Loading...
The URL can be used to link to this page
Your browser does not support the video tag.
Home
My WebLink
About
WQ0016376_More Information (Received)_20200706
July 6, 2020 Vivien Zhong, P.E. NCDEQ Division Of Water Resources 1617 Mail Service Center Raleigh, North Carolina 27699-1617 Subject: Response for Permit No. WQ0016376 S&J Villari Processing Facility - Warsaw Wastewater Irrigation System Duplin County Dear Ms. Zhong, L�1 CAVANAU G H Stewardship Through Innovok. Cavanaugh & Associates, P.A., on behalf of S&J Villari Livestock (Villari), has reviewed your comments dated June 29, 2020, and has developed responses and additional supporting information to address each item in your comments. For your convenience, we have repeated the comments below in bold font, followed by the responses in italicized font. 1. Could you provide the raw precipitation, temperature and pan evaporation data used in the water balance sheet, as well as their references? The precipitation, temperature, and pan evaporation data used in the water balance purposely matches the water balance in the soils report by Shaffer Soil Services, Inc. dated February 4, 2012; the soils report has been attached with this response. 2. Could you provide the soils report so we can verify the Ksat? The soils report has been attached with this response. 3. Could you also send me a copy of the water balance spreadsheet? The water balance spreadsheet has been attached with this response. As stated in the response to Comment #1, the water balance spreadsheet is a continuation of the existing water balance. Additionally, we noticed during the course of assembling this response that there were a few inputs in the water balance that needed to be corrected/improved. First, in order to match the dominant soils series in the existing permit, Zone 10 has been corrected to use the Goldsboro soils data rather than the Norfolk soils data. Second, we noticed a small discrepancy in the Ksat values used in the 2012 water balance vs. the 'K sat for design' values given in the body of the 2012 soils report; the 2012 water balance used a Ksat of 0.08 in/hr for Norfolk fields, as opposed to the body of the report showing a 'K sat for design' value of 0.075 in/hr. All values used in the updated version of the water balance included with this response match the 'K sat for design' values used in the body of the soils report. 4. Extrapolating the radial influence for Zone 1 spray heads and the easternmost spray head for Zone 2 would indicate that spraying is occurring on an un-vegetated and likely more densely packed dirt access road. Irrigating in these areas would likely result in ponding or runoff and seem to be in violation of 15A NCAC 2T .0507 (b), (c), and (e). Please clarify. Due to mapping and scale discrepancies, aerial imagery might make it appear that the radial influence of the Zone 1 and 2 spray heads are spraying on the access road, but previous site visits have shown that the spraying does not reach the access road. Additionally, the April 2020 request to adjust the Zone 1 and 2 acreages is in order to show the sprinklers as full circles as they've been permitted for many years; we had shown them incorrectly as semi -circles in our response to Ms. Kabat last year. Please do not hesitate to contact our office should you have any questions, comments, or require any additional information. Regards, Cavanaugh & Associates, P.A. CJ0 Jeff P. Cappadona, P.E. Attachments cc: Sam Villari, Owner, S&J Villari Livestock A Spray Irrigation Water Balance for Permit No: WQ0016376 Permittee Name: S&J Villari Livestock Contact Name: Sam Villari, Owner Address: 892 Penny Branch Rd., Warsaw, NC 28398 S&J Villari Processing Facility Wastewater Facility Irrigation System Address: 892 Penny Branch Rd., Warsaw, NC 28398 Water Budget Prepared By: Cavanaugh & Associates, P.A. (Jeff Cappadona, P.E.) ••.••��N CAR O Es3/p, l i 1�n ZOZd -1-6 Water Balance.xls Project Id Version 5 December 2004 Enter Data ==> Precipitation Worksheet FYI Calculate the precipitation for an 80th percentile "wet' year, based on long term data (approx. 30 years or greater). Click on each step box Precipitation Data Step 1 St;'p2 Month Mean Monthly Precipitation Percent of Mean Annual Precipitation 80th Percentile Monthly Precipitation inches January 4.13 3.08 4.68 February March April 1.88 May 3.88 June 5.56 July 5.52 August 7.91 September 2.60 5.26 1.36 2.74 October November December TOTALS = 48.60 percent inches 8.50 r - - 4.62 6.34 , 3.44 , 9.63 3.87 7.98 11.44 11.36 16.28 5.35 10.82 2.80 5.64 Calculations 5.23 2.10 4.34 6.22 Values shown in yellow cells are linked to other 6.17 (locations within the Water 8.84 Balance Program 2.91 5.88 1.52 Note: Precipitation information obtained from soils report by Shaffer Soil Services, Inc., dated February 4, 2012 Water BalanceAs Precip Step 3 - Precipitation Data Soucre Location of Precipitation Data: Clinton, NC (Sampson County) Staring Year of Data Record: 1951 Ending Year of Data Record: 1981 Step 4 :j Period of Record (Years) = 30 �..ri ✓� Source of Data: USDA-NRCS County Soil Surveys (contact local NRCS office) LvLp-7-6 Version 5 December 2004 m rn W v v T m A. ',' =` •� Oi •Z � io •z :�•p •0: a f° m m fA W O N 10 p1 A O N O OG � N � TI S O D N m OJI + W OI f0 N O O N W+ ti x v A O� N A N OI N A N y 0 0 A 9 A � T OI W W OI �I OI T O A Ou M fD i d a Ayw 3 Z CD 0 0 0 W c y O f/1 t o N A vl m cn A N o o l d y 1 N (D CDC') I QAi OOi W W OJi J OAi OI O A OAo �1 I �' 0 � o `° ' m c 6 0. rj) Er. .d. ErC m —< a m m W" arm m CD 'a 0.3 m CD v d O m rr m m O I� N R rt O m O U) m m rr Step 2 Influent, Lagoon Storage, and Zone Setup Worksheet Area of Lagoon Calculate the adjusted influent loading by including the gains acres and losses from the Storage Lagoon, and set up the Spray Zones areas and individual Zone flowrates. 1.50 Click on each step box Enter Data =_= Pan Evap. Data Precip Lagoon Gains & Losses Ste 1 Days Pan per Evaporation Adjusted Lagoon Gains Lagoon Los Month month Data Pan Data Precip from Precip. from Evan inches inches inches gallons gallons January 31 1.82 1 1.27 4.62 February 28 2.24 1.57 3.44 March 31 4.52 3.16 5.23 April 30 6.77 4.74 2.10 May 31 7.75 5.43 4.34 June 30 8.16 5.71 6.22 July 31 8.57 6.00 6.17 August 31K M11 8.84 September 30 2.91 October 31 5.88 November 30 1.52 December 31 3.06 Totals: 365 62.52 43.76 54.34 Source of PAN Evap. Data Step 6 I Other (List Below) Aurora Station, Beaufort County 213,119 128,863 85,612 193,010 176,688 220,949 253,193 232,638 251,371 244,327 360,208 210,971 118,399 172,198 239,531 132,570 61,932 83,533 124,775 47,611 otel "low to be Design Daily Disposed Flow (Influent) (Annual Averaged) galslday 99,080 gals/day 100,260 ......... Influent should be equa Design Influent Total: Influent+ ITotal: Influent+ Volume per Lagoon Gains & Lagoon Gains & Month Losses Losses gallons gallons gallons 2,213,160 1,782,420 36,164,200 1 36,594,939 36,5947939 Note: Pan Evaporation Data obtained from soils report by Shaffer Soil Services, Inc., dated February 4, 2012 Step 4 Zone 1 Zone 2 Total Flow to All Zones Daily Flow to Zone 1 Wetted Acreage Daily Flow to Wetted Zone 2 Acreage gals/day acres galslday acres galslday 100,260 3,294 F 1.39 3,105 1 Irr. Rate (inlwk) _ 0.61 Irr. Rate (inlwk) _ 0.61 Zone 1 Design Irrigation per month Zone 1 Volume to be Disposed Zone 2 Volume to be Disposed Zone 2 Design Irrigation per month gallons inches gallons inches 105,398 - -2.79 99,332 r 2.79 93,667 2.48 I 2.75 88,276 2.48 103,692 97,724 2.75 94,139 1 2.49 88,721 2.49 99,469 1 2.64 93,744 1 2.64 9 8, 343 I 2.61 92,683 1 2.61 101,155 I 2.68 � � � 95,333 1 2.68 99,736 2.80 90,381 2.54 t15,' 98,427 2.77 1 91378 2.57 I 97,504 L 2.74 1,202,445 1 31.86 1,133,240 1 31.86 N C� �.'6664 .•' EES S 2AV-7-6 Water Balance.As Influent+Zones Setup Version 5 December 2004 Zone 3 Zone 4 Zone 5 Zone 6 Zone 7 Zone 8 Zone 9 Zoni Daily Flow to Zone 3 Wetted Acreage Daily Flow to Zone 4 Wetted Acreage Daily Flow to Zone 5 Wetted Acreage Daily Flow to Zone 6 Wetted Acreage Daily Flow to Zone 7 Wetted Acreage Daily Flow to Zone81 Wetted Acreage Daily Flow to Zone 9 Wetted Acreage Daily Flow to Zone 10 gals/day acres galslday acres galslday acres galslday acres galslday acres galslday acres galslday acres galslday 2,654 1.12 2,536 1.07 2,820 1.19 2,773 1.17 2,489 1.05 2,963 1.25 2,370 1.00 1,998 Irr. Rate 061 . (inlwk) _ Irr. Rate 061 . (inlwk) _ Irr. Rate 061 . (inlwk) _ Irr. Rate 061 . (inlwk) _ Irr. Rate 061 . (inlwk) _ Irr. Rate 061 . (intwk) _ Irr. Rate 061 . (in/wk) _ Irr. Rate (inlwk) _ Zone 3 Volume to be Disposed Zone 3 Design Irrigation per month Zone 4 Volume to be Disposed Zone 4 Design Irrigation per month Zone 5 Volume to be Disposed Zone 5 Design Irrigation per month Zone 6 Volume to be Disposed Zone 6 Design Irrigation per month Zone 7 Volume to be Disposed Zone 7 Design Irrigation per month Zone B Volume to be Disposed Zone 8 Design Irrigation per month Zone 9 Volume to be Disposed Zone 9 Design Irrigation per month Zone 10 Volume to be Disposed gallons inches gallons inches gallons I inches gallons I inches gallons I inches gallons I inches gallons inches gallons 84,925 r 2.79 81,134 r 2.79 90,233 r 2.79 88,717 t--2.79 79,617 2.79 94,783 r 2.79 75,826 2.79 63,934 75,473 2.48 72,103 1 2.48 80,190 2.48 78,842 2.48 70,756 2.48 84,233 2.48 67,386 2.48 56,818 83,550 2.75 79,820 I 2.75 88,772 2.75 87,280 2.75 78,328 2.75 93,248 1 2.75 74,599 2.75 62,899 75,853 2.49 72,467 1 2.49 80,594 2.49 79,239 1 2.49 71,112 2.49 84,657 1 2.49 67,726 2.49 57,104 80,148 1 2.64 76,570 1 2.64 85,157 1 2.64 83,726 1 2.64 75,139 2.64 89,451 1 2.64 71,561 1 2.64 60,338 79,241 1 2.61 75,703 1 2.61 84,193 1 2.61 82,778 1 2.61 74,288 2.61 88,438 1 2.61 70,751 1 2.61 59,655 81,506 1 2.68 77,867 1 2.68 86,600 1 2.68 85,145 1 2.68 76,412 2.68 90,967 1 2.68 72,773 1 2.68 61,360 85,271 2.80 81,464 � 90,600 2.80 89,077 2.80 79,941 2.80 95,168 2.80 76,135 2.80 64,194 77,272 2.54 73,822 � 82,102 2.54 80,722 2.54 72,443 4 86,241 2.54 68,993 2.54 58,173 84,151 2.77 80,395 � 89,411 2.77 87,908 2.77 78,892 �]917 93,919 2.77 75,135 2.77 63,352 78,124 2.57 74,637 2 83,007 2.57 81,fi12 2.57 73,242 193 2.57 69,754 2.57 58,814 63 274 L _ _ 79,641 _ 88,573 274 L _ _ 87,084 2.74 I. _ _ 78152 L _ _ _ _ 3,039 2.74 L _ _ _ _ 74,431 2.74 L _ _ _ _ _ 62,758 968,877 31.86 925,623 31.8fi 1,029,432 31.86 1,012,130 31.86 908,322 31.86 1,061, 336 31.66 865,069 31.86 729,398 , 1,111rrrlrrg1, %%%%��N CARO, .• s •. A' ti'_�CI !0 Water Balance.xls Influent+Zones Setup Version 5 December 2004 e 10 Zone 11 Zone 12 Zone 13 Zone 14E Zone 14W Zone 15 Zone 16 Wetted Acreage Daily Flow to Zone 11 Wetted Acreage Daily Flow to Zone 12 Wetted Acreage Daily Flow to Zone 13 Wetted Acreage Daily Flow to Zone 14E Wetted Acreage Daily Flow to Zone 14W Wetted Acreage Daily Flow to Zone 15 Wetted Acreage Daily Flow to Wetted Zone 16 Acreage galslday acres 1,711 I 1.25 acres galslday acres galslday acres gals/day acres galslday acres gals/day acres galslday acres 1.46 3,389 I 1.43 2,915 7.23 5,190 I 2.19 36,775 I 13.73 20,624 7.70 1,730 0.73 0.35 Irr. Rate 0.61 (inlwk) _ Irr. Rate 0.61 (intwk) _ Irr. Rate 0.61 (inlwk) _ Irr. Rate 0 69 (inlwk) _ Irr. Rate 0 69 (inlwk) _ Irr. Rate 0.61 (in/wk) _ Irr. Rate 0.35 (in/wk) _ Zone 10 Design Irrigation per month Zone 11 Volume to be Disposed Zone 11 Design Irrigation per month Zone 12 Volume to be Disposed Zone 12 Design Irrigation per month Zone 13 Volume to be Disposed Zone 13 Design Irrigation per month Zone 74E Volume to be Disposed Zone 14E Design Irrigation per month Zone 74W Volume to be Disposed Zone 14W Design Irrigation per month Zone 15 Volume to be Disposed Zone 15 Design Irrigation per month Zone 16 Volume to be Disposed Zone 16 Design Irrigation per month inches gallons inches gallons I inches gallons inches gallons I inches gallons 11 inches gallons inches gallons inches r - - - - - 1.61 108,431 r---- 2.79 93,266 I----- 2.79 166,059 r---- 2.79 1,176,572 I----- 3.16 659,840 r - - - - 3.16 55,353 I--- 2.79 54,738 I----- 1.61 1.43 96,362 2.48 82,885 2.48 147,576 2.48 1,045,614 2.80 586,397 2.80 49,192 I 2.48 49,645 I 1.43 1.59 106,676 2.75 91,756 1 2.75 163,371 2.75 1,157,524 1 3.10 649,158 3.10 54,457 2.75 53,852 1.59 1.44 96,848 1 2.49 83,303 1 2.49 148,320 2.49 1,050,883 1 2.82 589,352 1 2.82 49,440 2.49 4B,891 1.44 1.52 102,332 2.64 88,019 2.64 156,718 2.64 1,110,384 2.98 622,721 2.98 52,239 2.64 51,659 1.52 1.50 101,173 2.61 87,023 2.61 154,944 2.61 1,097,816 2.94 615,672 2.94 51,648 2.61 51,074 1.50 1.55 104,066 2.68 89,511 2.68 159,374 2.68 1,129,203 3.03 633,275 3.03 53,125 2.68 52,534 1.55 1.62 108,872 2.80 2.80 166,735 2.80 1,181,359 3.17 662,525 3.17 55,578 2.B0 54,961 1.62 1.47 98,660 2.54 2.54 151,094 2.54 1,070,543 2.87 2.87 50,365 2.54 49,805 1.47 1.60 107,443 2.77 2.77164,546 2.77 1,765,853 3.13 3.13 54,849 2.77 54,239 1.60 99,748 2.57 ]8H4,861 2.57 152,767 2.57 1,082,353 2.90 ]6E47,699 2.90 50,920 2.57 50,355 1.48 58_ I 106,436 2 74 L____ 2 74 I.. 163,004 2 74 L____ 1,154,923 3.10 1____L____ 3 10 r 54,335 2.74 I---__ 53,731 I1.58 1_____ 78.40 1,237,048 37.86 1,064,034 31.86 1,894,500 31.86 73,423,026 36.01 7,527,844 36.01 631,500 31.86 624,485 18.40 .,`N CARIp�'�% PEES % . 03 .......... • rr -7 Water Balance.xls Influent+Zones Setup Version 5 December 2004 Zone 17 Daily Flow to Wetted Zone 17 Acreage gals/day acres 922 1 r 0.82 IIIrr. Rat 1 nlwkl = 0.29 II Zone 17 Volume to be Disposed Zone 17 Design Irrigation per month gallons inches 29,507 F— 1.33 — 26,222 1.18 I 1.30 29,029 26,355 1.18 27,847 1.25 27,532 1.24 28,319 1.27 1.33 1.21 1.31 29,627 26,848 29,238 27,144 ,1.22 28,964 I L _ 1.30 15.12 Step 5 Values shown in yellow cells are linked to other locations within the Water Balance Prouram. %.,``'N CARp'''',,, 1-1 0 0 = '..,rrrrrrrrr,,,` MO-1-6 Water Balance.xls Influent+Zones Setup Version 5 December 2004 Soils and Water Balance for Zone 1 Zone 1 Description: Calculate Soil Drainage Step 1 j Step 2 1 f x Ksat n-situ saturated vertical Soil Drainage hydraulic conductivity factor (f) Drainage (Ksat) Rate in/hr inlday percent in/day :i]Uib� Itilf:Ii71 t�]URI�71t�76t3! Note: Soils information obtained from soils report by Shaffer Soil Services, Inc., dated February 4, 2012 Zone 1 Days per Zone 1 Soil Month PET Total Precip month Drainage Loss inches inches inches inches January 31 0.27 4.46 4.74 4.62 February 28 0.48 4.03 4.51 3.44 March 31 1.24 4.46 5.70 5.23 April 30 2.50 4.32 6.82 2.10 May 31 4.16 4.46 8.62 4.34 June 30 5.46 4.32 9.78 6.22 July 31 6.27 4.46 10.73 6.17 August 31 5.76 4.46 10.22 8.84 September 30 4.13 4.32 8.45 2.91 October 31 2.33 4.46 6.79 5.88 November 30 1.06 4.32 5.38 1.52 December 31 0.46 4.46 4.92 3.06 Totals: 365 34.09 52.56 86.65 54.34 ••r,urrrrrrrur,q E SIp .• •. ti . DEN .••.9 . 0 7 0 = Q '��rrrr.rrr`•rA r••• Water Balance.xls Z1 20U Soils Series Information for Zone 1 Potential site limitations Water table depth risk of Is bedrock < Series Name Drainage class (BLS) perching 60" BLS ? BLS = below land surface Norfolk well >3.0 low no Copied from Influent & Zones Setup Sheet: Daily Flow = 3,294 gals/day Zone 1 Area = 1.39 acres Zone 1 Zone 1 Actual Used Cummulative Calculated Maximum Allowable Irrigation Manual Override Maximum Allowable Irrigation Maximum Allowable Irrigation inches inches inches 0.12 0.12 1.06 1.06 0.47 0.47 4.72 4.72 4.28 4.28 3.56 3.56 4.56 4.56 1.38 1.38 5.54 5.54 0.91 0.91 3.86 3.86 1.86 1.86 r-RMnual M.A.I. I M.A.I. Used Design Irrigation per Month Monthly Excess inches inches 2.79 -2.67 2.48 -1.42 2.75 -2.28 2.49 2.22 2.64 1.65 2.61 0.96 2.68 1.88 2.80 -1.43 2.54 3.00 2.77 -1.86 2.57 1.29 2.74 0.88 31.86 Storage Actual Required for Monthly Irrigation Irrigation Rate Click the "CALCULATE" button after making changes. inches inches FYI 4.13 0.12 5.54 1.06 F 7 '! 0.47 5.660 4.72 3.996 4.28 3.000 3.56 1.12 4.56 r 2.55 t 1.3838 I 0.00 r I 5.09 1.86j 0.91 L 0.577 3.86 L 1.45 1.66 ,a 31.66 Maximum Monthly Storage Required for the Irrigation of Zone 1: inches acres gallons 7.82 over 1.39 = 295,246 Version 5 December 2004 Soils and Water Balance for Zone 2 Soils Series Information for Zone 2 Potential site limitations Water table depth risk of Is bedrock < Zone 2 Description: Series Name Drainage class (BLS) perching 60, BLS ? BLS = below land surface Calculate Soil Drainage Norfolk well >3.0 low no Step 1 Step 2 1 f x Ksat I� n-situ saturated vertical Soil Drainage hydraulic conductivity Drainage (Ksat) factor (f) Rate in/hr inlday percent in/day 0.075 1.80 0.080 0.14 Note: Soils information obtained from soils report by Shaffer Soil Services, Inc., dated February 4, 2012 Month Days per month PET Zone 2 Soil Drainage Zone 2 Total Loss Precip inches inches inches inches January 31 0.27 4.46 4.74 4.62 February 28 0.48 4.03 4.51 3.44 March 31 1.24 4.46 5.70 5.23 April 30 2.50 4.32 6.82 2.10 May 31 4.16 4.46 8.62 4.34 June 30 5.46 4.32 9.78 6.22 July 31 6.27 4.46 10.73 6.17 August 31 5.76 4.46 10.22 8.84 September 30 4.13 4.32 8.45 2.91 October 31 2.33 4.46 6.79 5.88 November 30 1.06 4.32 5.38 1.52 December 31 0.46 4.46 1 4.92 3.06 Totals: 365 34.09 52.56 86.65 54.34 Water Balance.xls Z2 ,,,o`'.�N CARD'' :'pE s�Oti'•% Calculated Maximum Allowable Irrigation inches 0.12 1.06 0.47 4.72 4.28 3.56 4.56 1.38 5.54 0.91 3.86 1.86 Copied from Influent & Zones Setup Sheet: Daily Flow = 3,105 gals/day Zone 2 Area = 1.31 acres Zone 2 Zone 2 Actual Used Cummulative Manual Override Maximum Allowable Irrigation Maximum Allowable Irrigation inches inches 0.12 1.06 0.47 4.72 4.28 3.56 4.56 1.38 5.54 0.91 3.86 1.86 Calc. MA.I. Manual M.A.I. .A.32.31 I. Used Design Irrigation per Month Monthly Excess inches inches 2.79 -2.67 2.48 -1.42 2.75 -2.28 2.49 2.22 2.64 1.65 2.61 0.96 2.68 1.88 2.80 .1.43 2.54 3.00 2.77 -1.86 2.57 1.29 2.74 Storage Actual Required for Monthly Irrigation Irrigation Rate Click the "CALCULATE" button after making changes. inches inches FYI 4.13 0.12 5.54 1.06 7.82 0.47 5.60� 4.72 3.96� 4.28 3.00l 3.56 1.12I 4.56 r2.55i 1.38 r I 0.00 I 5.09 1.86 0.91 0.57 I 3.86 �__1_45 _� 1.86 31.86 I �i 31.86 Maximum Monthly Storage Required for the Irrigation of Zone 2: inches acres gallons 7.82 over 1.31 = 278,254 Version 5 December 2004 7-0?o -7 - 6 Soils and Water Balance for Zone 3 Soils Series Information for Zone 3 Potential site limitations Water table depth risk of Is bedrock < Zone 3 Description: Series Name Drainage class (BLS) perching 60, BLS ? BLS = below land surface Calculate Soil Drainage Norfolk well >3.0 low no Step 1 Step 2 1 f x Ksat I� n-situ saturated vertical Soil Drainage hydraulic conductivity Drainage (Ksat) factor (f) Rate in/hr inlday percent in/day 0.075 1.80 0.080 0.14 Note: Soils information obtained from soils report by Shaffer Soil Services, Inc., dated February 4, 2012 Month Days per month PET Zone 3 Soil Drainage Zone 3 Total Loss Precip inches inches inches inches January 31 0.27 4.46 4.74 4.62 February 28 0.48 4.03 4.51 3.44 March 31 1.24 4.46 5.70 5.23 April 30 2.50 4.32 6.82 2.10 May 31 4.16 4.46 8.62 4.34 June 30 5.46 4.32 9.78 6.22 July 31 6.27 4.46 10.73 6.17 August 31 5.76 4.46 10.22 8.84 September 30 4.13 4.32 8.45 2.91 October 31 2.33 4.46 6.79 5.88 November 30 1.06 4.32 5.38 1.52 December 31 0.46 4.46 1 4.92 3.06 Totals: 365 34.09 52.56 86.65 54.34 i �DEES Q Water Balance.xls Z3 '''•,P. CAC Calculated Maximum Allowable Irrigation inches 0.12 1.06 0.47 4.72 4.28 3.56 4.56 1.38 5.54 0.91 3.86 1.86 Copied from Influent & Zones Setup Sheet: Daily Flow = 2,654 gals/day Zone 3 Area = 1.12 acres Zone 3 Zone 3 Actual Used Cummulative Manual Override Maximum Allowable Irrigation Maximum Allowable Irrigation inches inches 0.12 1.06 0.47 4.72 4.28 3.56 4.56 1.38 5.54 0.91 3.86 1.86 Calc. MA.I. Manual M.A.I. .A.32.31 I. Used Design Irrigation per Month Monthly Excess inches inches 2.79 -2.67 2.48 -1.42 2.75 -2.28 2.49 2.22 2.64 1.65 2.61 0.96 2.68 1.88 2.80 .1.43 2.54 3.00 2.77 -1.86 2.57 1.29 2.74 Storage Actual Required for Monthly Irrigation Irrigation Rate Click the "CALCULATE" button after making changes. inches inches FYI 4.13 0.12 5.54 1.06 7.82 0.47 5.60� 4.72 3.96� 4.28 3.00l 3.56 1.12I 4.56 r2.55i 1.38 r I 0.00 I 5.09 1.86 0.91 0.57 I 3.86 �__1_45 _� 1.86 31.86 I �i 31.86 Maximum Monthly Storage Required for the Irrigation of Zone 3: inches acres gallons 7.82 over 1.12 = 237,89s Version 5 December 2004 Soils and Water Balance for Zone 4 Soils Series Information for Zone 4 Potential site limitations Water table depth risk of Is bedrock < Zone 4 Description: Series Name Drainage class (BLS) perching 60, BLS ? BLS = below land surface Calculate Soil Drainage Norfolk well >3.0 low no Step 1 Step 2 1 f x Ksat I� n-situ saturated vertical Soil Drainage hydraulic conductivity Drainage (Ksat) factor (f) Rate in/hr inlday percent in/day 0.075 1.80 0.080 0.14 Note: Soils information obtained from soils report by Shaffer Soil Services, Inc., dated February 4, 2012 Month Days per month PET Zone 4 Soil Drainage Zone 4 Total Loss Precip inches inches inches inches January 31 0.27 4.46 4.74 4.62 February 28 0.48 4.03 4.51 3.44 March 31 1.24 4.46 5.70 5.23 April 30 2.50 4.32 6.82 2.10 May 31 4.16 4.46 8.62 4.34 June 30 5.46 4.32 9.78 6.22 July 31 6.27 4.46 10.73 6.17 August 31 5.76 4.46 10.22 8.84 September 30 4.13 4.32 8.45 2.91 October 31 2.33 4.46 6.79 5.88 November 30 1.06 4.32 5.38 1.52 December 31 0.46 4.46 1 4.92 3.06 Totals: 365 34.09 52.56 86.65 54.34 Water Balance.xls Z4 Calculated Maximum Allowable Irrigation inches 0.12 1.06 0.47 4.72 4.28 3.56 4.56 1.38 5.54 0.91 3.86 1.86 Copied from Influent & Zones Setup Sheet: Daily Flow = 2,536 gals/day Zone 4 Area = 1.07 acres Zone 4 Zone 4 Actual Used Cummulative Manual Override Maximum Allowable Irrigation Maximum Allowable Irrigation inches inches 0.12 1.06 0.47 4.72 4.28 3.56 4.56 1.38 5.54 0.91 3.86 1.86 Calc. MA.I. Manual M.A.I. .A.32.31 I. Used Design Irrigation per Month Monthly Excess inches inches 2.79 -2.67 2.48 -1.42 2.75 -2.28 2.49 2.22 2.64 1.65 2.61 0.96 2.68 1.88 2.80 .1.43 2.54 3.00 2.77 -1.86 2.57 1.29 2.74 Storage Actual Required for Monthly Irrigation Irrigation Rate Click the "CALCULATE" button after making changes. inches inches FYI 4.13 0.12 5.54 1.06 7.82 0.47 5.60� 4.72 3.96� 4.28 3.00l 3.56 1.12I 4.56 r2.55i 1.38 r I 0.00 I 5.09 1.86 0.91 0.57 I 3.86 �__1_45 _� 1.86 31.86 I �i 31.86 Maximum Monthly Storage Required for the Irrigation of Zone 4: inches acres gallons 7.82 over 1.07 = 227,276 Version 5 December 2004 Soils and Water Balance for Zone 5 Soils Series Information for Zone 5 Potential site limitations Water table depth risk of Is bedrock < Zone 5 Description: Series Name Drainage class (BLS) perching 60, BLS ? BLS = below land surface Calculate Soil Drainage Norfolk well >3.0 low no Step 1 Step 2 1 f x Ksat I� n-situ saturated vertical Soil Drainage hydraulic conductivity Drainage (Ksat) factor (f) Rate in/hr inlday percent in/day 0.075 1.80 0.080 0.14 Note: Soils information obtained from soils report by Shaffer Soil Services, Inc., dated February 4, 2012 Month Days per month PET Zone 5 Soil Drainage Zone 5 Total Loss Precip inches inches inches inches January 31 0.27 4.46 4.74 4.62 February 28 0.48 4.03 4.51 3.44 March 31 1.24 4.46 5.70 5.23 April 30 2.50 4.32 6.82 2.10 May 31 4.16 4.46 8.62 4.34 June 30 5.46 4.32 9.78 6.22 July 31 6.27 4.46 10.73 6.17 August 31 5.76 4.46 10.22 8.84 September 30 4.13 4.32 8.45 2.91 October 31 2.33 4.46 6.79 5.88 November 30 1.06 4.32 5.38 1.52 December 31 0.46 4.46 1 4.92 3.06 Totals: 365 34.09 52.56 86.65 54.34 Water Balance.xls Z5 i °OoEES���,.9� A'A,,, Calculated Maximum Allowable Irrigation inches 0.12 1.06 0.47 4.72 4.28 3.56 4.56 1.38 5.54 0.91 3.86 1.86 Copied from Influent & Zones Setup Sheet: Daily Flow = 2,820 gals/day Zone 5 Area = 1.19 acres Zone 5 Zone 5 Actual Used Cummulative Manual Override Maximum Allowable Irrigation Maximum Allowable Irrigation inches inches 0.12 1.06 0.47 4.72 4.28 3.56 4.56 1.38 5.54 0.91 3.86 1.86 Calc. MA.I. Manual M.A.I. .A.32.31 I. Used Design Irrigation per Month Monthly Excess inches inches 2.79 -2.67 2.48 -1.42 2.75 -2.28 2.49 2.22 2.64 1.65 2.61 0.96 2.68 1.88 2.80 .1.43 2.54 3.00 2.77 -1.86 2.57 1.29 2.74 Storage Actual Required for Monthly Irrigation Irrigation Rate Click the "CALCULATE" button after making changes. inches inches FYI 4.13 0.12 5.54 1.06 7.82 0.47 5.60� 4.72 3.96� 4.28 3.00l 3.56 1.12I 4.56 r2.55i 1.38 r I 0.00 I 5.09 1.86 0.91 0.57 I 3.86 �__1_45 _� 1.86 31.86 I �i 31.86 Maximum Monthly Storage Required for the Irrigation of Zone 5: inches acres gallons 7.82 over 1.19 - 252,765 Version 5 December 2004 2AZi-7 _ 6 Soils and Water Balance for Zone 6 Soils Series Information for Zone 6 Potential site limitations Water table depth risk of Is bedrock < Zone 6 Description: Series Name Drainage class (BLS) perching 60, BLS ? BLS = below land surface Calculate Soil Drainage Norfolk well >3.0 low no Step 1 Step 2 1 f x Ksat I� n-situ saturated vertical Soil Drainage hydraulic conductivity Drainage (Ksat) factor (f) Rate in/hr inlday percent in/day 0.075 1.80 0.080 0.14 Note: Soils information obtained from soils report by Shaffer Soil Services, Inc., dated February 4, 2012 Month Days per month PET Zone 6 Soil Drainage Zone 6 Total Loss Precip inches inches inches inches January 31 0.27 4.46 4.74 4.62 February 28 0.48 4.03 4.51 3.44 March 31 1.24 4.46 5.70 5.23 April 30 2.50 4.32 6.82 2.10 May 31 4.16 4.46 8.62 4.34 June 30 5.46 4.32 9.78 6.22 July 31 6.27 4.46 10.73 6.17 August 31 5.76 4.46 10.22 8.84 September 30 4.13 4.32 8.45 2.91 October 31 2.33 4.46 6.79 5.88 November 30 1.06 4.32 5.38 1.52 December 31 0.46 4.46 4.92 3.06 Totals: 365 34.09 52.56 86.65 54.34 Water Balance.xls Z6 ,,,o`'.�N CARD'' Fs,�,....,, Es Calculated Maximum Allowable Irrigation inches 0.12 1.06 0.47 4.72 4.28 3.56 4.56 1.38 5.54 0.91 3.86 1.86 Copied from Influent & Zones Setup Sheet: Daily Flow = 2,773 gals/day Zone 6 Area = 1.17 acres Zone 6 Zone 6 Actual Used Cummulative Manual Override Maximum Allowable Irrigation Maximum Allowable Irrigation inches inches 0.12 1.06 0.47 4.72 4.28 3.56 4.56 1.38 5.54 0.91 3.86 1.86 Calc. MAT Manual M.A.I. A.I. Used32.31 Design Irrigation per Month Monthly Excess inches inches 2.79 -2.67 2.48 -1.42 2.75 -2.28 2.49 2.22 2.64 1.65 2.61 0.96 2.68 1.88 2.80 -1.43 2.54 3.00 2.77 -1.86 2.57 1.29 2.74 Storage Actual Required for Monthly Irrigation Irrigation Rate Click the "CALCULATE" button after making changes. inches inches FYI 4.13 0.12 5.54 1.06 7.82 0.47 5.60� 4.72 3.96� 4.28 3.00l 3.56 1.12I 4.56 r 55 1.38 r I 0.00 I 5.09 1.86 0.91 0.57 I 3.86 �__1_45 _ 1.86 31.86 I �i 31.86 Maximum Monthly Storage Required for the Irrigation of Zone 6: inches acres gallons 7.82 over 1.17 = 248,517 Version 5 December 2004 ?0Lo-7- 6 Soils and Water Balance for Zone 7 Soils Series Information for Zone 7 Potential site limitations Water table depth risk of Is bedrock < Zone 7 Description: Series Name Drainage class (BLS) perching 60, BLS ? BLS = below land surface Calculate Soil Drainage Norfolk well >3.0 low no Step 1 Step 2 1 f x Ksat I� n-situ saturated vertical Soil Drainage hydraulic conductivity Drainage (Ksat) factor (f) Rate in/hr inlday percent in/day 0.075 1.80 0.080 0.14 Note: Soils information obtained from soils report by Shaffer Soil Services, Inc., dated February 4, 2012 Month Days per month PET Zone 7 Soil Drainage Zone 7 Total Loss Precip inches inches inches inches January 31 0.27 4.46 4.74 4.62 February 28 0.48 4.03 4.51 3.44 March 31 1.24 4.46 5.70 5.23 April 30 2.50 4.32 6.82 2.10 May 31 4.16 4.46 8.62 4.34 June 30 5.46 4.32 9.78 6.22 July 31 6.27 4.46 10.73 6.17 August 31 5.76 4.46 10.22 8.84 September 30 4.13 4.32 8.45 2.91 October 31 2.33 4.46 6.79 5.88 November 30 1.06 4.32 5.38 1.52 December 31 0.46 4.46 4.92 3.06 Totals: 365 34.09 52.56 86.65 54.34 Water Balance.xls Z7 ,,,o`'.�N CARD" Es Calculated Maximum Allowable Irrigation inches 0.12 1.06 0.47 4.72 4.28 3.56 4.56 1.38 5.54 0.91 3.86 1.86 Copied from Influent & Zones Setup Sheet: Daily Flow = 2,489 gals/day Zone 7 Area = 1.05 acres Zone 7 Zone 7 Actual Used Cummulative Manual Override Maximum Allowable Irrigation Maximum Allowable Irrigation inches inches 0.12 1.06 0.47 4.72 4.28 3.56 4.56 1.38 5.54 0.91 3.86 1.86 Calc. MAT Manual M.A.I. A.I. Used32.31 Design Irrigation per Month Monthly Excess inches inches 2.79 -2.67 2.48 -1.42 2.75 -2.28 2.49 2.22 2.64 1.65 2.61 0.96 2.68 1.88 2.80 -1.43 2.54 3.00 2.77 -1.86 2.57 1.29 2.74 Storage Actual Required for Monthly Irrigation Irrigation Rate Click the "CALCULATE" button after making changes. inches inches FYI 4.13 0.12 5.54 1.06 7.82 0.47 5.60� 4.72 3.96� 4.28 3.00l 3.56 1.12I 4.56 r 55 1.38 r I 0.00 I 5.09 1.86 0.91 0.57 I 3.86 �__1_45 _ 1.86 31.86 I �i 31.86 Maximum Monthly Storage Required for the Irrigation of Zone 7: inches acres gallons 7.82 over 1.05 - 223,028 Version 5 December 2004 2AZu-1-� Soils and Water Balance for Zone 8 Soils Series Information for Zone 8 Potential site limitations Water table depth risk of Is bedrock < Zone 8 Description: Series Name Drainage class (BLS) perching 60, BLS ? BLS = below land surface Calculate Soil Drainage Norfolk well >3.0 low no Step 1 Step 2 1 f x Ksat I� n-situ saturated vertical Soil Drainage hydraulic conductivity Drainage (Ksat) factor (f) Rate in/hr inlday percent in/day 0.075 1.80 0.080 0.14 Note: Soils information obtained from soils report by Shaffer Soil Services, Inc., dated February 4, 2012 Month Days per month PET Zone 8 Soil Drainage Zone 8 Total Loss Precip inches inches inches inches January 31 0.27 4.46 4.74 4.62 February 28 0.48 4.03 4.51 3.44 March 31 1.24 4.46 5.70 5.23 April 30 2.50 4.32 6.82 2.10 May 31 4.16 4.46 8.62 4.34 June 30 5.46 4.32 9.78 6.22 July 31 6.27 4.46 10.73 6.17 August 31 5.76 4.46 10.22 8.84 September 30 4.13 4.32 8.45 2.91 October 31 2.33 4.46 6.79 5.88 November 30 1.06 4.32 5.38 1.52 December 31 0.46 4.46 4.92 3.06 Totals: 365 34.09 52.56 86.65 54.34 Water Balance.xls Z8 ,,,•.�N CARD''%, Calculated Maximum Allowable Irrigation inches 0.12 1.06 0.47 4.72 4.28 3.56 4.56 1.38 5.54 0.91 3.86 1.86 Copied from Influent & Zones Setup Sheet: Daily Flow = 2,963 gals/day Zone 8 Area = 1.25 acres Zone 8 Zone 8 Actual Used Cummulative Manual Override Maximum Allowable Irrigation Maximum Allowable Irrigation inches inches 0.12 1.06 0.47 4.72 4.28 3.56 4.56 1.38 5.54 0.91 3.86 1.86 Calc. MAT Manual M.A.I. A.I. Used32.31 Design Irrigation per Month Monthly Excess inches inches 2.79 -2.67 2.48 -1.42 2.75 -2.28 2.49 2.22 2.64 1.65 2.61 0.96 2.68 1.88 2.80 -1.43 2.54 3.00 2.77 -1.86 2.57 1.29 2.74 Storage Actual Required for Monthly Irrigation Irrigation Rate Click the "CALCULATE" button after making changes. inches inches FYI 4.13 0.12 5.54 1.06 7.82 0.47 5.60� 4.72 3.96� 4.28 3.00l 3.56 1.12I 4.56 r 55 1.38 r I 0.00 I 5.09 1.86 0.91 0.57 I 3.86 �__1_45 _ 1.86 31.86 I �i 31.86 Maximum Monthly Storage Required for the Irrigation of Zone 8: inches acres gallons 7.82 over 1.25 - 265,509 Version 5 December 2004 2.0Lo-7-� Soils and Water Balance for Zone 9 Soils Series Information for Zone 9 Potential site limitations Water table depth risk of Is bedrock < Zone 9 Description: Series Name Drainage class (BLS) perching 60, BLS ? BLS = below land surface Calculate Soil Drainage Norfolk well >3.0 low no Step 1 Step 2 1 f x Ksat I� n-situ saturated vertical Soil Drainage hydraulic conductivity Drainage (Ksat) factor (f) Rate in/hr inlday percent in/day 0.075 1.80 0.080 0.14 Note: Soils information obtained from soils report by Shaffer Soil Services, Inc., dated February 4, 2012 Month Days per month PET Zone 9 Soil Drainage Zone 9 Total Loss Precip inches inches inches inches January 31 0.27 4.46 4.74 4.62 February 28 0.48 4.03 4.51 3.44 March 31 1.24 4.46 5.70 5.23 April 30 2.50 4.32 6.82 2.10 May 31 4.16 4.46 8.62 4.34 June 30 5.46 4.32 9.78 6.22 July 31 6.27 4.46 10.73 6.17 August 31 5.76 4.46 10.22 8.84 September 30 4.13 4.32 8.45 2.91 October 31 2.33 4.46 6.79 5.88 November 30 1.06 4.32 5.38 1.52 December 31 0.46 4.46 1 4.92 3.06 Totals: 365 34.09 52.56 86.65 54.34 Water Balance.xls Z9 ,,,•.�N CARO�'�%, ESSIpN'`ti.9 Calculated Maximum Allowable Irrigation inches 0.12 1.06 0.47 4.72 4.28 3.56 4.56 1.38 5.54 0.91 3.86 1.86 Copied from Influent & Zones Setup Sheet: Daily Flow = 2,370 gals/day Zone 9 Area = 1.00 acres Zone 9 Zone 9 Actual Used Cummulative Manual Override Maximum Allowable Irrigation Maximum Allowable Irrigation inches inches 0.12 1.06 0.47 4.72 4.28 3.56 4.56 1.38 5.54 0.91 3.86 1.86 Calc. MA.I. Manual M.A.I. .A.32.31 I. Used Design Irrigation per Month Monthly Excess inches inches 2.79 -2.67 2.48 -1.42 2.75 -2.28 2.49 2.22 2.64 1.65 2.61 0.96 2.68 1.88 2.80 .1.43 2.54 3.00 2.77 -1.86 2.57 1.29 2.74 Storage Actual Required for Monthly Irrigation Irrigation Rate Click the "CALCULATE" button after making changes. inches inches FYI 4.13 0.12 5.54 1.06 7.82 0.47 5.60� 4.72 3.96� 4.28 3.00l 3.56 1.12I 4.56 r2.55i 1.38 r I 0.00 I 5.09 1.86 0.91 0.57 I 3.86 �__1_45 _� 1.86 31.86 I �i 31.86 Maximum Monthly Storage Required for the Irrigation of Zone 9: inches acres gallons 7.82 over 1.00 = 212,407 Version 5 December 2004 L U 7-6 Soils and Water Balance for Zone 10 Soils Series Information for Zone 10 Potential site limitations Water table depth risk of Is bedrock < Zone 10 Description: Series Name Drainage class (BLS) perching 60" BLS ? BLS = below land surface Calculate Soil Drainage Goldsboro mod well 2.0-3.0 low no Step 1 Step 2 f x Ksat I� n-situ saturated vertical Soil E Drainage hydraulic conductivity Drainage (Ksat) factor (f) Rate in/hr i�nlda�y percent in/day 0.041 I 0.98 I 0.100 0.10 Note: Soils information obtained from soils report by Shaffer Soil Services, Inc., dated February 4, 2012 Month Days per month PET Zone 10 Soil Drainage Zone 10 Total Loss Precip inches inches inches inches January 31 0.27 3.05 3.32 4.62 February 28 0.48 2.76 3.23 3.44 March 31 1.24 3.05 4.29 5.23 April 30 2.50 2.95 5.45 2.10 May 31 4.16 3.05 7.21 4.34 June 30 5.46 2.95 8.41 6.22 July 31 6.27 3.05 9.32 6.17 August 31 5.76 3.05 8.81 8.84 September 30 4.13 2.95 7.08 2.91 October 31 2.33 3.05 5.38 5.88 November 30 1.06 2.95 4.01 1.52 December 31 0.46 1 3.05 3.51 3.06 Totals: 365 34.09 35.92 70.01 54.34 Water Balance.xls Z10 CA Q oEEs Calculated Maximum Allowable Irrigation inches 0.00 0.00 0.00 3.35 2.87 2.19 3.14 0.00 4.17 0.00 2.49 0.44 Copied from Influent & Zones Setup Sheet: Daily Flow = 1,998 gals/day Zone 10 Area = 1.46 acres Zone 10 Zone 10 Actual Used Cummulative Manual Override Maximum Allowable Irrigation Maximum Allowable Irrigation inches inches 0.00 0.00 0.00 3.35 2.87 2.19 3.14 0.00 4.17 0.00 2.49 0.44 Calc. MA.I. Manual M.A.I. M.A.I. UsEd�=] Design Irrigation per Month Monthly Excess inches inches 1.61 -1.61 1.43 -1.43 1.59 -1.59 1.44 1.91 1.52 1.35 1.50 0.69 1.55 1.601 1.62 -.62 1.47 2.71 1.60 -1.60 1.48 1.01 1.58 1.14 Storage Actual Required for Monthly Irrigation Irrigation Rate Click the "CALCULATE" button after making changes. inches inches FYI 3.34 0.00 4.78 0.00 6.36I 0.00 4.46 3.35 3.11� 2.87 2.42l 2.19 0.83I 3.14 , 44 0.00 r I 0.00 I 3.91 1.60 0.00 0.59 I 2.49 73 I__1__J 0.44 18.40 'a18.40 Maximum Monthly Storage Required for the Irrigation of Zone 10: inches acres gallons s.36 over 1.4s - 252,261 - Version 5 December 2004 ULD-7-6 Soils and Water Balance for Zone 11 Zone 11 Description: Calculate Soil Drainage Step 1 j Step 2 1 f x Ksat n-situ saturated vertical Soil Drainage hydraulic conductivity factor (f) Drainage (Ksat) Rate in/hr inlday percent in/day :i]Uib� Itilf:Ii71 t�]URI�71t�71'it3! Note: Soils information obtained from soils report by Shaffer Soil Services, Inc., dated February 4, 2012 Zone 11 Zone 11 Days per Month PET Soil Total Precip month Drainage Loss inches inches inches inches January 31 0.27 4.46 4.74 4.62 February 28 0.48 4.03 4.51 3.44 March 31 1.24 4.46 5.70 5.23 April 30 2.50 4.32 6.82 2.10 May 31 4.16 4.46 8.62 4.34 June 30 5.46 4.32 9.78 6.22 July 31 6.27 4.46 10.73 6.17 August 31 5.76 4.46 10.22 8.84 September 30 4.13 4.32 8.45 2.91 October 31 2.33 4.46 6.79 5.88 November 30 1.06 4.32 5.38 1.52 December 31 0.46 4.46 4.92 3.06 Totals: 365 34.09 52.56 86.65 54.34 Soils Series Information for Zone 11 Potential site limitations Water table depth risk of Is bedrock < Series Name Drainage class (BLS) perching 60" BLS ? BLS = below land surface Norfolk well >3.0 low no Copied from Influent & Zones Setup Sheet: Daily Flow = 3,389 gals/day Zone 11 Area = 1.43 acres Zone 11 Zone 11 Calculated Maximum Allowable Irrigation Manual Override Maximum Allowable Irrigation Actual Used Maximum Allowable Irrigation inches inches inches 0.12 0.12 1.06 1.06 0.47 0.47 4.72 4.72 4.28 4.28 3.56 3.56 4.56 4.56 1.38 1.38 5.54 5.54 0.91 0.91 3.86 3.86 1.86 1.86 r-RMnual M.A.I. I M.A.I. Used Cummulative Storage Actual Required for Monthly Design Irrigation Monthly Irrigation Irrigation Rate per Month Excess Click the "CALCULATE" button after making changes. inches inches inches inches FYI 2.79 -2.67 4.13 0.12 2.48 -1.42 1 5.54 1.06 2.75 -2.28 �� 0.47 2.49 2.22 5.660 4.72 2.64 1.65 3.996 4.28 2.61 0.96 3.000 3.56 2.68 1.88 1.12 4.56 2.80 -1.43 r 2.55 t 1.38 2.54 3.00 I 0.00 r I 5.09 2.77 -1.86 1 1.86 j 0.91 2.57 1.29 I 0.57 I 3.86 2.74 0.88 L t.45- -1 1.66 31.86 ,i 31.86 Maximum Monthly Storage Required for the Irrigation of Zone 11: inches acres gallons 7.82 over 1.43 = 303,743 Version 5 December 2004 Water Balance.xls Z11 i Soils and Water Balance for Zone 12 Zone 12 Description: Calculate Soil Drainage Step 1 j Step 2 1 f x Ksat n-situ saturated vertical Soil Drainage hydraulic conductivity factor (f) Drainage (Ksat) Rate in/hr inlday percent in/day :i]Uib� Itilf:Ii71 t�]URI�71t�71'it3! Note: Soils information obtained from soils report by Shaffer Soil Services, Inc., dated February 4, 2012 Zone 12 Zone 12 Days per Month PET Soil Total Precip month Drainage Loss inches inches inches inches January 31 0.27 4.46 4.74 4.62 February 28 0.48 4.03 4.51 3.44 March 31 1.24 4.46 5.70 5.23 April 30 2.50 4.32 6.82 2.10 May 31 4.16 4.46 8.62 4.34 June 30 5.46 4.32 9.78 6.22 July 31 6.27 4.46 10.73 6.17 August 31 5.76 4.46 10.22 8.84 September 30 4.13 4.32 8.45 2.91 October 31 2.33 4.46 6.79 5.88 November 30 1.06 4.32 5.38 1.52 December 31 0.46 4.46 4.92 3.06 Totals: 365 34.09 52.56 86.65 54.34 Soils Series Information for Zone 12 Potential site limitations Water table depth risk of Is bedrock < Series Name Drainage class (BLS) perching 60" BLS ? BLS = below land surface Norfolk well >3.0 low no Copied from Influent & Zones Setup Sheet: Daily Flow = 2,915 gals/day Zone 12 Area = 1.23 acres Zone 12 Zone 12 Calculated Maximum Allowable Irrigation Manual Override Maximum Allowable Irrigation Actual Used Maximum Allowable Irrigation inches inches inches 0.12 0.12 1.06 1.06 0.47 0.47 4.72 4.72 4.28 4.28 3.56 3.56 4.56 4.56 1.38 1.38 5.54 5.54 0.91 0.91 3.86 3.86 1.86 1.86 r-RMnual M.A.I. I M.A.I. Used Cummulative Storage Actual Required for Monthly Design Irrigation Monthly Irrigation Irrigation Rate per Month Excess Click the "CALCULATE" button after making changes. inches inches inches inches FYI 2.79 -2.67 4.13 0.12 2.48 -1.42 1 5.54 1.06 2.75 -2.28 �� 0.47 2.49 2.22 5.660 4.72 2.64 1.65 3.996 4.28 2.61 0.96 3.000 3.56 2.68 1.88 1.12 4.56 2.80 -1.43 r 2.55 t 1.38 2.54 3.00 I 0.00 r I 5.09 2.77 -1.86 1 1.86 j 0.91 2.57 1.29 I 0.57 I 3.86 2.74 0.88 L t.45- -1 1.66 31.86 ,i 31.86 Maximum Monthly Storage Required for the Irrigation of Zone 12: inches acres gallons 7.82 over 1.23 = 261,261 Version 5 December 2004 Water Balance.xls Z12 2OLP -7 - i Soils and Water Balance for Zone 13 Zone 13 Description: Calculate Soil Drainage Step 1 j Step 2 1 f x Ksat n-situ saturated vertical Soil Drainage hydraulic conductivity factor (f) Drainage (Ksat) Rate in/hr inlday percent in/day :i]Uib� Itilf:Ii71 t�]URI�71t�76t3! Note: Soils information obtained from soils report by Shaffer Soil Services, Inc., dated February 4, 2012 Zone 13 Zone 13 Days per Month PET Soil Total Precip month Drainage Loss inches inches inches inches January 31 0.27 4.46 4.74 4.62 February 28 0.48 4.03 4.51 3.44 March 31 1.24 4.46 5.70 5.23 April 30 2.50 4.32 6.82 2.10 May 31 4.16 4.46 8.62 4.34 June 30 5.46 4.32 9.78 6.22 July 31 6.27 4.46 10.73 6.17 August 31 5.76 4.46 10.22 8.84 September 30 4.13 4.32 8.45 2.91 October 31 2.33 4.46 6.79 5.88 November 30 1.06 4.32 5.38 1.52 December 31 0.46 4.46 4.92 3.06 Totals: 365 34.09 52.56 86.65 54.34 Water Balance.xls Z13 man P. CAP! 'rrrnunrr" 7-6 Soils Series Information for Zone 13 Potential site limitations Water table depth risk of Is bedrock < Series Name Drainage class (BLS) perching 60" BLS ? BLS = below land surface Norfolk well >3.0 low no Copied from Influent & Zones Setup Sheet: Daily Flow = 5,190 gals/day Zone 13 Area = 2.19 acres Zone 13 Zone 13 Actual Used Cummulative Calculated Maximum Allowable Irrigation Manual Override Maximum Allowable Irrigation Maximum Allowable Irrigation inches inches inches 0.12 0.12 1.06 1.06 0.47 0.47 4.72 4.72 4.28 4.28 3.56 3.56 4.56 4.56 1.38 1.38 5.54 5.54 0.91 0.91 3.86 3.86 1.86 1.86 r-RMnual M.A.I. I M.A.I. Used Design Irrigation per Month Monthly Excess inches inches 2.79 -2.67 2.48 -1.42 2.75 -2.28 2.49 2.22 2.64 1.65 2.61 0.96 2.68 1.88 2.80 -1.43 2.54 3.00 2.77 -1.86 2.57 1.29 2.74 0.88 31.86 Storage Actual Required for Monthly Irrigation Irrigation Rate Click the "CALCULATE" button after making changes. inches inches FYI 4.13 0.12 5.54 1.06 F 7 '! 0.47 5.660 4.72 3.996 4.28 3.000 3.56 1.12 4.56 r 2.55 t 1.3838 I 0.00 r I 5.09 1.86j 0.91 L 0.577 3.86 L 1.45 1.66 ,a 31.66 Maximum Monthly Storage Required for the Irrigation of Zone 13: inches acres gallons 7.82 over 2.19 = 465,172 Version 5 December 2004 Soils and Water Balance for Zone 14E Zone 14E Description: Calculate Soil Drainage Step 1 j Step 2 1 f x Ksat In -situ saturated vertical Soil Drainage hydraulic conductivity Drainage (Ksat) factor (f) Rate in/hr in/day percent in/day 0.081 1.94 0.080 0.16 Note: Soils information obtained from soils report by Shaffer Soil Services, Inc., dated February 4, 2012 Zone 14E Zone 14E Days per Month PET Soil Total Precip month Drainage Loss inches inches inches inches January 31 0.27 4.82 5.09 4.62 February 28 0.48 4.35 4.83 3.44 March 31 1.24 4.82 6.06 5.23 April 30 2.50 4.67 7.16 2.10 May 31 4.16 4.82 8.98 4.34 June 30 5.46 4.67 10.12 6.22 July 31 6.27 4.82 11.09 6.17 August 31 5.76 4.82 10.58 8.84 September 30 4.13 4.67 8.79 2.91 October 31 2.33 4.82 7.15 5.88 November 30 1.06 4.67 5.72 1.52 December 31 0.46 4.82 5.28 3.06 Totals: 365 34.09 56.76 90.86 54.34 Soils Series Information for Zone 14E Potential site limitations Water table depth risk of Is bedrock < Series Name Drainage class (BLS) perching 60" BLS ? BLS = below land surface Norfolk well >3.0 low no Goldshoro mod well 2.0-3.0 low no Copied from Influent & Zones Setup Sheet: Daily Flow = 36,775 gals/day Zone 14E Area = 13.73 acres Zone 14E Zone 14E Actual Used Cummulative Calculated Maximum Allowable Irrigation Manual Override Maximum Allowable Irrigation Maximum Allowable Irrigation inches inches inches 0.48 0.48 1.39 1.39 0.82 0.82 5.06 5.06 4.64 4.64 3.91 3.91 4.91 4.91 1.73 1.73 5.89 5.89 1.27 1.27 4.20 4.20 2.21 2.21 Manual M.A.I. I M.A.I. Used EEEE�--� Design Irrigation per Month Monthly Excess inches inches 3.16 -2.68 2.80 -1.42 3.10 -2.28 2.82 2.24 2.98 1.66 2.94 0.96 3.03 1.89 3.17 -1.43 2.87 3.01 3.13 -1.86 2.90 1.30 3.10 0.88 36.01 Storage Actual Required for Monthly Irrigation Irrigation Rate Click the "CALCULATE" button after making changes. inches inches 4.12 0.48 5.54 1.39 F 7.882 0.82 5.558 5.06 3.992 4.64 2.996 3.91 4.91 r 2.50 t 1.73 I 0.00 r I 5.38 1.866 1.27 L 0.566 4.20 t.44 L� --1 2.21 36.01 'a Maximum Monthly Storage Required for the Irrigation of Zone 14E: inches acres gallons 7.82 over 13.73 = 2,915,764 Version 5 December 2004 Water Balance.xls Z14E ?A2o-')-6 Soils and Water Balance for Zone 14W Zone 14W Description: Calculate Soil Drainage Step 1 j Step 2 1 f x Ksat In -situ saturated vertical Soil Drainage hydraulic conductivity Drainage (Ksat) factor (f) Rate in/hr inlday percent in/day 0.081 1.94 0.080 0.16 Note: Soils information obtained from soils report by Shaffer Soil Services, Inc., dated February 4, 2012 Zone 14W Zone 14W Days per Month PET Soil Total Precip month Drainage Loss inches inches inches inches January 31 0.27 4.82 5.09 4.62 February 28 0.48 4.35 4.83 3.44 March 31 1.24 4.82 6.06 5.23 April 30 2.50 4.67 7.16 2.10 May 31 4.16 4.82 8.98 4.34 June 30 5.46 4.67 10.12 6.22 July 31 6.27 4.82 11.09 6.17 August 31 5.76 4.82 10.58 8.84 September 30 4.13 4.67 8.79 2.91 October 31 2.33 4.82 7.15 5.88 November 30 1.06 4.67 5.72 1.52 December 31 0.46 4.82 5.28 3.06 Totals: 365 34.09 56.76 90.86 54.34 Soils Series Information for Zone 14W Potential site limitations Water table depth risk of Is bedrock < Series Name Drainage class (BLS) perching 60" BLS ? BLS = below land surface Norfolk well >3.0 low no Goldshoro mod well 2.0-3.0 low no Copied from Influent & Zones Setup Sheet: Daily Flow = 20,624 gals/day Zone 14W Area = 7.70 acres Zone 14W Zone 14W Actual Used Cummulative Calculated Maximum Allowable Irrigation Manual Override Maximum Allowable Irrigation Maximum Allowable Irrigation inches inches inches 0.48 0.48 1.39 1.39 0.82 0.82 5.06 5.06 4.64 4.64 3.91 3.91 4.91 4.91 1.73 1.73 5.89 5.89 1.27 1.27 4.20 4.20 2.21 2.21 Manual M.A.I. I M.A.I. Used EEEE�--� Design Irrigation per Month Monthly Excess inches inches 3.16 -2.68 2.80 -1.42 3.10 -2.28 2.82 2.24 2.98 1.66 2.94 0.96 3.03 1.89 3.17 -1.43 2.87 3.01 3.13 -1.86 2.90 1.30 3.10 0.88 36.01 Storage Actual Required for Monthly Irrigation Irrigation Rate Click the "CALCULATE" button after making changes. inches inches FYI 4.12 0.48 5.54 1.39 F 7.882 0.82 5.558 5.06 3.992 4.64 2.996 3.91 4.91 r 2.50 t 1.73 I 0.00 r I 5.38 j 1.86 jj 1.27 L 0.566 4.20 t.44 L� --1 2.21 36.01 'a Maximum Monthly Storage Required for the Irrigation of Zone 14W: inches acres gallons 7.82 over ?•70 = 1,635,206 Version 5 December 2004 Water Balance.xls Z14W ZOZO-7-6 Soils and Water Balance for Zone 15 Zone 15 Description: Calculate Soil Drainage Step 1 j Step 2 1 f x Ksat n-situ saturated vertical Soil Drainage hydraulic conductivity factor (f) Drainage (Ksat) Rate in/hr inlday percent in/day :i]Uib� Itilf:Ii71 t�]URI�71t�76t3! Note: Soils information obtained from soils report by Shaffer Soil Services, Inc., dated February 4, 2012 Zone 15 Zone 15 Days per Month PET Soil Total Precip month Drainage Loss inches inches inches inches January 31 0.27 4.46 4.74 4.62 February 28 0.48 4.03 4.51 3.44 March 31 1.24 4.46 5.70 5.23 April 30 2.50 4.32 6.82 2.10 May 31 4.16 4.46 8.62 4.34 June 30 5.46 4.32 9.78 6.22 July 31 6.27 4.46 10.73 6.17 August 31 5.76 4.46 10.22 8.84 September 30 4.13 4.32 8.45 2.91 October 31 2.33 4.46 6.79 5.88 November 30 1.06 4.32 5.38 1.52 December 31 0.46 4.46 4.92 3.06 Totals: 365 34.09 52.56 86.65 54.34 fES 0 0 = Q %'•:�HGINES ' • c: •P....• P15 ; '•�rrrr�rrrC'rA r��, Water Balance.xls Z15 U LO _'7- 6 Soils Series Information for Zone 15 Potential site limitations Water table depth risk of Is bedrock < Series Name Drainage class (BLS) perching 60" BLS ? BLS = below land surface Norfolk well >3.0 low no Copied from Influent & Zones Setup Sheet: Daily Flow = 1,730 gals/day Zone 15 Area = 0.73 acres Zone 15 Zone 15 Actual Used Cummulative Calculated Maximum Allowable Irrigation Manual Override Maximum Allowable Irrigation Maximum Allowable Irrigation inches inches inches 0.12 0.12 1.06 1.06 0.47 0.47 4.72 4.72 4.28 4.28 3.56 3.56 4.56 4.56 1.38 1.38 5.54 5.54 0.91 0.91 3.86 3.86 1.86 1.86 r-RMnual M.A.I. I M.A.I. Used Design Irrigation per Month Monthly Excess inches inches 2.79 -2.67 2.48 -1.42 2.75 -2.28 2.49 2.22 2.64 1.65 2.61 0.96 2.68 1.88 2.80 -1.43 2.54 3.00 2.77 -1.86 2.57 1.29 2.74 0.88 31.86 Storage Actual Required for Monthly Irrigation Irrigation Rate Click the "CALCULATE" button after making changes. inches inches FYI 4.13 0.12 5.54 1.06 F 7 '! 0.47 5.660 4.72 3.996 4.28 3.000 3.56 1.12 4.56 r 2.55 , 1.3838 I 0.00 r I 5.09 1.86j 0.91 L 0.577 3.86 L 1.45 1.66 ,a 31.66 Maximum Monthly Storage Required for the Irrigation of Zone 15: inches acres gallons 7.82 over 0.73 = 1s5,0s7 Version 5 December 2004 Soils and Water Balance for Zone 16 Zone 16 Description: Calculate Soil Drainage Step 1 j Step 2 1 f x Ksat In -situ saturated vertical Soil Drainage hydraulic conductivity Drainage (Ksat) factor (f) Rate in/hr inlday percent in/day 0.041 0.98 0.100 0.10 Note: Soils information obtained from soils report by Shaffer Soil Services, Inc., dated February 4, 2012 Zone 16 Zone 16 Days per Month PET Soil Total Precip month Drainage Loss inches inches inches inches January 31 0.27 3.05 3.32 4.62 February 28 0.48 2.76 3.23 3.44 March 31 1.24 3.05 4.29 5.23 April 30 2.50 2.95 5.45 2.10 May 31 4.16 3.05 7.21 4.34 June 30 5.46 2.95 8.41 6.22 July 31 6.27 3.05 9.32 6.17 August 31 5.76 3.05 8.81 8.84 September 30 4.13 2.95 7.08 2.91 October 31 2.33 3.05 5.38 5.88 November 30 1.06 2.95 4.01 1.52 December 31 0.46 3.05 3.51 3.06 Totals: 365 34.09 35.92 70.01 54.34 ,,r,urrrrrrrur,q' ,•�`.�N CARD'%, N '• 9� Soils Series Information for Zone 16 Potential site limitations Water table depth risk of Is bedrock < Series Name Drainage class (BLS) perching 60" BLS ? BLS = below land surface mod well 2.0-3.0 low no Copied from Influent & Zones Setup Sheet: Daily Flow = 1,711 gals/day Zone 16 Area = 1.25 acres Zone 16 Zone 16 Actual Used Cummulative Calculated Maximum Allowable Irrigation Manual Override Maximum Allowable Irrigation Maximum Allowable Irrigation inches inches inches 0.00 0.00 0.00 0.00 0.00 0.00 3.35 3.35 2.87 2.87 2.19 2.19 3.14 3.14 0.00 0.00 4.17 4.17 0.00 0.00 2.49 2.49 0." 0.44 Design Irrigation per Month Monthly Excess inches inches 1.61 -1.61 1.43 -1.43 1.59 -1.59 1.44 1.91 1.52 1.35 1.50 0.69 1.55 1.60 1.62 -1.62 1.47 2.71 1.60 -1.60 1.48 1.01 1.58 1.14 c. M.A.I. Manual M.A.I. M.A.I. Used Calcs. Storage Actual Required for Monthly Irrigation Irrigation Rate Click the "CALCULATE" button after making changes. inches inches FYI 3.34 0.00 4.78 0.00 F 6.336 0.00 4.446 3.35 3.111 2.87 2.442 2.19 0.83 3.14 r 2.44 t 0.0000 I 0.00 r I 3.91 j 1.60 j 0.00 0.599 2.49 L 1.73- -1 0.44 'a18.40 Maximum Monthly Storage Required for the Irrigation of Zone 16: inches acres gallons 6.36 over 1.25 = 215,977 Version 5 December 2004 Water Balance.xls Z16 20to-1-t Soils and Water Balance for Zone 17 Zone 17 Description: Calculate Soil Drainage Step 1 j Step 2 1 f x Ksat n-situ saturated vertical Soil Drainage hydraulic conductivity factor (f) Drainage (Ksat) Rate in/hr inlday percent in/day a]ULx� Itilf�k71 t�]URI�71t�1t�k3 Note: Soils information obtained from soils report by Shaffer Soil Services, Inc., dated February 4, 2012 Zone 17 Zone 17 Days per Month PET Soil Total Precip month Drainage Loss inches inches inches inches January 31 0.27 2.56 2.83 4.62 February 28 0.48 2.31 2.79 3.44 March 31 1.24 2.56 3.80 5.23 April 30 2.50 2.48 4.97 2.10 May 31 4.16 2.56 6.72 4.34 June 30 5.46 2.48 7.93 6.22 July 31 6.27 2.56 8.82 6.17 August 31 5.76 2.56 8.32 8.84 September 30 4.13 2.48 6.60 2.91 October 31 2.33 2.56 4.89 5.88 November 30 1.06 2.48 3.54 1.52 December 31 0.46 2.56 3.02 3.06 Totals: 365 34.09 30.13 64.23 54.34 CA ' ES Soils Series Information for Zone 17 Potential site limitations Water table depth risk of Is bedrock < Series Name Drainage class (BLS) perching 60" BLS ? BLS = below land surface Lynchburg spoorly 1.5-<2.0 low no Copied from Influent & Zones Setup Sheet: Daily Flow = 922 gals/day Zone 17 Area = 0.82 acres Zone 17 Zone 17 Actual Used Cummulative Calculated Maximum Allowable Irrigation Manual Override Maximum Allowable Irrigation Maximum Allowable Irrigation inches inches inches 0.00 0.00 0.00 0.00 0.00 0.00 2.87 2.87 2.38 2.38 1.72 1.72 2.65 2.65 0.00 0.00 3.70 3.70 0.00 0.00 2.02 2.02 0.00 0.00 Manual M.A.I. I M.A.I. Used Design Irrigation per Month Monthly Excess inches inches 1.33 -1.33 1.18 -1.18 1.30 -1.30 1.18 1.69 1.25 1.13 1.24 0.48 1.27 1.38 1.33 -1.33 1.21 2.49 1.31 -1.31 1.22 0.80 1.30 -1.30 Calcs. Storage Actual Required for Monthly Irrigation Irrigation Rate Click the "CALCULATE" button after making changes. inches inches FYI 3.14 0.00 4.32 0.00 F 5.662 0.00 3.994 2.87 2.881 2.38 2.333 1.72 0.95 2.65 r 2.28 , 0.0000 I 0.00 r I 3.48 j 1.31 j 0.00 0.522 2.02 L t.82- -1 0.00 'a 15.12 Maximum Monthly Storage Required for the Irrigation of Zone 17: inches acres gallons s.6z over o.sz = 1zs,z3s Version 5 December 2004 Water Balance.xls Z17 fuu-I-6 Zonal Storage Summations OBJECT: To calculate the minimum wet weather storage required for a multiple zoned spray irrigation site. - ® - - - ® ® ® - ® - - ® ® - - - ® ® ® ® ' P. CA '''�r,rrrrrrr, ZOZu-�- Water Balance.xls Zonal Sums Version 5 December 2004 Minimum Required Storage (gallons) ---------- I- 8,570,560 Minimum Star 8,570,580 gallons divided by 99,080 d = I days FYI FYI Minimum Re uired Stora e ,111111111111/1,, ••••�`''(N CAROB''''% • oE��Ny� 9 6000 /'/1/111111111111•• Z.uLo-�-6 Water Balance.xls Zonal Sums Version 5 December 2004 5larr, r Soil Services, Inc. 685 Smilb d Road Pittsboro, NC 21312 slrM (919)542-5803 THE PORK COMPANY, INC. VILLARI LIVESTOCK PROCESSING FACILITY PERMIT NO, WQ0016376 DUPLIN COUNTY, N.C. FEBRUARY 5, 2012 SOIL AND HYDRAULIC CONDUCTIVITY STUDY EXISTING AND PROPOSED NEW IRRIGATION FIELDS �hojfer soil ,Serviu Inc;. 685 son ord Roctcl Pittsboro, NC 27312 919--542--580.3 sha - ersoils@ Qrnoil. com February 4, 2012 Mr. Sam Villari The Pork Company, Inc. 892 Penny Branch Road Warsaw, NC 28398 Subject: Proposed Spray Irrigation System Hydraulic Expansion Permit WQ0016376 S&1 Villari Livestock Processing Facility 0uplin County, NC This report discusses the findings of the field and data evaluation that was conducted at the subject permitted facility. The purpose of the evaluation was to determine if additional wastewater flow could be permitted on the site. A proposal for such was agreed upon, which included a thorough review of the past 3 years of system monitoring data including soils, monitoring wells, and wastewater effluent quality and quantity. Subsequent to the proposal, Mr. Villari added that several small areas currently not being irrigated should be evaluated for possible irrigation capacity. The first step consisted of review of company wastewater records. These records were presented by Gerald Matthews, the Operator in Responsible Charge (ORC) for the wastewater system. I would like to thank Gerald for his help during this study. The records are very well maintained, complete, and orderly and made the data review very easy to perform. I also appreciate Gerald helping me with site and system orientation and questions. His support was invaluable for this phase. Summary tables for the data are located in Appendix 1. GENERAL COMMENTS CONCERNING THIS WASTEWATER SYSTEM This section offers comments based on the data review for the system. 1) The wastewater quality shows plant available nitrogen averaging 0.95 pounds per thousand gallons, or about 114 mg/L of plant available nitrogen. This level of nitrogen indicates less than adequate wastewater treatment, and therefore is limiting the amount of wastewater that can be applied to the fields. The permit limit allows 300 Hounds plant available nitrogen per acre for hermudagrass and another 50 pounds for the winter cover crop, for a total of 350. The records review shows that this amount is consistently being applied, which equates to an average yearly flow in incites of 13.14 inches of wastewater. The solid set field is permitted for 45.33 inches per year. With increased wastewater treatment, a tremendous flow increase could be gained on the solid set area without any irrigation system expansion, The center pivot field is currently only permitted at 16 inches per year, and thus could receive additional wastewater flow to some degree. However, the data below supports a large Increase in volume to the center pivot field, should the wastewater nitrogen be reduced accordingly. The wastewater phosphorus level is at 26.34 pounds of phosphorus per thousand gallons. While the permit does not have a phosphorus limit, this is a very high phosphorus load to the fields. No additional fertilizer phosphorus should ever be added. Phosphorus is mainly only a concern in very sandy soils and areas of soil surface erosion, such as row crops. Neither of these situations occurs at this site, and thus phosphorus loss and the negative environmental consequences therein are expected to be minimal. A table in Appendix 1 is provided showing the summary of plant available nitrogen and phosphorus calculations for 2010 and 2011. Effluent characteristics are consistent for lagoon -treated wastewater. 2) The soils data were reviewed forthe most recent year. A tabular data copy of the summary is found in Appendix 1 along with the monitoring well summary. The soils data supports the use of agricultural lime in all zones except zones 2 and 12. Also note that the monitoring well pH is low which reflects somewhat the low soil pH. Nutrients overall appear in decent balance. No phosphorus or nitrogen should ever be added to the fields above that which comes from the wastewater. The zinc levels in all zones rate as very high, but of particular note is the zinc levels in zones 12, 13, and 14a. White these do not reflect any level of regulatory noncompliance, they are worth monitoring for crop health issues. yearly soil sampling is adequate to continue this monitoring. The exchangeable sodium percentage (ESP) as required in the permit was calculated. This data shows in the summary. There is no regulatory threshold for this parameter. The action level is 10 percent, and all fields are well below that except zone 2. This high level for zone 2 at 16.2 percent indicates that this field has had some additional sodium applications at some point. Repeated sampling will help track this condition. If repeated samples show a high ESP, the use of this field should be reduced. 3) Groundwater monitoring well data is summarized in tabular form in Appendix 1. The table uses pink highlights where levels of noncompliance or concern have occurred. a. The most consistent parameter for noncompliance is pH. This should be aided by the lime amendment to the soils as suggested above. b. There are erratic fecal coliform violations and 1 nitrate violation, along with several other higher nitrate levels that are highlighted in pink. The ORC is aware of these issues and is taking matters to address them. They are not specifically indicative of overapplication of wastewater or inability of the soils to handle the effluent. They are likewise not chromic and do not indicate system malfunction. SOILS AND CONDUCTIVITY MEASUREMENTS The second component of the study was conducted by field mapping the soils on the property- both the areas currently under irrigation and the areas that potentially could receive irrigation. A copy of the soils maps are found in Appendix 2. Also included is a copy of the USDA Web Soil Survey Map for this area, with legend. Following the web soil survey maps are the official soil series descriptions from USDA for the soils proposed for wastewater irrigation. The soils are in the fine loamy soil catena and range from the well -drained Norfolk soils to the very poorly drained Pantego soils, Both the poorly drained Rains soils and very poorly drained Pantego soils are not currently under irrigation nor are proposed to be placed under irrigation as the rules permitting wastewater irrigation (2T) do not allow this. One small site north of the existing wastewater lagoon consists of fill material from the original fine -loamy soils Under each soil map unit, saturated hydraulic conductivity (hereafter referred to as "Ksat") studies were performed to assess the site's potential for water movement from the additional wastewater. Each new area studies will be discussed individually, with supporting data. The site specific map for each proposed area follows the written section, All new areas discussed below are suitable for wastewater application with the prescribed rates and agronomic practices. The data from the conductivity measurements is used along with other site parameters to compose the site's hydraulic budget, or water balance. The water balance tool is located in Appendix 5. It defines the scope of water application for the entire project, along with specific inputs for each field based on soil type and the measured conductivity. It is the data located in each of zones 1 through 5 that will be shown below to support increasing the site's capacity. NEW AREA I To the northwest of the center pivot exists an area with irrigation potential. The soils in this area are mainly in the Lynchburg soil series. Seasonal high water table across this area ranges from 18 to 25 inches. There is a small area within this unit where the soils are sandier and better drained than typical for Lynchburg soils (Foreston soils). This area is not significant enough in area to warrant a separate field or irrigation unit. Soil field descriptions are found in Appendix 3. Because these soils have seasonal wetness within 18-25 inches during the wettest times of the year, special caution must he used when irrigating this area. Wet season irrigation must be for very brief periods and dependent on the soil moisture status. Shallow groundwater level monitoring with a piezometer or moisture sensor will aid in irrigation decision -making. This area Is best suited to heavier application volumes during the warm season when evaporation is at the highest and the seasonal water table is typically at the lowest. Three Ksat readings were performed in this area. They are summarized below, Detailed Ksat data are found in Appendix 4 which shows field details for each new proposed irrigation area. AREA Ksat Test Il Ksat Reading (in/hr) K sat for design (in/hr) Comments 1 1 0.047 0.15 Mean of 1 and 2 2 0.267 3 2.26 Coarse loamy soils. Removed high outlier THE PORK COMPANY, INC. VILLARI LIVESTOCK PROCESSING FACILITY FEBRUARY 2, 2012 DETAIL SITE MAP -NEW AREA 1 SHAFFER SOIL SERVICES, INC. LEGEND: 51-59 = Soil Boring Locations K1-K3 = Ksat and soil boring locations (descriptions included in report) ImagerYc�Z012-OU1 161oUe, USDA Fnrm tierv:cpA�sriny iv'3(7 dale C}2pt1 Goagl� One test was a clear outlier and was performed in the sandier section of the field. The field tests numbered 1 and 2 better reflect expected conductivity readings for Lynchburg soils, and these readings are used for design. This area is approximately 2.5 acres in size. Note that this area does not reflect potential wetted irrigation area. This can only be obtained after an engineer performs the irrigation design layout. During that phase, all required setbacks must be defined from the adjacent property lines and drainage ditches. It Is premature at this point to perform this level of accuracy until it is decided that this site will be used. At that time, GIS or survey work can overlay the irrigation design to determine final wetted acres. Wetted acres will be used to determine actual irrigation volumes that can be permitted. The data submitted here are for planning purposes, and assume 10D% of the soils are can be wetted. This is not possible, as irrigation layout efficiencies are often in the 75-90% efficiency range. Assuming that 100% of the area (2.5 acres) could be irrigated, this area would handle a yearly average wastewater flow of 32.42 inches which equates to a daily average of 6030 gallons per day on a 365-day per year basis. The topsoil in this unit is fine sandy loam for a depth exceeding 12 inches. Slopes are level at 0-1 percent. This promotes very rapid infiltration. The wastewater application rate should not exceed 0.75 inches per hour, and preferably will be restrained to 0.6 inches per hour. SUMMARY -NEW AREA 1 SOILS LYNCHBURG FINE SANDY LOAM, 04 SLOPES AREA (TOTAL) 2.5 ACRES POTENTIAL (MAXIMUM) WASTEWATER FLOW 6030 GALLONS PER DAY (32.42 IN/YR) APPLICATION RATE --NOT TO EXCEED 0.75 INCHES PAR HOUR NEW AREA 2 To the east of the above -ground storage tank is an area that is not receiving irrigation. The soils in this area are in the Norfolk soil series, with no noted soil variation. Seasonal high water table across this area ranges consistently deeper than 40 inches. Soil field descriptions are found in Appendix 3. These soils are well drained on nearly level slopes of 0-1 percent. No seasonal restrictions are necessary. Three Ksat readings were performed in this area. They are summarized below. Detailed Ksat data are found in Appendix 2 which shows field details for each new proposed irrigation area. THE PORK COMPANY, INC. VILLARI LIVESTOCK PROCESSING FACILITY FEBRUARY 2, 2012 DETAIL SITE MAP -NEW AREA 2 SHAFFER SOIL SERVICES, INC. LEGEND: S1-54 = Soil Boring Locations 1(4-1<6 = Ksat and soil boring locations (descriptions included in report) .:i . - t-a ` - -'xt , f:f � !- }r.�'s •'S'F� 17+�F�+6r1�.,.•1�4i �,r j�"' '. two. st �tia;�iY'�2a1�reUEy°r,l;4apdatr�F•?012t=•.wn�s• AREA Ksat Test 4 Ksat Reading (in/hr) K sat for design (in/hr) Comments 2 4 0.086 .075 Mean of 4 and S 5 0.063 6 0.353 Removed high outlier One test was a clear outlier. The field tests numbered 4 and 5 better reflect expected conductivity readings for Norfolk soils, and these readings are used for design. This area is approximately 0.5 acres in size. Note that this area does not reflect potential wetted irrigation area. This can only be obtained after an engineer performs the irrigation design layout. There are no setbacks required in this area, as this section is closing a gap among other irrigation zones. At the time of design, GIS or survey work can overlay the irrigation design to determine final wetted acres. Wetted acres will be used to determine actual irrigation volumes that can be permitted. The data submitted here are for planning purposes, and assume 100% of the soils are can be wetted. This is not possible, as irrigation layout efficiencies are often in the 75-90% efficiency range. Assuming that 100% of the area (0.5 acres) could be irrigated, this area would handle a yearly average wastewater flow of 32.26 inches which equates to a daily average of 1200 gallons per day on a 365-day per year basis. The topsoil in this unit is fine sandy loam for a depth exceeding 12 inches, although several soil borings show no E horizon and thus the Bt horizon may occur as shallow as 8-10 inches. Slopes are level at 0-1 percent. This promotes very rapid infiltration. The wastewater application rate should not exceed 0.6 inches per hour. SUMMARY -NEW AREA 2 SOILS NORFOLK FINE SANDY LOAM, 0-1% SLOPES AREA (TOTAL_} 0.5 ACRES POTENTIAL (MAXIMUM) WASTEWATER FLOW 1200 GALLONS PER DAY (32.26 IN/YR) APPLICATION RATE —NOT TO EXCEED 0.60 INCHES PER HOUR NEW AREA 3 To the north of the above -ground storage tank is an area that is not receiving Irrigation in the field. Furthermore, suitable soils continue to the west of the field into the wooded section. The soils In this area are in the Goldsboro soil series with minor variations of coarse loamy (Foreston) soils. Seasonal high water table across this area ranges from 26 to 40 inches. Soil field descriptions are found in Appendix 3. These soils are moderately well drained on nearly level to gentle sidesiopes of 1-4 percent. No seasonal restrictions are necessary. THE PORK COMPANY, INC. VILLARI LIVESTOCK PROCESSING FACILITY FEBRUARY 2, 2012 DETAIL SITE MAP -NEW AREA 3 SHAFFER SOIL SERVICES, INC. LEGEND; S1 S5 = Soil Boring Locations KM9 = Ksat and soil boring locations (descriptions InclUded In report) Three Ksat readings were performed in this area. They are summarized below. Detailed Ksat data are found in Appendix 4 which shows field details for each new proposed irrigation area. AREA Ksat Test t# Ksat Reading (in/hr) K sat for design (in/hr) Comments 3 7 0.036 .041 Mean of 7 and 8 8 0.047 9 0.11 Removed high outlier One test was a clear outlier. The field tests numbered 7 and 8 better reflect expected conductivity readings for Goldsboro soils, and these readings are used for design. This area is approximately 1.1 acres in size. Note that this area does not reflect potential wetted irrigation area. This can only be obtained after an engineer performs the irrigation design layout. There are sethacks required in this area: to the west are wetland soils- these have been flagged with pink flagging and are prepared for survey work should this area be used; to the north is a drainage ditch that will require location and proper setback application. At the time of design, GIS or survey work can overlay the irrigation design to determine final wetted acres. Wetted acres will be used to determine actual irrigation volumes that can be permitted. The data submitted here are for planning purposes, and assume 100% of the soils are can be wetted. This is not possible, as irrigation layout efficiencies are often in the 75-90% efficiency range. Assuming that 100% of the area (1.1 acres) could be irrigated, this area would handle a yearly average wastewater flow of 17.96 inches which equates to a daily average of 1470 gallons per day on a 365-day per year basis. The topsoil in this unit is fine sandy loam for a depth exceeding 12 inches, although several soil borings show no E horizon and thus the Bt horizon may occur as shallow as 8-10 inches. Slopes are gently sloping at 1-4 percent. This promotes moderately rapid infiltration. The wastewater application rate should not exceed 0.6 inches per hour. SUMMARY -NEW AREA 3 SOILS GOLDSBORO FINE SANDY LOAM, 14% SLOPES AREA (TOTAL] 1.1 ACRES POTENTIAL (MAXIMUM) WASTEWATER FLOW 1470 GALLONS PER DAY (17.96 IN/YR) APPLICATION RATE —NOT TO EXCEED 0.60INCHES PER HOUR NEW AREA 4 To the north of the lagoon exists an area with irrigation potential. This area consists of fill material over an original Lynchburg soil series. The fill material appears to be from 2 sources- the top 6-12 inches is mixed A and B horizon material from fine loamy soils nearby, and underlying this material is a layer of mostly topsoil (dark brown fine sandy loam and loamy fine sand) that may have been placed when the lagoon was constructed. Fill material areas may be used for irrigation if separation to seasonal wetness is maintained. Fill soils also have compaction and loss of soil structure that usually renders them more slowly permeable than the parallel natural soils. Seasonal high water table across this area is estimated at 30-40 inches. On the day of the site evaluation, seasonal wetness was noted at 48 to 54 inches in the soil borings. Soil field descriptions are found in Appendix 3. Because these soils have seasonal wetness within 30-40 inches during the wettest times of the year, special caution must he used when irrigating this area, Wet season irrigation must be for very brief periods and dependent on the soil moisture status, Shallow groundwater level monitoring with a plezometer or moisture sensor will aid in irrigation decision -making. This area is best suited to heavier application volumes during the warm season when evaporation is at the highest and the seasonal water table is typically at the lowest. Three Ksat readings were performed in this area. They are summarized below. Detailed Ksat data are found in Appendix 4 which shows field details for each new proposed irrigation area. AREA Ksat Test f# Ksat Reading (in/hr) K sat for design (in/hr) Comments 4 10 0.031 .043 Mean of 10 and 11 11 0.055 12 0.298 Removed high outlier One test was a clear outlier. The field tests numbered 10 and 11 are consistent and better reflect expected conductivity readings for fill soils, and these readings are used for design. This area is approximately 1.3 acres in size. Note that this area does riot reflect potential wetted irrigation area. This can only be obtained after an engineer performs the irrigation design layout. During that phase, all required setbacks must be defined from the adjacent property lines and drainage ditches. Property lines exist to the west of this area, and drainage ditches exist to the north and west of this area. East of this area is wetland soils. Pink flags have been placed in the woods at the physical extent of this mapping unit. it is premature at this point to perform this level of accuracy until it is decided that this site will be used. At that time, GiS or survey work can overlay the irrigation design to determine final wetted acres. Wetted acres will be used to determine actual irrigation volumes that can be permitted. The data submitted here are for planning purposes, and assume 100% of the soils are can be wetted. This is not possible, as irrigation layout efficiencies are often in the 75-90% efficiency range. Assuming that 100% of the area (1.3 acres) could be irrigated, this area would handle a yearly average wastewater flow of 15.1 inches which equates to a daily average of 1460 gallons per day on a 365-day per year basis. THE PORK COMPANY, INC. VILLARI LIVESTOCK PROCESSING FACILITY FEBRUARY 2, 2012 DETAIL SITE MAP -NEW AREA 4 SHAFFER SOIL SERVICES, INC. LEGEND: S1—S5 = Soil Boring Locations K10-K12 = Ksat and soil boring locations (descriptions included in report) n I y t n Se:y nc ay. f.4 jrdnta :,0t2000n! Intagery 2012 DUta1Globe. GeoEy2, USDf) f�ii The topsoil in this unit is loamy fine sand and fine sandy loam but is compacted for a depth exceeding 12 inches. Slopes are gently sloping at 1-4 percent. This promotes good infiltration, The wastewater application rate should not exceed 0.5 inches per hour due to the lack of soil structure. There is currently a monitoring well in this area. This well must be abandoned and replaced to use this area for wastewater irrigation, Guidance on well location must be sought from the Division of Water Quality. SUMMARY -NEW AREA 4 SOILS FILL FROM FINE -LOAMY SURROUNDING SOILS, 1-4% SLOPES AREA (TOTAL) 1.3 ACRES POTENTIAL (MAXIMUM) WASTEWATER FLOW 1460 GALLONS PER DAY (15.1 IN/YR) APPLICATION RATE —NOT TO EXCEED 0.5 INCHES PER HOUR AREA 5 This consists of the existing center pivot field. it is currently permitted at an allowed maximum yearly rate of 16 inches. The soils in this area are Norfolk and Goldsboro soils and support a much higher volume of wastewater flow. Thus, the area was mapped and conductivity tests run. Seasonal wetness occurs across the present center pivot area from 30 to over 40 inches during the wettest times of the year. No seasonal restrictions are necessary. Three Ksat readings were performed in this area. They are summarized below. Detailed Ksat data are found in Appendix 4 which shows field details for each new proposed irrigation area. AREA Ksat Test # Ksat Reading (in/fir) K sat for design (in/hr) Comments Pivot Field 13 0.08 .081 Consistent data. Mean 14 0.055 15 .11 The field tests are consistent and the mean of these readings is used for design. This area is 23.11 acres. It is currently permitted at a maximum loading of 16 inches peryear. This study, pending the outcome of any further hydrogeologic study, supports the application of 35.67 inches per year. Note, that although the current limit is 16 inches, that less than this amount is being applied annually due to the permitted nitrogen loading issue. THE PORK COMPANY, INC. VILLARI LIVESTOCK PROCESSING FACILITY FEBRUARY 2, 2012 DETAIL SITE MAP -AREA 5- CENTER PIVOT FIELD SHAFFER SOIL SERVICES, INC. LEGEND: K13-K15 = Ksat and soil boring locations (descriptions included in report) IV s., K1' y. y ' I _i J, pn�gzryC32 — r fe, [1�DAF21 �.'3I c�aly J�p1', ooSi SUMMARY -CENTER PIVOT FIELD EXPANSION - AREAS SOILS GOLDSBORO AND NORFOLK FSL, 0-4 % SLOPES AREA (TOTAL] 23.11 ACRES POTENTIAL (MAXIMUM) WASTEWATER FLOW 61,320 GALLONS PER DAY * (35.67 INf YR) APPLICATION RATE —NOT TO EXCEED 0.6 INCHES PER HOUR * Some of this amount is already being applied; an average of 13.5 Inches per year = 29,620 GALLONS PER DAY, FOR A NET GAIN OF 31,700 GALLONS PER DAY AGRONOMIC CONSIDERATIONS Current site management is shown to be adequate, with reasonable hay yields and harvest times. Except for supplemental agricultural lime, no further supplemental nutrients are needed. Crop health is good and weeds are minimal. Continued monitoring of ESP and zinc levels in select fields is warranted. SUMMARY OF S ZONES AND OVERALL SUMMARY COMMENTS Based on the soil hydraulic capacity, and pending any needed hydrogeologic study, the following table shows the possible increase in hydraulic capacity for the proposed new irrigation zones and the increase in the center pivot area. The solid set irrigation area cannot justify a hydraulic increase. zONI- AREA (acres) NET FLOW INCREASE (gallons per day) APPLICATION BATE (inches/hoof) 1 2.5 6,030 0.75 2 0.5 1,200 0.6 3 1.1 1,470 0.6 4 1.3 1,460 0.5 5 23.11 31,700 0.6 Total 41,860 Summary Comments for Site: 1) The figures defined above are based on the hydroulic capacity of the soil. The use of these numbers is only valid if no other parameters are exceeded, 2) All of the new areas are suitable for wastewater application at the rates defined above, pending the results of any hydrogeologic studies that may be required. `File rates will be defined by the wastewater nitrogen concentration until such time that nitrogen is low enough to warrant the rates based on the soil's hydraulic capacity. 3) Currently, the wastewater effluent analysis shows nitrogen to be limiting for all areas. If New zones 1 -4 are added for irrigation, the annual loading without additional wastewater treatment will be limited to the nitrogen rate, which is approximately 13 inches per, year or 353,000 gallons per acre per year. The estimated flow increase to these zones based on nitrogen limits is: ZONE NET FLOW INCREASE (gallons per day) 1 2419 2 434 3 1064 4 12SS 5 0 Tutat 5224 4) A small percentage of new zone 4 and about 50% of new zone 3 are currently wooded. Irrigation into woods is permissible, however, the rate would be based upon the nitrogen tree uptake rate of a maximum of 70 pounds per acre per year, versus up to 350 pounds per acre per year for hay crops. Thus, the net flow increase for zones 3 and 4 would further decrease if irrigation into the woods is chosen, 5) The site has much potential for irrigation volume expansion but not without significant nitrogen reduction in the wastewater effluent. A limited amount of increased wastewater application can be gained by adding the 4 new zones. G) Moving forward towards permitting these new areas will be an iterative process. Presently, estimates are given for potential irrigation area based on soils. Irrigation layout and design will impact the area. Also, a hydrogeologic study may or may not be required. This decision will be made by DWQ. I strongly suggest that the first step in moving forward with your permitting be a meeting between your engineer, myself, you and your staff, and both the regional office and central office of DWQ. This meeting will spell out details of what additional site information may be required. At such a meeting, we can also discuss future plans for the wastewater system. In my experience, these meetings are considered pro -active by DWQ and they are supportive towards your initiative of improving the wastewater system. otherwise, moving forward without their input requires some educated guesses and results in less efficient use of your resources. nt my professional on. The tions This report and attached maps and appendices scientific principles and data oAect oIn`and interpretation. Soils and calculations are based on acceptedp opinions and interpretations may and hydraulic conductivities are natgelnot to be from this report as the use may be , and differing occur. The attached maps and appendices a misinterpreted. ny. Please ave i appreciate the opportunity to performwate rbalance calculations srvice for your amay be necessary me if you l ydep2ndingon the any questions on this report. Follow-up design factors used for the Irrigation expansion. I am glad to work with your other professional staff as needed to bring your project to completion. Sincerely, Karl A. Shaffer, lY-://9 President-Shaffer Soil Services, Inc. Attachments: Appendix 1—The pork Company Data Summaries Appendix 2 — Soil Maps Appendix 3- Field Soil Descriptions Appendix 4--Saturated hydraulic Conductivity Data Sheets and Data Calculations Appendix 4- Water Balance Sheets Invoice rn 011.3� , /.g APPENDIX 1 DATA SUMMARIES FROM THE PORK COMPANY ITEM PAG ES Effluent I Soils 2 Groundwater 4 / g e 9 2 0owmMn-Mn-MO)-Nmmww(o0 M� 9 'u m > a Z SegP. .agggPp og @pPg�® Wmmma&&bo&mww gam oa«m<QQ wmmmmw0)«wmoIQ w"(D-100)eNe� / � E ®Nm&u�wm�NtogweeN)eN) (namtom� N)aw©@eWtAWm@coP m<wm aQb3wGGmwQmmmwmmow&�a w-a � \ .,UR11 a % 3-0 O � 2 Z / / \ ® < § / f \ m Z 00 c 2 (A ƒ q E: g r r G R \ Go \ ? d / S S J O 2 0o @Q i f \ / / z m ® ® \ %$ / d f- §2 ? ? C) kk 2% \ m /_ c"\ \ kCo 0 %$ e /m > ®\ m N'Z'x!���i0 n!01 -Va IMInf 0 i R�!� !� �' IO -u I �p i In-�€ f O � I �s{ 3 ;J11 ; Cn'�'1IU7 0)jD CU,�.0) N W O)#,O] �; tLc Q I GJ Ni07'�I�I� 'NIA Ui Co,N!C:);W )I A,A: s O7,WINIG) K) � Oil•SaIN, w ' (D 0) -4' -A ,IJP-1 P lal�l y,_- (D CO N.CO, �+;•la!0) W cWii 0�7 Ui �lI 1 _ �1 ' I co 91.C!- 1 RRG W w co (0! O o' G7 I_ �).-� l 0Wj, Ui i c)IIW •+�_(p,NlcS) G)Ut;G71°J N. _ Ui-Nu).0 - ��1i 1 11 01 G)'CJ 'Jim A•-J (n; -�:CT) 01 0.-- I N -}a' {li 10i OJ l Ca5 f Ui s UI(004 4CJR i AIC 0) (0 I . CBI mil, -' IIV CO 47 07 p)IN' 0,-A:_-- [0 ;N pp;0)_NJifl; O) —�! U7 WtGs i Cyan 03 10 I I I W Cp a i 0) ISlit�l co i0 N I �I Ur 01 i C] G) 'd 4) i , i Ul - 4 CU I a:N}C) US.• 1� ! _ W (ii,Ui.�COIUi T� ,Q�i1 Ch UiI-J'Ni _I_G) I G) I � o! I f I 4 a' co G)' +' G)' �, ^1; Ui; N • W ' h I I i N si C?I W CD 4f 1 ICI j 4, OD #�E (4! N: ' �I�RW Q);_f;G)'•Ji G) A__C)1 - .Cn ((,,�� Uti�ia:N 4l� �! CG) I fJ'� G) OJ O) W1(4'SaICA;-•! C4 �a N A : Cl)' i.) Cail0r)'�':cnl(D - OT<.nico W I v a (O (O . I . : 0) I ,) I C)7 0) 'o!A (n WlG)-b,�;iJi J.N w _C--- Ito! ;lii�r N ,' 0) A N W cD � CO � _ d� —s _ _ 1� _W � I .s �! d� =•! i ci] : • J i� e c�' o - �_�_ f Cl W UYiO(-o!8)I�,'�, W 4Q, p'1Q 4)-, Qc�), 1Nw Il o)—jim Oolo),OG); -4 -4�Is)cQf,yC? .' W 0-1O? 100 1 co, �] �'� co Eal6]� ):co; (0 .fN.Q o]i �NI,I�IN! 6) -I -ijJ 0�4 CA w: uu ol I I I n' i jai � _.. Zi jl I m: Irn I lo 1 i GroLEndwater 2011 Level Fecal ColifoT n TDS pH TOC Cl Ammonia Nitrate Total P VOC 2010 Level Fecal Colifornl TDS PH TOC Cl Ammollia Nitrate Total P VOC 2009 Level Fecal Coliforrn TDS pH TOG 01 Ammonia Nitrate Total P VOC DEPTHS (F`i ) MW1 MW2 MW3 MW4 IVIW5 MW6 MW7 MW8 STANDARDS Fecal 1 TDS 500 pH 6.6 - 8.5 TUC 10 MW1 MW2 April AugUSt Dec April August Dec 1Q, 7 11,5 <1 48 <1 134 0.6 0.6 12 27 0.2 Q.2 0.74 0.04 0.04 MW1 April August Dec 9 14.6 10.6 <1 3 <1 42 55 47 .... 4.ti� 7.6I. 1.2 1.2 0.8 16 15 11 0.2 0.2 0.2 0.95 0.77 0,79 0.04 0.05 0.04 ND ND non detect MW1 April AL19Llst Dec 9 <1 J6 3.2 15 0.2 0.87 0.04 MW2 April AugLISt DEG 10 14 10.5 <1 <1 <1 72 100 103 4_ 7.84 21 34 27 0.2 0.2 0.2 3.24 5.82 7.86 0.04 0.09 0.04 ND MW2 April August DC-c 8.6 <1 85 I1.. 81 2.6 21 0.2 0.2 0.04 ND 2009 Dec 2010 Apr 2010 Aug 2010 Dec 2011 Apr AV(3 9 9 14.5 10.6 10.7 10.76 8.5 10 14 10.6 11.6 10.96 7 7.8 11 8.1 7.8 8.34 10 8.3 9.5 9.7 8.6 9.2 5 6.3 13 6.5 6.2 7.2 3 5.1 4 3.8 4.9 4.16 3 5 4 &5 4 3.9 8 0_8 5 8.8 8.8 7.88 several violations Cl - 250 no violations no violations NH3-1500 no violations many violations Nitrate -10 110 violatlolls I)ut sQmo 6-9 Spikes no violations Total P NA ND MW3 April August 7.8 <1 76 r 6.2 0.6 6 0.2 0.08 2.89 MW3 MW4 Doc April August 8.5 104 59 0.6 17 0.2 0.08 1.07 April August Dea 7.6 11 8.08 <1 <1 <1 64 115 89 .4-t1f)1 7.19L 6.461 0.5 0.7 0.5 6 20 7 0.2 0.2 0.2 0.02 0.08 0.03 2.02 0.04 3.08 ND MM April August Dec 7 <1 87 j ,E:n41 0.7 4 0.2 0.02 2.14 ND 'k11►1T1y Dec April August Dec 8.3 9.75 <1 <1 <1 110 79 142 4-1 7.42 0.8 0.5 0.7 19 5 13 0.2 0.2 0.2 0,04 0.02 0.08 0.29 2.48 4.47 ND MW4 April August Dec 10 <1 101 I -- 0.7 14 0.2 0.1 0.41 ND c�n r- MW5 MW6 MW7 April August Dec April August Dec April 4 G.2 4.9 <1 <1 <1 212 179 69 5.1 0.5 0.5 5 J6 36 0.2 .2 0.2 0.2 0.05 i 0.02 1 1.02 1.06 MW5 MW6 MW7 April April August Dec April August Dec G.3 13 f" - 0U6:_ -- <1 5.5 <1 5.1 _ 4 � � <1 �" J 3.75 <1 <1 64 - - 137 64 1G$ 183 165 6.3 4 6.2 0.8 3.3 0.5 34 34 5 29 5 56 0.2 34 1.3 49 0.2 0.2 0.2 0.17 0.2 3 0.2 0.02 0.02 0.11 0.02 0.02 0.92 1.22 0.91 1.02 0.78 0.14 0.37 NDND MW5 MW6 MW7 April August Dec April August Dec April 5 3 {1 <1 84 177 - 6.6 0.5 1 59 0.2 0.2 0.02 0.02 2.95 0.18 lei D N D MW8 August Dec April August Dec 8.8 127 33 0.2 J..rS.?i 0.31 MW8 August Dec April August Dec 4 3.5 8.8 5 8.S <1 165 151 133 71 165 8.411 =5. $51 i _;i.:'1 7.8 0.9 - 0.9 3.4 6.3 3 46 34 40 5 35 0.2 0.3 0.2 0.2 0.2 0.02 0.05 6.56 0.07 5.99 0.04 0.68 0.68 0.6 0.04 ND ND MW8 August Dec April August Dec 3 $ < 1 5] 200 169 1.2 4.8 31 35 0.2 0,2 6.71 6.43 2.78 0.5 ND ND APPENDIX 2 SOIL MAPS Soil Map- Center Pivot Area Soil Map — Solid Set Area Web Soil Survey and Legend Official Soil Series Descriptions; Lynchburg series Goldsboro series Norfolk series THE PORK COMPANY, INC: VILLARI LIVESTOCK PROCESSING FACILITY FEBRUARY 2, 2012 CENTER PIVOT FIELD- SOIL MAP SHAFFER SOIL SERVICES, INC. LEGEND: Ra/Pa = Rains and Pantego soils Ly = Lynchburg soils Go = Goldsboro soils NoA =Norfolk soils, 0-2% slopes NoB =Norfolk soils, 2-6% slopes * =Area with 18-20 inches topsoil removed (out of irrigation zone) New 1 = New proposed irrigation field- Area }� ' t Ly hiew 1 NoA ` NoA1 i R /a , - THE PORK COMPANY, INC. VILLARI LIVESTOCK PROCESSIN6 FACILITY FEBRUARY 2, 2012 SOLID SETSETetNW kft=FIELD- SOIL MAP SHAFFER SOIL SERVICES, INC. LEGEND: Ra = Rains soils Ly = Lynchburg soils Go = Goldsboro soils NoA =Norfolk soils, 0-2% slopes NoB =Norfolk soils, 2-6% slopes ** =Area where new parking lot has been established New 2 = New proposed irrigation field- Area 2 New 3 = New proposed irrigation field- Area 3 New 4 = New proposed irrigation field- Area 4 s-is'-'; � �• �, of '� - ��_ ��S f5 r � r } + +W `�� [=f-ry r t • } r ' z�. •r !11 .r[ (A LIE rx t • 1jy� Y .•- l�+�' �. + �• } fy. r its r•Sri0g9cy�i112 pin 1alGofG3oEye. U5DA'+•�:itE NoA 35. 1' 0' 35' 0' 7' Soil Map—Duplin County, North Carolina rr n 4 M1 M1 1apStafe: U,Mifprinted onAstrel8.6`xIII sheA �.1e,ers A n so ,no zoo aoa N Feet 0 3DD 600 ,.200 1.800 USDA Natural Resources Web Soil Survey ;K. I Conservation Service National Cooperative Soil Survey 35. 0, 69, WOW N N ONr ,.Iq 2I3)2 2 Page 1 of 3 , MAP LEGEND Area of Interest (AOI) Area or Interest (AOI) Soils Sal Map Units Special Paint Features Blowout ® Borrow Pit X Clay spot ♦ Closed Depression 1' 43 ,114 k OO 0 u Gravel Pit Gravelly Spot Landfill Lava flow Marsh or swamp Minc or Quarry Mtisccuaneous Water Perennial Water Rock Outcrop Saline Spot Sandy Spot Severely Eroded Spot Sinkhole Slide or Slip Sodic Spot Spoil Area Stony Spot Soil Map—Duplin County, North Carolina rrn Very Stony Spot y Wet Spot Othcr Special Line Features Gully Short Steep Slope Other Political Features p Cities Water Features Streams and Canals Transportation 4-F+ Rails N Interstate Highways �.. US Routes Major Roads Local Roads MAP INFORMATION Map Scale: 1:7,84D if printed on A size (8.5" x 11^) sheet. The soil surveys that comprise your AOI were mapped at 1:24,D00 Warning; Soil Map may not be valid at this scale_ Enlargement of maps beyond the scale of mapping can cause misunderstanding of the detail of mapping and accuracy of sail line placement. The maps do not show the small areas of contrasting soils that could have been shown at a more detailed scale. Please rely on the bar scale on each map sheet for accurate map measurements. Source of Map: Natural Resources Conservation Service Web Soil Survey URL: httpJlwebscilsurvey.nres.uscia.gov Coordinate System: UTM Zone 17N NAD83 This product is generated from the USDA -MRCS certified data as of the version date(s) listed below. Soil Survey Area: Duplin County, North Carolina Survey Area Data: Version 8, Aug 28, 2007 laate(s) aerial images were photographed: 71112006; 611612006 The orthophoto or other base map on which the soil lines were compiled and digitized probably differs from the background imagery displayed on these maps. As a result, some minor shifting of map unit boundaries may be evident_ �I Natural Resources Web Soil Surrey 21312t?12 Conservation Service National Cooperative Soil Survey Page 2 of 3 Soil Map-Ouplin County, North Carolina Map Unit Legend auplln County, North Carolina (NC061) Map Unit Symbol Map Unit Name Acres In AOI BbA Bibb sandy loam, 0 to 1 percent slopes, frequently 15.1 __ _ _ Qooded 24.2 GoA Goldsboro loamy sand, 0 to 2 percent stapes T 0.4 M-W Miscellaneous kvater Marvyn and iS. 7 MCC i d Gritney soils, 6 to 15 percent slopes — 73. NoA Norfolk loamy sand, 0 to 2 percent slopes _ 100.1 Nag Norfolk loamy sand, 2 to 6 percent slopes 2.3 W Water _ - _ 232.7 Totals for Area of Interest — — — Percent of AO1 6.5% 10.4% 0.2% 7.2% 31.7% 43.0% 1.0% 100,0% 2/312012 Web Soil Survey Page 3 of 3 i ;t» Natural ROSOUMeS Natlonal Cooperative Soil Survey _5 Conservation 5ervlcs -I A" UVIUAVI ILL LOCATION LYNCHBURG SC+AL FL GA NC VA Established Series DJD-CMO:Rev.JAK 06/2008 LYNCHBURG SERIES MLRA(s): 133A-Southern Coastal Plain, 153A-Atlantic Coast Flatwoods, I53B-Tidewater Area MLRA SOIL SURVEY REGIONAL OFFICE (MO) RESPONSIBLE: Raleigh, North Carolina Depth Class: Very deep Drainage Class (Agricultural): Somewhat poorly drained Internal Free Water Occurrence: Shallow, common Flooding Frequency and Duration: None Ponding Frequency and Duration: None Index Surface Runoff: Negligible Permeability: Moderate Landscape: Lower to upper coastal plain Landform: Marine terraces, flats Geomorphic Component: Talfs, dips Parent Material: Marine deposits, fluviomarine deposits Slope: 0 to 5 percent Elevation (type location): Unknown Mean Annual Air Temperature (type location): 62 degrees F. Mean Annual Precipitation (type location): 48 inches TAXONOMIC CLASS: Fine -loamy, siliceous, semiactive, thermic Aeric Paleaquults TYPICAL PEDON: Lynchburg loamy fine sand --cultivated. (Colors are for moist soil.) Ap--O to 6 inches; very dark gray (10YR 3/1) loamy fine sand; weak medium granular structure; very friable; conunon fine roots, few medium roots; very strongly acid; clear smooth boundary. (3 to I 1 inches thick) E; 6 to 10 inches; light olive brown (2.5Y 5/4) loamy fine sand; weak medium subangular blocky structure; very friable; common fine roots; few fine pores; common medium distinct dark gray (1 OYR 4/1) iron depletions; very strongly acid; clear smooth boundary. (0 to 10 inches thick) Bt--10 to 17 inches; light olive brown (2.5Y 5/4) sandy clay loam; weak medium subangular blocky structure; friable; common fine roots; few Fine pores; few faint clay films on faces of some peds; common medium distinct light brownish gray (2.5Y 6/2) iron depletions and many medium distinct yellowish brown (1 OYR 516), and few fine medium prominent red (2.5YR 4/8) masses of oxidized iron; very strongly acid; clear wavy boundary. Btg1--17 to 30 inches; light brownish gray (2.5Y 6/2) sandy clay loam; weak medium subang filar blocky structure; friable; few fine roots; few fine pores; common faint clay films on faces of some peels; many medium prominent yellowish brown (I OYR 5/6) and common medium prominent red 1 o1•4 2/3/2012 8:31 AM ___�_..__.-�.-�.. ...w....•pw.•�� _�'v"��u�..11ti�-[lull l�il.11Slll (2.5YR 4/6) masses of oxidized iron; very strongly acid; gradual smooth boundary. Btg2--30 to 65 inches; gray (10YR 6/1) sandy clay loam; weak medium subangular blocky structure; friable; few fine roots; common faint clay films on faces of peels; many medium prominent yellowish brown and many medium prominent red (2.5YR 4/8) masses of oxidized iron; very strongly acid; gradual smooth boundary. Btg3--65 to 80 inches; gray (1 OYR 511) clay; weak medium subangular structure; firm; few fine roots; few faint clay films on faces of peels; many medium prominent strong brown (7.5YR 5/8) and few fmc prominent red (2.5YR) masses of oxidized iron and few medium faint greenish gray (5BG 611) iron depletions; very strongly acid. (Combined thickness of the Bt horizons are more than 40 inches.) TYPE LOCATION: Colleton County, South Carolina, 3,000 feet southwest of junction of U.S. Highway 21 and Seaboard Coastline Railroad in Ruffin; 4 southwest of junction of U.S. Highway 21 and South Carolina Secondary Road 272; 100 feet north of U.S. Highway 21. RANGE IN CHARACTERISTICS: Thickness of the surface and subsurface layers: 3 to 19 inches Depth to top of the Argillic horizon: 3 to 19 inches Depth to the base of the Argillic horizon: 60 to more than 80 inches Soil reaction: Extremely acid to strongly acid throughout, except where limed Depth to Bedrock: Greater than 80 inches Depth to Seasonal High Water Table: 6 to 18 inches, November to April Rock Fragment content: 0 to 10 percent, by volume Other features: The particle -size control section contains less than 30 percent silt. RANGE OF INDIVIDUAL HORIZONS: Ap horizon or A horizon (where present); Color --hue of 1 OYR or 2.5Y, value of 2 to 5, and chroma of 1 to 2, or is neutral with value of 2 to 5 Texture --sand, fine sand, loamy sand, loamy fine sand, sandy loam, fine sandy loam, or loam E horizon: Color --hue of 1 OYR or 2.5Y, value of 4 to 7, chroma of 1 to 4 Texture --sand, fine sand, loamy sand, loamy fine sand, sandy loam, fine sandy loam, or loam Redoximorphic features (where present) --masses of oxidized iron in shades of red, yellow, or brown and iron depletions in shades of brown, yellow, olive, or gray Bt horizon: Color --hue of IOYR or 2.5Y, value of 4 to 6, and chroma of 3 to 8 Texture --sandy clay loam, but ranges to sandy loam, fine sandy loam, loam or clay loam. The particle -size control section contains less than 30 percent silt Redoximorphic features (where present) --masses of oxidized iron in shades of red, yellow, or brown and iron depletions in shades of brown, yellow, olive, or gray Btg horizon: Color --hue of IOYR to 5Y, value of 4 to 7, chroma of 1 to 2, or is neutral with value of 4 to 7 Texture --sandy loam, fine sandy loam, loam, sandy clay loam, or clay loam. Some pedons are sandy clay or clay at a depth of 40 inches or more Redoximorphic features (where present) --masses of oxidized iron in shades of red, yellow, or brown 2/3/2012 8:31 AM 2 oN ..rw•.wun.rjuvrv.w_VUl51ClLY1`ll HtiU1C(1.1111�I and iron depletions in shades of brown, yellow, olive, or gray BCg horizon: Color --hue of 1 OYR to Sy, value of 4 to 7, chroma of 1 or 2, or is neutral with value of 4 to 7 Texture --sandy loam, line sandy loam, loam, sandy clay loam, clay loam, sandy clay, or clay Redoximorphic features (where present) --masses of oxidized iron in shades of red, yellow, or brown and iron depletions in shades of brown, yellow, olive, or gray COMPETING SERIES: 1-1€1zlelnurst soils --have a firm, brittle Bx horizon with more than 5 percent plintWte jedbur soils --contains more than 30 percent silt in the particle -size control section GEOGRAPHIC SETTING: Landscape: Lower to upper coastal plain Landforrn: Marine terraces, flats Geomorphic Component: Talfs, dips Parent Material: Marine deposits, fluviomarine deposits Elevation: 40 to 450 feet Mean Annual Air Temperature: 57 to 70 degrees F. Mean Annual Precipitation: 38 to 52 inches Frost Free Period: 190 to 245 days GEOGRAPHICALLY ASSOCIATED SOILS: c'1zzl-endon sails --do not have redox depletions in the upper part of the argillic horizon Coxyille soils --have a fine particle -size control section and have redox depletions with dominant chroma of 2 or less throughout Dunbar soils --have a fine particle -size control section Dupl q sails --do not have redox depletions in the upper part of the argillic horizon and have a fine particle -size control section L 11nola soils --are moderately well drained I'nreston soils --do not have redox depletions in the upper pant of the argillic horizon and have a coarse -loamy particle -size control section Goldsboro soils --are moderately well drained Grad , soils --have a fine particle -size control section and have redox depletions with dominant chroma of 2 or less throughout Johns soils --have contrasting textures wit ihi a depth of 40 inches 0c illa soils --have sandy epipedon 20 to 40 inches thick Pelham soils --have redox depletions with dominant chroma of 2 or less throughout and sandy epipedon 20 to 40 inches thick ]Uiis soils --are poorly drained StalliilgS soils --have a coarse -loamy particle -size control section 1V0xe(liij,L, soils --have a coarse -loamy particle -size control section DRAINAGE AND PERMEABILITY: Depth Class: Very deep Drainage Class (Agricultural): Somewhat poorly drained Internal Free Water Occurrence: Shallow, coin -non Flooding Frequency and Duration: None Ponding Frequency and Duration: None 2/3/2012 8:31 AM s of index Surface Runoff; Negligible Permeability: Moderate USE AND VEGETATION: Major Uses: About one-half of the soil is in cropland or pasture and the remainder is in forest Dominant Vegetation: Where cultivated --corn, soybeans, cotton, tobacco, truck crops, small grains, or improved pasture, Where wooded --oak, sweetgum, blackgum, longleaf pine, slash pine, loblolly pine, and an understory of gallberry and pineland threeawn. DISTRIBUTION AND EXTENT•. Distribution: Georgia, Alabama, Florida, North Carolina, South Carolina, and Virginia Extent: Large MLRA SOIL SURVEY REGIONAL OFFICE (MO) RESPONSIBLE: Raleigh, North Carolina SERIES ESTABLISHED: Tift County, Georgia; 1947. REMARKS: Diagnostic horizons and features recognized in this pedon are; Ochric epipedon--the zone from the surface of the soil to a depth of 10 inches (Ap and E horizons). Argillic horizon --the zone from 10 to 62 inches (Bt and Btg horizons). ADDITIONAL DATA: TABULAR SERIES DATA: S0I-5 Soil Name Slope Airtemp FrFrlSeas Precip Elevation SCO037 LYNCHBURG 0-5 57-70 190-245 38-52 40-450 S01-5 EloodL FloodH Watertable Kind ihonths Bedrock Hardness sc0037 NONE 0.5-1.5 APPARENT NOV-APR >80 - SOJ-5 Depth Texture 3-Inch No--10 Clay% -CEC- SC0037 0-10 LS LFS S FS 0-0 90-100 2-10 1-9 SCO037 0-10 SL FSL L 0-0 90-100 5-20 2-6 SCO037 10-65 SCL SL CL 0--0 90-100 18-35 2-7 SCO037 65-80 SCL SC C 0-0 92-100 20-50 2-1 SOT-5 Depth -pH- O.td. Salin Permeab Shnk-Swll SCO037 0-10 3.6-6.0 0.05--5.0 0-0 6.0-20 LOW SCO037 0-10 3.6-5.5 0.05-5.0 0-0 2.0-6.0 LOW sc0037 10-65 3.6-5.5 0.0-0.5 0-0 0.6-2.0 LOW SCO037 65-80 3.6-5.5 0.0-0.5 - 0.6-2.0 LOW National Cooperative Soil Survey U.S.A. 2/3/2012 8:31 AM 4 or4 . .. ___.--. o ....., ..-. p...- ....., _ ., -I vvl.tl.7ulJ1\II. 1111 IL LOCATION GOLDSBORO NC+AL AR FL GA SG VA Established Series CMO/Rev. JAK 11/2005 GOLDSBORO SERIES MLRA(s): 133A-Southern Coastal Plain, 153A-Atlantic Coast Flatwoods, 15313-Tidewater Area MLRA SOIL SURVEY REGIONAL OFFICE (MO) RESPONSIBLE: Raleigh, North Carolina Depth Class: Very deep Drainage Class (Agricultural): Moderately well drained Flooding Frequency and Duration: None Pond'ung Frequency and Duration; None Internal Free Water Occurrence: Moderately deep, transitory Index Surface Runoff: Negligible to medium Permeability: Moderate Landscape: Lower to upper coastal plain Landform: Marine terraces, uplands Hillslope Profile Position: Summit, shoulder Geomorphic Component: Interfluve, talf Parent Material: Marine deposits, fluviomarine deposits. Slope: 0 to 10 percent Elevation (type location): Unknown Mean Annual Air Temperature (type location): 62 degrees F. Mean Annual Precipitation (type Location): 48 niches TAXONOMIC CLASS: Fine -loamy, siliccous, subactive, thermic Aquic Paleudults TYPICAL PEDON: Goldsboro loamy sand --cultivated. (Colors are for moist soil unless Otherwise stated.) Ap--O to 8 inches; grayish brown (1 OYR 5/2) loamy sand; weak medium granular structure; very friable; many fine roots; moderately acid; clear smooth boundary. (5 to 10 inches thick) E--8 to 12 inches; pale brown (I OYR 6/3) loamy sand; weak medium granular structure; very friable, many fine roots; moderately acid; clear smooth boundary. (0 to 10 inches thick) BE-42 to 15 inches; brownish yellow (10YR 6/6) sandy loam; weak fine subangular blocky structure; friable, slightly sticky; many fine roots; strongly acid; clear smooth boundary. (0 to 12 inches thick) Bt1!--15 to 25 inches; yellowish brown (IOYR 5/6) sandy clay loam; weak fine subangular blocky structure; friable, slightly sticky, slightly plastic; common fine roots; many clay bridging between sand grains; few faint clay films on faces of peds; very strongly acid; gradual wavy boundary. Bt2--25 to 45 inches; pale brown (1 OYR 6/3) sandy clay loam; weak fine subangular blocky structure; friable, slightly sticky, s[ightly plastic; few fine roots; many clay bridging between sand grains; few 1 of5 2/3/2012 8:31 AM faint clay films on faces of peds; common medium distinct gray (IOYR 511) iron depletions and yellowish brown (10YR 5/6) masses of oxidized iron; very strongly acid; gradual wavy boundary. (Combined thickness of the Bt horizon is 12 to 72 inches.) Btg--45 to 65 inches; gay (IOYR 611) sandy clay loam; weak fine subangular blocky structure; friable, slightly sticky, slightly plastic; many clay bridging between sand grains; few faint clay films on faces of peels; common medium prominent red (2.5YR 5/6) and common medium distinct brownish yellow (1 OYR 616) masses of oxidized iron; very strongly acid; gradual irregular boundary. (0 to 45 inches thick) BCg--65 to 76 inches; gray (IOYR 611) sandy Ioam and strata of sandy clay loam; weak fine subangular blocky structure; friable, slightly sticky, slightly plastic; common clay bridging between sand grains; common medium distinct brownish yellow (IOYR 6/6) masses of oxidized iron and common medium faint gray (1 OYR 511) iron depletions; very strongly acid. TYPE LGCATfON: Wayne County, North Carolina; 5 miles northeast of Goldsboro, 0.4 mile north of Stoney Creek Church and 0.3 mile west of intersection of SR 1523 and 1545. RANGE IN CHARACTERISTICS: Depth to top of the Argillic horizon: 5 to 19 inches Depth to the base of the Argillic horizon: 60 to more than 80 inches Depth to Bedrock: Greater than 80 inches Depth to Seasonal High Water Table: 18 to 30 inches, December to April Rock Fragment Content: 0 to 50 percent, by volume throughout, mostly quartz pebbles Soil Reaction: Extremely acid to strongly acid, except where limed Other soil features: Silt content in the particle -size control section is less than 30 percent. Ap horizon or A horizon (where present): Color --hue of IOYR or 2.5 Y, value of 2 to 6, chroma of i to 4 Texture --loamy sand, loamy fine sand, sandy loam, or fine sandy loam E horizon: Color --hue of IOYR or 2.5Y, value of 5 to 7, chroma of 2 to 6 Texture --loamy sand, loamy fine sand, sandy loam, and fine sandy loam BE horizon: Color --hue of IOYR or 2.5Y, value of 5 to 7, chroma of 3 to 6 Texture --sandy loam, and fine sandy loam Bt horizon (upper): Color--huc of 7.5YR to 2.5Y, value of 4 to 7, and chroma of 3 to 8 Texture (fine -earth fraction) --sandy clay loam, sandy loam, loam, or clay loam Bt horizon (lower): Color --hue of I OYR or 2.5Y, value of 4 to 7, chroma of 3 to 8 Texture --sandy clay loam, sandy loam, loam, or clay loam. Some pedons have subhorizons of sandy clay or clay. Redoximorphic features --masses of oxidized iron in shade of red, yellow, or brown, and iron depletions in shades of brown, yellow, olive, or gray. Iron depletions are within 30 inches of the soil surface. 2 of 2/3/2012 8:31 AM Btg horizon: Color --hue of 10YR or 2.5Y, value of 4 to 7, chroma of 1 or 2 Texture --sandy clay loam, sandy loam, loam, or clay loam. Some pedons have subhorizons of sandy clay or clay. Redoximorphic features --masses of oxidized iron in shade of red, yellow, or brown, and iron depletions in shades of brown, yellow, olive, or gray BCg Horizon: Color --hue of 10YR or 2.5Y, value of to 7, chroma of I or 2 Texture --sandy loam, fine sandy loam, sandy clay loam, or loam Redoximorphic features --masses of oxidized iron in shade of red, yellow, or brown, and iron depletions in shades of drown, yellow, olive, or gray BC horizon (if it occurs): Color --hue of 1 OYR or 2.5Y, value of 5 to 7, and chrorna of 3 to 5 Texture --sandy loam, fire sandy loam, sandy clay loam, or loam Redoximorphic features --masses of oxidized iron in shade of red, yellow, or brown, and iron depletions in shades of brown, yellow, olive, or gray Cg horizon (if it occurs): Color --hue of 10YR to 5Y, value of 5 to 7, chroma of 1 or 2 or is neutral with value of 4 to 8 Texture --sandy, loamy, or clayey and may be stratified Redoximorphic features --masses of oxidized iron in shade of red, yellow, or brown, and iron depletions in shades of brown, yellow, olive, or gray COMPETING SERIES: There are no known series in the same family. Series in the closely related semiactive family include: I zagora soils --have more than 30 percent silt in particle -size control section K_ ullil soils --have Bt horizons in hue of SYR or redder uitnran soils --are brittle and compact in about 10 to 20 percent of the Bt and lower Bt horizons 1Vrinlrtsboro soils --have clayey 2B or 2C horizons between 40 and 80 inches below the soil surface GEOGRAPHIC SETTING. Landscape: Lower to upper coastal plain Landform: Marine terraces, uplands Hillslope Profile Position: Summit, shoulder Geomorphic Component: lnterfluve, Calf Parent Material: Marine deposits, fluviomarine deposits Elevation: 30 to 450 feet Mean Annual Air Temperature: 59 to 70 degrees F. Mean Annual Precipitation: 38 to 52 inches Frost Free Period: 190 to 245 days GEOGRAPHICALLY ASSOCIATED SOILS: Ronneau soils --are well drained, on slightly higher positions I hqg1jn soils --have more clay and have moderately slow permeability, on similar positions Minim soils --are in a fire -silty family and have moderately slow permeability, on similar positions Forestoll soils --are well drained and have moderately rapid permeability, on similar positions I xjichbqrg soils --are somewhat poorly drained, on concave to linear positions lower on the landform 3 of 5 2/3/2012 8:31 AM - -o »-••p- - .+v v.uvi.v UU VRV.fil[ I IE Nloboc:o soils --are well drained, on slightly higher positions Norfolk soils --ace well drained, on slightly higher positions Oc i Ila soils --are somewhat poorly drained, on similar positions 01',11196ur�", soils --are well drained, on slightly higher positions Pantelgo soils --are very poorly drained, on concave to linear positions lower on the landform Rains soils --are poorly drained, on concave to linear positions Iower on, the landform LVagram soils --are well drained, on slightly higher positions DRAINAGE AND PERMEABILITY. - Drainage Class (Agricultural): Moderately well drained Internal Free Water Occurrence: Moderately deep, transitory Flooding Frequency and Duration: None Ponding Frequency and Duration: None Index Surface Runoff: Negligible to medium Permeability: Moderate USE AND VEGETATION: Major Uses: Cropland Dominant Vegetation: Where cultivated --corn, peanuts, tobacco, soybeans, small grain, cotton, and pasture. Where wooded--loblolly pine, longleaf pipe, slash pine, sweetgum, southern red oak, white oak, water oak, and red maple, yellow poplar. Understory plants include American holly, blueberry, flowering dogwood, greenbrier, persimmon, redbay, southern bayberry (waxmyrtle), inkberry (bitter gallberry), honeysuckle, poison ivy, and summersweet clethra, DISTRIBUTION AND EXTENT: Distribution: Alabama, Arkansas, Florida, Georgia, Mississippi, North Carolina, South Carolina, and Virginia Extent: Large MLRA SOIL SURVEY REGIONAL OFFICE (MO) RESPONSIBLE: Raleigh, North Carolina SERIES ESTABLISHED: Duplin County, North Carolina, 1955, REMARKS: Diagnostic horizons and soil properties recognized in this pedon are: Ochric epipedon--the zone from the soil surface to a depth of 12 inches (the Ap and E horizons). Al-gillic horizon --the zone between depths of 15 to 76 inches (the BE, Btl, Bt2, Btg and BCg horizons). Aquic feature--Redoximorphic features with value of 4 or more and chrorna of 2 or less between within a depth of 30 inclies (Bt2 horizon) ADDITIONAL DATA: TABULAR SERIES DATA: SOI--5 Soil Name Slope Afrtemp FrFr/Seas Precip Elevation NCO041 GOLDSBORO 0-10 57-70 190-245 38-52 30-450 502-5 F1oodL F'loodH Watertable Kind Honths Bedrock Hardness NCO041 NONE 1.5-2.5 APPARENT DEC -APR >80 4 of5 2/3/2012 8:31 AM .- __._._.__._'......-......I.......... _ ..--v- --- "lJ l\V.I ll'ILL S0I-5 Depth Texture 3--Inch No-10 Clayo -CEC- NC0041 0-15 SL FSL 0-0 95-100 5--15 1--4 NCO041 0-15 LS LFS 0-0 95-100 2-8 1-3 NC0041 15-45 SCL SL 0-0 95-100 18-30 2-4 NCO041 45--65 SCL CL SC 0-0 90-100 20-34 2-4 NCO041 65.-76 VAR -- - - - S01-5 Depth -pH- 01M. Salin Permeab Shnk--Swll NCO041 0-15 3.5- 6.0 0.5-2.0 0-0 2.0--6.0 LOW NC0041 0-15 3.5- 5.5 0.5-2.0 0-0 6.0-20 LOW NCO041 15-45 3,5- 5.5 0.0-0.5 0-0 0,6-2.0 LOW NCO041 45-65 3.5- 5.5 0.0-0.5 0-0 0.6-2.0 LOFT NCO041 65-76 - - - National Cooperative Soil Survey U. S.A. i of5 2/3/2012 8:31 AM _.-.-a.............b.�.. v.�u_u•�w. ni i 4V6\17VL,%. IPII II LOCATION NORFOLK NC+AL AR FL GA SC VA Established Series CNIOIRev..IAK It/2005 NORFOLK SERIES MLRA(s): 133A-Southern Coastal Plain, 153A-Atlantic Coast Flatwoods, 153B-Tidewater Area MLRA SOIL SURVEY REGIONAL OFFICE (MO) RESPONSIBLE: Raleigh, North Carolina Depth Class: Very deep Drainage Class (Agricultural): Well drained Internal Free Water Occurrence: Deep, transitory or very deep Index Surface Runoff: Negligible to medium Permeability, Moderate (Saturated Hydraulic Conductivity: Moderately high) Landscape: Lower, middle, or upper coastal plain Landform: Uplands or marine terraces Geomorphic Component: Interfluve, side slopes Hiflslope Profile Position: Summits, shoulders, backslopes Parent Material: Marine deposits or fluviomarine deposits SIope; 0 to 10 percent Elevation (type location): Unknown Mean Annual Air Temperature (type location): 62 degrees F. Mean Annual Precipitation (type location): 49 inches TAXONOMIC CLASS: Fine -loamy, kaolinitic, thermic Typic Kandiudults TYPICAL PEDON: Norfolk loamy sand --cultivated. (Colors are for moist soil unless otherwise indicated.) Ap--O to 9 inches; grayish brown (10YR 5/2) loamy sand; weak fine and medium granular structure; very friable; nonsticky, nonplastic; few fine and medium roots; darker -colored material in old root channels; strongly acid; clear smooth boundary. (3 to 10 inches thick) E--9 to 14 inches; light yellowish brown (10YR 6/4) loamy sand; weak medium granular structure; very friable; nonsticky, nonplastic; few rule and medium roots; darker -colored material in old root channels; strongly acid; clear smooth boundary. (0 to 10 inches thick) Btl--14 to 17 inches; yellowish brown (IOYR 516) sandy loam; weak medium subangular blocky structure; friable; slightly sticky, slightly plastic; few fine and medium roots; few faint clay films on faces of peds; strongly acid; clear wavy boundary. Bt2--17 to 38 inches; yellowish brown (10YR 516) sandy clay loam; weak medium subangular blocky structure; friable; slightly sticky, slightly plastic; many fine and medium pores; few faint clay films on faces of peds; strongly acid; gradual wavy boundary. Bt3--38 to 58 inches; yellowish brown (10YR 516) sandy clay loam; weak medium subangular blocky 2/3/2012 8:30 AM I of 5 .____._.__ J_.._-..a.......... _ --.......11. "l 11.11L1111 structure; friable; slightly sticky, slightly plastic; few faint clay films on faces of peds; few fine faint strong brown (7.5YR 4/6) and few prominent yellowish red (5YR 5/8) masses of oxidized iron and few fine distinct pale brown (10YR 613) iron depletions; strongly acid; gradual wavy boundary. Bt4--58 to 70 inches; yellowish brown (10YR 516) sandy clay loam; weak medium subangular blocky structure; friable; slightly sticky, slightly plastic; few faint clay films on faces of peds; common medium distinct yellowish red (SYR 518) masses of oxidized iron and pale brown (1 OYR 6/3) and light brownish gray (I OYR 612) iron depletions; 1 percent, firm yellowish red plinthite nodules; strongly acid; gradual wavy boundary. (Combined thickness of Bt horizon is 40 to more than 60 inches,) BC--70 to 82 inches; variegated brownish yellow (1 OYR 6/6), strong brown (7.5YR 5/6), and yellowish red (5YR 516) sandy clay loam; weak medium subangular blocky structure; friable; slightly sticky, slightly plastic; 5 percent firm, brittle plinthite nodules; strongly acid; gradual wavy boundary. (0 to more than 15 inches thick) C-42 to 100 inches; variegated red (2.5YR 4/8), strong brown (7.5YR 5/8), brownish yellow (IOYR 618) and gray (10YR 511) sandy clay loam; massive; friable; slightly sticky, slightly plastic; strongly acid. TYPE LOCATION: Robeson County, North Carolina; 1.25 miles south of Parkton; 300 feet west of State Road 1724 and 60 feet south of farm road. RANGE IN CHARACTERISTICS: Thickness of the sandy surface and subRuface. layers: 3 to 19 inches Depth to top of the Argillic horizon: 3 to 19 inches Depth to the base of the Argdlic horizon: 60 to more than 80 inches Depth to top of the Kandic horizon: 3 to 19 inches Depth to bedrock: Greater than 80 inches Depth to Seasonal High Water Table: 40 to 72 inches, January to March Soil Reaction: Extremely acid to strongly acid, throughout except where limed Rock Fragment Content: 0 to 5 percent, by volume throughout; mostly quartz pebbles or ironstone nodules Plinthite Content: 0 to 4 percent to a depth of 60 inches and 0 to 10 percent or more below 60 inches RANGE OF INDIVIDUAL HORIZONS: Ap horizon or A horizon (where present): Color --hue of 10YR or 2.5Y, value of 4 to 7, chroma of I to 4 Texture --loamy sand, sandy loam, One sandy loam, or loamy fine sand. Some pedons are fine sand or sand. E horizon: Color --hue of I OYR or 2.5Y, value of 4 to 7, chroma of 2 to 6 Texture --loamy sand, sandy loam, fine sandy loam, or loamy fine sand. Some pedons are fine sand or sand. BE horizon (where present): Color --hue of 10YR or 2.5Y, value of 4 to 6, chroma of 3 to 8 Texture --sandy loam or fine sandy loam Bt horizon (upper): 2 of 5 2/3/2012 8:30 AM Color --hue of 7.5YR to 2.5Y, value of 5 to 8, chroma of 3 to 8 Texture --sandy loam, fine sandy loam, sandy clay loam, or clay loam Redoximorphic features (where present) --masses of oxidized iron in shades of red, yellow, or brown and iron depletions in shades of brown, yellow, or olive Bt horizon (lower): Color --hue of 7.5YR to 2.5Y, value of 5 to 8, chroma of 3 to 8 Texture --sandy loam, fine sandy loam, sandy clay loam, clay loam, sandy clay, or clay Redoximorphic features --masses of oxidized iron in shades of red, yellow, or brown and iron depletions in shades of brown, yellow, olive, or gray BC horizon or BCt horizon (where present): Color --hue of 5YR to 2.5Y, value of 4 to 7, chroma of 3 to 8, or variegated in shades of these colors Texture --sandy loam, fine sandy loam, sandy clay loam, clay loam, sandy clay, or clay Redoximorphic features --masses of oxidized iron in shades of red, yellow, or brown and iron depletions in shades of brown, yellow, olive, or gray C horizon: Color --hue of 2.5YR to 5Y, value of 4 to 8, chroma of 3 to 8, or is variegated in shades of these colors Texture --loamy coarse sand, loamy sand, loamy fine sand, coarse sandy loam, sandy loam, fine sandy loam, sandy clay loam, clay loam, or sandy clay. Some pedons have layers of coarser or finer textured materials. Redoximorphic features --masses of oxidized in shades of red, yellow, or brown and iron depletions in shades of brown, yellow, olive, or gray COMPETING SERIES: [�rantcburb soils --have hue of 5YR or redder throughout the Bt horizon Thursa soils --have hue of 5YR or redder below the upper 10 inches of the Bt horizon GEOGRAPHIC SETTING: Landscape: Lower, middle, or upper coastal plain Landform: Uplands or marine terraces Geomorphic Component: Interfluve, side slopes HiIlslope Profile Position: Summits, shoulders, backslopes Parent Material: Marine deposits or fluviomarine deposits Elevation: 30 to 450 feet Mean Annual Air Temperature: 57 to 70 degrees F. Mean Annual Precipitation: 35 to 55 inches Frost Free Period: 190 to 245 days GEOGRAPHICALLY ASSOCIATED SOILS: A ycoc soils --are in a fine -silty family 130111jeati soils --have an arenic soil surface 13uttcrs sails --are in a coarse -loamy family Uaroline soils --are iva fine family Craven soils --are in a fine family Du it Lin soils --are in a fine family t:xunr soils --are in a fine -silty family Faceville soils --are in a fine family 2/3/2012 8:30 AM 3 or5 rortston soils --are in a coarse -loamy family Gol(Isb pro soils --are moderately well drained Marlboro soils --are in a fine family Noboco soils --have siliceous mineralogy Lalcclilnd soils --are sandy throughout l,yirchburg soils --are somewhat poorly drained Rains solls--are poorly drained soils Orangebur = soils --have hue of 5YR or redder throughout the Bt horizon Pantego soils --are very poorly drained soils "rlwrsa soils --have hue of 5YR or redder below the upper 10 inches of the Bt horizon \Vagra soils --have an arenic soil surface - DRAINAGE AND PERMEABILITY: Depth Class: Very deep Drainage Class (Agricultural): Well drained Internal Free Water Occurrence: Deep, transitory or very deep Index Surface Runoff: Negligible to medium Permeability: Moderate (Saturated Hydraulic Conductivity: Moderately high) USE AND VEGETATION: Major Uses: Mostly cleared and used for general farm crops. Dominant Vegetation: Where cultivated --corn, cotton, peanuts, tobacco, and soybeans. Where wooded --pines and mixed hardwoods. DISTRIBUTION AND EXTENT: Distribution: Alabama, Arkansas, Florida, Georgia, North Carolina, South Carolina, and Virginia Extent: Large MLRA SOIL SURVEY REGIONAL OFFICE (MO) RESPONSIBLE: Raleigh, North Carolina SERIES ESTABLISHED: Cecil County, Maryland; 1900. REMARKS: The June, 1988 revision recognized the low activity clay properties of this soil as defined in the lotiv activity clay amendment of Soil Taxonomy, August 1986. 10/2004, changed water table from 4.0-6.0 ft to 3.3-6.0 ft to cover depth that would be included in the typic subgroup versus associated soils in the Oxyaquic subgroup. Diagnostic horizons and features recognized in this pedon are: Ochric epipedon--the zone from the surface to a depth of 14 inches (A and E horizons) Kandic horizon --the zone between 14 and 70 inches (Bt horizon) Argillic horizon= -the zone behveen depths of 14 and 70 inches (Bt horizon) ADDITIONAL DATA: (1) U.S. Department of Agriculture, Soil Survey Laboratory Data and ia, North and South Carolina. Soil Survey Investigations Report Descriptions for Some Sails of Georg No. 16; SCS, in cooperation with Georgia, North Carolina, and South Carolina Agricultural Experiment Stations; Pages 65, 67, 69. (2) U.S. Department of Agriculture, Certain Properties of Selected Southeastern United States Soils and Mineralogical Procedures for Their Study, Southern Cooperative Series Bulletin 61 (S-14); Soil Conservation Service, Agricultural Research Service and cooperating Experiment Stations; tables 64, 67, 68. (3) U.S. Department of Agriculture, Selected Coastal Plain Soil Properties, Southern Cooperative Service and cooperating Experiment Stations; 2/3/2012 8:30 AM 4 ors pages 40, 42, 44, 46. TABULAR SERIES DATA: SOI-5 Soil Name Slope Airtemp FrFr/Seas Precip Elevation NCO037 NORFOLK 0-10 57-70 190-245 35-55 30-450 SOI-5 FloodL FloodH Watertable Kind Months Bedrock Hardness NCO037 NONE 3.3-6.0 APPARENT JAN-MAR >80 - S0I-5 Depth Texture 3-Inch No-10 Clayo -CEC-- NC0037 0-14 SL ESL 0-0 95-100 5-18 1-4 NC0037 0--14 LS LA'S 0-0 92-100 2-8 1-3 NCO037 14-38 SL SCL CL 0-0 91-100 18--35 2-4 NCO037 38-70 SCL CL SC 0--0 98-100 20-43 2-5 NCO037 70-100 VAR - - - - SOT-5 Depth -pH-- Od-1 . Salin Permeab Shnk-Swll NCO037 0-14 3.5-5.5 0.5-2.0 0-0 2.0-6.0 LOP] NCO037 0--14 3.5-5.5 0.5-2.0 0-0 6.0-20 LOW NCO037 14-38 3.5-5.5 0.0-0.5 0-0 0.6-2.0 LOW NCO037 38-70 3.5-5.5 0.0-0.5 0-0 0.6-2.0 LOW NCO037 70-100 - - - National Cooperative Soil Suivey U.S.A. 0r5 2/3/2012 8:30 AM APPENDIX 3 FIELD SOIL DESCRIPTIONS ZONE PAGES 1 3 2 3 3 3 4 3 J 3 "',rr�✓�, —SZ,c 16G,T7^ $�?rCr'G ,(y� ` ;,�;LiG1L{+ eF �71Ca�,rC ✓,� '^�r7,'''• �` k AT Soil Evaluation,Fornn. Name S1 � ^�! r � ry � r site ' Reference Number ' Date Time f Weather - - Vegetation - Landsca/pe p /osition slope f Other e', 3 STA^1- Horizon Depth Texture Matrix Depletions Concentrations Structure Consistence Other in. cm (Group) Color (%, color) (%, color) (grade, size, type) (moist, stickiness. plasticity) 1� .tom i K� r• r Wetness Restrictive _ f' ✓'i �1 -S-Ystear`i,YPe -Trezi:Yr-B ottem Other Use back of sheet for site sketch (note that this should be done to scale) —L—T-AR A 7 K L Soil Description Sheet Project Name G r County � v��� Date Field No. _ Boring No. (with lat and long) _ Soil Description by: ;;< Vegetation n-,� I,�._ z„�s Other relevant informa{ion Landscape position /o//� Slope 1 Horizon Depth (inches) Texture Matrix Color Mottles Structure Consistence Internal Other (restrictive horizons, coarse (grade, size, e) Drainage fragments, etc.) [� SL p I-z 6/1 J 1 r3 J Z zZ `3v D /c 4�,qr%r � m 'Z N2P /CtlR7/1 'mZ f /c if Depth to seasonal wetnc Most restrictive horizon Other comments Ksat) -t ' c,.r7 r f'�• k� :•7 A10P7Y1 Type of water table /� ��c r• Soil Description Sleet Date Project Name T� / l'c Field No.►" / County Du �3 Soil Description by: cai -r Boring No. (with lat and long) Vegetation o mud Ru sv Other relevant infbrination Landscape position Pv* t b,� Slope Horizon Depth (inches) Texture Matrix Color Mottles Structure Consistence Internal Other (restrictive horizons, coarse (grade, size, e ) Drainage fraEents, etc-) 11 G` !� % t ✓Cl._ // (��+ /Cif/jl z�r�� V!j :r ��1 frJ 15-1- C6 1 sec. '� elg Depth to scisonaI wetness zZ1_ Most restrictive horizon (for Ksat) Other comanents r3-t Tr Typc of water table » 11 r �� - 4, (G� /Y1/ ! "�'G ✓ [ '' F m, it f� �rC 11,�1;1. � ter, f t Soil Evaluation Form Name % `)�=�-4 �, Site f 1 Number �c�- �- Date - If ? 6 f ' 7 Time �' �^ r 7T, � Weather r ,. , -Reference F - r Vegetation . _ �- Landscape position - - Slope !" Other Horizon Depth Texture Matrix Depletions Concentrations Structure Consistence Other in. cm (Grow) Color (%o, color) color) (grade, size, type) (moist, stickiness, plasticity-) �. � ��!' fy' '; , � w `!^ i.� rf4 - -• 1�: �,i ,may" . .� �_ Wetness: J /`` Restrictive ' - - Systenr-Type Other Trench Bottom LTAR Use back of sheet for site sketch (note that this should be done to scale) Kr Soil Description Sh-et,� Date 1 161,2 ]Project Name `1t 7 County /f Soil Description by: Field :1 \To. ]noring Into. (with. lat and Iong) <� Vegetation r�nrmuda as Landscape position r Slope - Other relevant information r iorizon Depth Texture iVlatrix Mottles structure Consistence Internal Q[her (restrictive horirons coarse (inches) Color (grade, size, type) Drainage T�f r r Z g7 Li y Z �4 Depth to Most restrictive Other comrncnts seasonal horizon wetness (for > Si r� Type of water table �1 3 /✓/I Ksat) u fra--mEnts. etc.) 7 i�t -5-6 tJ-rcS Soil Description Sheet Project Name : r• �5 Field No. Vegetation .1 DQ Other relevant information r Date County Soil Description by: No. (with tat and long) iC Lan.d.scape position. d'f1 Slope O Horizon Depth (inches) Texture Matrix Color Mottles Structure Consistence Internal Other (restrictive horizons, coarse (grade, size, type) Drainage rra- ents, etc.) r C � � •'�� r�IzaG� � �� p„ �?GC - Q- -66 f SCG mZ fS/ ,� FF Depth to seasonal wetness G Type of water table Most restrictive Horizon for Ksat) 73 3 Ocher corr rents J _ �� J• `A A "'Co, 3 Soil Evaluation Name Site Date If-S`/:/r2 f1f cJ' � rc-o e T-1- ;: ��-rc� ice' �. = c •�= �� �� 3 _Reference Number f l S'��f � � �r='� •� Time _3 . J �,, Weather f. Ix 7 r- �fY � vegetation SS - �/%r S►r�`� c Slope -3 Other Horizon Depth Texture Matrix Depletions Concentrations Structure Consistence Other in. cm (Grow) Color (°To, color) {%, color) (grade, size, type) (moist, stickiness, plasticity) f SCL GL f f� !✓Jrr" `� e ?M f%i'f' /!G f v r f`:%� p?rl t_ ! \ r / ^ YrJ SU- V) A Wetness/ Restrictive System Type 37 Trench Bottom Other Use back of sheet for site sketch (note that this should be done to scale) yY LTAR � ,, ' la, ; t� C.J6, Soil Description Sheet Date Project Narne Count _ r, r Fr -k �' , _ r Y — /n Soil Description by: �• ! �� Field ,- No. Boring No. (with lat and long) < Vegetation Ih i)Ct �J/ f-C f , err? I �'7�c rj Landscape position Slope G la Qthcr relevant inforrnation CeeI I Horizon I Depth Texture Matrix Mottles Structure Consictenec Tnternal I Qth (inches) Color (grade,size, t e) Draina¢e 17 z ✓1Y L= CZQ 14 6 y 1 5: YIr C Z�loLt�� CZD is .. Depth to seasonal wetness 3,� Type of water table Most restrictive horizon (for. Ksat) - .$�Z �s I'-/- ye " Other comments --5— Za — er (restxlctivc horizons, coarse Cxao-nents. etc.) Soil Description Sheet Date I 11 1f/ Project Name -'!4! t'G r County �vtJ,r7 Soil Description by: I~ield. No. 3 __Boring No. (with lat and long) Vegetation Landscap position SS Other relevant informAlon Slone 5 9 q Horizon Depth (inches) Texture Matrix Color Mottles Structure (grade, size, type) Consistence Internal Other (restrictive horizons, coarse Drainage fragments, etc.) IZ— 23 SCE, ve y �/ Z ?ten T l; Y �y.e,C 5 MZP /0VA7 L C Z 0 7 Depth to seasonal wetness Type of water table Most restrictive horizon (for Ksat) 94 3 Other coi=cnts %r-''"•n �� ' 7 � `1 ��ls "/. " ?'"C� f O..CnC:Z� , �`�"rG�G'r'1 Gr, r r- ,.,�:. � i ^� 7' r,/fI • �- fr %� - /� ,r •. - . - " / ^r, � r Soil Evaluation Form Name Site �� t Reference Number 1 " r Date � %=, r' !% � � � Time o Weather �.�: �G Vegetation r �Y� a` �•.'��.-�� Landscape position .S:� l!c7r--- l't77g `Slope .� — '� g Other r H ortzon Depth Texture Matrix Depletions Concentrations in. cm (Group) Color M color) (%, color) r s! /\/14 AM IvA L JA2 IN-36 lit-'SL I�-,y,,Y/I _ I- 36' F5�'L � 11 Al'f r % ILI Structure Consistence Other (grade, size, t)Te) (moist, stickiness, plasticityO 1114 t " / Wetness'', Restrictive �� r �� GC/ �;r �.•r� — a Sr1 cf�'uS J; ! Systejrr��yloes, 1C � � o f �Z �J / % { Other 1rI ottor - =-L-T R �� :r/r .'--tee •', , • %� Use back of sheet for site sketch (note that this should be done to scale) r �vc�f ��,C'•,,'�j�frj K (� g��#r�f� Soil Description Project Sheep �. r• ` Date t AZ TrTame c J f . _. ter • _/ County _l1� 1 r Soil Description by: Field No. Boring iqo. (with lat and long) Vegetation L)re,-(57 Landscape position Slope z Other relevant information.�� In 'r r ? � •� � �J ;� r ^ Horizon Depth (inches) Texture Matrix Color Mottles Stricture Consistence Internal Other (restrictive horizons, coarse (grade, size, type) Drainage fragments, etc.) AAA lj/,' 9Z. - Z 7 FSL /b yr''l fVi Vf' Cam• � /GIMP. �J �.� � � c �v A f -fit �z •J 16 53 J -` Depth to seasonal wetness-3-3 Most restrictive horizon (for Ksat) Other comments ,Z'W,o,,�/ . Type of water table Jy'• , rr, � - L�urri Jf Soil Description Sleet 2 Date Project Name i 3 it j s P r C �v �'� �� , - - County Soil Description by. `O rl Field No- Boring No. (with let and long) I - VPgetation Qr:!S Landscape position Slope Other relevant information Horizon Depth Texture Matrix Mottles Structure Consistcncc Internal Other (restrictive horizons co -,-- (inches) S Cc]or !'J /I Grade, size, type) IAI Drainage Fratrments, etc.) 1� 32, ,9A 32-36�- 5CL cz /0�5/� %z cZ-11 &y��/y t Depth to seasonal wetness Type of water table /-9 i Most restrictive horizon (for Ksat) OtZIez comanenus ��✓rr,-c/,� f-�� �il'� !rr;1'y /�!c �-; `-C 7.. --n��� ��,��rf..�-.r- ��-: �-i�,. Soil Description Sheet /� Date Project Name - l r County D✓/ ;)I Soil Description by: / �^ Field No_ C f r- 'rrr� - 5 oring No. (with lat and Iong) l Vegetation _h�fL7Jlr re In , Landscape position v 0 c�-,.� rz r',-!cc slope G— / :51, Other .relevant information � r Texture Matrix Mottles Structure Consistence Internal Odder (restricti-,re horizons, coarse (inches) Color (grade, size, t e) Drainage fragments, etc.) EHoriZOInDepth 47 J G ! f 7�z SCL r`G �� a Z "V1 5F < -� i 7C, 132! �� ✓� c Depth to seasonal wetness -,, Most restrictive horizon (for Ksat)�> Other comments N Type of water table!' 5., it Z p,,.L . /f Y� Seal Description Sheet � / Date //?/ / 7- Project Name 75,1f , _&J-k County Soil Description by:r,- Field No. boring Iqo. (with lat and long} Vegetation �J� ,�^�r. a_ L _ ._ _ Landscape position uo��.,.-� �,ia'� � _ Slope � z Other relevant information Horizon Depth Texture Matrix Mottles Structure Consistence Internal Other (restrictive horizons, coarse (inches) Color (grade, size, type) Drainage fragments, etc.) (` L SGL �L 2- 3 -3 R !1 S� C z .D /a y tJ, /l J �-7-6q s���l.�:� ,���zr 75%1r,"t"t5/ , z�_ /6y� -7/,r/: 1/ t C Ssl- G� Depth to seasonal wetness Type T e o�water table Most restrictive horizon (for Ksat) Other carmnents Soil Description Sheet D.ite Project Dame �� r �Gr Co County Soil Description icy_r- Field No_ Boring No. (with fat and Ion,(,,,)I S ��egetatioz� o ��� Landscape position L 5lolae Other relevant information Horizon I Depth, d—(b 6A 6 Texture Matrix Mottles Color T--5L czr�/QU�/ Depth to seasonal wetness 3.2- Most restrictive horizon (for Ksat) - gip rL-/- Other comments 3 r VOf --Pr,i /-H C D --� r ; Stricture (arade, size, t' Consistence I InternaI Drainatre r Y ?, d f, /r Other (restrictive horizons, coarse fragments, etc.) Type of water table yL'cYlaJ c Sa' UnG��r I ✓'�"1pn;i APPENDIX 4 SATURATED HYDRAULIC CONDUCTIVITY DATA SHEETS AND CALCULATIONS The Pork Company Ksat data'. 1/31/2012 Sample No Boring Depth- --_ -Head Tubes Latitude Longitude K1 46 6_ 'I'N35 deg 00.740' W78 deg 07.422' Time _ Height 'time change height change FFlow volume Q (cc/min) 925' 46 930 45.4 5 0.6 935 44.8 5 0.6 _ 0.7 945 43.5 5' 0.6 _ 9501 42.9 -- 5 • 0.6 9551 42.3 5 0.5 12' 2-4 Sample No - Soring Depth Head Tubes Latitude Longitude K2 _50 6 1 N35 deg 00.732' W78 deg 07.445' Time -"Height �_1020 time chance height change volume Q (cclmin) _Flow 1025 _ _4_1.2 36.8 5 4.4 33-2 _ 5 3.6 _1030 1035, - - 29.8� 5- 3.4_ _ - 1 D40 L - - 26.4 51 3.41 - 1045 ___ 231 5- _ 3.4 1D50 19.61 5 _ 3.4 66. 13.6 Sample No Borina Depth I Head Tubes Latitude Longitude K3 48 ' 6 i 2 N35 deg 00.710' W78 deg 07.464' Time Weight time change _ _ height change Flow volume Q (cclmin) 1210 25 5 1215 19.5� 5 5_51 1220 14 5' 5.5 - 1225 , 8.5 ... 5 5.5 '123Q _ Q (cc/hr) A 144 0,00083 Q (cc/hr) A 816 0.00083 Q (cclhr) A 5 5.51 577.5 115.5 6930 0.00083 Sample No Boring Depth 'Head . Tubes Latitude Longitude K4 38 8 1 N35 deg QD.445' W78deg 07,165' Time Height _time change height change Flow volume Q (cc/min) Q (cc/hr) A 1310 39.1 5 1315 37.4 5 1.7' 1320 35.7' 5 1.7 1325 34 5 1.7' 1330 32.4" 5 1.6 1335' 31.3 5 1.17 1340 - 30 2 _ 5 1.1_ 1345' 29.1 ' 5 - 1.1 22 4.4 264 0.00083 Shaffer Soil Services, Inc. Ksat = (QA) Ksat = (QA) (cm/hr) (in/hr) 0.12 0.047 Ksat = (QA) Ksat = (QA) (cm/hr (Whr) 0.68 0.267 Ksat = (QA) Ksat = (QA) (cm/hr) (in/hr) 5.75 2.26 Ksat = (QA) Ksat = (QA) (cm/hr) (in/hr) t�l SL'1�'C' �,,: 0.22 The Pork Company Ksat data: 1/31/2012 Sample No Boring Depth Head Tubes Latitude Longitude K5 34 6 1 N35 deg 00.442' W78 deg 07.151 Time Height time change height change Flow volume Q (cc/min) 1430 34.9 5 1435 33.2 5' 1.7 1440 32.2 5 1 1445 31.4 5 0.8 1450 30.6 5 0.8 1455 29.8 5 0.8 1500 29 5 0.8 16 Sample No Boring Depth Head Tubes Latitude Longitude K6 37 6 1 N35 deg 00.432' W78 deg 07.12E Time Height time change height change Flow volume Q (cc/min) 1545 38.4 5 1550 37.4 5 1 1555 36.5 5 0.9 1600 35.6 5 0.9 1605 34.7 5 0.9 1610 33.8 5 0.9 18 Sample No Boring Depth Head Tubes Latitude Longitude K r 31 6 1 N35 deg 00.527' W78 deg 07.217 Time Height time change height change Row volume Q (cc/min) 1640 37 5 1645 36.5 5 0.5 1650 36.05 5 0.45 1655 35.65 5 0_4 1700 35.2 5 0.45 9.2 Sample No Boring Depth Head Tubes Latitude Longitude K8 40 6 1 N35 deg 00.520' W78 deg 07,196 Time Height time change height change Flow volume Q (cc/min) 840 36 845 35.4 5 0.6 850 34.7 5 0.7 855 34 5 0.7 900 33.4 5 0.6 905 32.8 5 0.6 910 32.2 ' 5 0.6 915 31.6 5 0.6 12 Q (cclhr) A 3,2 192 0.00083 Q (cc/hr) A 3.6 1080 MOM Q (cc/hr) A 1.8 110 0.00083 Q (cc/hr) A Shaffer Soil 5ervirz inc. Ksat = (QA) Ksat = (QA) (cmlhr) "(inlhr) 0.16 0.063 Ksat = (QA) Ksat = (QA) (cmlhr) (in/hr) 0.9 0.353 Ksat = (QA) Ksat = (QA) (cm/hr) (inlhr) 0.09 0.036 Ksat = (CA) Ksat = (QA) (cm/hr) (inlhr? 2.4 144 0.00083 0,12 0.047 The Pork Company Ksat data: 1/3112012 Sample No Boring Depth I Head 'Tubes Latitude_ Longitude K9 _ _ 42 6 - -- -_ 1 N35 deg 00.530' W78 deg 07.216' - Time LL Height time change height change yF]ow volume Q (cc/min) Q (cc/hr} A _945n - 4T 2 g _ - 950 39.51 955 38 5 1.6 1000 36.5 1005T 35.1 5 1.4 10i0 33.7 5 1.4 1015 - 1 32 3' 1.4' 28' 5.6 336 0.00083 Sample No - Boring Depth Head Tubes Latitude Longitude K10 _ _ 52, 6 i ,N35 deg 001..498' WT8 deg 07.273' [me _ 1Heigltt_ `time change height change Flow volume Q (cc/min} Q (cclhr) A 1100 34.4 5. 9 ! 05 33.8 5' ' 0.6 _ . 111 _ _ 33.2 _32.71 5 0.6 1115 5 0.5 1120 32.3j 5 0.4 1125 - 31,9 b 04' 1130; -- 31.5 5 0.4_ 1135 31.1 5 0.4 8 1.6 93 0.00003 Sample No _ Boring Depth Head Tubes Latitude Longitude K11 _ - 50 8I -time 11N35 deg 00.511' W73 deg 07.272' Time, I Height _ . change height change Flow volume Q (cc/min) Q (cclhr) A 1200 36.$ 5 12051, _ 36 5 0.8 1210 35.4 5 0.6' 1215 34.7 5 0.7 1220 34 5 0.7 1225 33.3 5 0.7 1230' 32.5 5, 0.7 14 2.8 168 0.00083 Shaffer Soil Services, Inc. Ksat = (QA) Ksat = (OA) (cm/hr) (in/hr) 0.28 0.11 Ksat = (QA) Ksat = (QA) (cm/hr) (in/hr) 0.08 0.031 Ksat = (QA) Ksat = (QA) (cmthr) (in/hr) The Pork Company Ksat data: 1/3112012 Sample No Boring Depth Head Tubes Latitude Longitude K12 Time Height 47 time change 6, 1 N35 deg 00.498' W78 deg 07.266 ' height change Flow volume Q (cc/min) 13D0 3g $ Q (cc/hr) A 1305 34.2 5 3 8 1310 30 5 4.2 1315 25.9 5 4.1 1320 22.1 5 3.8 13251 18.1 5 4 1330' 14.31 5 3.8 I 13351 10.5 5. 3.8', 76 152 912 0"00083 Sample No Boring Depth Head Tubes Latitude Longitude 34 time Time lHegght 6 time change change 1 N35 deg 00.647' Flow volume W78 deg 07.251' 1410 , Q (cc/min) Q (cc/hr) A - 36.5 5theight 14.15 35.3 5 1.2' 1420 34.1 5 1.2 1425 33 5' 1 1 14301.32 5 1" 1435; 31' 5 1" 1440, 30.1 5 0.9 144529.1 5. 1 1450 28.1 5 1 2D 4- 240 0.00083 Sample No Boring Depth Head Tubes 'Latitude Longitude K14 36 6 1, N35 deg 00.643' W78 deg 07.297' Time _Height . time change height change Flow volume Q (cc/min) Q (cc/hr) A 1520; MA' 5 1525 37.4 S 1 T 1530 36.6 1 5' 0 8 15351 35.8 ; 5 Q.$' 1540. 35.1 5 0.7 1545 34.4 5' 0.7 1550 33.7 5 0.7 155 33 5 0"7 14 2.8 168 0.00083 r - Ksat = (QAr Ksat - (QA) r1 (cm/hr)r'- 0"76 0-298 Ksat = (QA) Ksat = (QA) (cm/hr) (in/hr) 0.2 0-08 Ksat = (QA) Ksat = (QA) (cm/hr) ('sn/hr) 0-14 0.055 The dark Company Sample Q Boring Depth Ksat data: 1I3112012 'Tubes K15 _ .-� Time 36 - _Head 6 Latitude Longitude �_ - T� 35 de 06 --- - ' Heig6?_- 1620 36.3 time Change 9' W78 hei h --- - 9 -- g - " 9. t change Flow volume : Q (cc/min) .A Q (cclhr) 1625 34.5 5 1.8 1630 33' 5' 1.5, 11635' _ 31.5 5. 1.5 1640 , 30.1 5' 1.4 1645 - 28.f _ 5. 1.4, 16501 27.3 , 5 1.4 28'S.6 �38 0.000S3 Shaffer Sail Services, Inc. Ksat = (QA) Ksat = (QA) (Cm/hr) . (in/hr) 0.28' 0.11 = Rom~ - APPFNDIX 5 WATER BALANCE FOR ZONES 1-5 A Spray Irrigation Water Balance for Permit No: Perm ittee Name: Facility Soil Scientist: Engineer: WQ0016376 The Pork Company Villari Livestock Processing Karl Shaffer, L.S.S. Water Budget Prepared By: Karl Shaffer, L.S.S. The Pork Company 2-2-2092.xls Project Id Shaffer Soil Services, Inc. Enter Data =_> Precipitation Worksheet FYI j Calculate the precipitation for an Both percentile ' _ based on long tern - =miter' Click on each step box Precipitation Data Step 1 Step 2 Mean Monthly Month Precipitation Percent of Mean Annual Precipitation 80th Percentile Monthly Precipitation inches percent inches January February March April May June Jul August September October November December TOTALS 4.13 3.08 4.68 1.88 3.88 5.56 6.52 7.91 2.60 5.26 1.36 2.74 8.50 6.34 9.63 3.37 7.99 11.44 11.36 16.28 5.35 10.92 2.80 5.64 3.54 Step 3 - Precipitation Data Soucre Location of Precipitation Data: Clinton, NC (Sampson County) Staring Year of Data Record: 1951 5.14 _ 2.24 Ending Year of Data Record: 1981 Step 4 4.32 6 12 Values shown in yellow period of Record (Yeats) cells are linked to other 5.95 locations within the Water '��� s Balance Program Source of Data: A ��. 3.07 USDA-NRC5 County Soil Surveys (contact local MRCS office) 5.62 1,74 t 3.28 48.60 100.00 54.34 Pe''io-d of record for precipitation data should ch pedod,of record lorldmpe.-Muredata s 1 The Pork Company 2-2-2012.xls Precip Shaffer Soil Services, Inc. Enter Data Potential Evapo Transpiration (PET) Worksheet Choose PET Method: ElThornthwalte Method ---Click on ❑Manually Entered PET _-- Click on each step box Thorrithwaite PET Calculation MoaM�ntDly- CalP�ted Mon111 houn� 12 Hcat Indc7c E� (dogreas F) � � Inchas January 41.1 0.07 1.02 0.27 Fobn=y 442 0,05 1.70 OAO March 52.0 1.03 3.36 1.24 April 6t2 1.09 5.94 250 Ma 69.0 1.21 3.60 4.10 Juno 76A 1.21 10.93 6A7 x-ly 73.6 1.23 12.06 6.27 Amuot 779 11.72 6.76 SoMrnbar 726 9.75 4.13 October 620 6.19 MOU 2.:,i November 6Z3 3A3 1.06 DacomDar 44.6 1AA 0.46 �� 7DTAL5 70.19 34.11 Saurea of Temparmov Data _. Step 3 _Laeatlon of ProcipltaNen data: Clinton. NC Staring Year of Data Record: 1969 I Ending Year of Data Record: 1981 _ Parted of Record {Yeah] m 30 Sourcc of Data: USDA -MRCS County Soil Surveys (contactloeal NRW off>ce) i . D3 to PET Data FYi 1 used in i water " Balance FY! 2 IF_ 027 ' � � Step 6 73o 4.16 SA7 Value: shown In 627 yellow cells arm linked to other _ 576 loratlom within the 4.13 water Balance 233 Program OA6 34.11 The Pork Company 2.2-2012.x1s PET Version 5 December 2004 Step 2 SWp 3 influent, Lagoon Storage, and Zone SetupWorkstleet � '�� ToLir posad�e} Do-lgn oluy (Anntied Flow ([nliuerd) i {annual _ ;alctegt =ee ad'rrated ln[Iutlt 1m sing by mc:Vdlrsg [n3 L'3 n2 a.-. Ir SaI:JQty Avamged). _ I{,, and loosex from the Storage Lagoon. and so: UP the 5or,.v i, '� 150 70,a00 9a137day won-_ ::rr.. -'_ :nCrvldvai terse flevreh__. Click on each step box 71,480---..-... Enter Data Data Pradp Lagoon Gauls & Lonxs [nquent J nhoul0 be equal �i__���Fvop• Evapomd gdjyylpd 1, Pan i5d LEI Lageen Dealgn lnnuant Total: [nnuot+ Loasas Volunro per Lagoon GaIns & Data Pan Data pfrom Evsp. Month Lewes IriClrea {nohm Inehae gaflona gallona Sallons gellen3 January 31 7.82 1.2T 4.87 179,160 G7,887 2,579,500 2.x2G,572 Fobrvary 28 2.24 1.67 7.54 .i 144,17T 63,662 1,968,400 2,043.796 March St 4b2 --Ar 5.14 209,342 128,863 2,179.300 2,259,779 AprO 30 0.77 4.74 2.24 07.T.11 193.010 2,169,000 2.007,221 May 31 776 5.43 4.32 175.945 220,%49 11 2,179,300 2.134,296 Juno 30 SSG 5.71 C12 24-3,265 232,638 r 2.109.000 2.t25,61T J.1Y 31 2-0 600 5.96 UZ332 2"A27 7-179.300 2.1Tl,704 August 3i 7AC 5.19 E,43 343,337 210.971 2,179.a00 Y,371,6CG Soptember 70 G04 d.23 3.07 126,036 177-IM I 2,109,000 2,061,237 October 77 4-66 3.26 5,62 226,691 132.670 2'173 _00 2,275.622 Novemhar 30 2M 2.06 1.74 70,867 83.633 2.109,000 2,096.334 Decemher 71 1.67 1.17 7.28 735,688 47.611 2,179,300 2,265,27T 7acah;' a65 62.SZ 43.76 64.31 2,213,160 1.-M,a211 26,657,600 26,09D,239 Source of PAN Ettap. Data SUP 6 Other (List Below) _. Aurora Station, Beaufort County Ste q Zone 1 �j Zone 2 ��ot{ I` I Total Flow to ,Daily Flow to�ma9c ' D61iy Flow Ya Wettod All Zones Zeno 1 } Zeno 2 Acroago zone 3 ' galatdaY acre �' galJtlay acorn galrJtlay galalday 6,030 Ir 1,200 0�0 1,470 71,480 In'. Ratc 0.62 lrr_ Rato 0.62 1 lrr. Rate [inlwk)- (lnt vk)= Zone fume to bo 03powd gaRena i8C,930 165AO 586,970 1i0,90D 186.930 580,900 186,930 SE6,�30 180,900 1 E6,030 1a9,sgo 104970 2,zooaso 11 Zono1 Dnclgn Irr[gaGan par month instroo r 2.T6 r 2.43 Z75 2.G6 2.75 ZGG 2-75 2.75 2.66 275 266 2-76 The Pork Company 2-2-2012.xls Influent+Zones Setup Shaffer Soil Services, Inc. ie 3 ZOoe 4 Zone 5 Zone 6 �� '.I Zane 7 r� Zone 8 _ -- Zone 9 Zone 16 �r �y Wotmd Daily Flow to Wolmd Daily Flaw to Wottad 'i Il Daily flow to Wptiad ID¢RyFlow to Wolfed Gaily Flow to WotiOd Daily Flow to WMted I Daily FlDw to WCRCd i Anwge Zane 4 Aereaga Zone 5 Ac�oaga Zono G Acmaga 2:one 7 Ae�oage Zena81 Ac[e¢gc Zone 9 Ancaga III Zon010 Acreaga 1, acrC �, gala7day I §aLuday aces §alslday auea 1 galslday acres 9alsldaY ones galalday aao:�-galmWay� acla� , 0.3C Irr- Rate rinlwk4. Zone 3 Design Zane a Irrigation per Volumc to be month Dlapaaod irrelrea gallons 1.53 ` ss,zso iSS 40,SE0 l-Z � 40,20 1AZ 43.AOo 1.53 III 45,200 1A8 jl 43.200 IM 1�3 ".260 1AE 43.300 1.53 " iI wno 1.4E 43,800 1.0 46.'KD 17.90 63Z,900 0.29 ii II (.. - .1 013 Design Irrigation per month Zone 5 Volumo to be Dlapoaed Derlgn Irrigation par rrgnW fI inches gallons lnchoa E Jai- 1,900.9Z0 3.6 1,16 1,71G,96a 274 1.7E 1.9tW.920 3A3 1.M 1,839,G00 2:w,I t 1.2E 1,900.320 j 29S it t 1.24 1,839,i00 i.a ' 1,soo,9zo r AOS Ii� 1,ti t,900,920 ? 3.03 I 12A 1,839.Go0 [ 2.93 i 1,2E 1,500.920 i 3.03 . 1.24 l'aas,G00 I 203 3.0 36.67 II it5.70 �� T ` 1,900,920 1il 2,Z,3Ei,tAD G nowter � Zono 4 Zone 6 Design ales to be Itrlgatkan per Hapowd marrth I. inches galtona 0 - i OAO 0 0.00 0 0.00 0 �0.00 a r D•ao O 0,D0 I D 1 o,oa 0 i #AO Irr. Rate Irr. Rate 1". Kato trr. Rato (Inlwk) Iinlwk) • pnrwk) _ -I (111iwk) Zone 7 gallons 0 0 0 0 D a 0 0 0 0 be Zone? ZanoS l Zono9 Zone 1D -- Design Zone 8 Oeslgn Zeno 9 Dealgn 2ono 10 poalgn Grigatlon per Volume to be [rrlgat3on par Volume to 0o inigallon par' Volume to ho Irrigation pot month Dlaposeo month Dhpasad month Dlepeaed month Inches gallons Inchas gallons Inchon ga0ono inch= W r 0.00 _.. ri a ^ 0.00 0 0.00 0 �. J --'Fro 0.00 0 0.00 0 0.00 D O.OD 0,80 0 0.00 0 a.00 0 0.00 - 0A0 0 0.00 l O 0,00 0 0.00 -000 0.00 D -000I , 0 r 0.00 0 .� . 0,00 p O,DO 0 -Oo 0 r 0.00 j 0.00 0 r 0�oa o BAD 0 0.00 i 0.00 0 0.00 O i 0.00 0 a_0o 0.00 - 0 i O-O0 0 0A0 0 0,00 0.00 0 i 0.00 I a 0.00 ' 0 0.00 0.00 0 0.00 ; # 0.00 0 0.00 DAD 0 0.00 _ _ ` 0 0.00 0 aAO ,'I I 0 I 0.00 0'OD , 0.00 ` 0.00 I,~R in The Pork Company 2-2-2012-XIS Influent+Zones Setup Shaffer Soil Services, Inc. Soils and Water Balance for Zone 1 T Soils Series Information for Zone 1 Potential site limitations Water table depth risk of 1- bedrock Zone 1 Descriptlon: Series Name Drainago class (BLS) perching 60" BLS ? SL5below land surface Calculate Soil Drainage Lynchburg poorly ".5 -<2D low nv = Step 1 Step 2 IF x I{sat 1n ,itu eaturated verOcal Sail Drainago hydou{Ic conductivity Drainage_�- Ksat) TaCtOr (f} Rate inlhr inlday portent lnlday Click the "CALCULATE' Copied from Influent 8 Zones Setup Sheer. 0A 5 - -- 3.B0 0.040 0.74 Daily Flow = 6,030 galsrday button after making Changes. Zono 1 Zona 1 Month pays par pEf Sail Total H month Drnlnngo Loss ]nches Inches inchos inthes January 31 4.46 4.74 4.39 February 29 4.03 4.51 3.54 March 31 4.46 5.70 5.14 April 30 N4.16 AM 6.62 2-24 May 31 4A6 8.62 4.32Juno 30 4.32 9,79 6-12 July 31 6.27 4A6 10.74 S.95 August 31 5.76 4A6 10.23 5.43 September 30 4.13 4,32 3A5 3.07 October 31 2.33 4A6 6.79 5.62 November 30 1.06 4.32 5.33 1.74 December 31 0.46 4-46 4.92 3.28 Totals: 365 34.1i 52.56 86.67 54„34 The Pork Company 2-2-2012.xis Z9 Zone Area 2-50 acres Zone 1 Zone 1 Caltulatod Manual Actual Used Override - - Cummulativo Maximum Maximum Maximum Storage Actual Allowable Allowable Allowable `, pesign litigation Monthly Required for Monthly Irrigation Irrigation Irrigation I. par Month Fxccs Irrigation Irrigatlon Rate Inches inches inchos inches 2-75 inches Inchev Inches o.aa -2.75 4A8 I 1 0-00 0.00 k 0-97 0.97 2.49 -0.52 6.00 0.9T 0.56 0.56 I 2.75 1 .2.19 0.56 4.513 4.56 I 2.66 1.91 6.25 4.55 4.30 4 30 2.75 1.55 4.73 4.30 3-67 3.67 I' 2.66 1.00 3.73 IV 4.79 11 479 2,75 2.0E 1.69 4.79 1.30 1.80 2.75 -0.96 265 1.80 5.38 5.38 2.66 2T7 0.00 5-32 1.17 1.17 h 1 2.75 -1.58 1.53 i.17 FYI 3.64 3.64 2.66 0.9T 0.61 3.64 1.64 1,64 2.75 -1.11 1.72 1.64 i� 32A2 32.48 32A8 . t +. •r-�~. _ E.19 over 250 0 555,995 -- Shaffer Soil Services, Inc. Soils and Water Balance for Zone 2 Soils Scries Information for Zone 2 Potential site limitations Water table depth risk of Ir bedrock c Zone 2 Description: Sarivs Name Drainage class (BLS) perching SO BLS 7 BLS = below land surface Calculate Soil Drainage Norfolk well low no Ste i� Step 2- f x Ksat In -situ ssturatod vortical Dra rage Sail it hydraulic conductivity fatter Drainogo - = .. -- _ NMI Ksat)- inrhr Srtlda vrcvnt inld Cvpivd from lntleonY &Zones Setup Sheet- "CALCULATE" 0.48 1.80 0.080 4.14 Dai$y Flow = 1.200 galslday bu&on Sifter making Zane Z Area = 9.50 acres changes. Zone 2 Zone 2 _ Calculated Manual Actual used Override Cummulative Zone 2 Zono 2 Maximum Maximum Maximum Storage Actual Month Days pef P>=T Soil Total Precl Allowable Allowable Allowable Required for Monthly month p Design irrigation Monfhly n Llralnage Loss irrigation Irrigation Irrigation Irrigation Irrigation Rate per Month ExCeiS ti ti •„ . L �, inches inches inches inches Inches- mcho- Inches Inches Ineho: inches inchcs ,�6 January 31 0,27 4.46 4.74 4.39 0.00 0.00 2.74 -2.74 4.l2 0.04 kh February 23 GAS 4.03 4.51 3.54 0,97 0.97 2.47 -1.51 5.93 0.97 •i-.�� 7� ��}� r" ,,d March 37 1.24 4.46 5.70 5.14 0,56 0.56 2.74 .2.13 -' e.56 April 30 2.50 4.32 6-32 2.24 I 4.53 4.58 2.65 1.93 6.18 4.58 May 37 4A6 4.46 5.62 4.32 4.30 4.30 2.74 1S6 0.62 4.30 . 'iy� ~ �•�� -„ e'-`ram t-'V.}:' �•.�..f '� June 30 5,47 4,32 9.79 6.12 3.67 3.67 2.65 1.01 3.61 3.67 �ww.- ` -�" �' " �• July 31 6.27 4.46 10.74 5,95 4.79 4.79 2.74 2.05 146 4.79 August 31 5,76 4A6 10.23 1 8.43 1.20 1.80 f 2.74 -0.94 2.50 1.30 O P'�i� I�T`� Svptembar 30 4.13 4.32 8.45 3.07 5.33 5.38 I 2.65 2.73 0.04 5.16 t-' October 31 2.33 4.46 6.79 5.62 1.17 1.17 2.74 -1.57 1.57 1.17 FYINovember 30 1.06 4,32 5.38 1.74 3,94 3.64 2.65 4.99 0.58 3.64 December 31 0.46 4.46 R.92 3.29 1.64 1.64 'i 2.74 -1.10 1.63 1.64 Totals: 365 34.11 52.56 86.67 54.34 'i 32.48 32.43 32.26 �r 32.2fi Maximum Monthly Storage Required for the Irrigation of Zone 2: inches aerrs gallons 8.11 over o.54 _ 11n,147 The Fork Company 2-2-2012.xis Z2 Version 5 December 2004 Soils and Wafer Balance for Zone 3 Soils Series Information for Zone 3 Potential site limitations �. Water table depth rlsk of In bedrock-e Zone 3 Description: Series Name ❑rainago class (SL5) parching 60" BLS 7 BLS = below land surface Calculate Soil Drainage Goldsboro mod we[I ?_0-3.0-3.0 j Eow j no Step 1 Step 2 f x Ksat An -situ saturated vortical Soll Drainage Ilhydraulic conductivity----'-- K atl Tactor (t) �� II Click :.hc Inrhr inlday poreent inldAy f� Copied from Influent S Zones Setup Sheet: -CALCULATE" 0.04 0.96 0.100 0.10 E, Daily Flow= 1,4T0 galsfday button after making changes. Zone 3 Area = 1.10 acres `I Zone 3 Zeno 3 Calculated Manual Override Actual Used II .. Cummulalive HELP Zone 3 Zone 3 Storage Actual Maximum Maximum Maximum III Month Days PET Soil Total Preeip Required for Monthly Allowable Allowable Allowable Design Irrigation Monthly month Dralna o Loss Irrigation Irrigation Irrigation irrigation Irrigation Kato g 9 9 9 per Month Excess ]nchas Inches inches Inches inches inches inches II inches inches - rinehes isiches January 31 0.27 1 2.98 1 3.25 11 4.39 0.00 1 DAD 1.53 -1.53 3.70 0.00 February 28 0.48 2.69 1 3.16 1 3.54 0.D0 0.00 I 1.38 -1.38 5.08 i 0.00 March 31 1.24 7-98 4,21 5,14 April 30 2.50 4.16 2.83 5.38 2.24 May 31 2.93 1 2.88 7.14 4.32 6.i2 Juno 30 5.47 8.35 0.00 0.00 1.53 -1.53 0.00 3.14 3.14 1.43 1.66 4.95 1 3,14 2.82 2.82 1.53 1.29 3.66 1 7-82 2.23 2.23 1,4E 0.75 2.91 1! 1 223 July 31 11 6.27 1 2.98 1 9.25 1 5.95 3.30 1 1 3.30 1.53 1 1.77 113 3.30 *AUt 31 5.76 2.96 8.74 8.43 0; ] 0.3] 1.53 -1.22 2.35 0.31 ber 31 4.73 2.8fi 7.01 8.43 0.31 0.31 1. - 0.00 3.53 er 31 2.33 2.93 5.30 5.62 I 0.00 0.00 1.53 -1.53 1.53 0.00) I November 30 1.06 2.83 3.94 1.74 j 2.20 2,20 1.48 0.72 0.80 Z.20 December 31 0.46 2.98 3.43 3.23 ` 0.15 0.15 1.53 -].37 4 2.18 _ _ 0.15 Totals: 665 34.i1 35.04 69.]5 54.34 ,E 16.OT 13.07 l 1796 �! 17.95 Maximum Monthly Storage Required for the Irrigation of Zone 3: ".J r• � `_� inches acres gallons ' over - 197,356 u The Pork Company 2-2-2012.xls Z3 Shaffer Soil Services, Inc. Soils and Water Balance for Zone 4 Soils Series Information for Zane 4 Potential site limitations Watertablo depth risk of la bedrock < Zone 4 Description: Serfos Name Dralnago class (6LS) parching 60" BLS 7 eLS = below land surface Calculate Soil Drainage Lynchburg s poorly Iow na Step 1 Step 2 f x Ksat 0 In -situ saturated vertical Drainage 7r.1..9L hydraulic conductivity � Fo - _- -- --- --_- K t) factor {t] Click the inlhr inlday percent lnfday Copied from ]MIu,M &Zones Setup ShecL- "CALCULATE" 0.04 1.03 0Aa0 0.0E �� Daily Flow = 1,4G0 galslday button after making changer - Zone 4 Area - 1.10 acres Zone 4 Zone 4 -' Calculated Manual Override Actual Usod I - - Cummuiativa 9� torte 4 Zon, 4 Maximum Maximum Maximum Storage Actual Morlffi pay: per month PET Soil Total Pracip Allowable Allowable Allowable I Dsign Irrlgatl0n Monthly Required for lrrigatlon Monthly Irrigatlon Rate January 31 Inches 0.27 Drain_ge inches 2.56 Loss Inches 2.$3 inches 4.69 irrigation mchrs 0,00 Irrigation inches Irrigation inches 0.00 perMonth inches 1.28 Exc,-_-_ inches -1.25 inches r 3M inch,-_ 0.00 February March April May June 28 31 30 31 30 0.48 1,24 2.50 4.16 5,47 2.51 2.56 2.48 2.56 2AS 2.79 3.a0 4.98 6.72 7.94 3.54 5.14 2,24 4.32 6A2 0.00 0.00 IIEIII 2-74 I 2.-00 1.82 G.Oo 0.00 2.74 2,40 1.82 1.16 128 1,24 1.29 1.24 -1.16 -128 1.49 &45 - 4.24 3A2 2.54 0.00 0-00 2.74 2A0 1.32 July 31 6.27 2.56 3.33 5.95 2.68 2.68 1- E 0.94 ZB8 August 31 5.76 2.5G 8.32 8.43 0.00 0.00 1.28 B 2.22 0.00 September 30 4.13 2.43 6.60 07 3.533.53 1.24 9 0.00 3.47 October 31 2.33 2.56 4,89 62 rl'74 0.00 0.00 123 -1.28 128 0.00I November 30 1.06 2AB 3.,3 . 1J9 1.79 I 1.24 0,55 0.73 7.79 December 31 0.46 2.56 3.02 0.00 0.00 -1.28 _ _ 20 1 � I.26 � � � Tot1L^^: 365 34,11 30.13 6424 54.34 15.17 15.17 The Pork Company 2-2-2012_xls Z4 il.'AE Maximum! Monthly Storage Required for the Irrigation of Zone 4: Inches acres galhns 5.73 over 1.30 202 �88 Shaffer Soil Services, Inc_ war Soils and Water Balance for Zone 5 Zone 5 De3cription: Calculate Soil Drainage step 1 _., Step 2 f x Ksat In .it0 saturated vortica❑ irl aina Drana Soil hydraulic canducvity factor {� Drainogo (Ksat) to lnlhr inlday percent inlday 771.92 0.0L0 0.15 ,�l Zeno 5 Zono 5 Month Days per P>=7 Soll Total Precip month Drajnaga Lots inche. inches Inches inches 1 January 31 0.27 4.76 5.03 4.S9 February 28 0.48 4.30 4.78 3.54 March 31 1.24 4.76 6.00 5.14 April 30 2.50 4.61 7.11 =4 May 31 4.16 4.76 5.92 4.32 .Juno 30 5.47 4.61 10.07 6.12 July 31 6.27 4.76 11.03 5.95 August 31 1 5.76 4,76 10.52 8.43 Saptembor 30 4.13 4.61 8.74 3.07 October 31 2.33 4.76 7.09 5.62 November 30 1.06 4.61 5.67 1.74 December 31 9A6 4.76 5.22 3.28 Totals: 365 34.11 56.06 9R-17 54.34 The Pork Company 2-2-2012.xis Z5 Soils Series Information for Zone 5 Series Name Drainage clasu Potential site limitations Water table depth risk of L- bedrock a (BLS) perching 60" BLS 7 ELS = below land surface Norfolk well !ow no Goldsboro I mod well no Click tho Copied from Influent&Zone Setup Sheet "CALCULATE' button after making DailyFEow= 61,320 gats7day changes. Zone 5 Area = 23.11 acres Zone 5 Zane 5 Manual Calculated Override Actual Used Actual Maximum MaXimum Maximum L'j Monthly Allowable Allowablo Allowable pesign lrrgation Monthly irrigation Rate Irrigation Irrigation Irrigation per Month Excess inchr inches inches inches inch0s inches jl ll 3.03 -2.89 -inches 4.54 0.1d 0.14 0,14 1.24 1.24 I; 2.74 -1.50 6.04 1.24 0.86 0.85 �I 3.03 -2.17 - 4.87 d,BT 2.93 1.94 6.23 4.37 4.60 4.60 1{ 3.03 5.57 4.71 4.60 3.95 3.05 VI 2.93 1.02 3.69 3.95 5.0E 5.08 3.e3 2.05 1.1;3 5.08 2.09 2.09 3.03 -0.94 2,57 2.09 S.6T 5.67 2.93 2.73 i 5.50 1„47 1.47 3.03 -1.56 1.56 1.47 Fail 3.133 3,93 2.93 0.99 0.57 3.93 1.94 1.94 3.03 -1.09 _ 1.661 _ �1 ._ 1.S4 35.67 35_&3 35.83 J ` Maximum Monthly Storage Required for the Irrigation of Zone 5: inches acres gallons 8.22 over 23.11 - 5,155,503 Shaffer Soil Services, Inc- Zonal Storage Summations OBJECT: Ya wIc Iata the minimum wetweather swage requinad fora multlplo zonoe spray Irrigation site. Zmw IDe.orlpelan m rr.de+„lne„e sou. -» IMlly flow to zv+n+ia Wueed Aclmtls-va e.ye pp Ibnth edh 00 Ynnry 11-rch ... ]/ ]t ae ]1 2'ona i Ir Zeno 2 2ono 3 Zono a I(�`— Z`u�n'c 5 Zonc 6 Zona 7 Zone $ !�"'Zo`nc 9 Zona 1t1 TOtdIS II( —III Innuvnt 70,3pe �re�h6,lro Noddy t]ddlne.a Lmentwp NorlalY tavdr- pvletwm 0.03P tlPa t.700 LPd t!7o ypd 1,1E0 9Fd 6T,T0 11Cd [t tll� a tlf� a tlrd a 9Pd a 9pd 7vld Flow pkpo.•q 7i lo4 WPM - 2�J 03Q ucxa t.i6 Does T30 acme �,71 x,uv O.e6 ocr.l tl.tlo ucm 0,00 vcrN itao mle. 0-00 ac,a• Tealw�u ^-=.L'I Gu,nmusael;� •ea CVmmVlel�r� erq/ Cvmmulvdw Svlpe Cummutetlw $larapv Cummvl Hive 9lwye Gummulattvo $[oretle CummulltWu $mmpe Cummy4tlw smratle CVa,mda[uve 516rgw CummuLillw Storotle Cummuletive slurupu N•q n.0 R.quYed Ikequlled F•gdr.d RegVsrvd RvquYed aoquhmd R^9 In,d R•quir•d Required IKMe Yip+. O ellam IneMn II•M 1r,the. 11� InU+•. .Ion. Inei�ee Nlene IwCMn. ntlaM � alone ® a� inChe. elbwe •A/ S•e.M] 4'I ;r. t7e,•S ]�1 +a-¢ • OA• a :,662660 •m .R 1el /J1 I,IY r,]�.1,•. e•• e-t+ /A, WSDD ITJ :Y36t .21mr, Rte iN LSaOY �S. +M •V aN++ •N 0 AD. a 0.7A♦♦y3yMJ w LP "/ q4 ].t] HO +.6 4S1 :e4S.a A" • OAO . -=.026-. u: ].n mace 1u+.n 1".:�/ n�./ an ta,Tc. ae/HE •o" / /1.67 t.t sa,]••HI,]v,Ili6 •!0 :yeao..rr ±•,;u]¢,61T •A.TSS 1L0 :.te Nee¢ :A1 ]•-/m i.etl e,m 111111� �a �a mod■ �a pis �a Minimum Requlmd:tmogc (gallonn) L,L�i ss Minimum Stemgn - 0 =,35T dt.ldnd by 70,300 Upd SL.5 days FYI Fri Mlmmum CcgWme mrte 1. .661 Y9 .00 of�,,�°`�, lap The Pork Lomp myz•z-2oizz-, zmaf Sums stvoer soil ;.arvlcos, Inc.