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Home My WebLink AboutSW8941008_HISTORICAL FILE_19941118 (2)STORMWATER DIVISION CODING SHEET POST -CONSTRUCTION PERMITS PERMIT NO. SW8 �IkA IUO S DOC TYPE ❑ CURRENT PERMIT ❑ APPROVED PLANS �T HISTORICAL FILE ❑ COMPLIANCE EVALUATION INSPECTION DOC DATE 01014 l 1 1 8 YYYYMMDD A State of North Carolina Department of Environment, Health, and Natural Resources Wilmington Regional Office James B. Hunt, Jr., Governor DIVISION OF ENVIRONMENTAL MANAGEMENT Bob Jamieson Jonathan B. Howes, Secretary WATER QUALITY SECTION Regional Manager November 18, 1994 Mr. Mark Maynard Mark Maynard Construction Co. Post Office Box 5601 Wilmington, North Carolina 28403 Subject: CERTIFICATION OF COMPLIANCE with Stormwater Regulations Stormwater Project No. SW8 941008 Meridian Village Apartments-NorthChase New Hanover County Dear Mr. Maynard: This Certification is pursuant to the application for the Meridian Village Apartments-NorthChase received on October 7, 1994, with additional information received on November 7, 1994. Staff review of the project plans and specifications has determined that the stormwater control system as proposed for Meridian Village Apartments-NorthChase will comply with the Stormwater Regulations set forth in Title 15A NCAC 2H.1003(i). The runoff from 129,390 square feet of impervious surface will be treated in a detention pond sized to achieve 90% reduction in Total Suspended Solids. Any modification of the plans submitted to and approved by this Office or further development of this site regardless of the fact that the modification may be less than 1 acre, will require an additional Stormwater Submittal/Modification and approval prior to initiation of construction. Modifications include but are not limited to; project name changes, transfer of ownership, redesign of built -upon surfaces, addition of built -upon surfaces, redesign or further subdivision of the project area. This Certification shall be effective from the date of issuance until rescinded. The project shall be constructed and maintained in accordance with the plans and specifications approved by the Wilmington Regional Office. This Certification does not supersede any other permit or approval. The developer is responsible for obtaining any and all permits and approvals necessary for the development of this project. This could include the Division of Coastal Management under CAMA requirements, the Division of Environmental Management under Wetland 401 Water Quality Certification and/or a Dredge and Fill Permit and/or a Sewer Extension/Collection Permit, U.S. Army Corps of Engineers 404 Wetland Permit, NPDES Stormwater Permit if disturbing five acres or more, local County or Town Agency permits under their local ordinances, or others that may be required. 127 Cardinal Drive Extension, Wilmington, N.C. 28405-3845 • Telephone 910-395-3900 • Fax 910-350-2004 An Equal Opportunity Affirmative Action Employer Mr. Maynard November 18, 1994 Stormwater Project No. SW8 941008 A professional engineer must certify that the stormwater system has been installed in accordance with the approved plans and specifications upon completion of construction. The attached certification should be received by this Office within 30 days of completion of construction. The detention pond must be constructed in it's entirety, operational for it's intended use, and permanently vegetated prior to the construction of any impervious surfaces proposed as a part of the project, except roads. If you have any questions concerning this matter, please call Ms. Linda Lewis or me at (910) 395- 3900. Sincerely, Dave Adkins Water Quality Supervisor DA/arl: S:\WQS\STORMWAT\CERTIFIC\941008.NOV cc: Jim Honeycutt, P.E. Sky Conklin, New Hanover County Inspections Bradley Bennett Beth Easley, New Hanover County Linda Lewis Wilmington Regional Office Central Files DIVISION OF ENVIRONMENTAL MANAGEMENT PROJECT DATA Project Name: Meridian Village Apartments-NorthChase Project Number: SW8 941008 Location: Applicant: Mailing Address: Submittal Date: Water Body Receiving Stormwater Runoff: Classification of Water Body: If Class SA, chloride sampling results: Pond Depth: Permanent Pool Elevation: Total Impervious Surfaces Allowed: Offsite Area entering Pond: Green Area entering Pond: Required Surface Area: Provided Surface Area: Required Storage Volume: Provided Storage Volume: Temporary Storage Elevation: Controlling Orifice Type/Diameter: New Hanover County Mr. Mark Maynard Mark Maynard Construction Co. Post Office Box 5601 Wilmington, North Carolina 28403 October 7, 1994 Smith Creek "C Sw" N/A 7.5 feet 30.05 MSL 129,390 square feet N/A square feet 85852 square feet 4,100 square feet 4,200 square feet 11,800 cubic feet 11,800 cubic feet 32.29 MSL 1.5" pipe WET DETENTION POND EVALUATION 1. Yes No The design storage is for the runoff from all impervious surfaces resulting from 1-inch of rainfall and is located above the permanent pool. 2. Yes No The permanent pool is designed for 90% total suspended solid (TSS) removal. Therefore, no vegetative filter is required. 3. Yes No The runoff completely draws down to the permanent pool in 5 days, but not less than 2 days. 4. Yes No The mean depth of the permanent pool is a minimum of 3 feet. 5. Yes No The inlet stnicture is designed to minimize turbulence and short circuiting. 6. Yes No An appropriate operation and maintenance plan has been provided for the system. 7. Yes No THIS PROJECT MEETS THE STORMWATER CONTROL REQUM04EN1'S OF 15A NCAC 2H.1003 (g), (i), (k), and (1) (For Yes, 1 through 7 must all be highlighted Yes.) Brief Explanation: This detention pond is designed to remove 90% total suspended solids without the aide of a vegetative filter. DIVISION OF ENVIRONMENTAL MANAGEMENT SIGN -OFF Wilmington Regional Office Date Individual Evaluating Form/Plans Date—Rdgio`nal Water Quality Supervisor cc: Applicant/Bradley Bennett/arl/WiRO/CF Meridian Village Apartments-NorthChase New Hanover County Stormwater Project No. SW8 941008 Engineer's Certification I, as a duly registered Professional Engineer in the State of North Carolina, having been authorized to observe (periodically/weekly/full time) the construction of the project, (Project) for (Project Owner) hereby state that, to the best of my abilities, due care and diligence was used in the observation of the project construction such that the construction was observed to be built within substantial compliance and intent of the approved plans and specifications. Signature Registration Number Date POND MAINTENANCE REQUHLEMENTS Project Name: /1,r/71G1,9.✓ (/,//#&I- L.L. C. Project No. 5w5 R4/ODE Responsible Party: /%4ef&oA1 (/,(I~ L. L. G. Phone No. 799- .f 1 G y yo ^fA& tadsn co. Address:_14 p. dlox ,s/ p/ , u�� /.,�..o-io .i iY c L Monthly, or after every runoff producing rainfall event, whichever comes first: A. Inspect the trash rack; remove accumulated debris, repair/replace if it is not functioning. B. Inspect and clear the orifice of any obstructions. If a pump is used as the drawdown mechanism, pump operation will be checked. A log of test runs of the pump will be kept on site and made available to DEM personnel upon request. C. Inspect the pond side slopes and grassed inlet swales; remove trash, and repair eroded areas before the next rainfall event. D. If the pond is operated with a vegetated filter, the filter will be checked for sediment accumulation, trash accumulation, erosion and proper operation of the flow spreader mechanism. Repairs/cleaning will be done as necessary:, II. Quarterly: A. Inspect the collection system (ie. catch basins, piping, grassed swales) for proper functioning. Accumulated trash will be cleared from basin grates, basin bottoms, and piping will be checked for obstructions and cleared as required. B. Pond inlet pipes will be checked for undercutting, riprap or other energy dissipation structures will be replaced, and broken pipes will be repaired. M. Semi-annually: A. Accumulated sediment from the bottom of the outlet structure will be removed. B. The pond depth will be checked at various points. If depth is reduced to 75 % of original design depth or 3 feet whichever is greater, sediment will be removed to at least the original design depth. C. Grassed swales, including the vegetated filter if applicable, will be reseeded twice a year as necessary. YY i � F' �, APPROVED `1 2` jr♦" d LK NORTH CAROUNA Fq" (IRONMEfJTAL I nl E C E OWE UD MANAGEMEr ' r.'.:,.tiSSION DIVISION OF ENVIHGNMENTAL MANAGEMENT Date 18 NOV 1994 NOV 0 ? 1994 StormwaterCee,iticationNo.Slw? 0(4100$ D E M VRoJ # 5Gu8g4/00F POND MAINTENANCE REQUIREMENTS PAGE 2 IV. General: A. Mowing of the side slopes will be accomplished according to the season. Maximum grass height will be 6". B. Cattails are encouraged along the pond perimeter, however they will be removed when they cover more than 1/2 the surface area of the pond. C. The orifice/pump is designed to draw down the pond in 2-5 days. If drawdown is not accomplished in that time, the system will be checked for clogging. The source of the clogging will be found and eliminated. D. All components of the detention pond system will be kept in good working order. Repair or replacement components will meet the original design specifications as per the approved stormwater plan. V. Special Requirements: I, A-4-4x G• ^4YA AR hereby acknowledge that I am the financially responsible party for maintenance of this detention pond. I will perform the maintenance as outlined above, as part of the Certification of Compliance with Stormwater Regulations received for this project. Signature: Date: NuTtePy a Notary Public fortheStateof /VuRiN C'6 (ZoL�Nii County of No Ui5r do hereby certify that MARK L, M,4� A personally appeared before me this -1 day of 1911 q- , and acknowledge the due execution of the foregoing instrument. Witness my hand and official seal, �CSEAL r h My commission ex ires ' MY COMMISSION EX IRES MAY 18, 1997 :�fiy .. • • .. • ' ` DA/arl: S:\WQS\STORMWAT\FORMS\O&M-POND. FOR ygNOVER CO��.'' DIVISION OF ENVIRONMENTAL MANAGEMENT DENSITY ENGINEERED PROJECT DATA Project Name N D RTNGiftYfE ROi4RT na EfJTS i Location (County, Township/Municipality, Address, State Road) No ATNCilA-SF PARKwAy SOUT/FE/tT% , NEW hHWOVEl2 C_ou/JT-/ ;.' Owner's Name MARK MP,'4rJ fAD C.oiJSTRucTioN C.O. MailineAddress P• o . g oX S/oo 1 Phone Number -7 e 9 - 572. (6 4 Submittal Date Brief Description (include map and appropriate drawings) co n(STRv cT 104 APA-RTMeNTS Name of Water Body, Receiving Stormwater Runoff 1) AII1Q TRia) i/iR.Y -M SlvI1TH C12EEK ND CA FEAp_ RIVED— SI Classification of Water Body C— SW If SA waters, engineered system, and distance is <0.5 miles, attach report of chloride sampling results mg/I _ State/Federal Permits/Approvals Required (Check appropriate blanks) CAMA Major Sedimentation/Erosion Control 404 Permit DEM/DHS Sewage Disposal Other (Specify) SEW Erg Ex-M N s t o u, w A TIF-2 u ^/ E 6XTEWSi o tJ CALCULATION OF BUILT UPON AREA Built upon area means that portion of a development that is covered by impervious or partially pervious -cover including buildings, pavement, recreation facilities, gravel, etc., but not including wood decking. If the project includes areas draining to different water classifications, please note them separately below. Subwatershed Subwatershed Classification CS lid Built upon area Z 6q A cRrFS Total Project Area 7 3z4 rrcR03 % Built upon Area 3 6. 8 `70 Allowable B/U Area 2.'2-0 AcizL3 Is the Project B/U Area 5 the Allowable B/U Area? N O (If no, an engineere % Built upon area = (built upon area / total project area) • 100 Built upon area limits for projects to meet density: SA waters — 25%, Other —30% STORMWATER COLLECTION SYSTEM Describe how the runoff will be treated tN E r D E"rrW T101'J Po N 9 i system is requtrea.) Office use only Inl��U� OCT 0 71994 U DEM- 'ROJ 0s 8 94100 • BUFFER AREA' Is the built upon area at least 30 feet from mean high water of all surface waters? E-5� If no, please provide a description N/A (Note: Only boat ramps, public roads, public bridges, and walkways to water related facilities are whew•_ within 30. feet of the mean high water line if the project is intended to meet stormwater control requirements through density limits.) DEED RESTRICTIONS AND PROTECTIVE COVENANTS By my signature below, I certify that the recorded deed restrictions and protective covenants for this project shall limit the allowable built -upon area per lot to r4I A square feet inclusive of right-of-way, structures, pavement, walkways or patios of brick, stone, or slate, not including wood decking, state that the covenants will be binding on all parties and persons claiming under them, that they will run with the land, and that benefits may be enforced by the State of North Carolina, therefore, the covenant cannot be changed or deleted without consent of the State. CERTIFICATION I, ftpr 1.. /-to-ymnaN , certify that the information included on this submittal form is correct, that the project will be constructed in conformance with this information, and that to the best of my knowledge, the proposed project complies with the requirements of 15 NCAC 2H.1003 (b). I authorize the below named person or firm to submit stormwater plans on my behalf, and agree to abide by the deed restriction statement above. Owner's Signature D to Provide authorized person or firm name and address below: 1MPRcT EN61�/t�n1NG1 P.C. 38o5r W1Q146t+TSVIILL /NVE, vn 1T /-7 W1t.M/rV6rbr/ / n1G 2-S4o3 I, ,a Notary Public fo eStateo County of do ereb certi that [ personally appear d befbfe.me this day of 19 acknowledges the due execution o¢ rapn� ru nt. Witness my h ' and official seal, �. l� ivly cosrmdssica ex DIVISION OF ENVIRONMENTAL MANAGEMENT SIGN -OFF Regional Office 16 Nvv 94 Date 10lo,,&K I45/ Date 11 et,"C(rL Individual Evaluating Forms/Plans �... ellh cc: Applicant/WiRO/Bradley Bennett/Central Files Quality Supervisor 4 Dec-09-97 05:20P HONEYCUTT ENGINEERING CO. 910 350-0631 11.03 Meridian Village Apartments FILE New Hanover County Stormwater Project No. SW8 941008 Engineer's Certification I, . AAO R• RO.OYC, it ,. ,%R__0F. , as a duly registered Professional Engineer in the State of North Carolina, having been autholized to observe (periodically/weekly/full time) the construction of the project, MERIDIAN v/tc,*af STORM tv.4TER (Project) for M EZO dq tj v r L L A C, E L (_ C (Project Owner) hereby state that, to the best of my abilities, due care and diligence was used in the observation of the project construction such that the construction was observed to be built within substantial compliance and intent of the approved plans and specifications. Please note any deviations from the approved plans below: Signature Registratil Date C Drainage Calculations for Northchase Apts., Wilmington, NC Project IEE4076 9/2/94 -Revised 10/29/94 A _ 215095 A = 4.9379 acres ...total drainage area total 43560 total 9 A 67939 paved'- 43560 11743 A side 43560 49344 A bidg - 43560 3.64 A misc 43560 A paved = 1.56 A side = 0.27 A bidg = 1.133 acres ...parking area minus interior landscaping acres A misc = 0.004 acres ...sidewalk area acres ...Total area of buildings Dumpster pads A imp A paved + A misc + A side A imp = 1.834 acres - total impervious area excl. bldgs A other A total - A Imp - A bidg A other = 1.971 C pre := .20 ...predevelopment C C bldg '= 1.00 C Imp := .95 ...paved area C 11 :� C comp - C pre. re q ototalr J + C imp (A total, + C bidg' �Atotal/ 3 C comp = 0.66 ...composite C (post -development) L := 500 ft H := 3.5ft ( 3 385 T :- `H� c 128 T c = 6.3 minutes Intensity -Duration -Frequency Relationships: Values of G and H• R G H 10 252 30 50 338 33 R= Return Period `Source: Master Drainage Plan for City of Wilmington ...hydraulic length ...height ...time of concentration SEAL 9524 iD)E C EuuL�nl W NOV 0 7 1994 U D.EM PROJ # 0 T := T c Time of duration G 10:= 252 H 10 := 30 1 10 := G 10 1 10 = 6.94 in/hr (H 10 + T) G 50 := 338 H 50 := 33 50 (H o50 T) 150 = 8.596 irVhr Compute runoff rates: 10 year storm intensity ...50 year storm Q pre C pre' 110' A total Q pre = 6.85 cfs ...pre -development runoff from 10 yr. storm Page 2 Q 10 C comp' 1 10, A total Q 10 = 22.68 cis ...post -development discharge rate to pond from 10 yr. storm Q 50 = C comp' 150, A total Q 50 = 28.1 cis ...past -development discharge rate to pond from 50 yr. stone Volume of runoff from developed area of site: P := 4.8 in Soil type = Seagate CN := 70 Curve No. S.=(C�)-10 S=4.286 R de th _ (P - 0.2• S )2 R de th = 1.889 in. p P i .8 S p R vol '= R depth' (A total)' 43560• 12 R Vol = 33865 T - R depth' `A total 1 43560 1 p 1.39•(a10) (12) 60 T p = 17.9 ...runoff depth cubic feet ...total runoff volume time to peak flow Determine size of 7.5' deep pond without vegetative filter: Page 3 IMP% := A imp + A bid g IMP% = 0.601 A total IMP% 6o := .019 IMP% 70 := .023 IMP := IMP% 60 + IMP% 70 - IMP% 60)..1 IMP = 0.0194 DA := A total'43560 SA := ( IMP)• DA SA = 4173 Determine storage volume required for treatment of first Inch of runoff: C comp = 0.662 V :_ 1 12 .A total' 43560•C comp V = 11867 cubic feet Assume 37.5' x 112' pond. Solve for depth "d" to provide required storage: I .= 112 w := 37.5 w• I = 4200 d := 1.5 ...guess value f(d) .= I.w+(I t6•d).(w+6•d) d 2 g(d) := V d.= root((f(d) - g(d)).d) ...function of d for rectangular pond w/3:1 side slopes d = 2.24 ft. - depth required to provide required storage for 1 inch Determine size of orifice for drawdown of first inch: Q Q 2day = 0.0687 cis ... Max discharge for 2 day drawdown with site 2day 2 24 60 60 fully developed _ V 5day 5.24-60-60 Q 5day = 0.0275 cis ...Max discharge for 5 day drawdown with site fully developed g := 32.2 C d 6 ...orifice coefficient h := 2 h = 1.12 ft ...avg. head A onfic Q 2day A orifice = 0.013 Square ft. Cd(2gh).s 5 D = (4-- A orifice 12 3.14 ) Q 5day = 0.0275 cis A Q 5day orifice _ Cd.(2 g h).s A orifice s D := 4. 12 3.14 ), D = 1.57 in. - for 2 day drawdown A orifice = 0.005 Square ft. D = 0.994 in - for 5 day drawdown Use 1.5 Inch diameter pipe In routing chart Check capacity of emergency spillway to pass 50 year peak flow: L := 10 ft ...Length of weir H :_ 12 ft ...Driving head C w .= 3.0 ...Weir coefficient Q C w L. 1-11'5 ...Weir capacity Q = 30 must be => Q 50 = 28.1 O.K Page 4 Find normal depth in spillway channel with grass as a permanent lining: Q 28.1 ..flow in channel in cis B := 10 ...bottom width of channel (ft) M .= 3 ...side slopes s = 34.253- 27.0 s = 0.186 ...channel slope n := 0.043 ...roughness coeff. for grass lined channels Retardance Class D (cut) based on V x R below Z req .= Q-n Z req = 1.881 ..Z required (from R. Malcolm) 1.49 Ns y :_ .36 ...depth of flow (ft.) - vary this number until Zav (below) is approx. equal to Z.req (above) when n (above) is appropriate for V x R (below) A := B• y + M• (y)2 ...Cross -sectional area of flow (sq.ft.) at depth y P := B + 2. y 1 + M2 ... Wetted perimeter (ft.) at depth y R := P ...Hydraulic radius (ft.) at depth y 2 Z av A. (R) 3 Z av - 1.885 ...Z available Compute velocity at this depth: Page 5 2 1 V := 1.49 R3 s2 V = 7.061 fps n V. R = 2.294 Using this value, choose n from Figure 8.05c page 8.05.7 and adjust n above until consistent From Table 8.O5a page 8.05A. V p := 3.5 fps - Permissible Velocity for channels lined with bernudagrass with slopes >10% in easily erodible non -plastic soils Since V>Vg. another channel lining will have to be used Determine normal depth in channel using riprep as a permanent lining: Q = 28.1 ..flow in channel in cfs B = 10 ...bottom width of channel (ft) M = 3 ...side slopes s = 0.186 ...channel slope n :_ .078 ...roughness coeff. for 12" riprap with flow = .5 ft. (must be consistent with depth of flow) Z req := Q-n� Z req = 3.412 ...Z required (from R.Malcolm) 1.49 Ns y :_ .509 ...depth of flow (tt) - vary this number until Zav (below) is approx equal to Z.req (above) - may also have to vary n above to be consistent with this depth A := 8- y + M• (y )2 ...Cross -sectional area of flow (sq.ft.) at depth y P :_ !3 + 2 y 1 + M2 ...Wetted perimeter (ft.) at depth y R := P ...Hydraulic radius (ft.) at depth y 2 Z av := A. (R) 3 Z av = 3.414 ...Z available Compute velocity at this depth: 2 1 V := 1.49 R3•s2 V =4.792 fps n Size riprap using Tractive Force Procedure: T d := 6.00 ...permissible shear stress in Ib/sq.ft for 12" riprap y := 62.4 ...unit weight of water, Ib/cu.ft. s = 0.186 ...channel slope, ft/ft d := y ...flow depth, ft T := r d• s T=5.904 < Td=6 O.K d 50 := 1 ft - minimum 0 dmax:= 1.5.d5o.12 d max = 18 inches maximum riprap size depth := 1.5 d max depth = 27 inches minimum depth of riprep Using a 15" barrel, check velocity at outlet: D := 1.25ft q := 6.82 ...max barrel discharge from routing sheets A pipe xx 4D2 A pipe = 1.227 V outlet A q V outlet = 5.56 fps pipe Page 6 Determine outlet apron dimensions and riprap size for discharge from pond: Since invert of pipe is discharging into the bottom of an existing drainage ditch, assume maximum taiiwater conditions. L a := 9 ft - minimum length of apron from figure 8.06b d 50 :_ .33 ft -minimum -from figure 8.06b d max := 1.5•d 50.12 d max = 5.94 use d max := 6 inches maximum riprap size depth := 1.5. d max depth = 9 inches minimum depth of riprap Determine outlet apron dimensions and riprap size for discharge into pond: D := 2 ft q := 17.4 ds V := 5.6 fps ...outlet discharge from pipe chart Since invert of pipe is discharging below the max. stage of the pond, assume maximum tailwater conditions. L a := 10 ft - minimum length of apron from figure 8.06b d 50 : _ .33 ft - minimum - from figure 8.06b d max := 1.5 d 50.12 d max = 5.94 use d max := 6 inches maximum riprap size depth := 1.5•d max depth = 9 inches minimum depth of riprap REFER TO ATTACHED SHEETS FOR ROUTING RESULTS Note: References to chart nos., table nos., and page nos. refer to Erosion and Sediment Control Planning and Design Manual unless noted otherwise S Z CONTOUR INCR ACCUN CONTOUR AREA VOL VOL STAGE In S In Z Z eat 29.00 4200 0 0 0.00 0.00 30.30 4657 2214 2214 0.50 7.7027 -0.6931 0.51 30.80 5133 2448 4662 1.00 8.4471 0.0000 0.90 31.30 5627 2690 7352 1.50 8.9027 0.4055 1.46 31.80 6138 2941 10293 2.00 9.2392 0.6931 1.96 32.04 6390 1503 11796 2.24 9.3755 0.8065 2.21 32.80 7215 5170 16966 3.00 9.7390 1.0986 3.04 33.20 7781 2999 19965 3.40 9.9017 1.2238 3.50 Regression Output: Constant 8.4654 Rs- 4748 Std Err of Y Eat 0.0294 b- 1.15 R Squared 0.9900 No. of Observations 7 X Coefficient(s) 1.14697 Std Err of Coef. 0.01777 STAGE -DISCHARGE FOR RISER/BARREL SPILLWAY WITH EMERGENCY WEIR RISER/BARREL: 7.5 Q.pre-6.85 Dr - 3.516 Area of grate openings 6.82 Etop - 33.01 Elev. top riser (ft) 34.26 Cwr - 3 Riser weir coefficient Cdr - 0.59 Riser orifice coefficient Do - 1.50 Orifice dia.(in) Einv - 29.80 Elev inv. orifice (ft) Co - 0.6 Orifice coeff. Db - 1.25 ft. Binv - 27.5 Barrel invert Cdb - 0.6 EMERGENCY WEIR: Cw - 3 Weir coefficient Ecr - 34.5 Elev. weir crest (ft) Lw - 10 Weir length (ft) 1 2 3 4 5 6 7 8 Stage Riser Riser Barrel 1.50 Princ. Emerg. Total (weir) (orifice) orifice Spillway Weir Outflow [ft] [cfe] fare] [ere] [ere] [erg] [ere] [erg) 29.80 0.00 0.00 0.00 0.00 0.00 0.00 0.00 30.30 0.00 0.00 0.00 0.04 0.00 0.00 0.04 30.80 0.00 0.00 0.00 0.06 0.00 0.00 0.06 31.30 0.00 0.00 0.00 0.07 0.00 0.00 0.07 31.60 0.00 0.00 0.00 0.08 0.00 0.00 0.08 32.30 0.00 0.00 0.00 0.09 0.00 0.00 0.09 32.80 0.00 0.00 0.00 0.10 0.00 0.00 0.10 33.30 0.00 0.00 0.00 0.11 0.00 0.00 0.11 33.80 0.00 0.00 0.00 0.12 0.00 0.00 0.12 34.30 7.72 11.65 15.40 0.13 7.72 0.00 7.84 34.80 22.16 16.56 15.96 0.13 15.96 4.93 21.02 35.30 40.92 20.32 16.49 0.14 16.49 21.47 38.10 35.80 63.16 23.48 17.01 0.14 17.01 44.47 61.63 36.30 88.41 26.27 17.52 0.15 17.52 72.45 90.12 36.80 116.33 28.79 18.01 0.16 18.01 104.64 122.81 37.30 146.70 31.10 18.49 0.16 18.49 140.56 159.21 37.80 179.33 33.25 18.95 0.17 18.95 179.84 198.96 C COMPOSITE STAGE DISCHARGE 40 0.00 29.80 31.80 33.80 35.80 37.80 STAGE -11—R(W) — —R(0) --♦-BARREL t1"OFURC E tEw NET STAGE DISCHARGE Em N 20.00 v W p 10.00 �m 29.80 31.80 33.80 35.80 37.80 STAGE 9/3Z94 CHAINSAW ROUTING Input data: Northchase Apartments Qp- 22.68 RESULTS: Tp- 17.9 OUTFLOW PEAR- 6.02 MAX STAOE- 34.26 dT- 1.8 Rs- 4740 b- 1.15 7.5 Etop - 33.01 Top of riser Dr - 3.516 Area of grate openings Db- 1.25 Binv- 27.5 N- 1 No. of orif. Cd- 0.6 Orifice coeff. D- 1.5 Din. of orifice 2i- 29.8 Inv. elevation Cw- 3 Weir Coefficient L- 10 Length of overflow weir 2cr- 34.5 Elev. of overflow weir 1 2 3 4 5 6 7 8 TIME INFLOW STORAGE STAGE OUTFLOWORIFICE WEIR RISER/ [min) [cfs] [cu ft] [ft] [cfs] [cfs] [cfs] BARREL 0 0.00 0 29.0 0.00 0.000 0.09 0.00 1.8 0.56 0 29.80 0.00 0.000 0.00 0.00 3.6 2.19 61 29.82 0.00 0.000 0.00 0.00 5.4 4.72 297 29.89 0.00 0.000 0.00 0.00 7.2 7.91 807 30.01 0.02 0.023 0.00 0.00 9 11.44 1659 30.20 0.03 0.034 0.00 0.00 10.8 14.96 2891 30.45 0.05 0.045 0.00 0.00 12.6 18.12 4501 30.75 0.06 0.056 0.00 0.00 14.4 29.61 6452 31.11 0.07 0.066 0.00 0.00 16.2 22.18 8671 31.49 0.O8 0.075 0.00 0.00 18 22.68 11050 31.09 0.08 0.084 0.00 0.00 19.8 22.06 13490 32.29 0.09 0.092 0.00 0.00 21.6 20.37 15870 32.66 0.10 0.099 0.00 0.00 23.4 17.99 16059 33.01 0.10 0.105 0.00 0.00 25.2 15.79 19991 33.30 0.11 0.110 0.00 0.00 27 13.05 21684 33.56 0.11 0.114 0.00 0.00 28.0 12.15 23160 33.78 0.12 0.117 0.00 0.00 30.6 10.67 24460 33.90 1.66 0.120 0.00 1.54 32.4 9.36 25441 34.12 4.04 0.122 0.00 3.91 34.2 8.21 26016 34.21 5.74 0.123 0.00 5.62 36 7.21 26283 34.25 6.60 0.124 0.00 6.40 37.8 6.32 26348 34.26 6.82 0.124 0.00 6.69 39.6 5.55 26295 34.25 6.64 0.124 0.00 6.52 41.4 4.07 26177 34.23 6.25 0.123 0.00 6.13 43.2 4.27 26027 34.21 5.78 0.123 0.00 5.65 45 3.75 25864 34.18 5.27 0.123 0.00 5.15 46.8 3.29 25700 34.16 4.78 0.122 0.00 4.66 48.6 2.89 25539 34.14 4.31 0.122 0.00 4.19 50.4 2.53 25385 34.11 3.B8 0.122 0.00 3.76 52.2 2.22 25239 34.09 3.49 0.121 0.00 3.36 54 1.95 25103 34.07 3.13 0.121 0.00 3.01 57 1.57 24891 34.04 2.60 0.121 0.00 2.48 60 1.26 24705 34.01 2.17 0.120 0.00 2.05 63 1.01 24541 33.99 1.81 0.120 0.00 1.69 66 0.82 24398 33.97 1.52 0.120 0.00 1.40 69 0.66 24272 33.95 1.27 0.119 0.00 1.15 72 0.53 24161 33.93 1.07 0.119 0.00 0.95 75 0.42 24063 33.92 0.90 0.119 0.00 0.79 80 0.30 23919 33.90 0.60 0.119 0.00 0.56 85 0.21 23804 33.88 0.52 0.118 0.00 0.40 90 0.14 23710 33.86 0.40 0.118 0.00 0.28 95 0.10 23633 33.85 0.32 0.116 0.00 0.20 100 0.97 23568 33.64 0.25 0.118 0.00 0.13 105 0.05 23513 33.83 0.20 0.118 0.00 0.09 110 0.03 23466 33.83 0.17 0.118 0.00 0.05 115 0.02 23425 33.82 0.15 0.116 0.00 0.03 120 0.02 23389 33.82 0.13 0.117 0.00 0.01 125 0.01 23355 33.81 0.12 0.117 0.00 0.00 130 0.01 23323 33.81 0.12 0.117 0.00 0.00 135 0.01 23290 33.80 0.12 0.117 0.00 0.00 140 0.00 23257 33.80 0.12 0.117 0.00 0.00 145 0.00 23223 33.79 0.12 0.117 0.00 0.00 150 0.00 23188 33.79 0.12 0.117 0.00 0.00 1 2 3 4 5 6 7 8 TIME INFLOW STORAGE STAGE OUTFLOWORIFICE WEIR RISER/ [min) [cfs) [cu ft) [ft] [cfs) [cfs] [cfs) BARREL 155 0.00 23154 33.78 0.12 0.117 0.00 0.00 160 0.00 23119 33.78 0.12 0.117 0.00 0.00 165 0.00 23084 33.77 0.12 0.117 0.00 0.00 170 0.00 23049 33.77 0.12 0.117 0.00 0.00 175 0.00 23015 33.76 0.12 0.117 0.00 0.00 180 0.00 22980 33.75 0.12 0.117 0.00 0.00 185 0.00 22945 33.75 0.12 0.116 0.00 0.00 190 0.00 22910 33.74 0.12 0.116 0.00 0.00 195 0.00 22875 33.74 0.12 0.116 0.00 0.00 200 0.00 22840 33.73 0.12 0.116 0.00 0.00 205 0.00 22805 33.73 0.12 0.116 0.00 0.00 210 0.00 22771 33.72 0.12 0.116 0.00 0.00 215 0.00 22736 33.72 0.12 0.116 0.00 0.00 220 0.00 22701 33.71 0.12 0.116 0.00 0.00 225 0.00 22666 33.71 0.12 0.116 0.00 0.00 230 0.00 22631 33.70 0.12 0.116 0.00 0.00 235 0.00 22597 33.70 0.12 0.116 0.00 0.00 240 0.00 22562 33.69 0.12 0.116 0.00 0.00 245 0.00 22527 33.69 0.12 0.115 0.00 0.00 250 0.00 22493 33.68 0.12 0.115 0.00 0.00 255 0.00 22458 33.68 0.12 0.115 0.00 0.00 260 0.00 22423 33.67 0.12 0.115 0.00 0.00 265 0.00 22389 33.67 0.12 0.115 0.00 0.00 270 0.00 22354 33.66 0.12 0.115 0.00 0.00 275 0.00 22320 33.66 0.12 0.115 0.00 0.00 280 0.00 22285 33.65 0.11 0.115 0.00 0.00 285 0.00 22251 33.65 0.11 0.115 0.00 0.00 315 0.00 22044 33.61 0.11 0.114 0.00 0.00 345 0.00 21838 33.58 0.11 0.114 0.00 0.00 375 0.00 21633 33.55 0.11 0.113 0.00 0.00 405 0.00 21429 33.52 0.11 0.113 0.00 0.00 435 0.00 21226 33.49 0.11 0.112 0.00 0.00 465 0.00 21023 33.46 0.11 0.112 0.00 0.00 495 0.00 20822 33.43 0.11 0.112 0.00 0.00 525 0.00 20621 33.40 0.11 0.111 0.00 0.00 555 0.00 20421 33.37 0.11 0.111 0.00 0.00 585 0.00 20222 33.34 0.11 0.110 0.00 0.00 615 0.00 20024 33.31 0.11 0.110 0.00 0.00 645 0.00 19826 33.28 0.11 0.109 0.00 0.00 675 0.00 19630 33.25 0.11 0.109 0.00 0.00 705 0.00 19434 33.22 0.11 0.108 0.00 0.00 765 0.00 19045 33.16 0.11 0.107 0.00 0.00 825 0.00 18659 33.10 0.11 0.106 0.00 0.00 005 0.00 10277 33.04 0.11 0.105 0.00 0.00 945 0.00 17898 32.98 0.10 0.104 0.00 0.00 1005 0.00 17522 32.92 0.10 0.103 0.00 0.00 1065 0.00 17150 32.86 0.10 0.102 0.00 0.00 1125 0.00 16782 32.81 0.10 0.101 0.00 0.00 1105 0.00 16417 32.75 0.10 0.100 0.00 0.00 1245 0.00 16056 32.69 0.10 0.099 0.00 0.00 1305 0.00 15698 32.64 0.10 0.098 0.00 0.00 1365 0.00 15344 32.58 0.10 9.097 0.00 0.00 1425 0.00 14994 32.53 0.10 0.096 0.00 0.00 1 2 3 4 5 6 7 8 TIME INFLOW STORAGE STAGE OUTFLOWORIFICE WEIR RISER/ [min] [cfs] [cu ft] [ft] [cfs] [cfs] [cfs] BARREL 1485 0.00 14647 32.47 0.10 0.095 0.00 0.00 1545 0.00 14303 32.42 0.09 0.094 0.00 0.00 1605 0.00 13964 32.36 0.09 0.093 0.00 0.00 1665 8.00 13627 32.31 0.09 0.092 0.00 0.00 1725 0.00 13295 32.25 0.09 0.091 0.00 0.00 1785 0.00 12966 32.20 0.09 0.090 0.00 0.00 1845 0.00 12641 32.15 0.09 0.089 0.00 0.00 1905 0.00 12320 32.10 0.09 0.088 0.00 0.00 1965 0.00 12002 32.04 0.09 0.087 0.00 0.00 2025 0.00 11688 31.99 0.09 0.006 0.00 0.00 2085 0.00 11377 31.94 0.09 0.085 0.00 0.00 2145 0.00 11071 31.89 0.08 0.064 0.00 0.00 2205 0.00 10760 31.04 0.08 0.083 0.00 0.00 2265 0.00 10469 31.79 0.08 0.082 0.00 0.00 2325 0.00 10173 31.74 0.08 0.001 0.00 0.00 2305 0.00 9882 31.69 0.08 0.080 0.00 0.00 2865 0.00 7579 31.30 0.07 0.071 0.00 0.00 3345 0.00 5537 30.94 0.06 0.061 0.00 0.00 CHAINSAW ROUTING 30.00 LL 2000. w 10.00 C 0.00 0 7.2 14 22 29 36 43 TIME (MINS) 1-0--INFLOW :i-OUTFLOW 50 60 72 90 PIPE SIZING CHART Pagel State of North Carolina Department of Environment, Health, and Natural Resources Wilmington Regional Office James B. Hunt, Jr., Governor DIVISION OF ENVIRONMENTAL MANAGEMENT Bob Jamieson Jonathan B. Howes, Secretary WATER QUALITY SECTION Regional Manager October 19, 1994 Mr. Jim Honeycutt, P.E. Impact Engineering 3805 Wrightsville Avenue, Unit 17 Wilmington, North Carolina 28406 Subject: ADDITIONAL INFORMATION Stormwater Project No. SW8 941008 NorthChase Apartments New Hanover County Dear Mr. Honeycutt: The Wilmington Regional Office received a Stormwater Submittal for the NorthChase Apartments on October 7, 1994. A preliminary review of that information has determined that the submittal for the subject project is not complete. The following information is needed to continue the stormwater review: ✓1. Sign and seal the calculations. ✓2. Delineate the 4.938 acres of drainage area you use. ,/3. A signed and notarized Operation and Maintenance Plan for the stormwater detention pond. 127 Cardinal Drive Extension, Wilmington, N.C. 28405-3845 • Telephone 910-395-3900 • Fax 910-350-2004 An Equal opportunity Affirmative Action Employer Mr. Honeycutt October 19, 1994 Stormwater Project No. SW8 941008 Please note that this request for additional information is in response to a preliminary review. The requested information should be received by this Office prior to November 19, 1994, or the submittal will be returned as incomplete. If you have any questions concerning this matter please feel free to call me at (910) 395-3900. Sincerely, Ms. Linda Lewis Environmental Engineer DA/arl: S:\WQS\STORMWAT\ADDINFO\941008.00T cc: (2) Linda Lewis Central Files A i 51v8 `t4-1005 AlhrfhChose korhrien V R¢--�lee%CzlGs Z -f (Z& x41) k 2G X 20 2 / ��yi�JeP.,- vse s 7.3 2� lff — �, 93� cue�la�c✓s e,�c%1e�i -(-►'..-) v`ty 13( 5'711 = 4 S(RIo 3Ce 4 8 4q 544 a , II 1 Drainage Calculations for Northchase Apts., Wilmington, NC ProjectIE-4076 _ 215095 A total 43560 A total = 4.9379 acres 43560 O� A paved := 67939 A pav 56 acres 11743 v�p� Aside 43560 _ 49344 OX A bidg ' 43560 3.64 (PIA misc:- 43560 A side 0.27 acres Awbi 0.004 acre ...total drainage area ...parking area minus interior landscaping area acres ...Total area of buildings Dumpster pads A impA ed + A misc + side AiYp 834 acres - total impervious area excl. bldgs A other to I - A imp - bidg Aer = 1.971 C pre '_ . development C C bidg := 1.00 C imp :_ .9 ...paved area C C com - C A other + C i P.+ C bidg' �q total) A total) total„ C comp = 0.66 ...composite ' post -development) L :- 500 ft ...hydraulic length H := 3.5ft ...height 3 385 T = 1H/ c 128 T c = 6.3 tes ...time of concentration Intensity-Durati -Frequency Relationships: STORNATE iN Values of G R G d H' u V I4�J�nJ�(J 10 252 0 50 338 33 OCT O 7 1994 R= Return Period O E M 'Source: Master Drainage Plan for City of Wilmington -Rol # 8 941WZ n T := T c Time of duration G 10 := 252 H 10 := 30 10 := G 10 1 10 = 8.94 in/hr (H 10 + T) G 50 : = 338 H 50 : = 33 50 '= G 50 150 = 8.596 in/hr (H 50 + T) Compute runoff rates: ...10 year storm intensity 50 year storm Q pre '= C pre' 110'A total Q pre = 6.85 ofs ...pre -development runoff from 10 yr: storm Page 2 Q 10 = C comp' 1 10' A total Q 10 = 22.68 cfs post -development discharge rate to pond from 10 yr. storm Q 50 C comp' 1 50-A total Q 50 = 28.1 cfs ...post -development discharge rate to pond from 50 yr. stone Volume of runoff from developed area of site: P := 4.8 in Soil type = Seagate CN := 70 Curve No. S . (1CN0) - 10 S = 4.286 R depth .= (P +0.8. S )2 R depth = 1.889 in. R vol R depth' (A total) '43560- 12 R vol = 33865 T ._ R depth' (A total) 1 1 .43560 p 1.39 (Q 10) (12) 60 Tp=17.9 .runoff depth cubic feet ...total runoff volume time to peak flow Determine size of 7.5' deep pond without vegetative filter. Page 3 IMP% := A imp + A btdg IMP% = 0.601 A total IMP%60 .= .019 IMP%70:= .023 IMP := IMP% 60 + IMP% 70 - IMP% 60)-.1 IMP = 0.0194 DA := A total' 43560 SA :_ ( IMP) DA SA = 4173 Determine storage volume required for treatment of first inch of runoff: V 1 12 .A total* 43560•C comp V = 11867 cubic feet Assume 37.5' x 112' pond. Solve for depth "T to provide required storage: I 112 w := 37.5 w• I = 4200 d := 1.5 ...guess value f(d) = I•w+(I+6d)•(w+6•d) d 2 g(d) := V d := root((f(d) - g(d) ), d) ...function of d for rectangular pond wl3:1 side slopes d = 2.24 ft. - depth required to provide required storage far 1 inch Determine size of orifice for drawdown of first inch: _ V 2day 2.24 60 60 Q 2dey = 0.0687 cfs ... Max discharge for 2 day drawdown with site fully developed V Q 5day _ 5 24-60 60 Q 5day = 0.0275 cfs ...Max discharge for 5 day drawdown with site fully developed g := 32.2 C d := .6 ...orifice coefficient h := d h = 1.12 ft ...avg. head 2 A orifice ;= Q 2day A orifice = 0.013 Square ft. Cd.(2.g.h).5 \ S D .= (4. A orifice 12 3.14 Q 6day = 0.0275 cfs A orifice �_ Q 5day Cd•(2•g'h).s s D := (4. A orifice)'. 12 3.14 D = 1.57 in. - for 2 day drawdown A orifice = 0.005 Square ft. D = 0.9W in - for 5 day drawdown Use 1.5 Inch diameter pipe In routing chart Check capacity of emergency spilhvay to pass 50 year peak flow: L 15 ft ...Length of weir H .= 9 ft ...Driving head C W := 3.0 ...Weir coefficient 12 Q := C w L• H1.s ... Weir capacity Q = 29.23 must be => Q W = 28.1 OX Assuming 15" barrel, check velocity at outlet: D := 1.25ft q := 6.84 ...max barrel discharge from routing sheets A pipe z• DZ 4 A pipe = 1.227 V outlet '= q V outlet = 5.574 fps A pipe REFER TO ATTACHED SHEETS FOR ROUTING RESULTS Page 4 S Z CONTOUR INCR ACCUM CONTOUR AREA VOL VOL STAGE In S In Z Z set 39.05 4200 0 0 0.00 0.00 30.55 4657 2214 2214 0.50 7.7027 -0.6931 0.51 31.05 5133 2448 4662 1.00 8.4471 0.0000 0.90 31.55 5627 2690 7352 1.50 8.9027 0.4055 1.46 32.05 6138 2941 10293 2.00 9.2392 0.6931 1.96 32.29 639 1503 11796 2.24 9.3755 0.6065 2.21 33.05 7215 5179 16965 3.00 9.7390 1.0986 3.04 33.55 7781 3749 20715 3.50 9.9386 1.2528 3.61 Regression Output: Constant 0.4654 Ks- 4746 Std Err of Y Eat 0.0294 b- 1.15 R Squared 0.9988 No. of Observations 7 X Coefficient(s) 1.14697 Std Err of Coef. 0.01777 STAGE -DISCHARGE FOR RISER/BARREL SPILLWAY WITH EMERGENCY WEIR RISER/BARREL: 7.5 Q.pre-6.85 Dr - 3.516 Area of grate openings 6.84 Etop - 34.06 Elev. top riser (ft) 34.51 Cwr - 3 Riser weir coefficient Cdr - 0.59 Riser orifice coefficient Do - 1.50 Orifice dia.(in) Einv - 30.05 Elev inv. orifice (ft) cc - 0.6 Orifice coeff. Db - 1.25 ft. Binv - 30.05 Barrel invert Cdb - 0.6 EMERGENCY WEIR: Cw - 3 Weir coefficient Ear - 34.5 Elev. weir crest (ft) Lw - 15 Weir length (ft) 1 2 3 4 5 6 7 8 Stage Riser Riser Barrel 1.5" Princ. Emerg. Total (weir) (orifice) orifice Spillway Weir Outflow [ft] [cfe] [cfe] [cfs] [cfe] [cfs] [cfe] [cfe] 30.05 0.00 0.00 0.00 0.00 0.00 0.00 0.00 30.55 0.00 0.00 0.00 0.04 0.00 0.00 0.04 31.05 0.00 0.00 0.00 0.06 0.00 0.00 0.06 31.55 0.00 0.00 0.00 0.07 0.00 0.00 0.07 32.05 0.00 0.00 0.00 0.08 0.00 0.00 0.00 32.55 0.00 0.00 0.00 0.09 0.00 0.00 0.09 33.05 0.00 0.00 0.00 0.10 0.00 0.00 0.10 33.55 0.00 0.00 0.00 0.11 0.00 0.00 0.11 34.05 0.00 0.00 0.00 0.12 0.00 0.00 0.12 34.55 7.72 11.65 12.53 0.13 7.72 0.50 8.35 35.05 22.16 16.56 13.21 0.13 13.21 18.36 31.69 35.55 40.92 20.32 13.85 0.14 13.85 48.42 62.41 36.05 63.16 23.48 14.47 0.14 14.47 86.04 101.45 36.55 88.41 26.27 15.06 0.15 15.06 132.08 147.29 37.05 116.33 28.79 15.63 0.16 15.63 183.24 199.02 37.55 146.70 31.10 16.17 0.16 16.17 239.70 256.03 30.05 179.33 33.25 16.70 0.17 16.70 300.99 317.86 ng'n2 TN Li"l- a3'=2 Te'�n n'T� re';n 39n'._ ?T\'RP 3 ' 22 Tae A 31' TO re, i D Te re' T:, S2a N0 11213 0 3 31•aC' ITe'32 8 3 T2•e3 0•Te T2'e3 1s3•'1 Td"Ll, 3P'22 fro'il S.'S� T2'0e 0 12 T2'0e T351'68 Ta;'S3 3e'02 P3'TP 53'49 14,41 0'rd 14'41 BP'9d TOT'42 32'22 dn'2S SO'3S 73'92 0'Td 113'82 d9'dS PS'dT 32'O2 SS'rP. Te'2P 13'ST 0•T3 T3•111 TB•3P 3T'Pa 3a'22 i'i; TI L2 T`• 23 D'r3 _-\S n'P0 P'32 J:'02 2'OO 0'n0 Too O'7S 0.00 0'00 0'TS 33'2= 0'00 0'00 0'00 0'11, 0.00 0•130 0•iT 33.02 0 00 U 60 U'OO i.'TO 0'OU U'OU a TU 3S'22 0'00 0•Dn 0'00 0'01) 0.00 0' Oct 0•013 35'02 01On O'UO 0'00 0'0U 0' on U'00 CC OO 31 22 0' Fin 0'00 0'00 a'o; n,nn Wee n'o� +T• ill a 0,00 n•nn 0'00 0' fie n•nn 0'nn n•DP 30'22 0.00 O'00 0'00 0'04 U'00 0'00 0'03 3C'02 Y aC U'CO 0'OO 0'OO G'a0 0,0.0 0'00 (cLaj ILL-] (c 1,21 faLa) LcLzl (d361 L) (6L3LTCG) CLI LTCG Zhr{TM9A AGIL OnfLjom ?FP%T6 frcol. F;S 86L PSLLST 7'2 LT ITC' _IV63,[l- jQr9T r 3 a 2 e wIL TGnaty (Cf) 34'2 ETFA' taTL cT.eat ({.f) l tr 3 JAG I L , OCLLTCTGPf ET;Eli0Eb1G7. ; li= I L' l.4`i•S ll' P BSVA j0'(12 ggLLGT T17A31f DP - I'S2 Lr. c0 = (I'P ()LSLTCA '106LL. GTV,% = 30'0,l rTSA TVA' CLT{TC6 (.ifl nIT _ i 2n ieTT[ II-F IIT4' i,:f 0'2a plcLi. OLi LT,!:. .,ir.«vGi'i vv C tAL _ 3 FT Ory MGIL cog{Ln.ieuf Woe ET6i•' f"b T.Tael. ({f) 34,PT DL e 3•PTe VE69 u{ aLGf6 01vf131r11a6 P•Bd y'2 (1'hL6=P'P2 ulze��D��;;Er ;',lV1 E-f)TDlH'vbOFi E.Uc c;blrr MV2, MI.I}i Mli- COMPOSITE STAGE DISCHARGE gm N �j 20.00 W Gl<Ql= 30.05 32.05 34.05 36.05 38.05 STAGE f R(M -*- R(0) -t BARREL -0-1" ORIFICE --*-- Ew K_ixliol N 20.00 W i 14 NET STAGE DISCHARGE 30.05 32.05 34.05 36.05 38.05 STAGE 9i3/94 CHAINSAW ROUTING Input data: Northchase Apartments Qp- 22.68 RESULTS: Tp- 17.9 OUTFLOW PEAK- 6.04 MAX STAGE- 34.51 dT- 1.8 Ks- 4748 b- 1.15 7.5 Etop - 34.06 Top of riser Dr - 3.516 Area of grate openings Db- 1.25 8inv- 30.05 N- 1 No. of orif. Cd- 0.6 Orifice coeff. D- 1.5 Dia. of orifice Zi- 30.05 Inv. elevation Cw- 3 Weir Coefficient L- 15 Length of overflow weir Zcr- 34.5 Elev. of overflow weir 1 2 3 4 5 6 7 8 TIME INFLOW STORAGE STAGE OUTFLOWORIFICE WEIR RISER/ [min] [cfs] [cu ft] [ft] [cfs] [cfs] [cfs] BARREL 0 O.au a 30.05 0.0a 0.000 0.00 0.09 1.6 0.56 0 30.05 0.00 0.000 0.00 0.00 3.6 2.19 61 30.07 0.00 0.000 0.00 0.00 5.4 4.72 297 30.14 0.00 0.000 0.00 0.00 7.2 7.91 807 30.26 0.02 0.023 0.00 0.00 9 11.44 1659 30.45 0.03 0.034 0.00 0.00 10.8 14.96 2891 30.70 0.05 0.045 0.00 0.00 12.6 18.12 4501 31.00 0.06 0.056 0.00 0.00 14.4 20.61 6452 31.36 0.07 0.066 0.00 0.00 16.2 22.18 8671 31.74 0.00 0.075 0.00 0.00 1B 22.68 1105B 32.14 0.08 0.084 0.90 0.00 19.8 22.06 13498 32.54 0.09 0.092 0.00 0.00 21.6 20.37 15070 32.91 0.10 0.099 0.00 0.00 23.4 17.99 10059 33.26 0.10 0.105 0.00 0.00 25.2 15.79 19991 33.55 0.11 0.110 0.00 0.00 27 13.05 21604 33.81 0.11 0.114 0.00 0.00 28.8 12.15 23168 34.03 0.12 0.117 0.00 0.00 30.6 10.67 24460 34.23 1.66 0.120 0.00 1.54 32.4 9.36 25441 34.37 4.04 0.122 0.00 3.91 34.2 8.21 26016 34.46 5.74 0.123 0.00 5.62 36 7.21 26283 34.50 6.60 0.124 0.00 6.48 37.8 6.32 26348 34.51 6.84 0.124 0.02 6.69 39.6 5.55 26293 34.50 6.63 0.124 0.00 6.51 41.4 4.B7 26175 34.40 6.25 0.123 0.00 6.13 43.2 4.27 26026 34.46 5.77 0.123 0.00 5.65 45 3.75 25864 34.43 5.27 0.123 0.00 5.15 46.8 3.29 25699 34.41 4.78 0.122 0.00 4.65 48.6 2.89 25539 34.39 4.31 0.122 0.00 4.19 50.4 2.53 25365 34.36 3.88 0.122 0.00 3.76 52.2 2.22 25239 34.34 3.48 0.121 0.00 3.36 . 54 1.95 25103 34.32 3.13 0.121 0.00 3.01 57 1.57 24891 34.29 2.60 0.121 0.00 2.48 60 1.26 24705 34.26 2.17 0.120 0.00 2.05 63 1.01 24541 34.24 1.B1 0.120 0.00 1.69 66 0.82 24398 34.22 1.52 0.120 0.00 1.40 69 0.66 24272 34.20 1.27 0.119 0.00 1.15 72 0.53 24161 34.18 1.07 0.119 0.00 0.95 75 0.42 24063 34.17 0.90 0.119 0.00 0.79 80 0.30 23919 34.15 0.68 0.119 0.00 0.56 85 0.21 23804 34.13 0.52 0.116 0.00 0.40 90 0.14 23710 34.11 0.40 0.118 0.00 0.28 95 0.10 23633 34.10 0.32 0.118 0.00 0.20 100 0.07 23568 34.09 0.25 0.110 0.00 0.13 105 0.05 23513 34.00 0.20 0.118 0.00 0.09 110 0.03 23466 34.08 0.17 0.11E 0.00 0.05 115 0.02 23425 34.07 0.15 0.110 0.00 0.03 120 0.02 23389 34.07 0.13 0.117 0.00 0.01 125 0.01 23355 34.06 0.12 0.117 0.00 0.00 130 0.01 23323 34.06 9.12 0.117 0.00 0.00 135 0.01 23290 34.05 0.12 0.117 0.00 0.00 140 0.00 23257 34.05 0.12 0.117 0.00 0.00 145 0.00 23223 34.04 0.12 0.117 0.00 0.00 150 0.00 23188 34.04 0.12 0.117 0.00 0.00 1 2 3 4 5 6 7 8 TIME INFLOW STORAGE STAGE OUTFLOWORIFICE WEIR RISER/ [min] [cfs] [cu ft] [ft] [cfs] [cfs] [cfs] BARREL 155 0.00 23154 34.03 0.12 0.117 0.00 0.00 160 0.00 23119 34.03 0.12 0.117 0.00 0.00 165 0.00 23004 34.02 0.12 0.117 0.00 0.00 170 0.00 23049 34.02 0.12 0.117 0.00 0.00 175 0.00 23015 34.01 0.12 0.117 0.00 0.00 180 0.00 22900 34.00 0.12 0.117 0.00 0.00 185 0.00 22945 34.00 0.12 0.116 0.00 0.00 190 0.00 22910 33.99 0.12 0.116 0.00 0.09 195 0.00 22875 33.99 0.12 0.116 0.00 0.00 200 0.00 22840 33.90 0.12 0.116 0.00 0.00 205 0.00 22805 33.90 0.12 0.116 0.00 0.00 210 0.00 22771 33.97 0.12 0.116 0.00 0.00 215 0.00 22736 33.97 0.12 0.116 0.00 0.00 220 0.00 22701 33.96 0.12 0.116 0.00 0.00 . 225 0.00 22666 33.96 0.12 0.116 0.00 0.00 230 0.00 22631 33.95 0.12 0.116 0.00 0.00 235 0.00 22597 33.95 0.12 0.116 0.00 0.00 240 0.00 22562 33.94 0.12 0.116 0.00 0.00 245 9.00 22527 33.94 0.12 0.115 0.00 0.00 250 0.00 22493 33.93 0.12 0.115 0.00 0.00 255 0.00 2245E 33.93 0.12 0.115 0.00 0.00 260 0.00 22423 33.92 0.12 0.115 0.00 0.00 265 0.00 22309 33.92 0.12 0.115 0.09 0.00 270 0.00 22354 33.91 0.12 0.115 0.00 0.00 275 0.00 22320 33.91 0.12 0.115 0.00 0.00 280 0.00 22285 33.90 0.11 0.115 0.00 0.00 285 0.00 22251 33.90 0.11 0.115 0.00 0.00 315 0.00 22044 33.86 0.11 0.114 0.00 0.00 345 0.00 2183B 33.83 0.11 0.114 0.00 0.00 375 0.00 21633 33.00 0.11 0.113 0.00 0.00 405 0.00 21429 33.77 0.11 0.113 0.00 0.00 435 0.00 21226 33.74 0.11 0.112 0.00 0.00 465 0.00 21023 33.71 0.11 0.112 0.00 0.00 495 0.00 20822 33.68 0.11 0.112 0.00 0.00 525 0.00 20621 33.65 0.11 0.111 0.00 0.00 555 0.00 20421 33.62 0.11 0.111 0.00 0.00 585 0.00 20222 33.59 0.11 0.110 0.00 0.00 615 0.00 20024 33.56 0.11 0.110 0.00 0.00 645 0.00 19826 33.53 0.11 0.109 0.00 0.00 675 0.00 19630 33.50 0.11 0.109 0.00 0.00 705 0.00 19434 33.47 0.11 0.108 0.00 0.00 765 0.00 19045 33.41 0.11 0.107 0.00 0.00 825 0.00 18659 33.35 0.11 0.106 0.00 0.00 085 0.00 18277 33.29 0.11 0.105 0.00 0.00 945 0.00 17B9B 33.23 0.10 0.104 0.n0 0.00 1005 0.00 17522 33.17 0.10 0.103 0.00 0.00 1065 0.00 17150 33.11 0.10 0.102 0.00 0.00 1125 0.00 16762 33.06 0.10 0.101 0.00 0.00 1185 0.00 16417 33.00 0.10 0.100 0.00 0.00 1245 0.00 16056 32.94 0.10 0.099 0.00 0.00 1305 0.00 15698 32.09 0.10 0.098 0.00 0.00 1365 0.00 15344 32.83 0.10 0.097 0.00 0.00 1425 0.00 14994 32.7E 0.10 0.096 0.00 0.00 1 2 3 4 5 6 7 8 TIME INFLOW STORAGE STAGE OUTFLOWORIFICE WEIR RISER/ [min] [cfs] [cu ft] [ft] [cfs] [cfs] [cfs] BARREL 1485 0.00 14647 32.72 U.lo 0.095 0.00 0.00 1545 0.00 14303 32.67 0.09 0.094 0.00 0.00 1605 0.00 13964 32.61 0.09 0.093 0.00 0.00 1665 0.00 13627 32.56 0.09 0.092 0.00 0.00 1725 0.00 13295 32.50 0.09 0.091 0.00 0.00 1785 0.00 12966 32.45 0.09 0.090 0.00 0.00 1845 0.00 12641 32.40 0.09 0.089 0.00 0.00 1905 0.00 12320 32.35 0.09 0.088 0.00 0.00 1965 0.00 12002 32.29 0.09 0.087 0.00 0.00 2025 0.00 11688 32.24 0.09 0.086 0.00 0.00 2085 0.90 11377 32.19 0.09 0.085 0.00 0.00 2145 0.00 11071 32.14 0.08 0.084 0.00 0.00 2205 0.00 10768 32.09 0.08 0.083 0.00 0.00 2265 0.00 10469 32.04 DAB 0.082 0.00 0.00 2325 0.00 10173 31.99 0.08 0.081 0.00 0.00 2385 0.00 9882 31.94 0.00 0.000 0.00 0.00 2865 0.00 7579 31.55 0.07 0.071 0.00 0.00 3345 0.00 5537 31.19 0.06 0.061 0.00 0.00 N 20.00 b W Q p 10.00 m CHAINSAW ROUTING 0 7.2 14 22 29 36 43 50 60 72 90 l7ME (MINS) -M-INFLOW :;:OUTFLOW PIPE SIZING CHART NELPM MEN IN INE 11M, INIMMEM MEN mill Sol MEMO OEM MME MINN INIMME IMOMMIN MEN ��C�� ECC� MEN ME NOMMIN IME IME ONE INS INS ECCMINEM Page 1