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Home My WebLink About20071815 Ver 1_Stormwater Info_20120807TRANSMITTAL LETTER Date: August 6, 2012 Re: The Meadows — Bio Pond #4 Certification Attn: Ms. Annette Lucas, PE Please find attached: �� (�OMC 0 I AUG ° 7 2012 NR - WATER QU ITY Reference No. Copies Number of Sheets Notes 12- 0001 -508 1 1 Bio Pond #4 As -built plan 12- 0001 -508 1 2 Certification letter 12- 0001 -508 1 7 Photos 12- 0001 -508 1 4 Operation & Maintenance Agreement 12- 0001 -508 1 4 Bio -soils specification and order form 12- 0001 -508 1 1 BM 2009 PG 1105 The attached items have been provided for your file. Please call me with any questions or concerns. Sincerely, 0~40"_ W Ac` Cameron M. Rice, P.E. Project Manager cc: 12- 0001 -508 Holly Miller Madden Development, LLC. August 6, 2012 01 - 1 g 1 S NCDENR Division of Water Quality Wetlands and Stormwater Branch 1650 Mail Service Center Raleigh, North Carolina 27699 -1650 Attn: Ms. Annette M. Lucas, PE RE: The Meadows Subdivision v Stormwater Permit No.: SW 07 -1815 Wake Forest, NC, Wake County AUG - 7 2012 Bio Pond #4 Certification Dear Ms. Lucas: Construction of BioPond #4 has been completed for the above referenced permitted facility. This letter has been provided to certify that I, Cameron M. Rice, as a duly registered Professional Engineer in the State of North Carolina, having been authorized to observe periodically the construction of the project, The Meadows Subdivision - BioPond #4, for Madden Development. LLC., the permittee, hereby state, that to the best of my abilities, due care and diligence was used in the observation of the construction such that the construction was observed to be built within substantial compliance and intent of the approved plans and specifications. Deviations from the approved plans and specifications have been noted on the attached plan. Signature: e A WLam_ Registration Number: Z89Z Lf Date: 8/lo // 7, Company License Number: 40- 2798 SEAL 1 > >�� CAft4f// �;.oF?-- SEAL •• 028924 r • 0 • J N 51 Kilmayne Drive Suite 104 Cary, North Carolina 27511 ADVANCED ph 919.460.2024 C I V I L D E S I G N fax 919.336.5127 Certification Requirements: ✓ 1. The drainage area to the system contains approximately the permitted acreage. %/'2. The drainage area to the system contains no more than the permitted amount of built -upon area. ✓ 3. All the built -upon area associated with the project is graded such that the runoff drains to the system. v/"4. All roof drains are located such that the runoff is directed into the system. ✓ 5. The outlet/bypass structure elevations are per the approved plan. )✓ 6. The outlet structure is located per the approved plans. ~/A 7. Trash rack is provided on the outlet/bypass structure. `✓ 8. All slopes are grassed with permanent vegetation, per the vegetation plan. ✓9. Vegetated slopes are no steeper than 3:1. ✓ 10. The inlets are located per the approved plans and do not cause short- circuiting of the system. ✓ 11. The permitted amounts of surface area and volume have been provided. ✓ 12. Required drawdown devices are correctly sized per the approved plans. ✓13. All required design depths are provided. ✓ 14. All required parts of the system are provided, such as a media, underdrains and pretreatment. 15. The required system dimensions are provided per the approved plans. Please contact me at 919 - 780 -8005 if you have any questions or concerns. Very truly yours, ADVANCED CIVIL DESIGN, INC. Cameron M. Rice, P.E. cc: 12- 0001 -508NC Madden Development; LLC Holly Miller, Town of Wake Forest T' 7 4 1 1 se Permit Number: (to be provided by DWQ) Drainage Area Number: Bioretention Inspection and Maintenance Agreement 'D1"h TqW -r-oN .42v.+ #5l THSA1gr4D4&/f 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 BNT. Important inspection 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 inspection 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. BNIP 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 2roblems 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] &M -Rev.2 Page I of 4 BMP element: The pretreatment area The bioretention cell: vegetation The bioretention cell: soils and mulch Potential Flow is bypassing pretreatment area and /or gullies have formed. Sediment has accumulated to a depth greater than three inches, Erosion has occurred. Weeds are present. Best professional practices show that pruning is needed to maintain optimal plant health. Plants are dead, diseased or dying. Tree stakes /wires are present six months after planting. Mulch is breaking down or has floated away. Soils and /or mulch are clogged with sediment. An annual soil test shows that pH hasfdropped or heavy metals have accumulated in the soil media. How I will remediate the problem: Regrade if necessary to route all flow to the pretreatment area. Restabilize the area after grading. Search for the source of the sediment and remedy the problem if possible. Remove the sediment and restabilize the pretreatment area. Provide additional erosion protection such as reinforced turf matting or riprap if needed to prevent future erosion problems. Remove the weeds, preferably by hand. Prune according to best professional practices. Determine the source of the 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. Remove tree stake /wires (which can kill the tree if not removed). Spot mulch if there are only random 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. Determine the extent of the clogging - 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 Dolomitic lime shall be applied as recommended per the soil test and toxic soils shall be removed, disposed of properly and replaced with new planting media. Form SW401- Bioretention I &M -Rev.2 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. CIean 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 SW401- Bioretention I &M -Rev.2 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 party. Project name: The Meadows BMP drainage area number: Print name: Michael Dean Chadwick Title: Owner 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, ner - U4S1t- , a Notary Public for the State of ____ North Carolina , County of Wake , do hereby certify that ip_I ti..Vloo toi Je Personally appeared before me thist d"ay of 376unLLt:a y -s4 , !;�mT( , and acknowledge the due execution of the forgoing bioretention maintenance requirements. Witness my hand and official seal, i^•�i'• P i C _ {, PUBOG 8 let 00 e �r SEAL My commission expires �- ck�t°.tr t n e Form SW401- Bioretention i &M -Rev. 2 Page 4 of 4 Jul. 5. 2012 6;26PM No. 4575 P. 1 BRADSHER LANDSCAPE SiuPPLIES A Division of R. L._ Bradsher Contracting, Inc. 3729 Overlook Road Ralci�h, NC 27616 . M= (919) 872 -517,4 • Fa : (919) 872-0914 Fax Cover Sheet To: With: U V1 o Urgent o Please Review and Comment or Your Information o Reply ASAP' DP qo im m 3 rr u` tea- N SA m Qa Car* y� a CD 0 "Au Np 7 pao im—N --i >' Kwcro -n K 3 M "x S CO CL a- W >� �m o � cp... N `+ O sz iJ N D En 0 c n, w to D a m 0 m C� /mom N N m Z r- r m cn Ci c a {D o 0 o __ N r � N +) io y A > O O Fr ca co N,5:C M •I�Ic�� p a �O ip NNAm �r3 > D m � C m °' ' 'l< N o a (fl o v o Q O ° � paj ,C > 3 Z C o m y Dull N c m c of <<-m 3 X00 1 I ■ Ul z r0 M ate? - ` 0 i �n can W 'A_0 0 � W � r o �z el r a m� c n a T E5 Q >ZM m Q cn � � N m 9m 3 t 4 {D o __ N r � N +) io m o c�nt�pO� o O O Fr ca co N,5:C M •I�Ic�� fry z IV -4 C a �O ip NNAm �r3 0 m m CA N °' ' W,0 O 0 a (fl � v � o Q O ° � o 7 t 4 Z 'd SLSti'ON Ad96:9 6106 'S I�r {D C �i o O O 3 m m � •I�Ic�� ro CD Z a a iCi .-A I' C O C. �r3 CD CL CL ,IZ�y,m I M. Ia In 1 I� IX A a 7 T-1a I° INI •M °' ' W,0 n i Z 'd SLSti'ON Ad96:9 6106 'S I�r • J I. 5. 2012 6: 27PM No. 4575 P. 3 Tifton Physical Soil Testing Laboratory, Inc. IwIP. MURRAY AVENUE "PaN bate Received. January 10, 2012 ETON, GEORGIA 3179 ?hone: (2291382-7292 Date Reported: jangary, 13„2012 Fax: (229) 382.2992 ACBRIEORED Sample Number: L1,4 .12.. . www.tiftonsoillab.com TESTING CERT #4014.01 Test Report For: .R...L. Brsdsher,Cor�tracting, inc. RE: Bioretention Soil 3729 Overlook Road Raleiah..NQ. 27616 ftvMdOW17/2010 Attu: Robert Bradsher Recommendations: A complete physical analysis and panicle sloe analysis, including organic matter and pH, were made on the Biosoil Sample from R. L. Bradsher Contracting, Inc. on January 11, 2012, to determine its physical properties for a Bioretention Soil. The condition of the sample as received was normal, The particle size analysis shows that the Biosoil is composed of a light tan colored, coarse medium sand with 88.0% sand, 7.0% silt, and 5.0% clay, including the 0.5% fine gravel in the sand fraction. The Biosoil has 12.0% silt and clay, which meets the recommendation of 8 -12% silt and clay for this Biosoil. The Biosoil has 3.76% organic matter by weight as determined by the loss on ignition method (ASTM F1547), which meets the recommendation of 3 -5% organic matter for this Biosoil. The Biosoil has a water permeability rate of 2.9 in /hr. when compacted by the ASTM F1815 method to simulate a compacted agricultural topsoil (2.9 ft..lbsAn2), which is within the recommendation of 1 -6 , /hr. for this Biosoil. The other physical properties show that this soil has 14,7% non - capillary (air - filled) porosity, 29.3% capillary (water - filled) porosity, and an adequate water retention of 20,2 %. The Biosoil has a soil water pH of 5.6, which is a little lower than the optimum pH range of 6.0 to 6.5 for most plant growth. Conclusion: This Biosoil meets the Bioretention Soil Specifications that you are trying to meet. Recommendations are'based on the samples received. Results and comments relate to the samples tested. This report cannot be reproduced except in full, and not without written approval of the laboratory. 2of2 e � I 0 w Dam 3 IAA w 3 3 �a 4 � w o c fi a ti o O S � � C � � m 7 m �! O O T 73 K fi [�1 5 '� W �4 om a fi O pa rA .H► N -n C ti 3 C tll pA Aa m R � ti 'd SLSti 'ON V 0 i wdL6:9 6[0Z 'S [nr IO El O Ej v, O R O n A r � � o p tin � o aC 3 b p ea ti, o P7 Go `4 5 O O O �r 0 w O O V! IA � O m0 wdL6:9 6[0Z 'S [nr IO El O v c eY tV X S E Cl Co V cv Co X S V n, N M 4 Co O O rs U o� U O UI N �1 e a a o` VI 0 0 S O °r a_ C8 02•, - - - -- _ -- - - - _ ...... ..... ......... • ...... .... —j — — "` — _,ti.........'...ti ce# '4J1 - _ ------------ -- --------- -_ -__— - - ( (.... _ _ ca# 101 -� f i ( �... ° i ,• . z BikRNFORD MILL ROAD? ( (• ( I (..... f •. j. °A9p••. 1 I ( ( (... 3sQf,, EGA':. POND ®. f ! Fri rri (' ......• f I ) I D b Lj END# 100• �i F't"i7POSED,r C/0 (TYP,) .� ------- 'g. O' .. a •j`�.�. _ •.ter ..... `.. .�: ..� .:r. :: " "`� ..-PROP OSE -UNDERDRAIN" 'rvr r - .� - RE1`EN T1 N••' ND #4 �J'• w J 375 DA TUM E'LE'V 370. 00 10+00 In Situ ULI&Y Water Table Gross 112" Ponding 2: i`SL,OPE PROPOSED BY —PASS SWf ::LE SEE TYPICAL C L SEG•71ON, DWG' C.8.4 FOR DETAILS & CALCULATIONS :. ... ,� '¢;.,,...:,••.• rtiy "o:.�.:- ;....:,,.o:,.; •��° PROPOSED EMERGENCY � 0 N v : ': :^ \ SPILLWAY : Fill Soil Media I f ,Fzey Mix: 85 -88% Sond 9--12% Fines f 3 -5% Organic Depth: Gross =2' 10" #57 Stone 2'+ Distoncm to Water Tjble BIO RETENTION POND #4 - PLAN VIEW SCALE: 1" = 30' — Copped Clean Out Pipe 0 _ .0 �— 4" Perforated Underdrain BIORETENTION CONCEPTUAL LAYOUT: NOT TO SCALE 10+50 11 +0C 11+50 12+00 12 +50 375 N /F ELLIS, JULIE G. AND DANIEL A. SAFRIET PIN #: 1 841 781 057 ZONING: RD LAND USE: RESIDENTIAL 0 i5 30 60 FEE e 9 i! DA TUM ELE V BIORETENTION CALCULATIONS DRAINAGE AREA = 4.2 Ac CALCULATE VOLUME OF RUNOFF USING THE SIMPLE METHOD A. PLANTING SOIL The soil mix should be uniform and free of stones, stumps, roots, or other similar material greater than 2 inches. The planting soil should be a homogenous soil mix., by weight, consist' of 85 -88% SAND 8 -12% FINES (SILT & CLAY) 3 -5% ORGANIC MATTER The planting soils should be analyzed in a lab for Phosphorus. The P -Index for bioretention should range between 10 and 30. Planting soil media should be at minimum a depth of 2 ft, After planting soil has been placed permeability should be tested and should fall between 0.52 - 6 in/hr, 1-2 in/hr is preferred, B. PLANTS Centipede grass sod should be installed in the Bioretention areas. Sod should be stored, installed and maintained according to manufacturer's standards. UNDERDRAIN CALCULATIONS & NOTES 1. ALL UNDER DRAIN PIPING SHALL HAVE A MINIMUM SLOPE OF 0,5% AND SHALL BE CONSTRUCTED OD SCHEDULE 40 OR SDR 35 SMOOTH WALL PVC PIPE. 2. A MINIMUM OF FOUR ROWS OF PERFORATIONS SHALL BE PROVIDED AROUND THE DIAMETER OF THE PIPE. 3. PERFORATION SHALL BE PLACED SIR INCHES ON CENTER WITHIN ROW FOR ENTIRE LENGTH AND SHALL BE 3/8 -INCH IN DIAMETER. CALCULATIONS (SECTION 5.7 OF NCDENR BMP MANUAL) Q = FS * (C) * (I) * (A) Q= 10 *(0.7) *(1 ") *(4.2AC) Q = 29.4 CFS \ D= (16 *(Q) *(N)3/8 (S) ^ 0.5 /// D = �16 * (29.4.01 I)\ 3/8 (0,005) ^ 0.5 D =5.0 USING TABLE 5 -1 (NCDENR BMP MANUAL) INSTALL TWO 4" PIPES THE STORM SEWER INVERTS, RIM ELEVATIONS, AND SURFACE AREA WERE SURVEYED BY M -III DURING JULY AND AUGUST OF 2012, AND INFORMATION FROM THE SURVEY NOTES WERE DRAFTED ON THIS PLAN BY CAMERON M. RICE PE WITH ADVANCED CIVIL DESIGN, INC., IN AUGUST 2012. `) flu. UL/ 10 +00 10 +50 11+00 11 +50 12 +00 12 +50 390 We] 390 � n4f] 370 DATUM ELEV 360.00 EXISTING GRADE + PROPOSED GRADE IN -ET PIPE INVERT: 378.00 c�0 .� � SEE STORM DRAIN OUTFALL Q0 '—© z S-CTION VIEW FOR DETAILS co 3 EXISTING G DE —1� BOTTOM OF BIO RETENTION POND ®' r 59't,e& PROPOSED O . 0+. CLEAN OUT O O Il. I- Cri i l I+ SLOPE. i it L II !t II C 1 8" DIA RCP PROPOSED GRA PROVIDE CLASS "B" { i VERTICA : 1 " = 30' RIP RAP FOR FORE AY 1'* = 3' PROP SED UNDERDRAIN TO DR IN INTO BYPASS SWALE BOTTOM OF FOREBAY: 376.00 VERTICAL: 1 " = Q' HORIZONTAL: 1 " = 3' 10+50 11 +0C 11+50 12+00 12 +50 375 N /F ELLIS, JULIE G. AND DANIEL A. SAFRIET PIN #: 1 841 781 057 ZONING: RD LAND USE: RESIDENTIAL 0 i5 30 60 FEE e 9 i! DA TUM ELE V BIORETENTION CALCULATIONS DRAINAGE AREA = 4.2 Ac CALCULATE VOLUME OF RUNOFF USING THE SIMPLE METHOD A. PLANTING SOIL The soil mix should be uniform and free of stones, stumps, roots, or other similar material greater than 2 inches. The planting soil should be a homogenous soil mix., by weight, consist' of 85 -88% SAND 8 -12% FINES (SILT & CLAY) 3 -5% ORGANIC MATTER The planting soils should be analyzed in a lab for Phosphorus. The P -Index for bioretention should range between 10 and 30. Planting soil media should be at minimum a depth of 2 ft, After planting soil has been placed permeability should be tested and should fall between 0.52 - 6 in/hr, 1-2 in/hr is preferred, B. PLANTS Centipede grass sod should be installed in the Bioretention areas. Sod should be stored, installed and maintained according to manufacturer's standards. UNDERDRAIN CALCULATIONS & NOTES 1. ALL UNDER DRAIN PIPING SHALL HAVE A MINIMUM SLOPE OF 0,5% AND SHALL BE CONSTRUCTED OD SCHEDULE 40 OR SDR 35 SMOOTH WALL PVC PIPE. 2. A MINIMUM OF FOUR ROWS OF PERFORATIONS SHALL BE PROVIDED AROUND THE DIAMETER OF THE PIPE. 3. PERFORATION SHALL BE PLACED SIR INCHES ON CENTER WITHIN ROW FOR ENTIRE LENGTH AND SHALL BE 3/8 -INCH IN DIAMETER. CALCULATIONS (SECTION 5.7 OF NCDENR BMP MANUAL) Q = FS * (C) * (I) * (A) Q= 10 *(0.7) *(1 ") *(4.2AC) Q = 29.4 CFS \ D= (16 *(Q) *(N)3/8 (S) ^ 0.5 /// D = �16 * (29.4.01 I)\ 3/8 (0,005) ^ 0.5 D =5.0 USING TABLE 5 -1 (NCDENR BMP MANUAL) INSTALL TWO 4" PIPES THE STORM SEWER INVERTS, RIM ELEVATIONS, AND SURFACE AREA WERE SURVEYED BY M -III DURING JULY AND AUGUST OF 2012, AND INFORMATION FROM THE SURVEY NOTES WERE DRAFTED ON THIS PLAN BY CAMERON M. RICE PE WITH ADVANCED CIVIL DESIGN, INC., IN AUGUST 2012. `) flu. UL/ 10 +00 10 +50 11+00 11 +50 12 +00 12 +50 390 We] 390 � n4f] 370 DATUM ELEV 360.00 c•fE Mil Bl we] 10+00 BYPASS SWALE - SECTION VIEW THESE PLANS HAVE BEEN APPROVED FOR CONSTRUCTION BY THE TOWN OF MAKE FOREST I DATE 2--ter Ob Ate'_ + c�0 .� � 0 Q0 '—© z co EXISTING G DE O . 0+. O O C LiJ L, I- Cri LEN: 20.00 SLOPE. s o 1 8" DIA RCP PROPOSED GRA E { i VERTICA : 1 " = 30' HORIZONTAL: 1'* = 3' c•fE Mil Bl we] 10+00 BYPASS SWALE - SECTION VIEW THESE PLANS HAVE BEEN APPROVED FOR CONSTRUCTION BY THE TOWN OF MAKE FOREST I DATE 2--ter Ob Ate'_