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Home My WebLink About20080067 Ver 6_Modifications_20120709WITHERS &— RAVENEL ENGINEERS I PLANNERS I SURVEYORS 1410 COMMONWEALTH DRIVE SUITE 101 WILMINGTON NORTH CAROLINA 28403 (910) 256 9277 FAX (910) 256 2584 TO NC Division of Water Quality — 401 Wetlands Unit 1650 Mail Service Center Raleigh NC 27699 WE ARE SENDING YOU ❑ Shop Drawings ❑ Copy of Letter LETTER Oo MANS- MMAL DATE 7/6/12 108 NO 02130018 00 ATrENTION Ms Annette Lucas PHONE # RE Alston Pond Buffer Authorization Notification of Modification of BMP #2 ® Attached ❑ Under separate cover via the following items ❑ Prints ❑ Plans ❑ Samples ❑ Specifications ❑ Change order ❑ Diskette ❑ COPIES DATE NO I DESCRIPTION 3 7/6/12 02110018 0o I Notification of Modification of Outfall Structures of BMP #2 THESE ARE TRANSMITTED as checked below ® For approval ❑ Approved as submitted ❑ For your use ❑ Approved as noted ❑ As requested ❑ Returned for corrections ❑ For review and comment ❑ ❑ FOR BIDS DUE 20 ❑ PRINTS RETURNED AFTER LOAN TO US ❑ Resubmit ❑ Submit ❑ Return copies for approval copies for distribution corrected prints REMARKS COPY TO File SIGNED Troy Beasley If enclosures are not as noted kindly notify us at once WITHERS & RAVENEL ENGINEERS I PLANNERS I SURVEYORS July 6, 2012 NC Division of Water Quality Attn Ms Annette Lucas 1650 Mail Service Center Raleigh, NC 27699 1650 Re Alston Pond Subdivision Notification of Modification of Design of BMP #2 DWQ# o8 oo67 Ver -ks W &R Project Number — 0211oo18 o0 Dear Ms Lucas Jul _ L t1 QUALii� This letter is to notify you of a proposed modification of the design of the outfalls for BMP #2 for the Alston Pond Subdivision The subject property is approximately 148 acres in size and is located on the east and west side of Hwy 55 south of the intersection of Old Adams Road and Hwy 55 in Fuquay Varina, Wake County, North Carolina at Latitude 35 6262765 N and Longitude 78 8132158 W The site contains unnamed tributaries to Basal Creek and is located in the Neuse River Basin The Water Quality Classification for these features is B, NSW, the Cataloging Unit for this site is 030202o1, and the Stream Index number Is 27 43 15 3 DWQ issued a 401 WQC /Buffer Authorization (DWQ Project # o8 oo67, Ver 4) for the Alston Pond Subdivision on January 13 2012 Proposed Modification The design approved in the previous 401 WQC /Buffer Authorization had the 42 high flow bypass pipe located to the north and the 4' water quality outfall located to the south The contractors made a mistake In the Installation of the outlet function box resulting in the outfalls being flipped so that the 42' bypass will be to the south and the 4 outfall will be to the north This results in a switch of the locations of the level spreader and filter strip for the 4 water quality outfall and the bypass channel for the 42 high flow bypass This will simply result in a change in location only, as the buffer impacts for the bypass channel will be the same as previously approved but in a different location I have enclosed a copy of the previously approved design for BMP #2 as well as the proposed revision to the outfall locations I have also included the updated BMP iii MacKenan Drive I Cary NC 275111 tel 919 469 3340 1 fax 919 467 6008 I www withersravenel com 1410 Commonwealth Drive I Suite 1o1 I Wilmington NC 284031 tel 910 256 9277 1 fax 910 256 2584 416 D Gallimore Dairy Road I Greensboro NC 27409 1 tel 336 993 5504 1 fax 919 467 6008 N C Engineering Board No C 0832 WITHERS &' RAVENEL ENGINEERS I PLANNERS I SURVEYORS Supplement Forms for BMP #2 We believe that this will be a minor modification to the 401 Buffer Authorization for which this notification will be sufficient and submittal of a new PCN or issuance of a revised Buffer Authorization will not be required Please feel free to contact me if you have any questions or require additional information to complete your review of the application Sincerely, Troy Beasley Environmental Scientist WITHERS & RAVENEL INC Attachments — 1) 401 WQC/ Buffer Authorization for Alston Pond 2) Previously Approved BMP #2 Design 3) Proposed Revision for BMP #2 Outfalls 4) BMP Supplement Forms iii MacKenan Drive I Cary NC 275111 tel 919 469 3340 1 fax 919 467 6008 I www withersravenel com 1410 Commonwealth Drive I Suite 1o1 I Wilmington NC 284031 tel 910 256 9277 1 fax 910 256 2584 416 D Gallimore Dairy Road I Greensboro NC 274091 tel 336 993 5504 1 fax 919 4676008 N C Engineering Board No C 0832 a 0 sroA1 in/ 1 803NYY7d 1 fNUNION3 ,3N3AVW -V BM3H11M NVId 11VAG Z# dW9 3901M NOISIV III 0 £Z W 1011 N qt w.6 m0 � Y N � �doN u `ate I 6W I dd C 3 8§ 4 � J 0 $ Q L J y lil 6! 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Q L j N , H N J L Z Q J a U - LLJ g Lj �Gv3 IIIIIIIIIII �� MII �IIIIIII _I, m =J IV, 1� zl� o I I p l I I IIIIII� I ONE TYIDYU M Rant R t�m1y k0uiw - do'lYlfO A IMt Swu�YInMpO N0L11W191M'�OIJV W W1w MK W b a0- Q _I\v ll L i MR. 1 � NORTH J� W U a WU ' > CL u s C M Q -� ce N@ sIL r� s M < W — 19 N r W: Im Irr 3 ° 0: W MN y �g � � � J W / J n V) L� W / — / — — — — — — — — 0 O CL O J Q Z O W Cie W J F, D 0 N CL m 4 anus 'rnauaos Rd a z oz x vft loos E.o 33K Wid nix uuno f/ dd \SLMW \M\.Lqd MW b oo \o W \ \'m � � I I `1 I z M I U N ° 0: W MN y �g � � � J W / J n V) L� W / — / — — — — — — — — 0 O CL O J Q Z O W Cie W J F, D 0 N CL m 4 anus 'rnauaos Rd a z oz x vft loos E.o 33K Wid nix uuno f/ dd \SLMW \M\.Lqd MW b oo \o W \ \'m A � NCDENR STORMWATER MANAGEMENT PERMIT APPLICATION FORM 401 CERTIFICATION APPLICATION FORM LEVEL SPREADER VEGETATED FILTER STRIP (LS VFS) SUPPLEMENT This form must be completely filled out printed initialed and submitted t Y7 �V i n 1 PROJECT 1NF0RMATI0N cis Project name Alston Pond Contact name Troy Beasley Phone number 919-469 3340 Date aG /r,(- /y Drainage area number BMP #2 II DESIGN INFORMATION The purpose of the LS VFS Buffer Ru a Diffuse Flow Stormwater enters LS-VFS from A BMP Type of VFS Protected riparian buffer (slope < 5°/ ) Explanation of any Other' responses above If Stormwater Enters the LS VFS from the Drainage Area Drainage area Impervious surface area Percent Impervious Rational C coefficient Peak flow from the 1 inlhr stone Time of concentration Rainfall intensity 10•yr storm Peak flow from the 10 yr storm Design storm Maximum amount of flow directed to the LS-VFS Is a How bypass system going to be used? Explanation of any Other' responses above It Stormwater Enters the LS VFS from a BMP Type of BMP Peak discharge from the BMP during the design storm Peak discharge from the BMP during the 110-year storm Maximum capacity of a 100 -foot long LS-VFS Peak flow directed to the LS VFS Is a Flow bypass system going to be used? Explanation of any Other" responses above LS VFS Design fe ft cis min rnthr cis ih (It a N 1 l 1 1 r r (r Do i o c nf1 I e t r i r rr hl 1h F r r r) r nl 11 Ice I F r of (,0111P a L`( 1 ( r r Of Cf I f.1 t t M lh Pick one cis I n i t y)i a f I I (Y or N) D a c 11or tc thr r t ( of 1 it Wet detentlon pond 086 cis 086 cfs 2 cfs 086 cis Y— (Y or N) Forebay surface area sq ft Depth of forebay at stormwater entry point in Depth of forebay at stormwater exit point in Feet of level lip needed per cis 50 fNcfa Computed minimum length of the level lip needed ft Length of level lip provided It Form SW401 LS VFS 29No 2010 Rev 8 page 1 of 3 Width of VFS Elevation at downsiope base of level lip Elevation at the and of the VFS that is farthest from the LS Slope (from level lip to the and of the VFS) Are any draws present in the VFS? Is there a collector sxale at the end of the VFS? Bypass System Design (d applicable) Is a bypass system provided? Is there an engineered flow splitting device? Dimensions of the channel (see dlagram below) M B W y (flow depth for 10 year storm) freeboard (during the 10 year storm) Peak velocity in the channel during the 10 yr storm Channel lining material Does the bypass discharge through a wetland? Does the channel enter the stream at an angle? Explanation of any Other" responses above 4. — ft fm I fill I (f or N) (Y or N) Y {f N) Y ( or N) °lelse b ? e vla 1 lei d i,f fl'o s AI all a sa f rhncl 200 it 400 ft 1200 ft 085 n 1 15 ft 384 rvsec Pi k one ,qip W Gt rinl�>� N (Y or N) Y (Y or N) W III REQUIRED ITEMS CHECKLIST i l s EDIT Please Indicate the page or plan sheet numbers where the supporting documentation can be found An Incomplete submittal package will result in a request for additional Information This will delay final review and approval of the project Initial in the space provided to indicate the following design requirements have been met. If the applicant has designated an agent, the agent may initial below If a requirement has not been met attach justification Requrled Rem 1 Plans (1 50' or larger) of the entire site showing Design at ultimate build -out Off -site drainage (if applicable) Delineated drainage basins (include Rational C coefficient per basin) Forebay (ff applicable) High flow bypass system Maintenance access Proposed drainage easement and public right of way (ROAN) and Boundaries of drainage easement Initials Page or plan sheet number and any notes ML-4- S1-�;I ) 2z 22, Z-q 601 L) r7' L Iii vJ ir _ 7 Form SW401 LS VFS 29Nov2o10 Rev a page 2 of 3 2 Plan details (t 30' or Larger) for dt level spreader shoring Forebay (if apphcaole) High ffav bypass system one foot topu Imes between the level lip and top of stream bank Proposed drainage easement and Design at ut8mate bwkf out 3 Section new of the level spreader (t 217 or larger) showing. Undefdraat system (it appkcabto) Level lip Upstope diannel and Downslope filter fabric 4 Plan details of the flow splifiing device and stipportmg calculations (d applicable) 4 G J �z L� 5 A construction sequence MI shawl how ft level spreader will be protected from sediment until the entire drainage area is slaWed I 6 If a non- engmeered VFS Is being used then provide a photograph of the VFS showing that no draws are present 7 The Supportingcalablions 8 A copy of the signed and notarized operation and mamtenance (O&M) agreement - 1- .iL- -1 Fa n SW401 LS-VFS 29Nnv20t0 Revs page 3 of 7 Project Description Friction Method Solve For input Data Roughness Coefficient Channel Slope Left Side Slope Right Side Slope Bottom Width Discharge Results Normal Depth Flow Area Wetted Perimeter Top Width Cnbcal Depth Critical Slope Velocity Velocity Head Specific Energy Froude Number Flow Type GVF Input Data Downstream Depth Length Number Of Steps GVF Output Data Upstream Depth Profile Description Profile Headloss Downstream Velocity Upstream Velocity Normal Depth Cnbcal Depth Channel Slope Critical Slope 1/28/201 t 9 08 13 AM BMP #2 HIGH FLOW BYPASS Manning Formula Normal Depth Subcnticai 0 069 006000 ft/ft 200 ft/ft (H V) 200 ivft (H V) 400 R 1860 ft' /s 085 ft 485 ftz 780 ft 740 ft 077 ft 008793 ft/ft 384 ft/s 023 ft 108 ft D 84 000 It 000 ft 0 000 ft 000 It Infinity ft/s Infinity ft/s 085 ft 077 ft 006000 Nft 008793 Rift Bentley Systems Inc Hassled Methods SohMon Center Bentley FlowMaster f08.0107iA01 27 Siemons Company Drive Suite 200 W Watertown CT 06795 USA +1 203.7554668 Page 1 of 1 HCDENR Permit No ( b ,cm ded 153 DWG) STORMWATER MANAGEMENT PERMIT APPLICATION FORM 401 CERTIFICATION APPLICATION FORM WET DETENTION BASIN SUPPLEMENT TMs form must be filled out punted and submitted The Required Items Checklist (Pert III) must be printed filled out and submitted along with oil of the required information I PROJECT INFORMATION Project name Aston Pond Contact person Alwy V Sm th In P E Phone number 9 9) 4x9.3340 Date OG Drainage area number 2 +M L 0 DESIGN INFORMATION Site Characteristics Drainage area 1589$40 ttv impervious area post development. 816 750 rye °/ impervious 5137% Design rainfall depth 10 in Storage Volume Non SAWaters Minimum volume required Volume provided Storage Volume SA Waters 15 runoff volume Pre - development i yr 24-hr runoff Post- tevelopmenl1 yr 24- hrrunoff Minmum volume required Volume provided Peak Flow Calculations Is the prelpost control of the 1yr 24hr storm peak flow required? 1 yr 24 hr rainfall depth Rational C pr"evelopment Rational C post - development Rainfall intensity 1 yr 24-hr storm Pre - development 1 yr 24 hr peak flow Post- development 1 yr 24 hr peak flow Pre/Post 1 yr 24 hr peak flow control Elevations Temporary pool elevation Permanent pool elevation SHWT elevation (approx at the perm pool elevation) Top of 10ft vegetated shelf elevation Bottom of 10ft vegetated shelf elevation Sediment cieanout top elevation (bottom of pond) Sedimentcleanout bottom elevation Sediment storage provided Is there additional volume stored above the state required temp pool? Elevation of the top of the additional volume 67 881 fP OK 84 332 ft OK volume provided is equal to or in excess of volume required ft� ft' �3 to ft3 y (Y of N) 30 In 0 30 (uniltess) 0 51 (uniliess) 013lnfhr OK 15 61 Re /sec 1147 itsfsec .414 ft /sec 367 40 fmsl 365 00 fmsl fmsl 365 50 fmsl 364 50 fmsl 36000 fmsi 359 00 fmsl 100 ft n (Y or N) nisi F SM( W i D I 1 13 n-Rev 8 9117109 1& II 3 ) 1 9 1 1 Perm It No .- f or 1 tw -f by r'WW II DESIGN INFORMATION Surface Areas Area temporary pool 39000 fly Area REQUIRED permanent pool 28142 fe SAIDA ratio 177 (umtless) Area PROVIDED permanent pool lb,, 28,282 f? OK Area bottom of 10ft vegetated shelf 16 dm 23A27 llv Area sediment cleanout top elevation (bottom of pond) 1 4 13 943 f? Volumes Volume temporary pool Volume permanent pool Volume forebay (sum of forebays If more than one forebay) Forebay % of permanent pool volume SAIDA Table Data Design TSS removal Coastal SAIDA Table Used? WuntainlPiedmont SAIDA Table Used9 SAIDA ratio Average depth (used in SAIDA table) Calculation option 1 used9 (See Figure 10 2b) Volume permanent pool 14.aw Area provided permanent pool Average depth calculated Average depth used in SAIDA 4, (Round to nearest 0 51t) Calculation option 2 used? (See Figure 10 2b) Area provided permanent pool P.„ vw Area bottom of 1011. vegetated shelf p,k w, Area sediment cleanout top elevation (bottom of pond) &_�w 84 332 fO OK 94 5D0 to fe 85 A n (Y or N) IF (Y or N) 177 (unr0ess) n (Yor N) 94 500 to 28 282 it it Need 3 it min it y (Y or N) 28 282 fe 23 027 it 13 943 f1 Depth (distance blw bottom of 10ft shelf and top of sediment) 4 50 ft Average depth calculated 410 ft Average depth used in SAIDA Q„ (Round to nearest 0 5ft) 40111 Drawdown Calculations 100 ft Drawdown through ordice? y (Y or N) Diameter of onfice (if circular) 4.00 in Area of onfee (if non -circu ar) 0 Coefficient of discharge (Co) 0.60 (unitless) Driving head (K) 2 40 it Drawdown through weft n (Y or N) Weir type (undless) Coefficient of discharge (Q (unifless) Length of weir (L) it Driving head (H) it Pre -development 1 yr 24 hr peak flow 1561 felsec Post development 1 yr 24 hr peak flow 1147 fO /sec Storage volume discharge rate (through discharge onfrce or weir) D 63 felsec Storage volume drawdown time 2 00 days Additional Information Vegetated side slopes 3 1 Vegetated shelf slope In 1 Vegetated shelf width 100 ft Length of flowpath to width ratio 3 1 Length to width ratio 30 1 Trash rack for overflow b orifice? y (Y or N) Freeboard provided 0 8 it Vegetated filter provided9 n (Y or N) Recorded drainage easement provided? y (Y or N) Capures all runoff at ultimate buildout7 y (Y or N) Drain mechanism for maintenance or emergencies 1s Gate valve OK OK OK draw down in 2 5 days OK OK OK OY OK OK insufficient freeboard minimum of 1 it required fnsuffrcleit Vegetated fitter required OK OK Form SW401 W 10 1 do 8 R 8 9117/09 P h 1 3 11 0 m g 2 \I L ILI MEN � I I I 1 � I � � I 1 ' � 1 Z � I 0 NORTH t r II 0 0 0 V) J Q =11 h w ce w D J O F— u Y OQ 3 —) — / \� CL 0: o W / / W a Q _ QppQ H� VI} Z I LEI �W W Lj / I / W oe 73MUU1 'a3WNW5 nd a 9 or * e4n13M Wid AM UUM I dne\SIMMn\W\wod WrW b 9 oo \ oo \ \'• J U 0 Z .Ne V) U ° o s L C r N V O r� �■ s s < M WN 96 ifi M rYl r Yo O M � � r� 3 0 0 0 V) J Q =11 h w ce w D J O F— u Y OQ 3 —) — / \� CL 0: o W / / W a Q _ QppQ H� VI} Z I LEI �W W Lj / I / W oe 73MUU1 'a3WNW5 nd a 9 or * e4n13M Wid AM UUM I dne\SIMMn\W\wod WrW b 9 oo \ oo \ \'• NCDENR STORMWATER MANAGEMENT PERMIT APPLICATION FORM 401 CERTIFICATION APPLICATION FORM LEVEL SPREADER VEGETATED FILTER STRIP (LS VFS) SUPPLEMENT This form must be completely filled out printed initialed and submitted Y3 � �V 1 n 1 PROJECT INFORMATION Project name Alston Pond Contact name Troy Beasley Phone number 9'[9 469 3340 Date 0& /4- 7/y, Drainage area number BMP #2 — 11 DESIGN INFORMATION The purpose of the LS VFS Buffer Rule Diffuse Flow Stormwater enters LS-VFS from A BMP Type of VFS Protected riparian buffer (slope < 59' ) Explanation of any Other' responses above If Stormwater Enters the LS VFS from the Drainage Area Drainage area Impervious surface area Percent impervious Rational C coefficient Peak flow from the 1 inthr storm Time of concentration Rainfall intensity 10-yr storm Peak flow from the 10 yr storm Design storm Maximum amount of flow directed to the LS VFS Is a flour bypass system going to be used? Explanation of any Other° responses above If Stormwater Enters the LS VFS from a BMP Type of BMP Peak discharge from the BMP during the design storm Peak discharge from the BMP during the 10 -year storm Maximum capacity of a 100 foot long LS VFS Peak flow directed to the LS VFS Is a flaw bypass system going to be used? Explanation of any Other' responses above LS VFS Design fe U rt r (I I t If ri r fe Do I c c nil I c t r l a 1 )v t 1 FI Ih r i t it I i icn cis i) (Unp If Ct i t min > of cofi ri 1 i 7 iruhr J t I rl 01 y t cis 1 r ° 4t ci Ih Pick one cfs I n i t '1171 . n t I r (Y or N) D r r1f tc Iii I t of 1 Wet detention pond 086 cis 086 cis 2 cis 086 cfs Y (Y or N) Forebay surface area sq ft Depth of forebay at stormwater entry point in Depth of forebay at stormwater exit point rn Feet of level lip needed per cis 50 tvcfs Computed minimum length of the level lip needed ft Length of level lip provided ft Farm SW401 LS VFS 29Nov2010 Rev 8 paqe 1 of 3 Width of VFS Elevation at downslope base of level lip Elevation at the end of the VFS that is farthest from the LS Slope (from level lip to the end of the VFS) Are any draws present in the VFS? Is there a collector smale at the end of the VFS? Bypass System Design (d applicable) Is a bypass system provided? is there an engineered flow splitting device? Dimensions of the channel (see diagram below) M B W y (flow depth for 10 -year storm) freeboard (during the 10 year storm) Peak velocity to the channel during the 10 yr storm Channel lining material Does the bypass discharge through a wefland? Does the channel enter the stream at an angle? Explanation of any Other" responses above 4, — it f1r 1 4P 1 (forlll (Y or N) Y {f a N) Y (Y 3 FJ) °I be pf% c V18 1 1eletl Uf ftLw sal i r 8 sapt 111(x1 C -3IGs 200 f1 400 ft 1200 ft 085 ft 1 15 It 384 fV PC Pi k Cie " Ad�O Gl 4AIr.L-c- N (Y or N) Y (Y or N) A —_. ,t y L j III REQUIRED ITEMS CHECKLIST 1 d EDIT Please indicate the page or plan sheet numbers where the supporting documentation can be found M Incomplete submittal package will result in a request for additional information This will delay final review and approval of the project Initial In the space provided W Indicate the following design requirements have been met. If the applicant has designated an agent, the agent may initial below If a requirement has not been met attach justification Requrled Item 1 Plans (1 50 or larger) of the entire site showug Design at ultimate buBd -out, Off -site drainage (0 applicable) Delineated drainage basins (Include Rational C coefficient per basin) Forebay (6 applicable) High flow bypass system Maintenance access Proposed drainage easement and public right of way (ROW) and Boundaries of drainage easement Initials Page or plan sheet number and any notes ML- jpr ^L 15 0 J Form SW401 LS VFS Mov2010 Rev a page 2 of 3 2 Plan details (1 W t„ ftger) for the level spreader showing Forebay (if applicable) Hugh flaw bypass system one foot topo lines between the level lip and top of stream bank Proposed drainage easement, and Owign at ultimate bwld ad. 3 Section new of the level spreader (i 28' or larger) shaving Underdmin system (d applicable) Level lip Upstope dlarfnK and Dwislope Qler fabric 4 Plan delalls of the flaw so" dents and stipporhng cafufabons (d applicable) 5 A construction sequence that shows haw the I&M spreader will be protected from sediment urd the entire drainage area is slabiRiized 6 If a non- engmeered VFS Is being used then provide a photograph of the VFS shot" Ural no dress are present 7 The supporting calculations 8 A copy of the signed and iwtattzed operation and mamtenance (O&M) agreement i Y nd L I I ZZ L"3 C. i — _Molt � pRav c►era i..J `iVM ' Qc2'r' � � 1 i� �Qe,vt�h Foi n SW401 LS VFS 29Nov2010 Rrri 8 paw 3 of 3 Project Description Friction Method Solve For Inptjt Data Roughness Coefficient Channel Slope Left Side Slope Right Side Slope Bottom Width Discharge Results Normal Depth Flow Area Wetted Perimeter Top Width Critical Depth Critical Slope Velocity Velocity Head Specific Energy Froude Number Flow Type GVF Input Data Downstream Depth Length Number Of Steps GVF Output Data Upstream Depth Profile Description Profile Headloss Downstream Velocity Upstream Velocity Normal Depth Critical Depth Channel Slope Critical Slope 1 /26/2011 9 08 13 AM BMP #2 HIGH FLOW BYPASS Manning Formula Normal Depth Subcnhcal 0 069 006000 ft/ft 200 ft/ft (H V) 200 ft/ft (H V) 400 ft 1860 fN /s 085 ft 485 ftz 780 It 740 it 077 ft 008793 ft/ft 384 Ws 023 ft 108 ft 084 000 ft 000 it 0 000 ft 000 it Infinity ft/s Infinity ft/s 085 ft 077 It 006000 ft/ft 008793 ft/ft Bentley Systems Inc Haestad Methods Solution Center Bentley FtowMaster [06.01 07140] 27 Slemone Company Drive Suite 200 W Watertown CT 06795 USA +1203-756-1668 Page 1 of 1 Perm t No (m b aro ded 151 DWG) ACa LE)J L NCDENR STORMWATER MANAGEMENT PERMIT APPLICATION FORM - 401 CERTIFICATION APPLICATION FORM WET DETENTION BASIN SUPPLEMENT This form must be filled out pmded and submitted The Requited Items Checklist (Pert 111) must be printed filled out and submitted along with all of the required informalton I PROJECT INFORMATION Project name Aston Pond Contact person Alwy V mdh III P E Phone number 9 9) 40-3340 Date OG /'.- Drainage area number 2 III DESIGN INFORMATION Site Characteristics Drainage area 1589$40 fe Impervious area postdevelopment 816750 fl4 % impervious 5137% Desgn rainfall depth 10 In Storage Volume Non SAWaters Minimum volume required Volume provided Storage Volume SA Waters 15 runoff volume Pre - development 1 yr 24-hr runoff post-development 1 yr 24-hr runoff Mmenum volume required Volume provided Peak Flow Calculations Is the prelpost control of the 1yr 24hr storm peak flow required? 1 yr 24 hr rainfall depth Rational C pre-development Rational C post - development Rainfall Intensity, 1 yr 24-hr storm Pre-development 1 yr 24 hr peak flow PosWevelopmentI yr 24 hr peak flow Pre/Post 1 yr 24 hr peak flow control Elevations Temporary pool elevation Permanent pool elevation SHWT elevation (approx at the perm pool elevation) Top of IOft vegetated shelf elev-tron Bottom of I Oft vegetated shelf elevation Sediment cleanout, top elevation (bottom of pond) Sediment cleanout bottom elevation Sediment storage provided Is there additional volume stored above the state - required temp pool? Elevation of the top of the additional volume 67 881 if3 OK 84 332 iP OK volume provided is equal to or In excess of volume required tt3 to f3 tt3 to It (Y or N) 30 In 0 30 (unfiless) 0 51 (undkss) 013 Mr OK 15 61 Osec 11 A7 fft isec .414 ft /sec 367 40 fmsi 365 00 fmsl fmsi 365 50 frost 364 50 fmsl 36000 fmsi 359 00 fmst 100 It n (Y or N) msl F S WW W t 0 1 1 e n-R 6 9 17109 -1 & 0 3 t 9 1 Perm t No r d b rvvc,l II DESIGN INFORMATION Surface Areas Area temporary pool 39 090 fl Area REQUIRED permanent pool 28142 tt7 SAIDA ratio 177 (umiless) Area PROVIDED permanent pool 28,282 tr OK Area bottom of 1011 vegetated shelf /6 „e1 23027 le Area sediment cleanouL top elevation (bottom of pond) ,, 13$43 ft` Volumes Volume temporary pool 84 332 ft° OK Volume permanent pool 1d,, , 94 50D fe Volume forebay (sum of forebays if more than one forebay) fe Forebay % of permanent pool volume % SAIDA Table Data Design TSS removal Coastal SAIDA Table Used fdountemlPiedmont SAIDA Table Used') SAIDA ratio Average depth (used in SAIDA table) Celculadon option 1 used9 (See Figure 10 2b) Volume permanent pool Area provided permanent pool A..-Pd Average depth calcul tad Average depth used in MA 4. (Round to nearest 0 511) Calculation option 2 used? (See Figure 10 2b) Area provided permanent pool " Area bottom of 10ft vegetated shelf U,w Area sediment cleanout top elevation (bottom of pond) , 85 / n (Y or N) y (Y or K) 177 (unifless) n (Y or N) 94 500 it 28 28211` it Need 311 min it y (Y or N) 28 28211` 23 027 fe 13 943 fe Depth (distance b!w bottom of 10ft shelf and top of sediment) 4 50 ft Average depth calculated 410 ft Average depth used in SAIDA (k (Round to nearest D 511! 4 0 ft Drawdown Calculations Drawdown through orifice? y (Y or N) Diameter of onfice (if circular) 4A0In Area of orifice (if non -circu ar) in? Coefficient of discharge (Co) 010 (unidess) Owing head (h j 2 40 it Drawdown through welr7 n (Y or N) Weir type (undless) Coefficient of discharge (Cv) (unitless) Length of weir (L) ft Driving head (H) it Pre -development 1 yr 24 hr peak flow 1 .)61 ft' /sec Post development 1 yr 24 hr peak flow 1147 Wipe Storage volume discharge rate (through discharge orifice orwen) 063 ft' /sec Storage volume drawdown time 2 00 days Additional Information Vegetated side slopes 3 1 Vegetated shelf slope 10 1 Vegetated shelf width 1000 Length of flowpath to width ratio 3 1 Length to width ratio 30 1 Trash rack for overflow & orifice? y (Y or NJ Freeboard provided 08 ft Vegetated filter provided9 n (Y or N) Recorded drainage easement provided) y (Y or N) Capures all runoff at ultimate build -outs _ y (Y or N) Drain mechanism for maintenance or emergencies is Gate valve OK OK OK draws down in 7 5 days OK OK OK OK OK OK Insufficient freeboard minimum of 1 It required insufficent Vegetated filler required OK OK F m SW401 W 10 1 0 8 R e 9i17rW P d 1 3 11 0 9 2