : 0 Condition : default Value : _Gree_Trigger_1_On(-1) } Condition : weekday{year, month, day} <= 1 { Condition : _Gree_DSR <= 200 // Note - Drought plan only references 'water levels ... do not conform to seasonal expectation' - subbed in 200 DSR so trigger would activate Value : 1 Condition : default Value : _Gree_Trigger_1_On(-1) } Condition : default Value : _Gree_Trigger_1_On(-1) } /* High Point */ Set : _High_Max_Usable_Stor { Value: (upper_rule0220- lower_rule0220) } Set : _High_Usable_Stor { Value : min { _High_Max_Usable_Stor, storage0220 - lower_rule0220 } } Set : _High_Usable_Stor_Pct { Value : 100 * _High_Usable_Stor / _High_Max_Usable_Stor } Set : _High_Trigger_6_On { Value : 0 } Set : _High_Trigger_5_On { Value : 0 } Set : _High_Trigger_4_On { Condition : _High_Trigger_4_On(-1) = 1 { Condition : _High_Usable_Stor_Pct >= 100 Value : 0 Condition : default Value : _High_Trigger_4_On(-1) } Condition : _High_Stage_3_Counter(-1) >= 14 // Require a 14 day waiting period before going into phase 4 { Condition : weekday{year, month, day} <= 1 { Condition : _High_Usable_Stor_Pct < 40 Value : 1 } Condition : default Value : _High_Trigger_4_On(-1) } Condition : default Value : _High_Trigger_4_On(-1) } Set : _High_Trigger_3_On { Condition : _High_Trigger_3_On(-1) = 1 { Condition : _High_Usable_Stor_Pct >= 100 Value : 0 Condition : default Value : _High_Trigger_3_On(-1) } Condition : _High_Stage_2_Counter(-1) >= 14 // Require a 14 day waiting period before going into phase 3 { Condition : weekday{year, month, day} <= 1 { Condition : _High_Usable_Stor_Pct < 50 Value : 1 } 190 Condition : default Value : _High_Trigger_3_On(-1) } Condition : default Value : _High_Trigger_3_On(-1) } Set : _High_Trigger_2_On { Condition : _High_Trigger_2_On(-1) = 1 { Condition : _High_Usable_Stor_Pct >= 100 Value : 0 Condition : default Value : _High_Trigger_2_On(-1) } Condition : _High_Stage_1_Counter(-1) >= 14 // Require a 14 day waiting period before going into phase 2 { Condition : weekday{year, month, day} <= 1 { Condition : _High_Usable_Stor_Pct < 60 Value : 1 } Condition : default Value : _High_Trigger_2_On(-1) } Condition : default Value : _High_Trigger_2_On(-1) } Set : _High_Trigger_1_On { Condition : _High_Trigger_1_On(-1) = 1 { Condition : _High_Usable_Stor_Pct >= 100 Value : 0 Condition : default Value : _High_Trigger_1_On(-1) } Condition : weekday{year, month, day} <= 1 { Condition : _High_Usable_Stor_Pct < 80 Value : 1 Condition : default Value : _High_Trigger_1_On(-1) } Condition : default Value : _High_Trigger_1_On(-1) } /* Reidsville */ Set : _Reid_Max_Usable_Stor { Value : upper_rule0030 - lower_rule0030 } Set : _Reid_Usable_Stor { Value : min { _Reid_Max_Usable_Stor, storage0030 - lower_rule0030 } } Set : _Reid_Usable_Stor_Pct { Value : 100 * _Reid_Usable_Stor / _Reid_Max_Usable_Stor } Set : _Reid_DSR { Value :_Reid_Usable_Stor / (demand0031) } Set : _Reid_Trigger_6_On { Value : 0 } Set : _Reid_Trigger_5_On { Condition : _Reid_Trigger_5_On(-1) = 1 { Condition : _Reid_Usable_Stor_Pct >= 100 Value : 0 Condition : default Value : _Reid_Trigger_5_On(-1) } Condition : _Reid_Stage_4_Counter(-1) >= 14 // Require a 14 day waiting period before going into phase 5 { Condition : weekday{year, month, day} <= 1 { Condition : _Reid_DSR <= 50 191 Value : 1 } Condition : default Value : _Reid_Trigger_5_On(-1) } Condition : default Value : _Reid_Trigger_5_On(-1) } Set : _Reid_Trigger_4_On { Condition : _Reid_Trigger_4_On(-1) = 1 { Condition : _Reid_Usable_Stor_Pct >= 100 Value : 0 Condition : default Value : _Reid_Trigger_4_On(-1) } Condition : _Reid_Stage_3_Counter(-1) >= 14 // Require a 14 day waiting period before going into phase 4 { Condition : weekday{year, month, day} <= 1 { Condition : _Reid_DSR <= 75 Value : 1 } Condition : default Value : _Reid_Trigger_4_On(-1) } Condition : default Value : _Reid_Trigger_4_On(-1) } Set : _Reid_Trigger_3_On { Condition : _Reid_Trigger_3_On(-1) = 1 { Condition : _Reid_Usable_Stor_Pct >= 100 Value : 0 Condition : default Value : _Reid_Trigger_3_On(-1) } Condition : _Reid_Stage_2_Counter(-1) >= 14 // Require a 14 day waiting period before going into phase 3 { Condition : weekday{year, month, day} <= 1 { Condition : _Reid_DSR <= 100 Value : 1 } Condition : default Value : _Reid_Trigger_3_On(-1) } Condition : default Value : _Reid_Trigger_3_On(-1) } Set : _Reid_Trigger_2_On { Condition : _Reid_Trigger_2_On(-1) = 1 { Condition : _Reid_Usable_Stor_Pct >= 100 Value : 0 Condition : default Value : _Reid_Trigger_2_On(-1) } Condition : _Reid_Stage_1_Counter(-1) >= 14 // Require a 14 day waiting period before going into phase 2 { Condition : weekday{year, month, day} <= 1 { Condition : _Reid_DSR <= 125 Value : 1 } Condition : default Value : _Reid_Trigger_2_On(-1) } Condition : default 192 Value : _Reid_Trigger_2_On(-1) } Set : _Reid_Trigger_1_On { Condition : _Reid_Trigger_1_On(-1) = 1 { Condition : _Reid_Usable_Stor_Pct >= 100 Value : 0 Condition : default Value : _Reid_Trigger_1_On(-1) } Condition : weekday{year, month, day} <= 1 { Condition : _Reid_DSR <= 150 Value : 1 Condition : default Value : _Reid_Trigger_1_On(-1) } Condition : default Value : _Reid_Trigger_1_On(-1) } /* Ramseur */ Set : _Rams_Max_Usable_Stor { Value : upper_rule0300- lower_rule0300 } Set : _Rams_Usable_Stor { Value : min { _Rams_Max_Usable_Stor, storage0300- lower_rule0300 } } Set : _Rams_Usable_Stor_Pct { Value : 100 * _Rams_Usable_Stor / _Rams_Max_Usable_Stor } Set : _Rams_Trigger_6_On {Value : 0 } Set : _Rams_Trigger_5_On { Condition : _Rams_Trigger_5_On(-1) = 1 { Condition : _Rams_Usable_Stor_Pct >= 100 Value : 0 Condition : default Value : _Rams_Trigger_5_On(-1) } Condition : _Rams_Stage_4_Counter(-1) >= 14 // Require a 14 day waiting period before going into phase 5 { Condition : weekday{year, month, day} <= 1 { Condition : _Rams_Usable_Stor_Pct <= 0 Value : 1 } Condition : default Value : _Rams_Trigger_5_On(-1) } Condition : default Value : _Rams_Trigger_5_On(-1) } Set : _Rams_Trigger_4_On { Condition : _Rams_Trigger_4_On(-1) = 1 { Condition : _Rams_Usable_Stor_Pct >= 100 Value : 0 Condition : default Value : _Rams_Trigger_4_On(-1) } Condition : _Rams_Stage_3_Counter(-1) >= 14 // Require a 14 day waiting period before going into phase 4 { Condition : weekday{year, month, day} <= 1 { Condition : _Rams_Usable_Stor_Pct < 67 Value : 1 } Condition : default Value : _Rams_Trigger_4_On(-1) } Condition : default 193 Value : _Rams_Trigger_4_On(-1) } Set : _Rams_Trigger_3_On { Condition : _Rams_Trigger_3_On(-1) = 1 { Condition : _Rams_Usable_Stor_Pct >= 100 Value : 0 Condition : default Value : _Rams_Trigger_3_On(-1) } Condition : _Rams_Stage_2_Counter(-1) >= 14 // Require a 14 day waiting period before going into phase 3 { Condition : weekday{year, month, day} <= 1 { Condition : _Rams_Usable_Stor_Pct < 75 Value : 1 } Condition : default Value : _Rams_Trigger_3_On(-1) } Condition : default Value : _Rams_Trigger_3_On(-1) } Set : _Rams_Trigger_2_On { Condition : _Rams_Trigger_2_On(-1) = 1 { Condition : _Rams_Usable_Stor_Pct >= 100 Value : 0 Condition : default Value : _Rams_Trigger_2_On(-1) } Condition : _Rams_Stage_1_Counter(-1) >= 14 // Require a 14 day waiting period before going into phase 2 { Condition : weekday{year, month, day} <= 1 { Condition : _Rams_Usable_Stor_Pct < 83 Value : 1 } Condition : default Value : _Rams_Trigger_2_On(-1) } Condition : default Value : _Rams_Trigger_2_On(-1) } Set : _Rams_Trigger_1_On { Condition : _Rams_Trigger_1_On(-1) = 1 { Condition : _Rams_Usable_Stor_Pct >= 100 Value : 0 Condition : default Value : _Rams_Trigger_1_On(-1) } Condition : weekday{year, month, day} <= 1 { Condition : _Rams_Usable_Stor_Pct < 91 Value : 1 Condition : default Value : _Rams_Trigger_1_On(-1) } Condition : default Value : _Rams_Trigger_1_On(-1) } /* Graham-Mebane */ Set : _GramMeb_Max_Usable_Stor { Value : upper_rule0320 - lower_rule0320 } Set : _GramMeb_Usable_Stor { Value : min { _GramMeb_Max_Usable_Stor, storage0320 - lower_rule0320 } } 194 Set : _GramMeb_Usable_Stor_Pct { Value : 100 * _GramMeb_Usable_Stor / _GramMeb_Max_Usable_Stor } Set : _GramMeb_DSR { Value :_GramMeb_Usable_Stor / (demand0321) } Set : _GramMeb_Trigger_6_On { Value : 0 } Set : _GramMeb_Trigger_5_On { Condition : _GramMeb_Trigger_5_On(-1) = 1 { Condition : _GramMeb_Usable_Stor_Pct >= 100 Value : 0 Condition : default Value : _GramMeb_Trigger_5_On(-1) } Condition : _GramMeb_Stage_4_Counter(-1) >= 14 // Require a 14 day waiting period before going into phase 5 { Condition : weekday{year, month, day} <= 1 { Condition : _GramMeb_DSR <= 30 Value : 1 } Condition : default Value : _GramMeb_Trigger_5_On(-1) } Condition : default Value : _GramMeb_Trigger_5_On(-1) } Set : _GramMeb_Trigger_4_On { Condition : _GramMeb_Trigger_4_On(-1) = 1 { Condition : _GramMeb_Usable_Stor_Pct >= 100 Value : 0 Condition : default Value : _GramMeb_Trigger_4_On(-1) } Condition : _GramMeb_Stage_3_Counter(-1) >= 14 // Require a 14 day waiting period before going into phase 4 { Condition : weekday{year, month, day} <= 1 { Condition : _GramMeb_DSR <= 60 Value : 1 } Condition : default Value : _GramMeb_Trigger_4_On(-1) } Condition : default Value : _GramMeb_Trigger_4_On(-1) } Set : _GramMeb_Trigger_3_On { Condition : _GramMeb_Trigger_3_On(-1) = 1 { Condition : _GramMeb_Usable_Stor_Pct >= 100 Value : 0 Condition : default Value : _GramMeb_Trigger_3_On(-1) } Condition : _GramMeb_Stage_2_Counter(-1) >= 14 // Require a 14 day waiting period before going into phase 3 { Condition : weekday{year, month, day} <= 1 { Condition : _GramMeb_DSR <= 90 Value : 1 } Condition : default Value : _GramMeb_Trigger_3_On(-1) } Condition : default Value : _GramMeb_Trigger_3_On(-1) } Set : _GramMeb_Trigger_2_On 195 { Condition : _GramMeb_Trigger_2_On(-1) = 1 { Condition : _GramMeb_Usable_Stor_Pct >= 100 Value : 0 Condition : default Value : _GramMeb_Trigger_2_On(-1) } Condition : _GramMeb_Stage_1_Counter(-1) >= 14 // Require a 14 day waiting period before going into phase 2 { Condition : weekday{year, month, day} <= 1 { Condition : _GramMeb_DSR <= 120 Value : 1 } Condition : default Value : _GramMeb_Trigger_2_On(-1) } Condition : default Value : _GramMeb_Trigger_2_On(-1) } Set : _GramMeb_Trigger_1_On { Condition : _GramMeb_Trigger_1_On(-1) = 1 { Condition : _GramMeb_Usable_Stor_Pct >= 100 Value : 0 Condition : default Value : _GramMeb_Trigger_1_On(-1) } Condition : weekday{year, month, day} <= 1 { Condition : _GramMeb_DSR <= 150 Value : 1 Condition : default Value : _GramMeb_Trigger_1_On(-1) } Condition : default Value : _GramMeb_Trigger_1_On(-1) } /* Siler City */ Set : _Siler_Trigger_6_On { Value : 0 } Set : _Siler_Trigger_5_On { Value : 0 } Set : _Siler_Trigger_4_On { Condition : _Siler_Trigger_4_On(-1) = 1 { Condition : _SilerCity_UsableStorPct >= 100 Value : 0 Condition : default Value : _Siler_Trigger_4_On(-1) } Condition : _Siler_Stage_3_Counter(-1) >= 14 // Require a 14 day waiting period before going into phase 4 { Condition : weekday{year, month, day} <= 1 { Condition : _SilerCity_UsableStorPct < 10 Value : 1 } Condition : default Value : _Siler_Trigger_4_On(-1) } Condition : default Value : _Siler_Trigger_4_On(-1) } Set : _Siler_Trigger_3_On { Condition : _Siler_Trigger_3_On(-1) = 1 { Condition : _SilerCity_UsableStorPct >= 100 196 Value : 0 Condition : default Value : _Siler_Trigger_3_On(-1) } Condition : _Siler_Stage_2_Counter(-1) >= 14 // Require a 14 day waiting period before going into phase 3 { Condition : weekday{year, month, day} <= 1 { Condition : _SilerCity_UsableStorPct < 20 Value : 1 } Condition : default Value : _Siler_Trigger_3_On(-1) } Condition : default Value : _Siler_Trigger_3_On(-1) } Set : _Siler_Trigger_2_On { Condition : _Siler_Trigger_2_On(-1) = 1 { Condition : _SilerCity_UsableStorPct >= 100 Value : 0 Condition : default Value : _Siler_Trigger_2_On(-1) } Condition : _Siler_Stage_1_Counter(-1) >= 14 // Require a 14 day waiting period before going into phase 2 { Condition : weekday{year, month, day} <= 1 { Condition : _SilerCity_UsableStorPct < 40 Value : 1 } Condition : default Value : _Siler_Trigger_2_On(-1) } Condition : default Value : _Siler_Trigger_2_On(-1) } Set : _Siler_Trigger_1_On { Condition : _Siler_Trigger_1_On(-1) = 1 { Condition : _SilerCity_UsableStorPct >= 100 Value : 0 Condition : default Value : _Siler_Trigger_1_On(-1) } Condition : weekday{year, month, day} <= 1 { Condition : _SilerCity_UsableStorPct < 70 Value : 1 Condition : default Value : _Siler_Trigger_1_On(-1) } Condition : default Value : _Siler_Trigger_1_On(-1) } /* Pittsboro - based on intake pool elevation, cannot model without more information */ /* Cary-Apex */ Set : _Cary_DSR { Condition : abs_period >= 1 Value : 16030 / demand0471 Condition : default Value : _Storage_CaryAp(-1) / demand0471 197 } Set : _Cary_Trigger_6_On { Value : 0 } Set : _Cary_Trigger_5_On { Value : 0 } Set : _Cary_Trigger_4_On { Condition : _Cary_Trigger_4_On(-1) = 1 { Condition : _Cary_DSR >= 60 // Need to put in for 14 days Value : 0 Condition : default Value : _Cary_Trigger_4_On(-1) } Condition : _Cary_Stage_3_Counter(-1) >= 14 // Require a 14 day waiting period before going into phase 4 { Condition : weekday{year, month, day} <= 1 { Condition : _Cary_DSR <= 30 Value : 1 } Condition : default Value : _Cary_Trigger_4_On(-1) } Condition : default Value : _Cary_Trigger_4_On(-1) } Set : _Cary_Trigger_3_On { Condition : _Cary_Trigger_3_On(-1) = 1 { Condition : _Cary_DSR >= 90 // Need to put in for 14 days Value : 0 Condition : default Value : _Cary_Trigger_3_On(-1) } Condition : _Cary_Stage_2_Counter(-1) >= 14 // Require a 14 day waiting period before going into phase 3 { Condition : weekday{year, month, day} <= 1 { Condition : _Cary_DSR <= 60 Value : 1 } Condition : default Value : _Cary_Trigger_3_On(-1) } Condition : default Value : _Cary_Trigger_3_On(-1) } Set : _Cary_Trigger_2_On { Condition : _Cary_Trigger_2_On(-1) = 1 { Condition : _Cary_DSR >= 120 // Need to put in for 14 days Value : 0 Condition : default Value : _Cary_Trigger_2_On(-1) } Condition : _Cary_Stage_1_Counter(-1) >= 28 // Require a 28 day waiting period before going into phase 2 { Condition : weekday{year, month, day} <= 1 { Condition : _Cary_DSR <= 90 Value : 1 } Condition : default Value : _Cary_Trigger_2_On(-1) } Condition : default Value : _Cary_Trigger_2_On(-1) } 198 Set : _Cary_Trigger_1_On { Condition : _Cary_Trigger_1_On(-1) = 1 { Condition : _Stor_Final_Pct_CaryAp(-1) >= 100 // need to put in for 14 days Value : 0 Condition : default Value : _Cary_Trigger_1_On(-1) } Condition : weekday{year, month, day} <= 1 { Condition : _Cary_DSR <= 120 Value : 1 Condition : default Value : _Cary_Trigger_1_On(-1) } Condition : default Value : _Cary_Trigger_1_On(-1) } /* Chatham North */ Set : _ChatNo_Usable_Stor_Pct { Condition : abs_period <= 1 Value : 100 Condition : default Value : _Stor_Final_Pct_Chatham(-1) } Set : _ChatNo_Trigger_6_On {Value : 0 } Set : _ChatNo_Trigger_5_On { Condition : _ChatNo_Trigger_5_On(-1) = 1 { Condition : _ChatNo_Usable_Stor_Pct >= 100 Value : 0 Condition : default Value : _ChatNo_Trigger_5_On(-1) } Condition : _ChatNo_Stage_4_Counter(-1) >= 14 // Require a 14 day waiting period before going into phase 5 { Condition : weekday{year, month, day} <= 1 { Condition : _ChatNo_Usable_Stor_Pct < 0 Value : 1 } Condition : default Value : _ChatNo_Trigger_5_On(-1) } Condition : default Value : _ChatNo_Trigger_5_On(-1) } Set : _ChatNo_Trigger_4_On { Condition : _ChatNo_Trigger_4_On(-1) = 1 { Condition : _ChatNo_Usable_Stor_Pct >= 100 Value : 0 Condition : default Value : _ChatNo_Trigger_4_On(-1) } Condition : _ChatNo_Stage_3_Counter(-1) >= 14 // Require a 14 day waiting period before going into phase 4 { Condition : weekday{year, month, day} <= 1 { Condition : _ChatNo_Usable_Stor_Pct < 30 Value : 1 } Condition : default Value : _ChatNo_Trigger_4_On(-1) } Condition : default 199 Value : _ChatNo_Trigger_4_On(-1) } Set : _ChatNo_Trigger_3_On { Condition : _ChatNo_Trigger_3_On(-1) = 1 { Condition : _ChatNo_Usable_Stor_Pct >= 100 Value : 0 Condition : default Value : _ChatNo_Trigger_3_On(-1) } Condition : _ChatNo_Stage_2_Counter(-1) >= 14 // Require a 14 day waiting period before going into phase 3 { Condition : weekday{year, month, day} <= 1 { Condition : _ChatNo_Usable_Stor_Pct < 50 Value : 1 } Condition : default Value : _ChatNo_Trigger_3_On(-1) } Condition : default Value : _ChatNo_Trigger_3_On(-1) } Set : _ChatNo_Trigger_2_On { Condition : _ChatNo_Trigger_2_On(-1) = 1 { Condition : _ChatNo_Usable_Stor_Pct >= 100 Value : 0 Condition : default Value : _ChatNo_Trigger_2_On(-1) } Condition : _ChatNo_Stage_1_Counter(-1) >= 14 // Require a 14 day waiting period before going into phase 2 { Condition : weekday{year, month, day} <= 1 { Condition : _ChatNo_Usable_Stor_Pct < 65 Value : 1 } Condition : default Value : _ChatNo_Trigger_2_On(-1) } Condition : default Value : _ChatNo_Trigger_2_On(-1) } Set : _ChatNo_Trigger_1_On { Condition : _ChatNo_Trigger_1_On(-1) = 1 { Condition : _ChatNo_Usable_Stor_Pct >= 100 Value : 0 Condition : default Value : _ChatNo_Trigger_1_On(-1) } Condition : weekday{year, month, day} <= 1 { Condition : _ChatNo_Usable_Stor_Pct < 75 Value : 1 Condition : default Value : _ChatNo_Trigger_1_On(-1) } Condition : default Value : _ChatNo_Trigger_1_On(-1) } /* Sanford - demand/production based */ /* Harnett Co. - mostly demand based */ 200 /* Dunn */ Set : _Dunn_Trigger_6_On { Condition : _Dunn_Trigger_5_On(-1) = 1 { Condition : flow0555.0650 > convert_units { 100, cfs, af } Value : 0 Condition : default Value : _Dunn_Trigger_6_On(-1) } Condition : _Dunn_Stage_5_Counter(-1) >= 14 // Require a 14 day waiting period before going into phase 4 { Condition : weekday{year, month, day} <= 1 { Condition : flow0555.0650 < convert_units { 100, cfs, af } and flow0555.0650(-1) < convert_units { 100, cfs, af } and flow0555.0650(-2) < convert_units { 100, cfs, af } and flow0555.0650(-3) < convert_units { 100, cfs, af } and flow0555.0650(-4) < convert_units { 100, cfs, af } Value : 1 } Condition : default Value : _Dunn_Trigger_6_On(-1) } Condition : default Value : _Dunn_Trigger_6_On(-1) } Set : _Dunn_Trigger_5_On { Condition : _Dunn_Trigger_5_On(-1) = 1 { Condition : flow0555.0650 > convert_units { 125, cfs, af } Value : 0 Condition : default Value : _Dunn_Trigger_5_On(-1) } Condition : _Dunn_Stage_4_Counter(-1) >= 14 // Require a 14 day waiting period before going into phase 4 { Condition : weekday{year, month, day} <= 1 { Condition : flow0555.0650 < convert_units { 125, cfs, af } and flow0555.0650(-1) < convert_units { 125, cfs, af } and flow0555.0650(-2) < convert_units { 125, cfs, af } and flow0555.0650(-3) < convert_units { 125, cfs, af } and flow0555.0650(-4) < convert_units { 125, cfs, af } Value : 1 } Condition : default Value : _Dunn_Trigger_5_On(-1) } Condition : default Value : _Dunn_Trigger_5_On(-1) } Set : _Dunn_Trigger_4_On { Condition : _Dunn_Trigger_4_On(-1) = 1 { Condition : flow0555.0650 > convert_units { 150, cfs, af } Value : 0 Condition : default Value : _Dunn_Trigger_4_On(-1) } Condition : _Dunn_Stage_3_Counter(-1) >= 14 // Require a 14 day waiting period before going into phase 4 { Condition : weekday{year, month, day} <= 1 { Condition : flow0555.0650 < convert_units { 150, cfs, af } and flow0555.0650(-1) < convert_units { 150, cfs, af } and flow0555.0650(-2) < convert_units { 150, cfs, af } and flow0555.0650(-3) < convert_units { 150, cfs, af } and flow0555.0650(-4) < convert_units { 150, cfs, af } 201 Value : 1 } Condition : default Value : _Dunn_Trigger_4_On(-1) } Condition : default Value : _Dunn_Trigger_4_On(-1) } Set : _Dunn_Trigger_3_On { Condition : _Dunn_Trigger_3_On(-1) = 1 { Condition : flow0555.0650 > convert_units { 175, cfs, af } Value : 0 Condition : default Value : _Dunn_Trigger_3_On(-1) } Condition : _Dunn_Stage_2_Counter(-1) >= 14 // Require a 14 day waiting period before going into phase 3 { Condition : weekday{year, month, day} <= 1 { Condition : flow0555.0650 < convert_units { 175, cfs, af } and flow0555.0650(-1) < convert_units { 175, cfs, af } and flow0555.0650(-2) < convert_units { 175, cfs, af } and flow0555.0650(-3) < convert_units { 175, cfs, af } and flow0555.0650(-4) < convert_units { 175, cfs, af } Value : 1 } Condition : default Value : _Dunn_Trigger_3_On(-1) } Condition : default Value : _Dunn_Trigger_3_On(-1) } Set : _Dunn_Trigger_2_On { Condition : _Dunn_Trigger_2_On(-1) = 1 { Condition : flow0555.0650 > convert_units { 200, cfs, af } Value : 0 Condition : default Value : _Dunn_Trigger_2_On(-1) } Condition : _Dunn_Stage_1_Counter(-1) >= 14 // Require a 14 day waiting period before going into phase 2 { Condition : weekday{year, month, day} <= 1 { Condition : flow0555.0650 < convert_units { 200, cfs, af } and flow0555.0650(-1) < convert_units { 200, cfs, af } and flow0555.0650(-2) < convert_units { 200, cfs, af } and flow0555.0650(-3) < convert_units { 200, cfs, af } and flow0555.0650(-4) < convert_units { 200, cfs, af } Value : 1 } Condition : default Value : _Dunn_Trigger_2_On(-1) } Condition : default Value : _Dunn_Trigger_2_On(-1) } Set : _Dunn_Trigger_1_On { Condition : _Dunn_Trigger_1_On(-1) = 1 { Condition : flow0555.0650 > convert_units { 225, cfs, af } Value : 0 Condition : default Value : _Dunn_Trigger_1_On(-1) } 202 // Assume no waiting period since Dunn_Trigger 1 only drought alert Condition : weekday{year, month, day} <= 1 { Condition : flow0555.0650 < convert_units { 225, cfs, af } and flow0555.0650(-1) < convert_units { 225, cfs, af } and flow0555.0650(-2) < convert_units { 225, cfs, af } and flow0555.0650(-3) < convert_units { 225, cfs, af } and flow0555.0650(-4) < convert_units { 225, cfs, af } Value : 1 Condition : default Value : _Dunn_Trigger_1_On(-1) } Condition : default Value : _Dunn_Trigger_1_On(-1) } /* Carthage - Trigger based on Nicks Creek - using arc 700.710 Little River_Linden gage in model since that is where their WD is from */ Set : _Carth_Trigger_6_On {Value : 0} Set : _Carth_Trigger_5_On {Value : 0} Set : _Carth_Trigger_4_On { Condition : _Carth_Trigger_4_On(-1) = 1 { Condition : flow0700.0710 > convert_units { 0.50, cfs, af } Value : 0 Condition : default Value : _Carth_Trigger_4_On(-1) } Condition : _Carth_Stage_3_Counter(-1) >= 14 // Require a 14 day waiting period before going into phase 4 { Condition : weekday{year, month, day} <= 1 { Condition : flow0700.0710 < convert_units { 0.50, cfs, af } Value : 1 } Condition : default Value : _Carth_Trigger_4_On(-1) } Condition : default Value : _Carth_Trigger_4_On(-1) } Set : _Carth_Trigger_3_On { Condition : _Carth_Trigger_3_On(-1) = 1 { Condition : flow0700.0710 > convert_units { 1.50, cfs, af } Value : 0 Condition : default Value : _Carth_Trigger_3_On(-1) } Condition : _Carth_Stage_2_Counter(-1) >= 14 // Require a 14 day waiting period before going into phase 3 { Condition : weekday{year, month, day} <= 1 { Condition : flow0700.0710 < convert_units { 1.50, cfs, af } and flow0700.0710(-1) < convert_units { 1.50, cfs, af } and flow0700.0710(-2) < convert_units { 1.50, cfs, af } Value : 1 } Condition : default Value : _Carth_Trigger_3_On(-1) } Condition : default Value : _Carth_Trigger_3_On(-1) } Set : _Carth_Trigger_2_On { Condition : _Carth_Trigger_2_On(-1) = 1 { Condition : flow0700.0710 > convert_units { 2.40, cfs, af } Value : 0 Condition : default 203 Value : _Carth_Trigger_2_On(-1) } Condition : _Carth_Stage_1_Counter(-1) >= 14 // Require a 14 day waiting period before going into phase 2 { Condition : weekday{year, month, day} <= 1 { Condition : flow0700.0710 < convert_units { 2.40, cfs, af } and flow0700.0710(-1) < convert_units { 2.40, cfs, af } and flow0700.0710(-2) < convert_units { 2.40, cfs, af } Value : 1 } Condition : default Value : _Carth_Trigger_2_On(-1) } Condition : default Value : _Carth_Trigger_2_On(-1) } Set : _Carth_Trigger_1_On { Condition : _Carth_Trigger_1_On(-1) = 1 { Condition : flow0700.0710 > convert_units { 3, cfs, af } Value : 0 Condition : default Value : _Carth_Trigger_1_On(-1) } // Assume no waiting period since Carth_Trigger 1 only drought alert Condition : weekday{year, month, day} <= 1 { Condition : flow0700.0710 < convert_units { 3, cfs, af } and flow0700.0710(-1) < convert_units { 3, cfs, af } and flow0700.0710(-2) < convert_units { 3, cfs, af } and flow0700.0710(-3) < convert_units { 3, cfs, af } and flow0700.0710(-4) < convert_units { 3, cfs, af } and flow0700.0710(-5) < convert_units { 3, cfs, af } and flow0700.0710(-6) < convert_units { 3, cfs, af } Value : 1 Condition : default Value : _Carth_Trigger_1_On(-1) } Condition : default Value : _Carth_Trigger_1_On(-1) } /* Fayettville - mostly demand based (w/ one lilington trigger), so leaving out for now */ /* This section sets/resets the counters used to maintain the proper spacing of conservation stages */ :For: { [Util] = { Burl, Gree, High, Reid, Rams, GramMeb, Siler, Cary, ChatNo, Dunn, Carth } } :For: { [trig] = {1, 2, 3, 4, 5, 6} } Set : _[Util]_Stage_[trig]_Counter { Condition : _[Util]_Stage_[trig]_Counter(-1) > 0 and _[Util]_Trigger_[trig]_On = 0 Value : 0 Condition : _[Util]_Trigger_[trig]_On = 1 Value : _[Util]_Stage_[trig]_Counter(-1) + 1 Condition : default Value : _[Util]_Stage_[trig]_Counter(-1) } /* Count all trigger events lasting at least 7 days */ Set : _[Util]_Ph_[trig]_event_counter 204 { Condition : _[Util]_Stage_[trig]_Counter = 7 and _[Util]_Stage_[trig]_Counter(-1) = 6 Value : _[Util]_Ph_[trig]_event_counter(-1) + 1 Condition : default Value : _[Util]_Ph_[trig]_event_counter(-1) } :Next: :Next: // Set conservation demand and delivery constraints for each trigger level in effect. // Set demand reduction factors :SUBSTITUTE: [Dem_1_Red_Factor] = 5 :SUBSTITUTE: [Dem_2_Red_Factor] = 10 :SUBSTITUTE: [Dem_3_Red_Factor] = 20 :SUBSTITUTE: [Dem_4_Red_Factor] = 25 :SUBSTITUTE: [Dem_5_Red_Factor] = 35 :SUBSTITUTE: [Dem_6_Red_Factor] = 50 :For: { [trig] = {1, 2, 3, 4, 5, 6} } // Burlington - Ed Thomas Set : _Burl1_Consvn_[trig]_Demand { Condition : _Burl_Trigger_[trig]_On = 1 Value : Demand0071 * ( 1 - [Dem_[trig]_Red_Factor] / 100 ) Condition : default Value : Demand0071 } Constraint Burl1_Demand_Limit_Consvn_[trig] : { Condition : _Burl_Trigger_[trig]_On = 1 Expression : dflow0070.0071 <= _Burl1_Consvn_[trig]_Demand } // Burlington - Mackintosh Set : _Burl2_Consvn_[trig]_Demand { Condition : _Burl_Trigger_[trig]_On = 1 Value : Demand0341 * ( 1 - [Dem_[trig]_Red_Factor] / 100 ) Condition : default Value : Demand0341 } Constraint Burl2_Demand_Limit_Consvn_[trig] : { Condition : _Burl_Trigger_[trig]_On = 1 Expression : dflow0340.0341 <= _Burl2_Consvn_[trig]_Demand } // Greensboro - Mitchell Set : _Gree1_Consvn_[trig]_Demand { Condition : _Gree_Trigger_[trig]_On = 1 Value : Demand0121 * ( 1 - [Dem_[trig]_Red_Factor] / 100 ) Condition : default Value : Demand0121 } Constraint Gree1_Demand_Limit_Consvn_[trig] : { Condition : _Gree_Trigger_[trig]_On = 1 Expression : dflow0120.0121 <= _Gree1_Consvn_[trig]_Demand } // Greensboro - Townsend Set : _Gree2_Consvn_[trig]_Demand { Condition : _Gree_Trigger_[trig]_On = 1 205 Value : Demand0141 * ( 1 - [Dem_[trig]_Red_Factor] / 100 ) Condition : default Value : Demand0141 } Constraint Gree3_Demand_Limit_Consvn_[trig] : { Condition : _Gree_Trigger_[trig]_On = 1 Expression : dflow0140.0141 <= _Gree2_Consvn_[trig]_Demand } // High Point Set : _High_Consvn_[trig]_Demand { Condition : _High_Trigger_[trig]_On = 1 Value : Demand0221 * ( 1 - [Dem_[trig]_Red_Factor] / 100 ) Condition : default Value : Demand0221 } Constraint High_Demand_Limit_Consvn_[trig] : { Condition : _High_Trigger_[trig]_On = 1 Expression : dflow0220.0221 <= _High_Consvn_[trig]_Demand } // Reidsville Set : _Reid_Consvn_[trig]_Demand { Condition : _Reid_Trigger_[trig]_On = 1 Value : Demand0031 * ( 1 - [Dem_[trig]_Red_Factor] / 100 ) Condition : default Value : Demand0031 } Constraint Reid_Demand_Limit_Consvn_[trig] : { Condition : _Reid_Trigger_[trig]_On = 1 Expression : dflow0030.0031 <= _Reid_Consvn_[trig]_Demand } // Ramseur Set : _Rams_Consvn_[trig]_Demand { Condition : _Rams_Trigger_[trig]_On = 1 Value : Demand0301 * ( 1 - [Dem_[trig]_Red_Factor] / 100 ) Condition : default Value : Demand0301 } Constraint Rams_Demand_Limit_Consvn_[trig] : { Condition : _Rams_Trigger_[trig]_On = 1 Expression : dflow0300.0301 <= _Rams_Consvn_[trig]_Demand } // Graham-Mebane Set : _GramMeb_Consvn_[trig]_Demand { Condition : _GramMeb_Trigger_[trig]_On = 1 Value : Demand0321 * ( 1 - [Dem_[trig]_Red_Factor] / 100 ) Condition : default Value : Demand0321 } Constraint GramMeb_Demand_Limit_Consvn_[trig] : { Condition : _GramMeb_Trigger_[trig]_On = 1 Expression : dflow0320.0321 <= _GramMeb_Consvn_[trig]_Demand } // Siler City Set : _Siler_Consvn_[trig]_Demand { Condition : _Siler_Trigger_[trig]_On = 1 Value : Demand0327 * ( 1 - [Dem_[trig]_Red_Factor] / 100 ) Condition : default Value : Demand0327 } 206 Constraint Siler_Demand_Limit_Consvn_[trig] : { Condition : _Siler_Trigger_[trig]_On = 1 Expression : dflow0325.0327 <= _Siler_Consvn_[trig]_Demand } // Chatham-North Set : _ChatNo_Consvn_[trig]_Demand { Condition : _ChatNo_Trigger_[trig]_On = 1 Value : Demand0473 * ( 1 - [Dem_[trig]_Red_Factor] / 100 ) Condition : default Value : Demand0473 } Constraint ChatNo_Demand_Limit_Consvn_[trig] : { Condition : _ChatNo_Trigger_[trig]_On = 1 Expression : dflow0470.0473 <= _ChatNo_Consvn_[trig]_Demand } // Dunn Set : _Dunn_Consvn_[trig]_Demand { Condition : _Dunn_Trigger_[trig]_On = 1 Value : Demand0663 * ( 1 - [Dem_[trig]_Red_Factor] / 100 ) Condition : default Value : Demand0663 } Constraint Dunn_Demand_Limit_Consvn_[trig] : { Condition : _Dunn_Trigger_[trig]_On = 1 Expression : dflow0660.0663 <= _Dunn_Consvn_[trig]_Demand } // Carthage Set : _Carth_Consvn_[trig]_Demand { Condition : _Carth_Trigger_[trig]_On = 1 Value : Demand0701 * ( 1 - [Dem_[trig]_Red_Factor] / 100 ) Condition : default Value : Demand0701 } Constraint Carth_Demand_Limit_Consvn_[trig] : { Condition : _Carth_Trigger_[trig]_On = 1 Expression : dflow0700.0701 <= _Carth_Consvn_[trig]_Demand } :Next: // Set Cary's Consv Demand - differs seasonally Set : _Cary_Consvn_1_Demand { Condition : month > 4 and month < 11 and _Cary_Trigger_1_On = 1 Value : Demand0471 * ( 1 - 13 / 100 ) Condition : _Cary_Trigger_1_On = 1 Value : Demand0471 * ( 1 - 6 / 100 ) Condition : default Value : Demand0471 } Set : _Cary_Consvn_2_Demand { Condition : month > 4 and month < 11 and _Cary_Trigger_2_On = 1 Value : Demand0471 * ( 1 - 32 / 100 ) Condition : _Cary_Trigger_2_On = 1 Value : Demand0471 * ( 1 - 10 / 100 ) Condition : default 207 Value : Demand0471 } Set : _Cary_Consvn_3_Demand { Condition : month > 4 and month < 11 and _Cary_Trigger_3_On = 1 Value : Demand0471 * ( 1 - 38 / 100 ) Condition : _Cary_Trigger_3_On = 1 Value : Demand0471 * ( 1 - 17 / 100 ) Condition : default Value : Demand0471 } Set : _Cary_Consvn_4_Demand { Condition : month > 4 and month < 11 and _Cary_Trigger_4_On = 1 Value : Demand0471 * ( 1 - 46 / 100 ) Condition : _Cary_Trigger_4_On = 1 Value : Demand0471 * ( 1 - 29 / 100 ) Condition : default Value : Demand0471 } :For: { [trig] = {1, 2, 3, 4} } Constraint Cary_Demand_Limit_Consvn_[trig] : { Condition : _Cary_Trigger_[trig]_On = 1 Expression : dflow0479.0471 <= _Cary_Consvn_[trig]_Demand } :Next: :else: // Do nothing if not using drought plans :endif: 208 OWASA_wsrp.ocl Set : _OWASA_Max_Usable_Stor { Value: (upper_rule0390 - lower_rule0390) + (upper_rule0395 - lower_rule0395) + (upper_rule0430 - lower_rule0430) } Set : _OWASA_Usable_Stor { Value : min { _OWASA_Max_Usable_Stor, (storage0390 - lower_rule0390) + (storage0395 - lower_rule0395) + (storage0430 - lower_rule0430) } } Set : _OWASA_Usable_Stor_Pct { Value : 100 * _OWASA_Usable_Stor / _OWASA_Max_Usable_Stor } // Trigger 1 horizon. Set : _OWASA_ProjInflow1 { condition : weekday{year, month, day} <= 1 value : 7 * ( timesers(0380/R02W52) + (1.2 / 28.7) * timesers(0430/R02W52) + timesers(0430/R02W52) ) condition : default value : _OWASA_ProjInflow1(-1) } Set : _OWASA_ProjDemand1 { condition : weekday{year, month, day} <= 1 value : accumulate { demand0431 , 0 , +365 } condition : default value : _OWASA_ProjDemand1(-1) } Set : _OWASA_ProjMinFlow1 { condition : weekday{year, month, day} <= 1 value : accumulate { min_flow0390.0370 , 0 , +365} condition : default value : _OWASA_ProjMinFlow1(-1) } Set : _OWASA_ProjEvap1 { condition : weekday{year, month, day} <= 1 value : (stor_to_area { 0390 , storage0390 } * 7 * timesers(0390/EVAP_R02W52) / 12) + (stor_to_area { 0395 , storage0395 } * 7 * timesers(0395/EVAP_R02W52) / 12) + (stor_to_area { 0430 , storage0390 } * 7 * timesers(0430/EVAP_R02W52) / 12) condition : default value : _OWASA_ProjEvap1(-1) } // Trigger 2 horizon. Set : _OWASA_ProjInflow2 { condition : weekday{year, month, day} <= 1 value : 7 * ( timesers(0380/R10W52) + (1.2 / 28.7) * timesers(0430/R10W52) + timesers(0430/R10W52) ) condition : default value : _OWASA_ProjInflow1(-1) } Set : _OWASA_ProjDemand2 { condition : weekday{year, month, day} <= 1 value : accumulate { demand0431 , 0 , +365 } condition : default value : _OWASA_ProjDemand1(-1) } Set : _OWASA_ProjMinFlow2 { condition : weekday{year, month, day} <= 1 value : accumulate { min_flow0390.0370 , 0 , +365} 209 condition : default value : _OWASA_ProjMinFlow1(-1) } Set : _OWASA_ProjEvap2 { condition : weekday{year, month, day} <= 1 value : (stor_to_area { 0390 , storage0390 } * 7 * timesers(0390/EVAP_R10W52) / 12) + (stor_to_area { 0395 , storage0395 } * 7 * timesers(0395/EVAP_R10W52) / 12) + (stor_to_area { 0430 , storage0390 } * 7 * timesers(0430/EVAP_R10W52) / 12) condition : default value : _OWASA_ProjEvap1(-1) } // Trigger 3 horizon. Set : _OWASA_ProjInflow3 { condition : weekday{year, month, day} <= 1 value : 7 * ( timesers(0380/R20W52) + (1.2 / 28.7) * timesers(0430/R20W52) + timesers(0430/R20W52) ) condition : default value : _OWASA_ProjInflow1(-1) } Set : _OWASA_ProjDemand3 { condition : weekday{year, month, day} <= 1 value : accumulate { demand0431 , 0 , +365 } condition : default value : _OWASA_ProjDemand1(-1) } Set : _OWASA_ProjMinFlow3 { condition : weekday{year, month, day} <= 1 value : accumulate { min_flow0390.0370 , 0 , +365} condition : default value : _OWASA_ProjMinFlow1(-1) } Set : _OWASA_ProjEvap3 { condition : weekday{year, month, day} <= 1 value : (stor_to_area { 0390 , storage0390 } * 7 * timesers(0390/EVAP_R20W52) / 12) + (stor_to_area { 0395 , storage0395 } * 7 * timesers(0395/EVAP_R20W52) / 12) + (stor_to_area { 0430 , storage0390 } * 7 * timesers(0430/EVAP_R20W52) / 12) condition : default value : _OWASA_ProjEvap1(-1) } // Compute projected storage for the entire system for each trigger. Projected storage will not exceed the max usable storage :For: { [trig] = {1, 2, 3} } Set : _OWASA_ProjStorage[trig] { Condition : weekday{year, month, day} <= 1 Value : min{_OWASA_Usable_Stor + _OWASA_ProjInflow[trig] - _OWASA_ProjDemand[trig] - _OWASA_ProjEvap[trig] - _OWASA_ProjMinFlow[trig] , _OWASA_Max_Usable_Stor} Condition : default Value : _OWASA_ProjStorage[trig](-1) } Set : _OWASA_ProjStorage_Pct[trig] 210 { Condition : weekday{year, month, day} <= 1 Value : 100 * _OWASA_ProjStorage[trig] / _OWASA_Max_Usable_Stor Condition : default Value : _OWASA_ProjStorage_Pct[trig](-1) } :Next: /* This section evaluates whether any of the three triggers were on during the last time step. If so, it checks to see whether the reservoir has re-filled to the release elevation (defined in constants table), in which case the triggers are released. If the trigger was not on in the last timestep, it compares the projected stage with the threshold to determine whether it should be turned on. Note the projected stage is calculated only at beginning of week, so determination of triggers is kept to the beginning of the week. That provides some delay in enactment of triggers and duplicates to some extent the waiting period requirement below. */ // Enact only if trigger elevation is met and put in some waiting period as shown below. // Triggers 2 and 3 can only turn on in sequence after trigger 1 has turned on. // These triggers turn off if the pond has refilled to the user-defined release elevation of 124 feet. Set : _OWASA_Trigger_3_On { Condition : _OWASA_Trigger_3_On(-1) = 1 { Condition : _OWASA_Usable_Stor >= _OWASA_Max_Usable_Stor Value : 0 Condition : default Value : _OWASA_Trigger_3_On(-1) } Condition : _OWASA_Stage_2_Counter(-1) >= 7 // Require a 7 day waiting period before going into phase 3 { Condition : weekday{year, month, day} <= 1 { Condition : _OWASA_ProjStorage_Pct3 <= 20 Value : 1 } Condition : default Value : _OWASA_Trigger_3_On(-1) } Condition : default Value : _OWASA_Trigger_3_On(-1) } Set : _OWASA_Trigger_2_On { Condition : _OWASA_Trigger_2_On(-1) = 1 { Condition : _OWASA_Usable_Stor >= _OWASA_Max_Usable_Stor Value : 0 Condition : default Value : _OWASA_Trigger_2_On(-1) } Condition : _OWASA_Stage_1_Counter(-1) >= 7 // Require a 7 day waiting period before going into phase 2 { Condition : weekday{year, month, day} <= 1 { Condition : _OWASA_ProjStorage_Pct2 <= 20 Value : 1 } Condition : default Value : _OWASA_Trigger_2_On(-1) } Condition : default Value : _OWASA_Trigger_2_On(-1) } Set : _OWASA_Trigger_1_On 211 { Condition : _OWASA_Trigger_1_On(-1) = 1 { Condition : _OWASA_Usable_Stor >= _OWASA_Max_Usable_Stor Value : 0 Condition : default Value : _OWASA_Trigger_1_On(-1) } Condition : weekday{year, month, day} <= 1 { Condition : _OWASA_ProjStorage_Pct1 <= 20 Value : 1 Condition : default Value : _OWASA_Trigger_1_On(-1) } Condition : default Value : _OWASA_Trigger_1_On(-1) } :For: { [trig] = {1, 2, 3} } Set : _OWASA_Stage_[trig]_Counter { Condition : _OWASA_Stage_[trig]_Counter(-1) > 0 and _OWASA_Trigger_[trig]_On = 0 Value : 0 Condition : _OWASA_Trigger_[trig]_On = 1 Value : _OWASA_Stage_[trig]_Counter(-1) + 1 Condition : default Value : _OWASA_Stage_[trig]_Counter(-1) } /* Count all trigger events lasting at least 7 days */ Set : _OWASA_Ph_[trig]_event_counter { Condition : _OWASA_Stage_[trig]_Counter = 7 and _OWASA_Stage_[trig]_Counter(-1) = 6 Value : _OWASA_Ph_[trig]_event_counter(-1) + 1 Condition : default Value : _OWASA_Ph_[trig]_event_counter(-1) } :Next: /* This section determines the demand depending upon which level of conservation is in place. */ Set : _OWASA_Consvn_1_Demand { Condition : _OWASA_Trigger_1_On = 1 Value : Demand0431 * ( 1 - ( 10/ 100 )) Condition : default Value : Demand0431 } Set : _OWASA_Consvn_2_Demand { Condition : _OWASA_Trigger_2_On = 1 Value : Demand0431 * ( 1 - ( 15 / 100 )) Condition : default Value : Demand0431 } Set : _OWASA_Consvn_3_Demand { Condition : _OWASA_Trigger_3_On = 1 212 Value : Demand0431 * ( 1 - ( 20 / 100 )) Condition : default Value : Demand0431 } :For: { [trig] = {1, 2, 3} } Constraint OWASA_Demand_Limit_Consvn_[trig] : { Condition : _OWASA_Trigger_[trig]_On = 1 Expression : ddelivery0431<= _OWASA_Consvn_[trig]_Demand } :Next: 213 drought_plans_neuse.ocl :If: {[Drought_Plans_On] = 1} // First check if drought plan variable is on //Note - Hillsborough and Orange-Alamance drought restrictions are handled in upper_eno_ops.ocl // Durham /* Variable to indicate if additional sources are available (1 = yes 0 = no) */ Set : _Durham_add_sources { Value : 0 } /* Compute Durham's usable storage */ Set : _Durham_usable_stor { Value : (storage1140 - lower_rule1140) + (storage1200 - lower_rule1200) } Set : _Max_Durham_usable_stor { Value : (upper_rule1140 - lower_rule1140) + (upper_rule1200 - lower_rule1200) } Set : _Durham_usable_pct { Value : 100 * (_Durham_usable_stor / _Max_Durham_usable_stor) } /* Turn triggers on for non-forecast runs */ /* Stage 1 */ Set : _Durham_Trigger_1_On { Condition : abs_period = 1 Value : 0 Condition : _Durham_Trigger_1_On(-1) = 1 { /* Lift Stage 1 restrictions if greater than recission triggers for at least 7 days */ Condition : _Durham_usable_pct(-7) >= 95 and _Durham_usable_pct(-6) >= 95 and _Durham_usable_pct(-5) >= 95 and _Durham_usable_pct(-4) >= 95 and _Durham_usable_pct(-3) >= 95 and _Durham_usable_pct(-2) >= 95 and _Durham_usable_pct(-1) >= 95 Value : 0 Condition : default Value : _Durham_Trigger_1_On(-1) } Condition : month > 4 and month < 11 { Condition : _Durham_add_sources = 0 and _Durham_usable_pct(-1) <= 80 Value : 1 Condition : _Durham_add_sources = 1 and _Durham_usable_pct(-1) <= 75 Value : 1 } Condition : _Durham_add_sources = 0 and _Durham_usable_pct(-1) <= 45 Value : 1 Condition : _Durham_add_sources = 1 and _Durham_usable_pct(-1) <= 40 Value : 1 Condition : default Value : _Durham_Trigger_1_On(-1) } /* Stage 2 */ Set : _Durham_Trigger_2_On { Condition : _Durham_Trigger_2_On(-1) = 1 { /* Lift Stage 2 restrictions if greater than recission triggers for at least 7 days */ Condition : month > 4 and month < 11 and _Durham_usable_pct(-7) >= 80 and _Durham_usable_pct(-6) >= 80 and _Durham_usable_pct(-5) >= 80 and _Durham_usable_pct(-4) >= 80 and _Durham_usable_pct(-3) >= 80 214 and _Durham_usable_pct(-2) >= 80 and _Durham_usable_pct(-1) >= 80 Value : 0 Condition : month < 5 or month > 11 and _Durham_usable_pct(-7) >= 45 and _Durham_usable_pct(-6) >= 45 and _Durham_usable_pct(-5) >= 45 and _Durham_usable_pct(-4) >= 45 and _Durham_usable_pct(-3) >= 45 and _Durham_usable_pct(-2) >= 45 and _Durham_usable_pct(-1) >= 45 Value : 0 Condition : default Value : _Durham_Trigger_2_On(-1) } /* 28 day waiting period between stages - subject to change */ Condition : _Durham_Stage_1_Counter(-1) >= 28 { Condition : month > 4 and month < 11 { Condition : _Durham_add_sources = 0 and _Durham_usable_pct(-1) <= 60 Value : 1 Condition : _Durham_add_sources = 1 and _Durham_usable_pct(-1) <= 55 Value : 1 } Condition : _Durham_add_sources = 0 and _Durham_usable_pct(-1) <= 40 Value : 1 Condition : _Durham_add_sources = 1 and _Durham_usable_pct(-1) <= 35 Value : 1 } Condition : default Value : _Durham_Trigger_2_On(-1) } /* Stage 3 */ Set : _Durham_Trigger_3_On { Condition : _Durham_Trigger_3_On(-1) = 1 { /* Lift Stage 3 restrictions if greater than recission triggers for at least 7 days */ Condition : month > 4 and month < 11 and _Durham_usable_pct(-7) >= 60 and _Durham_usable_pct(-6) >= 60 and _Durham_usable_pct(-5) >= 60 and _Durham_usable_pct(-4) >= 60 and _Durham_usable_pct(-3) >= 60 and _Durham_usable_pct(-2) >= 60 and _Durham_usable_pct(-1) >= 60 Value : 0 Condition : month < 5 or month > 11 and _Durham_usable_pct(-7) >= 40 and _Durham_usable_pct(-6) >= 40 and _Durham_usable_pct(-5) >= 40 and _Durham_usable_pct(-4) >= 40 and _Durham_usable_pct(-3) >= 40 and _Durham_usable_pct(-2) >= 40 and _Durham_usable_pct(-1) >= 40 Value : 0 Condition : default Value : _Durham_Trigger_3_On(-1) } /* 28 day waiting period between stages - subject to change */ Condition : _Durham_Stage_2_Counter(-1) >= 28 { Condition : month > 4 and month < 11 { Condition : _Durham_add_sources = 0 and _Durham_usable_pct(-1) <= 45 Value : 1 Condition : _Durham_add_sources = 1 and _Durham_usable_pct(-1) <= 40 Value : 1 } Condition : _Durham_add_sources = 0 and _Durham_usable_pct(-1) <= 35 Value : 1 Condition : _Durham_add_sources = 1 and _Durham_usable_pct(-1) <= 30 Value : 1 215 } Condition : default Value : _Durham_Trigger_3_On(-1) } /* Stage 4 */ Set : _Durham_Trigger_4_On { Condition : _Durham_Trigger_4_On(-1) = 1 { /* Lift Stage 3 restrictions if greater than recission triggers for at least 7 days */ Condition : month > 4 and month < 10 and _Durham_usable_pct(-7) >= 45 and _Durham_usable_pct(-6) >= 45 and _Durham_usable_pct(-5) >= 45 and _Durham_usable_pct(-4) >= 45 and _Durham_usable_pct(-3) >= 45 and _Durham_usable_pct(-2) >= 45 and _Durham_usable_pct(-1) >= 45 Value : 0 Condition : month < 5 or month > 11 and _Durham_usable_pct(-7) >= 35 and _Durham_usable_pct(-6) >= 35 and _Durham_usable_pct(-5) >= 35 and _Durham_usable_pct(-4) >= 35 and _Durham_usable_pct(-3) >= 35 and _Durham_usable_pct(-2) >= 35 and _Durham_usable_pct(-1) >= 35 Value : 0 Condition : default Value : _Durham_Trigger_4_On(-1) } /* 28 day waiting period between stages - subject to change */ Condition : _Durham_Stage_3_Counter(-1) >= 28 { Condition : month > 4 and month < 11 { Condition : _Durham_add_sources = 0 and _Durham_usable_pct(-1) <= 35 Value : 1 Condition : _Durham_add_sources = 1 and _Durham_usable_pct(-1) <= 30 Value : 1 } Condition : _Durham_add_sources = 0 and _Durham_usable_pct(-1) <= 25 Value : 1 Condition : _Durham_add_sources = 1 and _Durham_usable_pct(-1) <= 20 Value : 1 } Condition : default Value : _Durham_Trigger_4_On(-1) } /* This section sets/resets the counters used to maintain the proper spacing of conservation stages */ Set : _Durham_Stage_1_Counter { /*Condition : _Durham_Stage_1_Counter(-1) > 0 { Condition : month > 4 and month < 10 _Durham_usable_pct(-7) >= 80 and _Durham_usable_pct(-6) >= 80 and _Durham_usable_pct(-5) >= 80 and _Durham_usable_pct(-4) >= 80 and _Durham_usable_pct(-3) >= 80 and _Durham_usable_pct(-2) >= 80 and _Durham_usable_pct(-1) >= 80 Value : 0 Condition : _Durham_usable_pct(-7) >= 45 and _Durham_usable_pct(-6) >= 45 and _Durham_usable_pct(-5) >= 45 and _Durham_usable_pct(-4) >= 45 and _Durham_usable_pct(-3) >= 45 and _Durham_usable_pct(-2) >= 45 and _Durham_usable_pct(-1) >= 45 Value : 0 }*/ Condition : _Durham_Trigger_1_On = 1 Value : _Durham_Stage_1_Counter(-1) + 1 216 Condition : default Value : 0 } Set : _Durham_Stage_2_Counter { Condition : _Durham_Trigger_2_On = 1 Value : _Durham_Stage_2_Counter(-1) + 1 Condition : default Value : 0 } Set : _Durham_Stage_3_Counter { Condition : _Durham_Trigger_3_On = 1 Value : _Durham_Stage_3_Counter(-1) + 1 Condition : default Value : 0 } Set : _Durham_Stage_4_Counter { Condition : _Durham_Trigger_4_On = 1 Value : _Durham_Stage_4_Counter(-1) + 1 Condition : default Value : 0 } /* This section determines the demand depending upon which level of conservation is in place. */ Set : _Durham_Consvn_1_Demand { Condition : month > 4 and month < 11 and _Durham_Trigger_1_On = 1 Value : Demand1162 * ( 1 - 15 / 100 ) Condition : _Durham_Trigger_1_On = 1 Value : Demand1162 * ( 1 - 7 / 100 ) Condition : default Value : Demand1162 } Set : _Durham_Consvn_2_Demand { Condition : month > 4 and month < 11 and _Durham_Trigger_2_On = 1 Value : Demand1162 * ( 1 - 30 / 100 ) Condition : _Durham_Trigger_2_On = 1 Value : Demand1162 * ( 1 - 12 / 100 ) Condition : default Value : Demand1162 } Set : _Durham_Consvn_3_Demand { Condition : month > 4 and month < 11 and _Durham_Trigger_3_On = 1 Value : Demand1162 * ( 1 - 40 / 100 ) Condition : _Durham_Trigger_3_On = 1 217 Value : Demand1162 * ( 1 - 17 / 100 ) Condition : default Value : Demand1162 } Set : _Durham_Consvn_4_Demand { Condition : month > 4 and month < 11 and _Durham_Trigger_4_On = 1 Value : Demand1162 * ( 1 - 55 / 100 ) Condition : _Durham_Trigger_4_On = 1 Value : Demand1162 * ( 1 - 30 / 100 ) Condition : default Value : Demand1162 } /* Constrain the water supply release to implement the desired conservation */ Constraint Durham_Demand_Limit_Consvn_1 : { Condition : _Durham_Trigger_1_On = 1 Expression : ddelivery1162 <= _Durham_Consvn_1_Demand } Constraint Durham_Demand_Limit_Consvn_2 : { Condition : _Durham_Trigger_2_On = 1 Expression : ddelivery1162 <= _Durham_Consvn_2_Demand } Constraint Durham_Demand_Limit_Consvn_3 : { Condition : _Durham_Trigger_3_On = 1 Expression : ddelivery1162 <= _Durham_Consvn_3_Demand } Constraint Durham_Demand_Limit_Consvn_4 : { Condition : _Durham_Trigger_4_On = 1 Expression : ddelivery1162 <= _Durham_Consvn_4_Demand } /* Turn on event counter whenever duration exceeds 4 days */ Set : _Durham_Ph_1_event_counter { Condition : _Durham_Stage_1_Counter = 5 and _Durham_Stage_1_Counter(-1) = 4 Value : _Durham_Ph_1_event_counter(-1) + 1 Condition : default Value : _Durham_Ph_1_event_counter(-1) } Set : _Durham_Ph_2_event_counter { Condition : _Durham_Stage_2_Counter = 5 and _Durham_Stage_2_Counter(-1) = 4 Value : _Durham_Ph_2_event_counter(-1) + 1 Condition : default Value : _Durham_Ph_2_event_counter(-1) } Set : _Durham_Ph_3_event_counter { Condition : _Durham_Stage_3_Counter = 5 and _Durham_Stage_3_Counter(-1) = 4 Value : _Durham_Ph_3_event_counter(-1) + 1 Condition : default Value : _Durham_Ph_3_event_counter(-1) } Set : _Durham_Ph_3_event_counter { Condition : _Durham_Stage_3_Counter = 5 and _Durham_Stage_3_Counter(-1) = 4 Value : _Durham_Ph_3_event_counter(-1) + 1 Condition : default Value : _Durham_Ph_3_event_counter(-1) 218 } // Raleigh Set : _Ral_Trigger_1_On { Condition : _Ral_Trigger_1_On(-1) = 1 { Condition : _Total_WS_Stor(-1) >= 0.9 * [Total_Max_WS_Storage] Value : 0 Condition : default Value : _Ral_Trigger_1_On(-1) } Condition : weekday{year, month, day} <= 1 { Condition : _Total_WS_Stor(-1) <= 50 / 100 * [Total_Max_WS_Storage] Value : 1 } Condition : default Value : _Ral_Trigger_1_On(-1) } Set : _Ral_Trigger_2_On { Condition : _Ral_Trigger_2_On(-1) = 1 { Condition : _Total_WS_Stor(-1) >= 0.7 * [Total_Max_WS_Storage] Value : 0 Condition : default Value : _Ral_Trigger_2_On(-1) } Condition : _Ral_Stage_1_Counter(-1) >= 30 { Condition : weekday{year, month, day} <= 1 { Condition : _Total_WS_Stor(-1) <= 30 / 100 * [Total_Max_WS_Storage] Value : 1 } Condition : default Value : _Ral_Trigger_2_On(-1) } Condition : default Value : _Ral_Trigger_2_On(-1) } Set : _Ral_Trigger_3_On { Condition : _Ral_Trigger_3_On(-1) = 1 { Condition : _Total_WS_Stor(-1) >= 0.5 * [Total_Max_WS_Storage] Value : 0 Condition : default Value : _Ral_Trigger_3_On(-1) } Condition : _Ral_Stage_2_Counter(-1) >= 30 { Condition : weekday{year, month, day} <= 1 { Condition : _Total_WS_Stor(-1) <= 10 / 100 * [Total_Max_WS_Storage] Value : 1 } 219 Condition : default Value : _Ral_Trigger_3_On(-1) } Condition : default Value : _Ral_Trigger_3_On(-1) } /* This section sets/resets the counters used to maintain the proper spacing of conservation stages */ Set : _Ral_Stage_1_Counter { Condition : _Ral_Stage_1_Counter(-1) > 0 { Condition : _Total_WS_Stor(-1) >= 0.9 * [Total_Max_WS_Storage] Value : 0 } Condition : _Ral_Trigger_1_On = 1 Value : _Ral_Stage_1_Counter(-1) + 1 Condition : default Value : _Ral_Stage_1_Counter(-1) } Set : _Ral_Stage_2_Counter { Condition : _Ral_Stage_2_Counter(-1) > 0 { Condition : _Total_WS_Stor(-1) >= 0.7 * [Total_Max_WS_Storage] Value : 0 } Condition : _Ral_Trigger_2_On = 1 Value : _Ral_Stage_2_Counter(-1) + 1 Condition : default Value : _Ral_Stage_2_Counter(-1) } Set : _Ral_Stage_3_Counter { Condition : _Ral_Stage_3_Counter(-1) > 0 { Condition : _Total_WS_Stor(-1) >= 0.5 * [Total_Max_WS_Storage] Value : 0 } Condition : _Ral_Trigger_3_On = 1 Value : _Ral_Stage_3_Counter(-1) + 1 Condition : default Value : _Ral_Stage_3_Counter(-1) } /* This section determines the demand depending upon which level of conservation is in place. */ Set : _Ral_Consvn_1_Demand { Condition : _Ral_Trigger_1_On = 1 Value : Demand1306 * ( 1 - ( 8 / 100 )) 220 Condition : default Value : Demand1306 } Set : _Ral_Consvn_2_Demand { Condition : _Ral_Trigger_2_On = 1 Value : Demand1306 * ( 1 - ( 15 / 100 )) Condition : default Value : Demand1306 } Set : _Ral_Consvn_3_Demand { Condition : _Ral_Trigger_3_On = 1 Value : Demand1306 * ( 1 - ( 20 / 100 )) Condition : default Value : Demand1306 } /* Constrain the water supply withdrawal to implement the desired conservation */ Constraint Demand_Limit_Consvn_1 : { Condition : _Ral_Trigger_1_On = 1 Expression : ddelivery1306 <= _Ral_Consvn_1_Demand } Constraint Demand_Limit_Consvn_2 : { Condition : _Ral_Trigger_2_On = 1 Expression : ddelivery1306 <= _Ral_Consvn_2_Demand } Constraint Demand_Limit_Consvn_3 : { Condition : _Ral_Trigger_3_On = 1 Expression : ddelivery1306 <= _Ral_Consvn_3_Demand } /* Turn on event counter whenever duration exceeds 4 days */ Set : _Ral_Ph_1_event_counter { Condition : _Ral_Stage_1_Counter = 5 and _Ral_Stage_1_Counter(-1) = 4 Value : _Ral_Ph_1_event_counter(-1) + 1 Condition : default Value : _Ral_Ph_1_event_counter(-1) } Set : _Ral_Ph_2_event_counter { Condition : _Ral_Stage_2_Counter = 5 and _Ral_Stage_2_Counter(-1) = 4 Value : _Ral_Ph_2_event_counter(-1) + 1 Condition : default Value : _Ral_Ph_2_event_counter(-1) } Set : _Ral_Ph_3_event_counter { Condition : _Ral_Stage_3_Counter = 5 and _Ral_Stage_3_Counter(-1) = 4 Value : _Ral_Ph_3_event_counter(-1) + 1 Condition : default Value : _Ral_Ph_3_event_counter(-1) } // SGWASA Set : _SGWASA_Trigger_5_On { Condition : _SGWASA_Trigger_5_On(-1) = 1 { Condition : elevation1250 >= 356 221 Value : 0 Condition : default Value : _SGWASA_Trigger_5_On(-1) } Condition : _SGWASA_Stage_4_Counter(-1) >= 14 // Require a 14 day waiting period before going into phase 5 { Condition : weekday{year, month, day} <= 1 { Condition : elevation1250<= 320 Value : 1 } Condition : default Value : _SGWASA_Trigger_5_On(-1) } Condition : default Value : _SGWASA_Trigger_5_On(-1) } Set : _SGWASA_Trigger_4_On { Condition : _SGWASA_Trigger_4_On(-1) = 1 { Condition : elevation1250 >= 356 Value : 0 Condition : default Value : _SGWASA_Trigger_4_On(-1) } Condition : _SGWASA_Stage_3_Counter(-1) >= 14 // Require a 14 day waiting period before going into phase 4 { Condition : weekday{year, month, day} <= 1 { Condition : elevation1250< 340.5 Value : 1 } Condition : default Value : _SGWASA_Trigger_4_On(-1) } Condition : default Value : _SGWASA_Trigger_4_On(-1) } Set : _SGWASA_Trigger_3_On { Condition : _SGWASA_Trigger_3_On(-1) = 1 { Condition : elevation1250 >= 356 Value : 0 Condition : default Value : _SGWASA_Trigger_3_On(-1) } Condition : _SGWASA_Stage_2_Counter(-1) >= 14 // Require a 14 day waiting period before going into phase 3 { Condition : weekday{year, month, day} <= 1 { Condition : elevation1250< 343.08 Value : 1 } Condition : default Value : _SGWASA_Trigger_3_On(-1) } Condition : default Value : _SGWASA_Trigger_3_On(-1) } Set : _SGWASA_Trigger_2_On { Condition : _SGWASA_Trigger_2_On(-1) = 1 { Condition : elevation1250 >= 356 Value : 0 Condition : default Value : _SGWASA_Trigger_2_On(-1) } 222 Condition : _SGWASA_Stage_1_Counter(-1) >= 14 // Require a 14 day waiting period before going into phase 2 { Condition : weekday{year, month, day} <= 1 { Condition : elevation1250< 345.25 Value : 1 } Condition : default Value : _SGWASA_Trigger_2_On(-1) } Condition : default Value : _SGWASA_Trigger_2_On(-1) } Set : _SGWASA_Trigger_1_On { Condition : _SGWASA_Trigger_1_On(-1) = 1 { Condition : elevation1250 >= 356 Value : 0 Condition : default Value : _SGWASA_Trigger_1_On(-1) } Condition : weekday{year, month, day} <= 1 { Condition : elevation1250< 349.67 Value : 1 Condition : default Value : _SGWASA_Trigger_1_On(-1) } Condition : default Value : _SGWASA_Trigger_1_On(-1) } // Wilson Set : _Wilson_Trigger_5_On { Condition : _Wilson_Trigger_5_On(-1) = 1 { Condition : elevation1500 >= 148 Value : 0 Condition : default Value : _Wilson_Trigger_5_On(-1) } Condition : _Wilson_Stage_4_Counter(-1) >= 14 // Require a 14 day waiting period before going into phase 5 { Condition : weekday{year, month, day} <= 1 { Condition : elevation1500<= 135 Value : 1 } Condition : default Value : _Wilson_Trigger_5_On(-1) } Condition : default Value : _Wilson_Trigger_5_On(-1) } Set : _Wilson_Trigger_4_On { Condition : _Wilson_Trigger_4_On(-1) = 1 { Condition : elevation1500 >= 148 Value : 0 Condition : default Value : _Wilson_Trigger_4_On(-1) } Condition : _Wilson_Stage_3_Counter(-1) >= 14 // Require a 14 day waiting period before going into phase 4 { Condition : weekday{year, month, day} <= 1 { Condition : elevation1500< 138 Value : 1 } 223 Condition : default Value : _Wilson_Trigger_4_On(-1) } Condition : default Value : _Wilson_Trigger_4_On(-1) } Set : _Wilson_Trigger_3_On { Condition : _Wilson_Trigger_3_On(-1) = 1 { Condition : elevation1500 >= 148 Value : 0 Condition : default Value : _Wilson_Trigger_3_On(-1) } Condition : _Wilson_Stage_2_Counter(-1) >= 14 // Require a 14 day waiting period before going into phase 3 { Condition : weekday{year, month, day} <= 1 { Condition : elevation1500< 140 Value : 1 } Condition : default Value : _Wilson_Trigger_3_On(-1) } Condition : default Value : _Wilson_Trigger_3_On(-1) } Set : _Wilson_Trigger_2_On { Condition : _Wilson_Trigger_2_On(-1) = 1 { Condition : elevation1500 >= 148 Value : 0 Condition : default Value : _Wilson_Trigger_2_On(-1) } Condition : _Wilson_Stage_1_Counter(-1) >= 14 // Require a 14 day waiting period before going into phase 2 { Condition : weekday{year, month, day} <= 1 { Condition : elevation1500< 142 Value : 1 } Condition : default Value : _Wilson_Trigger_2_On(-1) } Condition : default Value : _Wilson_Trigger_2_On(-1) } Set : _Wilson_Trigger_1_On { Condition : _Wilson_Trigger_1_On(-1) = 1 { Condition : elevation1500 >= 148 Value : 0 Condition : default Value : _Wilson_Trigger_1_On(-1) } Condition : weekday{year, month, day} <= 1 { Condition : elevation1500< 144 Value : 1 Condition : default Value : _Wilson_Trigger_1_On(-1) } Condition : default Value : _Wilson_Trigger_1_On(-1) } 224 /* This section sets/resets the counters used to maintain the proper spacing of conservation stages */ :For: { [Util] = { SGWASA, Wilson } } :For: { [trig] = {1, 2, 3, 4, 5} } Set : _[Util]_Stage_[trig]_Counter { Condition : _[Util]_Stage_[trig]_Counter(-1) > 0 and _[Util]_Trigger_[trig]_On = 0 Value : 0 Condition : _[Util]_Trigger_[trig]_On = 1 Value : _[Util]_Stage_[trig]_Counter(-1) + 1 Condition : default Value : _[Util]_Stage_[trig]_Counter(-1) } /* Count all trigger events lasting at least 7 days */ Set : _[Util]_Ph_[trig]_event_counter { Condition : _[Util]_Stage_[trig]_Counter = 7 and _[Util]_Stage_[trig]_Counter(-1) = 6 Value : _[Util]_Ph_[trig]_event_counter(-1) + 1 Condition : default Value : _[Util]_Ph_[trig]_event_counter(-1) } :Next: :Next: // Set conservation demand and delivery constraints for each trigger level in effect. // Set demand reduction factors :SUBSTITUTE: [Dem_1_Red_Factor] = 5 :SUBSTITUTE: [Dem_2_Red_Factor] = 10 :SUBSTITUTE: [Dem_3_Red_Factor] = 20 :SUBSTITUTE: [Dem_4_Red_Factor] = 25 :SUBSTITUTE: [Dem_5_Red_Factor] = 35 :SUBSTITUTE: [Dem_6_Red_Factor] = 50 :For: { [trig] = {1, 2, 3, 4, 5} } // SGWASA Set : _SGWASA_Consvn_[trig]_Demand { Condition : _SGWASA_Trigger_[trig]_On = 1 Value : Demand1256 * ( 1 - [Dem_[trig]_Red_Factor] / 100 ) Condition : default Value : Demand1256 } Constraint SGWASA_Demand_Limit_Consvn_[trig] : { Condition : _SGWASA_Trigger_[trig]_On = 1 Expression : dflow1254.1256 <= _SGWASA_Consvn_[trig]_Demand } //Wilson Set : _Wilson_Consvn_[trig]_Demand { Condition : _Wilson_Trigger_[trig]_On = 1 Value : Demand1506* ( 1 - [Dem_[trig]_Red_Factor] / 100 ) 225 Condition : default Value : Demand1506 } Constraint Wilson_Demand_Limit_Consvn_[trig] : { Condition : _Wilson_Trigger_[trig]_On = 1 Expression : dflow1520.1506 <= _Wilson_Consvn_[trig]_Demand } :Next: :else: // Do nothing if not using drought plans :endif: