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20140843 Ver 1_Phase 2 Revised plan_20150609
Strickland, Bev From: Devane, Boyd Sent: Tuesday, June 09, 2015 1:18 PM To: Strickland, Bev Subject: FW: Jule Noland Phase 2 Revised plan Attachments: Final Storm Water Revised May 2015.pdf, Phase 2 Revision May 2015 Operation and Maintenance Bioretention.pdf, Phase 2 Revision May 2015 BMP Supplemental Forms.pdf From: Wanda Austin [mai Ito: wa ndajoycea usti n(d)a ma il.com] Sent: Thursday, May 14, 2015 12:26 PM To: Higgins, Karen; Devane, Boyd; Davidson, Landon; rlmclean3Ca)aol.com; Caroline -A- Contracting Subject: Jule Noland Phase 2 Revised plan Good afternoon. The revised stormwater plan is attached along with the operation & maintenance agreement for the two new bioretention cells and the revised supplemental spreadsheets. I did not include the operation and maintenance agreement for the dry retention basins for drainage area 2 & 3. This agreement did not change. I will forward the WAM under a separate email. This document includes the wetland report conducted by Altamont and the soils information. Please do not hesitate to contact me if you need any additional information. Thank you. Wanda Austin DocuSign Envelope ID: 2DDB09C2 -OBOE- 495E- ACE6- 5F22D48F4AC3 GENERAL NOTES: 1. Storm Water control shall control a minimum calculated volume as described in table below. 2. Prjeeat-f- concrete drainage structures may be used. 3. Draw down time is 3 da s, 4. SHWT used on coresaken by Altamont Envi onmental, Inc. and included in__±he/�eport dated February 11f, 2014. Cores indicate SHWT is at elevation 2574.5 in the north section of drainage area #2 and 2575 in the north section of drainage area #3. No cores were taken in the remaining drainage areas in the southern portion of the property, A SHWT ❑F 2575 is used for all drainage areas. I\ IMPERVI ❑US AREA LOCATION AREA (SFT) TOTAL AREA 392,040 ON -SITE BUILDINGS 40,000 0.99 PARKING 86,700 #2 ON -SITE STREETS 9,631 3779 ON -SITE OTHER 20092 0.79 TOTAL 156,423 407 FUTURE 17433M #5W * FUTURE AREA NOT INCLUDED IN THE IMPERVIOUS CALCULATIONS DRAINAGE AREA CALCULATI ❑NS DRAINAGE AREA NUMBER TOTAL AREA, ACRES IMPERVIOUS AREA, ACRES RUNOFF VOLUME, CF #1 0.99 0.84 3066 #2 1.20 1.09 3779 #3 0.86 0.79 2737 #4 1.07 0.75 2644 #5W 0.75 0.40 1462 ■ STORM WATER SHALL BE ADDRESSED WHEN THE OUTPARCEL (DRAINAGE AREA N5) IS DEVELOPED. RACKLEY DB 828i I/ RHODES DB 814/PG 2303 eJ � DAM ❑UR DB 396/PG 762 20' SEWER EAS 18' WALKING TRAIL BASIN MAINTENANC HAYW❑ ❑D RENTALS DB 484/PG 2250 �s 1g 64' X 22' X 5'11' STR PLATE ARCH CULVERT 10' PROPERTY SETBACK UTILITY EASEMENT 2576 WAYNESVILLE CHRISTIAN FELLOWSHIP DB 335/PG 682 CURB TO EXISTING GROUND LAKE JUNALUSKA ASSEMBLY w A Z PROPERTY Q i X w US 276 RUSS AVE TO L❑CATI ❑N LEGEND TEMP SEDIMENT TRAP 12-1-14 evlse WITH BAFFLES storm water EXISTING CULVERT — — — — ISTURBED AREA � jTl%17 D DRAIN CD LT FENCE NEW NTOURS 290" EXISTING CONTOUR — PROPERTY LINE TT l9 AXIS G SEEDED _ AREA 0 FLOW DIRECTI ❑N ON n co CONSTRUCTION I zV) o ENTRACE >or,OD }V) D��00aJ ROCK CHECK BASIN � Q LD Z V) Z C7 SKIMMER BASIN WITH BAFFLES TEMPORARY DIVERSI ❑N HANDICAP PARKING SPACE TRAFFIC FLOW DIRECTI ❑N �Q LAKE JUNALUSKA ASSEMBLY DB 640 /PG 654 SENI ❑R RESIDENCES AT \ LAKE JUNALUSKA DDB 660-/P G 280 0 20 40 60 80 100 SW 1 12-1-14 evlse storm water 5 -11 -15 Revise l9 SEAL _ 5/13/'�t�'}9 " " ON n co cu I zV) o H V A U) �Q�„ >or,OD }V) D��00aJ av V) z CU OD � Q LD Z V) Z C7 a_ Ld w - (IN CL = Ld 13 CD Z } Ln � Lr) I ()j Q z�V) Ld M z 00 Q (U W <Iz 3 Q V) <U I o = � Oj < I o M ��� z o L� A I— >_ L Iz ~ �.D Q Ld �___j J J ` J oz �/ 0 A � 00 = W oo > n/ n #0jw <I V) n/ =nn COUNTY: HAYW❑ ❑D ❑WNSHIP: AYNESVILLE WATERSHED: FRENCH BROAD SCALE: 1' -50' DocuSign Envelope ID: 2DDB09C2 -OBOE- 495E- ACE6- 5F22D48F4AC3 STORM WATER MEASURES DRAINAGE AREA #1 BI❑RETENTI ❑N WITH EMERGENCY OVERFLOW STRUCTURE TO LEVEL SPREADER /VEGETATIVE FILTER STRIP PROPOSED 15' CULVERT INV IN 2577,44' INV OUT 2577,34' DRAINAGE AREA #2 1.20 ACRES C =0,95 R LINE WATER 3'X3 BOX' TOP EL 2580' BOTTOM EL 2577' STORM WATER BASIN #2 TAIL 1 DISSIPATOR It M WATER STORM WATER MEASURES DRAINAGE AREA #2 DRY DETENTI ❑N BASIN BASIN TOP ELEVATI ❑N 2581 BASIN BOTTOM ELEVATI ❑N 2579 ORIFICE ELEVATI ❑N 2579 PERMANENT POOL BOTTOM ELEV 2578,5 EMERGENCY OVERFLOW ELEV 2580 NATURAL CONVEYANCE OUTLET TO CONNECT TO 24' CULVERT AND SHEET FLOW ACROSS WETLAND DISCHARGE INTO THE WETLAND USED FOR ST❑RMWATER CREDIT AS WELL AS A MEANS OF SUSTAINING THE VITALITY OF THE WETLAND DRY `DETENTI ❑N BASIN `� v BASIN TOP ELEVATI ❑N 2581 BASIN BOTTOM ELEVATI ❑N 2579 ORIFICE ELEVATI ❑N 2579 PERMANENT POOL BOTTOM ELEV 2578.5 EMERGENCY OVERFLOW ELEV 2580 NATURAL CONVEYANCE OUTLET TO CONNECT TO 24' CULVERT AND SHEET FLOW ACROSS WETLAND DISCHARGE INTO THE WETLAND USED FOR ST❑RMWATER CREDIT AS WELL AS A MEANS OF SUSTAINING THE VITALITY OF THE WETLAND GENERAL NOTES, USE CLASS 'B' CONCRETE THROUGHOUT PROVIDE ALL CATCH BASINS OVER 3' -6' IN DEPTH WITH STEPS 12' ON CENTER FOR 8' -0' IN HEIGHT OR LESS USE 6" WALLS AND BOTTOM SLAB. OVER 8' -0' TO 16' -0' IN HEIGHT USE 8' WALLS AND BOTTOM SLAB. ADJUST QUANTITIES ACCORDINGLY, 1 0.' 3,0 101110MMI»r:1111 0.5 —1,25 INCH ORIFICE Bioretention Notes: 1, Soil media shall be uniform and free of stones, 2, Test the media after placement for the actual drainage rate, The soil media should be as follows: Mix: 85 -88% Sand 8 -12% Fines 3 -5% Organic 3. Cover the area with Fescue or Bluegrass sod, 4. Use only triple shredded hardwood mulch, 5. Phophorus Indes (P Index) of soil media shall be between 10 -30, P -Index = 10 recommended, 6. Soil infiltration rate shall be 0,75 in /hr, STING GROUND STORM WATER MEASURE DRAINAGE AREA #4 BI❑RETENTI ❑N WITH EMERGENCY OVERFLOW LEVEL SPREADER/ VEGETATIVE FILTER STRIP a 0.5 EXISTING GROUND 42° CURB TRANSITI ❑N DETAIL EMERGENCY OVERFLOW 15.00 OUTLET TOP ELEV 25815 - 0;5 n EMERGENCY OVERFLOW -OJT ELEV 2581,0 j • 0 25 J • d ° 4.25 BOTTOM ELEV 2577,25 1 PR ❑FILE VIEW OVERFLOW STRUCTURE DRAINAGE AREA #1 OVERFLOW �2.0 0,5 PERMANENT POOL BASIN WIDTH VARIES 3,0 1 BASIN CROSS SECTI ❑N DETAIL 20.00 ELEVATI ❑N VIEW FLOW FROM DRAINAGE AREA 15' OUTLET PIPE TO LEVEL SPREADER GRAVEL 3r1 —5' FESCUE OR BLUEGRASS SOD 8' #57 STONE 15" OUTLET CULVERT 9' P❑NDING 2' FILL S ❑IL MEDIA I,D, /6 MIS NOT LESS THAN 6' T^ FILL I.D. /6 MIN. NOT LESS THAN 6' h' PER FOOT BUT NOT LESS THAN 12' NOR MORE THAN 24' UNSUITABLE MATERIAL F❑UNDATI ❑N NORMAL EARTH F❑UNDATI ❑N GROUND LINE 1PACT AFTER E IS PLACED 'RI ❑R TO aCEMENT OF FILL T ^^ FILL GROUND LINE 1PACT AFTER E IS PLACED 'RI ❑R TO aCEMENT OF FILL - Nr�TNP'FRTNr; PARRTr GENERAL NOTES: I.D. = THE MAXIMUM HORIZONTAL INSIDE DIAMETER DIMENSI ❑N O.D. = THE MAXIMUM HORIZONTAL OUTSIDE DIAMETER DIMENSI ❑N H = THE FILL HEIGHT MEASURED VERTICALLY AT ANY POINT ALONG THE PIPE FROM THE TOP OF THE PIPE TO THE TOP OF THE EMBANKMENT AT THAT POINT, D❑ NOT OPERATE HEAVY EQUIPMENT OVER ANY PIPE CULVERT UNTIL THE PIPE CULVERT HAS BEEN PROPERLY BACKFILLED AND COVERED WITH AT LEAST 3 FEET OF APPROVED MATERIAL. LOOSELY PLACED SELECT MATERIAL CLASS III OR CLASS II, TYPE 1 FOR PIPE BEDDING, LEAVE SECTI ❑N DIRECTLY BENEATH PIPE UNC❑MPACTED AS PIPE SEATING AND BACKFILL WILL ACCOMPLISH C❑MPACTI ❑N, ----- - - - - -- SPRINGLINE OF PIPE SELECT BACKFILL MATERIAL CLASS III OR CLASS II, BELOW Ej SPRINGLINE ® APPROVED SUITABLE LOCAL MATERIAL ABOVE SPRINGLINE 0 UNDISTURBED EARTH MATERIAL SELECT MATERIAL CLASS V OR VI FOR F❑UNDATI ❑N CONDITIONING, ENCAPSULATE WITH ENGINEERING FABRIC -4' HARDWOOD MULCH TER FABRIC BI❑RETENTI ❑N CROSS SECTI ❑N EXISTING GROUND ELEV AS REQUIRED ❑N PLAN SW 2 12 -1 -14 Revise 10yr - - evlse Drainage 5 mi n Outlet Area C A (acres) I (in /hr) Q (cfs) V (fps) SEAL 1 0.95 0.99 6.56 6.2 5.0 15" outlet 2 & 3 0.95 2.06 6.56 1 12.8 1 4.1 24" outlet EXISTING GROUND ELEV AS REQUIRED ❑N PLAN SW 2 12 -1 -14 Revise storm water - - evlse SEAL _ Da§u,i,D4536 4� y?��1B8 DN2D ��-�,, 5 /11i2t�"}9 "�1,','v L -i CL M �.D (U � I z� o F-� V L0 A �-q < >O�CD rA O bo N PCI L7?N00 A� �Q o z� Z L7 C7 Ld - QO� � = Ld C) Z } Ln �-q Ln I Q Z� � LU M z 00 Q CD 3 v ly L,J <Iz Q U Q - o D �QM cl! � � � L Z 0 L1J A H r� I Z H D Q LU J J � A J C3 D 0 L1J Co > N-i Ld H IZ COUNTY: HAYW❑ ❑D ❑WNSHIP: AYNESVILLE WATERSHED: FRENCH BROAD SCALE: INSERTS: 1' =30' DocuSign Envelope ID: 2DDB09C2 -OBOE- 495E- ACE6- 5F22D48F4AC3 OVERFLOW ELEVATION ECEIVING ELEVATION /o2 IL �� L ly C�Pj�_qbq'Ldo If 0b b b ° / / ❑�/ �/ dT u i� �� ir���G����� THICKNESS C'd') = 1.5 X MAX ROCK DIAMETER - 6" MIN SECTIUC U U dl� � � P mv �� � 1 10 ROCK d50 50% SHALL_ BE LARGER THAN 0 0 6" MIS NN DIA "5u X :50 86JD_P16TC V- 00 �810% � �D cc co cbC�bf �810 10 vv OS X D MI La-6 x D MIN - A� �A CCUC NOTES 1. La = LENGTH OF APRON DISTANCE La SHALL BE OF SUFFICIENT LENGTH TO DISSIPATE ENERGY 2. APRON SHALL BE SET AT ZERO GRADE AND ALIGNED STRAIGHT 3. FILTER MATERIAL SHALL BE FILTER FABRIC OR 6" THICK MINIMUM GRADED GRAVEL LAYER ENERGY DISSIPATER AT PIPE OUTLET WUSE WITH BASIN #1, #2 & #3 PIPE CULVERT SIZE 15 18 24 30 (IN) C 6,00 3 8,00 APRON WIDTH s o 6 o 1200 Io (FT) 0.35 0.107 e 0.032 APRON LENGTH Tso 9 12 is (FT) 0.35 0.107 0.75 0.028 RIP RAP STONE 6 6 6 6 THICKNESS (IN) 2 0.95 0.107 1.2 SYNTHETIC 4 6 10 16 FILTER 4 0.95 0.107 1.07 BLANKET CSY> 5 0.95 0.107 0.75 0.076 Z o W 1;4- A I- rLD I Z H `D Q LLi J J L A J oz��0�� WEIR LENGTH DRAINAGE AREA WEIR CCCCTH (ACRES) (FT) 1 4,00 C 6,00 3 8,00 4 1000 C 1200 0.045 3 SEDIMENT CONTRA STONE _000 12, TRUCTURAL STONE 8" C❑❑ ❑ VIEW TRUCTURAL STONE OVERFILL G" FOR SETTLEMENT SP, MAX FILL WEIR LENGT + PLUS 5 FEET OR POOR DEFINED CHANNELS WUSE WITH BASIN #4 C❑❑❑ ❑❑TI❑❑ ❑C❑❑ W❑❑ AX EMERGENCY BY -PASS 6 SETTLED TOP OF BAI ATURAL GROUND LEVEL SPREADER DETAIL -7.5 FtSLIINL) WALE -FROM BMP I• LENERGY DISSIPATER VEGETATIVE FILTER STRIP /LEVEL SPREADER CROSS SECTI ❑N GABION BASKET WALL Description Construct a gabion basket wall to the dimensions shown on the plans. Materials Galvanized steel baskets ASTM standard A1057/A1057M Washed Stone ASTM C615/C615M Rip Rap ASTM C615/C615M Construction Methods Grade a 5' wide area for the foundation stone. Place 6 -8" of washed stone as the wall foundation. Construct baskets to a dimension of 4 feet wide by 5 feet deep by the specified length. Fill baskets with 6" nominal size rip rap; arranging the rip rap to minimize voids. Secure the baskets with galvanized steel wire. Stack baskets to the specified height offsetting each subsequent row by 1 Y2 '. Backfill with 6" of stone. Peak Flow Calculations 1 year 24 hour storm Q =C )KI )KA Drainage Area C I (in /hr) A (acres) Q Pre Development 1 0.35 0.107 0.99 0.037 2 0.35 0.107 1.2 0.045 3 0.35 0.107 486 0.032 4 0.35 0.107 1.07 0.040 5 0.35 0.107 0.75 0.028 Post Development 1 0.95 0.107 0.99 0.101 2 0.95 0.107 1.2 0.122 3 0.95 0.107 0.86 0.087 4 0.95 0.107 1.07 0.109 5 0.95 0.107 0.75 0.076 Runoff Volume Calculations: Rv= 0,05 +0,9 )KIa V= 3630wRdwRvwA Dry Detention Basins NOTES: 1. THE T ❑PS ❑IL IN THE VEGETATIVE FILTER STRIP MUST BE AMENDED WITH LIME AND ORGANIC MATTER, SELECT GRASSES FROM STABILIZATI ❑N TABLE ON SHEET SW -3, 2. ENERGY DISSIPATER AT BASIN #1 IS OVERSIZED TO UNIFORMLY CONNECT TO LEVEL SPREADER, 3. PR ❑VIDE AN IMPERVI ❑US FILTER BARRIER UNDER BASINS WHERE THE SHWT IS WITHIN 2 FEET OF THE BOTTOM ELEVATI ❑N, Stage Storage Volume Calculation Table Drainage Area Elevation Surface Area (sf) Incremental Volume (cf) Cumulative Volume (cf) 1 less than 2580 operating volume 0 0 Drainage 2580 4093 0 0 Sediment 2581 5111 4602 4602 Rv over 2581 freeboard 0 4602 Drainage Area Elevation Surface Area (sf) Incremental Volume (cf) Cumulative Volume (cf) 2 less than 2579 operating volume 0 0 Drainage 2579 1456 0 0 Sediment 2580 2558 2007 2007 Rv 2581 3986 3272 5279 needed over 2581 freeboard 0 5279 Drainage Area Elevation Surface Area (sf) Incremental Volume (cf) Cumulative Volume (cf) 3 less than 2579 operating volume 0 0 Drainage 2579 1175 0 0 Sediment 2580 2437 1806 1806 Rv 2581 4167 3302 5108 needed over 2581 freeboard 0 5108 Drainage Area Elevation Surface Area (sf) Incremental Volume (cf) Cumulative Volume (cf) 4 less than 2581 operating volume 0 0 Drainage 2581 3626 0 0 Sediment 2582 4472 4049 4049 Rv 2583 5390 4931 8980 needed over 2583 freeboard 0 8980 Bioretention May 1 - September 1 100# Tall Fescue 100# Tall Fescue 15# Kentucky Bluegrass 15# Kentucky Bluegrass 25% Required 25# Rye Grain Drainage Drainage 3.33 500# Fertilizer 500# Fertilizer 4000# Limestone Sediment V (cu ft) V (cu ft) Area la Rv Rd A (acres) V (cu ft) Storage needed provided 2 0.91 0.87 1 1.2 3779 945 4724 5279 3 0.92 0.88 1 0.86 2737 684 3421 5108 Bioretention NEsoil type DsC, Dil(sboro Loam Emergency Outlet Q Q= Cw )KL )KH ^1.5 Stabilization Reauirements: Stabilization for this project shall comply with the time frame guidelines as specified by the NCG- 010000 general construction permit effective August 3, 2011 issued by the North Carolina Department of Environment and Natural Resources Division of Water Quality. Temporary or permanent ground cover stabilization shall occur within 7 calendar days from the last land - disturbing activity, with the following exceptions in which temporary or permanent ground cover shall be provided in 14 calendar days from the last land - disturbing activity: • Slopes between 2:1 and 3:1, with a slope length of 10 ft. or less • Slopes 3:1 or flatter, with a slope of length of 50 ft. or less • Slopes 4:1 or flatter SEEDING AND MULCHING: The kinds of seed and fertilizer, and the rates of application of seed, fertilizer, and limestone, shall be as stated below. During periods of overlapping dates, the kind of seed to be used shall be determined. All rates are in pounds per acre. August 1 - June 1 May 1 - September 1 100# Tall Fescue 100# Tall Fescue 15# Kentucky Bluegrass 15# Kentucky Bluegrass Ponding Required 25# Rye Grain 10# German or Browntop Drainage 3.33 500# Fertilizer 500# Fertilizer 4000# Limestone 4000# Limestone Depth, Surface Ksat* Drawdown Area la Rv Rd A (acres) V (cu ft) inches Area (in /hr) t (hours) 1 0.89 0.85 1 0.99 3066 9 4088 0.75 12 4 0.70 0.68 1 1.07 2644 9 3526 0.75 12 NEsoil type DsC, Dil(sboro Loam Emergency Outlet Q Q= Cw )KL )KH ^1.5 Stabilization Reauirements: Stabilization for this project shall comply with the time frame guidelines as specified by the NCG- 010000 general construction permit effective August 3, 2011 issued by the North Carolina Department of Environment and Natural Resources Division of Water Quality. Temporary or permanent ground cover stabilization shall occur within 7 calendar days from the last land - disturbing activity, with the following exceptions in which temporary or permanent ground cover shall be provided in 14 calendar days from the last land - disturbing activity: • Slopes between 2:1 and 3:1, with a slope length of 10 ft. or less • Slopes 3:1 or flatter, with a slope of length of 50 ft. or less • Slopes 4:1 or flatter SEEDING AND MULCHING: The kinds of seed and fertilizer, and the rates of application of seed, fertilizer, and limestone, shall be as stated below. During periods of overlapping dates, the kind of seed to be used shall be determined. All rates are in pounds per acre. August 1 - June 1 May 1 - September 1 100# Tall Fescue 100# Tall Fescue 15# Kentucky Bluegrass 15# Kentucky Bluegrass 30# Hard Fescue 30# Hard Fescue 25# Rye Grain 10# German or Browntop Millet 3.33 500# Fertilizer 500# Fertilizer 4000# Limestone 4000# Limestone Approved Tall Fescue Cultivars 2nd Millennium; Duster; Magellan; Rendition; Avenger; Endeavor; Masterpiece; Scorpion; Barlexas; Escalade; Matador; Shelby; Barlexas II; Falcon II, III, IV & V; Matador GT; Signia Barrera; Fidelity; Millennium; Silverstar; Barrington; Finesse II; Montauk; Southern Choice II; Biltmore; Firebird; Mustang 3; Stetson; Bingo; Focus; Olympic Gold; Tarheel; Bravo; Grande II; Padre; Titan Ltd; Cayenne; Greenkeeper; Paraiso; Titanium; Chapel Hill; Greystone; Picasso; Tomahawk; Chesapeake; Inferno; Piedmont; Tacer; Constitution; Justice; Pure Gold; Trooper; Chipper; Jaguar 3; Prospect; Turbo Coronado; Kalahari; Quest; Ultimate; Coyote; Kentucky 31; Rebel Exeda; Watchdog; Davinci; Kitty Hawk; Rebel Sentry; Wolfpack; Dynasty; Kitty Hawk 2000; Regiment II; Dominion; Lexington; Rembrandt Approved Kentucky Bluegrass Cultivars: Alpine; Bariris; Envicta; Rugby; Apollo; Bedazzled; Impact; Rugby II; Arcadia; Bordeaux; Kenblue; Showcase; Arrow; Champagne; Midnight; Sonoma; Award; Chicago II; Midnight II Approved Hard Fescue Cultivars: Chariot; Nordic; Rhino; Warwick; Firefly, Oxford, Scaldis II; Heron; Reliant II; Spartan II; Minotaur; Reliant IV; Stonehenge Fertilizer shall be 10 -20 -20 analysis. A different analysis of fertilizer may be used provided the 1 -2 -2 ratio is maintained and the rate of application adjusted to provide the same amount of plant food as a 10 -20 -20 analysis and as directed. TEMPORARY SEEDING: Fertilizer shall be the same analysis as specified for Seeding and Mulching and applied at the rate of 400 pounds and seeded at the rate of 50 pounds per acre. German Millet, or Browntop Millet shall be used in summer months and rye grain during the remainder of the year. The Engineer will determine the exact dates for using each kind of seed. FERTILIZER TOPDRESSING: Fertilizer used for topdressing shall be 16 -8 -8 grade and shall be applied at the rate of 500 pounds per acre. A different analysis of fertilizer may be used provided the 2 -1 -1 ratio is maintained and the rate of application adjusted to provide the same amount of plant food as 16 -8 -8 analysis and as directed. SUPPLEMENTAL SEEDING: The kinds of seed and proportions shall be the same as specified for Seeding and Mulching, and the rate of application may vary from 25# to 75# per acre. The actual rate per acre will be determined prior to the time of topdressing and the Contractor will be notified in writing of the rate per acre, total quantity needed, and areas on which to apply the supplemental seed. Minimum tillage equipment, consisting of a sod seeder shall be used for incorporating seed into the soil as to prevent disturbance of existing vegetation. A clodbuster (ball and chain) may be used where degree of slope prevents the use of a sod seeder. MOWING: The minimum mowing height on this project shall be six inches. 3'x3' box Cw L crest H (ft) Q (cfs) 3.33 8 0.3 4.4 Overflow Structure 12" ABC 3.33 15 0.25 6.2 Orifice Outlet Drawdown Time 1.25 "diameter orifice Q= CdwAwsgrt(2wgwH) cENTER OF ROADWAY 9' 9 PARKING PARKING LOTInTft LOT 77 AO ® 4 u / 0 STATI ❑NS 0 +00 TO 2 +00 CENTER OF ROADWAY S' 2.5' �n�xt NATURAL 4' GROUND /GRASS 5' © A ® O O GRASS SHOULDER STATI ❑NS 2 +00 TO 4 +75 CENTER OF ROADWAY 9' 9' GRASS GRASS SHOULDER SHOULDER ?� mTPt d O ® O u/ i� STATI ❑NS 4 +75 TO 6 +70 ROADWAY SCHEDULE U EXISTING GROUND A 3" SF 9SB C GABION BASKET WALL B 8' 1-19 ON CONSTRUCTION SCHEDULE 1. Obtain Erosion Control Permit and other applicable permits prior to the start of grading. 2. Install rain gauge in an accessible area. Dedicate a log book to record rain events and weekly inspections. 3. Maintain the temporary gravel construction entrance from phase I. 4. Stake area around remaining wetland for perimeter protection fence. 3. Manually install a perimeter protection fence around the delineated wetland. No equipment is allowed within the wetland boundary that is not to be disturbed. 4. Install silt fence at all locations shown on plan sheet. Silt fence shall be manually installed along the outside of the 10 foot wetland buffer. 5. Layout the areas for the construction of the temporary skimmer basins. 6. Construct the temporary skimmer basins to the appropriate dimensions. Construct the baffles in the temporary skimmer basins. 7. Establish temporary cover according to stabilization table schedule and the seeding schedule on ECP 2. 8. Seed, fertilize and mulch all exposed areas using the seeding schedule included on ECP2, adjusting to the schedule for the season. All disturbed areas should be treated with ground cover within 7 to 14 calendar days of completion of grading activities according to the stabilization table on ECP 2. 9. Once grading is complete, install temporary silt fence around permanent drainage easement. 10. Stabilize drainage area #2 and #3 prior to construction of the dry detention basin. Construct storm water basins and outlet structures. 11. Seed and fertilize areas. Stabilize drainage area #1 and #4 prior to construction of the bioretention cell. 12. Construct bioretention cell. Cover with sod as specified. 13. Re -seed and fertilize areas as needed. 14. Once vegetation has been established, remove all temporary erosion control devices. OVERFLOW DITCH Use with Drainage Area #4 t 110 I_ SW 3 Basin Orifice Drainage Area, A ➢ 12" ABC Area, a Drawdown Area (sf) c g (fps) (sf) K , t (days) 2 3986 0.6 32.2 0.008518 1.02893E -05 3.1 3 4167 0.6 32.2 0.008518 9.84233E -06 3.3 cENTER OF ROADWAY 9' 9 PARKING PARKING LOTInTft LOT 77 AO ® 4 u / 0 STATI ❑NS 0 +00 TO 2 +00 CENTER OF ROADWAY S' 2.5' �n�xt NATURAL 4' GROUND /GRASS 5' © A ® O O GRASS SHOULDER STATI ❑NS 2 +00 TO 4 +75 CENTER OF ROADWAY 9' 9' GRASS GRASS SHOULDER SHOULDER ?� mTPt d O ® O u/ i� STATI ❑NS 4 +75 TO 6 +70 ROADWAY SCHEDULE U EXISTING GROUND A 3" SF 9SB C GABION BASKET WALL B 8' 1-19 ON CONSTRUCTION SCHEDULE 1. Obtain Erosion Control Permit and other applicable permits prior to the start of grading. 2. Install rain gauge in an accessible area. Dedicate a log book to record rain events and weekly inspections. 3. Maintain the temporary gravel construction entrance from phase I. 4. Stake area around remaining wetland for perimeter protection fence. 3. Manually install a perimeter protection fence around the delineated wetland. No equipment is allowed within the wetland boundary that is not to be disturbed. 4. Install silt fence at all locations shown on plan sheet. Silt fence shall be manually installed along the outside of the 10 foot wetland buffer. 5. Layout the areas for the construction of the temporary skimmer basins. 6. Construct the temporary skimmer basins to the appropriate dimensions. Construct the baffles in the temporary skimmer basins. 7. Establish temporary cover according to stabilization table schedule and the seeding schedule on ECP 2. 8. Seed, fertilize and mulch all exposed areas using the seeding schedule included on ECP2, adjusting to the schedule for the season. All disturbed areas should be treated with ground cover within 7 to 14 calendar days of completion of grading activities according to the stabilization table on ECP 2. 9. Once grading is complete, install temporary silt fence around permanent drainage easement. 10. Stabilize drainage area #2 and #3 prior to construction of the dry detention basin. Construct storm water basins and outlet structures. 11. Seed and fertilize areas. Stabilize drainage area #1 and #4 prior to construction of the bioretention cell. 12. Construct bioretention cell. Cover with sod as specified. 13. Re -seed and fertilize areas as needed. 14. Once vegetation has been established, remove all temporary erosion control devices. OVERFLOW DITCH Use with Drainage Area #4 t 110 I_ SW 3 ➢ 12" ABC cENTER OF ROADWAY 9' 9 PARKING PARKING LOTInTft LOT 77 AO ® 4 u / 0 STATI ❑NS 0 +00 TO 2 +00 CENTER OF ROADWAY S' 2.5' �n�xt NATURAL 4' GROUND /GRASS 5' © A ® O O GRASS SHOULDER STATI ❑NS 2 +00 TO 4 +75 CENTER OF ROADWAY 9' 9' GRASS GRASS SHOULDER SHOULDER ?� mTPt d O ® O u/ i� STATI ❑NS 4 +75 TO 6 +70 ROADWAY SCHEDULE U EXISTING GROUND A 3" SF 9SB C GABION BASKET WALL B 8' 1-19 ON CONSTRUCTION SCHEDULE 1. Obtain Erosion Control Permit and other applicable permits prior to the start of grading. 2. Install rain gauge in an accessible area. Dedicate a log book to record rain events and weekly inspections. 3. Maintain the temporary gravel construction entrance from phase I. 4. Stake area around remaining wetland for perimeter protection fence. 3. Manually install a perimeter protection fence around the delineated wetland. No equipment is allowed within the wetland boundary that is not to be disturbed. 4. Install silt fence at all locations shown on plan sheet. Silt fence shall be manually installed along the outside of the 10 foot wetland buffer. 5. Layout the areas for the construction of the temporary skimmer basins. 6. Construct the temporary skimmer basins to the appropriate dimensions. Construct the baffles in the temporary skimmer basins. 7. Establish temporary cover according to stabilization table schedule and the seeding schedule on ECP 2. 8. Seed, fertilize and mulch all exposed areas using the seeding schedule included on ECP2, adjusting to the schedule for the season. All disturbed areas should be treated with ground cover within 7 to 14 calendar days of completion of grading activities according to the stabilization table on ECP 2. 9. Once grading is complete, install temporary silt fence around permanent drainage easement. 10. Stabilize drainage area #2 and #3 prior to construction of the dry detention basin. Construct storm water basins and outlet structures. 11. Seed and fertilize areas. Stabilize drainage area #1 and #4 prior to construction of the bioretention cell. 12. Construct bioretention cell. Cover with sod as specified. 13. Re -seed and fertilize areas as needed. 14. Once vegetation has been established, remove all temporary erosion control devices. OVERFLOW DITCH Use with Drainage Area #4 t 110 I_ SW 3 0, ;`� " Zft SEAL _ o ®cu s 88325536 5/1 12011 e, ", W CL M �.D Cd I z� o I� V A U-) �-q < > 00 5." 0 �co CU PCI =I N � 0 = A LD 0Z� �Q Z� W Ld - �2:<\M Q_� tW O /�O Z } Ln � I od Q Z LO M z� 00 Cd \L 00 3 v W <Iz 3 Q EJ U Q _J T o C�iQM Z o W 1;4- A I- rLD I Z H `D Q LLi J J L A J oz��0�� 0 W oo > CL to Ld 0 I-1 CL COUNTY: HAYW❑ ❑D ❑WNSHIP: AYNESVILLE WATERSHED: FRENCH BROAD SCALE: INSERTS: 1' =30' Permit Number: (to be provided by DWQ) Drainage Area Number: Bioretention Operation and Maintenance Agreement I will keep a maintenance record on this BMP. This maintenance record will be kept in a log in a known set location. Any deficient BMP elements noted in the inspection will be corrected, repaired or replaced immediately. These deficiencies can affect the integrity of structures, safety of the public, and the removal efficiency of the BMP. Important operation and maintenance procedures: - Immediately after the bioretention cell is established, the plants will be watered twice weekly if needed until the plants become established (commonly six weeks). - Snow, mulch or any other material will NEVER be piled on the surface of the bioretention cell. - Heavy equipment will NEVER be driven over the bioretention cell. - Special care will be taken to prevent sediment from entering the bioretention cell. - Once a year, a soil test of the soil media will be conducted. After the bioretention cell is established, I will inspect it once a month and within 24 hours after every storm event greater than 1.0 inches (or 1.5 inches if in a Coastal County). Records of operation and maintenance will be kept in a known set location and will be available upon request. Inspection activities shall be performed as follows. Any problems that are found shall be repaired immediately. BMP element: Potential problems: How I will remediate the problem: The entire BMP Trash/ debris is present. Remove the trash /debris. The perimeter of the Areas of bare soil and /or Regrade the soil if necessary to bioretention cell erosive gullies have formed. remove the gully, and then plant a ground cover and water until it is established. Provide lime and a one -time fertilizer application. The inlet device: pipe, The pipe is clogged (if Unclog the pipe. Dispose of the stone verge or swale applicable). sediment off -site. The pipe is cracked or Replace the pipe. otherwise damaged (if applicable). Erosion is occurring in the Regrade the swale if necessary to swale (if applicable). smooth it over and provide erosion control devices such as reinforced turf matting or riprap to avoid future problems with erosion. Stone verge is clogged or Remove sediment and clogged covered in sediment (if stone and replace with clean stone. applicable). Form SW401- Bioretention O&M -Rev.3 Page 1 of 4 BMP element: Potential problems: How I will remediate the problem: The pretreatment area Flow is bypassing Regrade if necessary to route all pretreatment area and/or flow to the pretreatment area. gullies have formed. Restabilize the area after grading. Sediment has accumulated to Search for the source of the a depth greater than three sediment and remedy the problem if inches. possible. Remove the sediment and restabilize the pretreatment area. Erosion has occurred. Provide additional erosion protection such as reinforced turf matting or riprap if needed to prevent future erosion problems. Weeds are present. Remove the weeds, preferably by hand. The bioretention cell: Best professional practices Prune according to best professional vegetation show that pruning is needed practices. to maintain optimal plant health. Plants are dead, diseased or Determine the source of the dying. problem: soils, hydrology, disease, etc. Remedy the problem and replace plants. Provide a one -time fertilizer application to establish the ground cover if a soil test indicates it is necessary. Tree stakes /wires are present Remove tree stake /wires (which six months after planting. can kill the tree if not removed). The bioretention cell: Mulch is breaking down or Spot mulch if there are only random soils and mulch has floated away. void areas. Replace whole mulch layer if necessary. Remove the remaining much and replace with triple shredded hard wood mulch at a maximum depth of three inches. Soils and /or mulch are Determine the extent of the clogging clogged with sediment. - remove and replace either just the top layers or the entire media as needed. Dispose of the spoil in an appropriate off -site location. Use triple shredded hard wood mulch at a maximum depth of three inches. Search for the source of the sediment and remedy the problem if possible. An annual soil test shows that Dolomitic lime shall be applied as pH has dropped or heavy recommended per the soil test and metals have accumulated in toxic soils shall be removed, the soil media. disposed of properly and replaced with new p nting media. Form SW401- Bioretention O &M -Rev.3 Page 2 of 4 BMP element: Potential problems: How I will remediate the problem: The underdrain system Clogging has occurred. Wash out the underdrain system. (if applicable) The drop inlet Clogging has occurred. Clean out the drop inlet. Dispose of the sediment off -site. The drop inlet is damaged Repair or replace the drop inlet. The receiving water Erosion or other signs of Contact the NC Division of Water damage have occurred at the Quality 401 Oversight Unit at 919 - outlet. 733 -1786. Form SW40 1 -Bioretention O &M -Rev.3 Page 3 of 4 Permit Number: (to be provided by DWQ) I acknowledge and agree by my signature below that I am responsible for the performance of the maintenance procedures listed above. I agree to notify DWQ of any problems with the system or prior to any changes to the system or responsible parry. Project name:Jule Noland Road Phase H BMP drainage area number: Print name:John Harmon Title:Harmon Graham LLC Managing Partner Address:P O Box 180 Waynesville NC 28786 Phony Signa Date: Note: The legally responsible party should not be a homeowners association unless more than 50% of the lots have been sold and a resident of the subdivision has been named the president. I, C I i Z aWkn .S;()'NOSor , a Notary Public for the State of �or+k (4ro 11, y 0, , County of Hgywoo 4 , do hereby certify that To In ' �4 0,/' o-Lgz� personally appeared before me this 1_ day of �A o-*4 and acknowledge the due execution of the forgoing bioretention maintenance requirements. Witness my hand and official seal, s NO q AG a E �%C SEAL My commission expires Form SW401- Bioretention I &M -Rev. 2 Page 4 of 4