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HomeMy WebLinkAboutSW3221005_Supplement-EZ Form_20230616LOAD SUPPLEMENT FORMS ,OJECT INFORMATION 1 Project Name Boulder Run 2 Project Area ac 128.169 3 Coastal Wetland Area ac 0 4 Surface Water Area ac 2.496 5 Is this project High or Low Density? Low 6 IDoes this project use an off -site SCM? No IMPLIANCE WITH 02H .1003(4) 7 Width of vegetated setbacks provided feet 30 B Will the ve atated setback remain vegetated? Yes 9 If BUA is proposed In the setback, does it meet NCAC 02H.1003 4 c d ? Yes 10 Is streambank stabilization proposed on this project? No IMBER AND TYPE OF SCMs: 11 Infiltration System 0 12 Bioretention Cell 0 13 Wet Pond 0 14 Stormwater Wetland 0 15 Permeable Pavement 0 16 Sand Filter 0 17 Rainwater Harvesting RWH 0 18 Green Roof 0 19 Level Spreader -Filter Strip LS-FS 0 ?0 Disconnected Impervious Surface (DIS) 0 ?1 Treatment Swale 0 L2 Dry Pond 0 ?3 Storm Filter 0 M Silva Cell 0 25 Ba Ilter 0 ?6 FlIterra 0 LOAD SUPPLEMENT FORMS (SIGNER CERTIFICATION ?7 Name and Title: Brian LaFranchl ?8 Organization: Dewberry Engineers Inc. ?9 Street address: 9300 Harris Comers Park -way 10 City, State, Zip: Charlotte, NC, 28269 0 Phone numbers : 704-631-5206 32 Email: blafranchi@dewberry.com iCertification Statement: 11 certify, under penalty of law. that -this Supplement-F.Z fohn and allrsupporting information were prepared under my directio.n.or supervision; that :the information provided in the form is, to the best of my knowledge and belief, true, accurate, and complete; and that the engineering plans, ;specifications, operation and maintenance agreements and other supporting information are consistent with the information provided here. CARgz r� �pQ OFSSI0,; •�ir9 �. SEAL. � 03: 40016 •r- :;ti%; M. LaF� ��� 11111110 /.�001- Signature of Designer Date DRAINAGE AREAS 1 Is this a high density project? No 2 If so, number of drainage areas/SCMs 0 oes this project have low density areas? Yes 4 If so, number of low density drainage areas 1 Is all/part of this project subject to previous rule 5 versions? No Mai a I.. LD.F.D DRAINAGE AREA INFORMATION��������������������� Entire Site LD 1������� 4 T e of SCM 5 Total drainage area (sq ft 5,583,042 5a583,042 6...... Onsite drainage area (sq ft 5..583..0.4.2.................................5.a.583..042................. 7 Offsite drainage area (sq ft) 0 0 8 Total BUA „in project (sq ft) 962698 sf 962698 sf New BUA on subdivided lots (subject to 9 permitting) (sq ft) 499655 sf 499655 sf New BUA not on subdivided lots (subject to 10 permitting) (sf) 463043 sf 463043 sf 11 Offsite BUA (sq 12 Breakdown of new BUA not on subdivided lots: Parking (sq ft) Sidewalk (sq ft).... Roof (sq ft) Roadway (sq 1) 463043 sf 463043 sf Future (sq ft) Other, please specify in the comment box below (sq ft New infiltrating permeable pavement on 13 subdivided lots (sq ft) N/A N/A New infiltrating permeable pavement not on 14 subdivided lots s ft N/A N/A Existing BUA that will remain (not subject to 15 permitting) (sq ft) 16 Existing BUA that is already permitted (sq ft) 17 Existing BUA that will be removed (sq ft) 18 Percent BUA 19 Design storm (inches) 20 Design volume of SOM (cu ft) 21 Calculation method for design volume ...... ...... ...... ........ ...... ...... ....� .... ...... ...... ...... ...... ...... ...... ...... ....� ADDITIONAL_INFORMATION".... �Please use this space to provide any additional information about the 22 drainage a rea(s) LOWDENSITY�������������������������������������������������������������������������������� DESIGN RE UIREMENTS FOR LOW DENSITY PROJECTS FROM 02H .1003 1 ................................................................................................................................................................................................................................................................................................................................................................................................ Is project below density thresholds set forth in the applicable stormwater rule? Yes 2 ................................................................................................................................................................................................................................................................................................................................................................................................ Does project maximize dispersed flow and minimize channelization of flow? Yes 3 Has the use of piping been minimized per. 1 003(2)(c)? Yes 4 Side slopes of the vegetated conveyances (H:V) 2:1, 3:1, 4:1 5 ................................................................................................................................................................................................................................................................................................................................................................................................ Maximum velocity in the vegetated conveyances during the 10-year storm? 7.07 6 ................................................................................................................................................................................................................................................................................................................................................................................................ Are curb outlet swales proposed? No 7 ................................................................................................................................................................................................................................................................................................................................................................................................ Maximum longitudinal slope of curb outlet swale(s) (% ) 8 Bottom width of curb outlet swale(s) (feet) 9 ................................................................................................................................................................................................................................................................................................................................................................................................ Maximum side slope of curb outlet swale(s) (H:V) 10 ................................................................................................................................................................................................................................................................................................................................................................................................ Minimum length of curb outlet swale(s) (feet) 11 ................................................................................................................................................................................................................................................................................................................................................................................................ Are treatment swales used instead of curb outlet swales? 12 Is stormwater released at the edge of the setback as dispersed flow? Yes 13 Have stormwater outlets been designed to prevent downslope erosion? Yes 14 Are variations to rule .1003 proposed? No ADDITIONAL INFORMATION 15 Please use tnls space °to providenadditional information about this low densityro�ect any Vegetated Conveyances #1, 3, 4, 6A, 613, 12, 14, 15, 16, 17, 19, 20, 22, and 23 have higher slopes and velocities, therefore, SC250 matting has been proposed for these conveyances and the allowable velocities have been updated below to reflect this mattin . Swale Drainage BUA Pervious Q Slope Va„o„ �a«�a, Flow depth # Area (ac) area C (cfs) ( % ) (fps) (fps) (ft) ac ac 1 6.49 0.60 27.73 4.20 9.50 6.81 1.16 2 0.48 0.60 2.05 4.20 5.50 3.55 0.44 3 2.28 0.60 9.74 3.90 9.50 5.12 0.80 4 1.96 0.60 8.37 4..5 9.50 5.19 0.73 5 0.19 0.60 0.81 2.50 5.50 2.32 0.34 6 0.73 (6A) -- 0.60 3.12 8.00 9.50 5.03 0.46 7 0.66 (7A) -- 0.60 2.82 6.10 5.50 4.44 0.46 8 0.31 (8A) -- 0.60 1.32 4.00 5.50 3.13 0.38 9 0.30 0.60 1.28 5.30 5.50 3.46 0.35 10 0.86 0.60 3.67 5.50 5.50 4.56 0.52 11 1.45 0.60 6.19 4.10 5.50 4.65 0.67 12 1.91 0.60 8.16 6.60 9.50 5.96 0.68 13 2.26 0.60 9.65 1.70 5.50 3.74 0.93 14 2.47 0.60 10.55 6.00 9.50 5.93 0.51 15 3.20 0.60 13.67 8.00 9.50 7.07 0.53 16 1.44 0.60 6.15 7.10 9.50 5.71 0.60 17 3.31 0.60 14.14 3.00 9.50 5.09 0.97 18 0.58 0.60 2.48 7.00 5.50 4.52 0.43 19 0.97 0.60 4.15 7.00 9.50 5.14 0.52 20 0.98 0.60 4.19 7.00 9.50 5.16 0.52 21 0.72 0.60 3.08 7.10 5.50 4.81 0.46 22 0.88 0.60 3.76 13.00 9.50 6.33 0.44 23 1.62 0.60 6.92 7.00 9.50 5.85 0.63 24 0.29 0.60 1.24 5.80 5.50 3.54 0.34 25 1.30 (6B) -- 0.60 5.57 13.50 9.50 6.61 0.29 ...............0..Z ............... O 7B...........................................................................0..60..........................1...1.1...........................4..80..........................5..50..........................3..Z.1...........................0..34............ 27 0.41 (813) -- 0.60 1.75 2.80 5.50 2.94 0.44 28 29 30