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SW8030405_COMPLIANCE_20030925
STORMWATER DIVISION CODING SHEET POST -CONSTRUCTION PERMITS PERMIT NO. SW7L(�� DOC TYPE ❑ CURRENT PERMIT ❑ APPROVED PLANS ❑ HISTORICAL FILE COMPLIANCE EVALUATION INSPECTION DOC DATE YYYYMM D D i �, |NF|LTRAJ|ON BASIN ANALYSIS PROJECT NUMBER: 030405 PROJECT NAME: Porters Neck[NadacH8 DRAINAGE BASIN: Cape Fear RECEIVING STREAM: Pages Greek Index No.: Basin SITE AREA 2.13acea IMPERVIOUS AREA CALCULATION BUILDINGS PARKING/ASPHALT CONCRETE OTHER TOTAL % IMPERVIOUS, |= ELEVATION OFSEASONAL HIGH WATER TABLE REPORTED INFILTRATION RATE SURFACE AREAS AND ELEVATIONS FILENAME: Q:\DATAVWPOATAVWOOUN8AS|N030405.W8K1 DATE: 25'Sep-08 REVIEWER: LSMunn CLASS: GA IfORW.is site within thm57SAEC? 92. -- RationalC 13500 1 47900 1 6000 1 Co= 9|eua u ^1^ hano if Rational RV= .05+.009( | )= FEETM81 INCHES/HOUR or 0.000784 FPS Elev. (ft) Area, oq ft Inc. Volume Aoc. Volume BOTTOM 50 3840 51 6220 4030 4930 51 0220 0 4930 TOP 52 8940 7580 12510 VOLUME / DEPTH DRAWDCWN CALCULATION DESIGN STORM, INCHES DESIGN VOLUME CUBIC FEET TOTAL VOLUME AVAILABLE CUBIC FEET DEPTH OF RUNOFF FEET TIME TD ORAVVDON/N HOURS MUST BE <130 2SYEAR J4HOUR STORM N/A Intensity, i=.33inches /hour Clr=CiA= 0.55 CF8 C>pthrough the bottom cf thebanin= 278 CFO Must be>C>r 10VEA0 10 MIN HIGH INTENSITY EVENT Intensity, i=8.3inches /hour Volume for 10 yr. 10 min. event = 6289.20 CF < 12518 CF COMMENTS Volume and dmwdnwnare (not) within Design Requirements. INFILTRATION BASIN ANALYSIS PROJECT NUMBER: 030405 PROJECT NAME: Porters NeckMedac HS DRAINAGE BASIN: Cape Fear RECEIVING STREAM: Pages Creek Index No.: Basin 2 ' SITE AREA 1.54 acres IMPERVIOUS AREA CALCULATION BUILDINGS PARKING/ASPHALT CONCRETE OTHER TOTAL % IMPERVIOUS, 1= ELEVATION OF SEASONAL HIGH WATER TABLE REPORTED INFILTRATION RATE SURFACE AREAS AND ELEVATIONS Elev. (ft) Area, sq FILENAME: G:IDATAIWPDATAIWQSIINBASIN1030405.WK1 DATE: 25-Sep-03 REVIEWER: LSMunn CLASS: SA If ORW, is site within the 575' AEC? DRAINAGE AREA: ft Inc. Volume Acc. Volume BOTTOM 43 3465 44 3465 3465 3465 45 3465 3465 6930 TOP 45.6 3465 2079 9009 VOLUME 1 DEPTH 1 DRAWDOWN CALCULATION DESIGN STORM, INCHES DESIGN VOLUME CUBIC FEET TOTAL VOLUME AVAILABLE ::. G90�9 CUBIC FEET DEPTH OF RUNOFF ;;:<.;::2,.GQ>: FEET TIME TO DRAWDOWN ,;3.12p..4< HOURS MUST BE <120 25 YEAR 24 HOUR STORM NIA Intensity, i = .33 inches I hour Or-- C i A = 0.36 CFS Op through the bottom of the basin= 0.00 CFS Must be > Qr 10 YEAR 10 MIN HIGH INTENSITY EVENT Intensity, i = 6.3 inches 1 hour Volume for 10 yr. 10 min. event = 4167.02 CIF < 9009 CIF COMMENTS Volume and drawdown are (not) within Design Requirements. o�oF \NATERpG Michael F. Easley. Governor o William G. Ross Jr., Secretary C North Carolina Department of Environment and Natural Resources I � O Alan W. Kiimek, P.E.,Director Division of Water Quality June 5. 2003 Mr. Dale Key Medac Health Services, P.A. 3710 Shipyard Boulevard Wilmington, NC 28403 Subject: REQUEST FOR ADDITIONAL INFORMATION Stormwater Project No. SW8 030405 Porters Neck Medac Health Services New Hanover County Dear Mr. Key: The Wilmington Regional Office received a Stormwater Management Permit Application for Porters Neck Medac Health Services on April 4, 2003. A preliminary review of that information has determined that the application is not complete. The following information is needed to continue the stormwater review; ✓ 1. Please contact me to make arrangements for Vincent Lewis to do the soils investigation. If he has already been to this site, please advise. 2. Please provide a delineation drainage map. The application states that the Project Built Upon Area includes 8,300 square feet of pavement draining off -site. All on -site built upon area must enter the basin. Please show on the delineation drainage map how much of -the driveway runs off -site. 4. Please provide dimensions for the buildings, sidewalks, concrete pads, etc. ✓5. Sheet C3 contains two different scales. Please only provide the correct scale. 6. Please provide a dimensioned plan view of the holding pond. I am unsure how the water in the concrete basin southeast of the building gets into the part of the basin northeast of the building. Also, since the holding pond is concrete, you do not need an Infiltration Basin Supplement. Please provide all the information about the holding basin in sealed calculations. 7. Please provide a detail of Catch Basin 4. Also, the narrative states that the bypass will discharge through vegetative filters leading to off -site ditches. The plans show the discharge running back into the holding basin. Do you intend for this system not to have an off -site discharge? ✓8. The stone check dams in Infiltration Basin #1 will create a forebay section of the pond. The state does not require forebays in infiltration basins. The water may back-up quicker in the bypass structure with the check dams in. N. C. Division of Water Quality 127 Cardinal Drive Extension (910) 395-3900 Customer Service Wilmington Regional Office Wilmington, NC 28405 (910) 350-2004 Fax 1 800 623-7748 NCi ENR IN4r. Dale Key June 5, 2003 Stormwater Project No. SW8 030405 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 July 5, 2003, or the application will be returned as incomplete. The return of a project will necessitate resubmittal of all required items, including the application fee. If you need additional time to submit the information, please mail or fax your request for a time extension to the Division at the address and fax number at the bottom of this letter. The request must indicate the date by which you expect to submit the required information. The Division is allowed 90 days from the receipt of a completed application to issue the permit. The construction of any impervious surfaces, other than a construction entrance under an approved Sedimentation Erosion Control Plan, is a violation of NCGS 143-215.1 and is subject to enforcement action pursuant to NCGS 143-215.6A. Please reference the State assigned project number on all correspondence. Any original documents that need to be revised have been sent to the engineer or agent. All original documents must be returned or new originals must be provided. Copies are not acceptable. If you have any questions concerning this matter please feel free to call me at (910) 395-3900. Sincerely, Laurie Munn Environmental Engineer RSS/:Ism S:1WQSISTORMWATIADDINF0120031030405 june03.doc cc: Laurie Munn Lawrence Sneeden, Jr., P.E. 1,► STORMWATER SYSTEM NARRATIVE PORTERS NECK MEDAC HEALTH SERVICES WILMINGTON, NORTH CAROLINA For Medac Health Services, P.A. 3710 Shipyard Blvd. Wilmington, NC 28403 (910) 452-1400 �ryRSt�rretnrr r SE Al. 10972 • °jr.wrr°'� t• �4 ��rrr7E iR1R �i 7 March 2003 Prepared by: ANDREW & KUSKE CONSULTING ENGINEERS, INC. 902 Market Street Wilmington, North Carolina 28401 (910) 343-9653 (910) 343-9604 — (Fax) E-mail: office@andrewandkuske.com A & K Project No. 02146 NARRATIVE DESCRIPTION. The site is a 3.97-acre tract on the west of Market Street (US 17) 1,800 feet southwest of its intersection with Porters Neck Road (SR 1402). The tract is bounded by road right-of-way to the east, residentially zoned property adjacent to the northeast property corner, and commercially zoned property to the west, south and north. The site is a vacant tract with some vegetation. There is no expected runoff from off -site draining to this project. The project is new development consisting of clearing, grading, and construction of a 3-story building with asphalt access and parking, stormwater management system, and utilities. Design impervious for the entire site is computed at 67%. Approximately 3.9 acres will be disturbed by the initial construction work. STORMWATER MANAGEMENT MEASURES: The site is located in a SA watershed and is proposed as high density, with a maximum impervious surface of 67%. Runoff will be collected along curbs and discharged to infiltration basin #1 and holding basin #2, sized to store the runoff from the first 1.5-inches of rain. Runoff to basin #1 will infiltrate directly to the soil over a 50 minute period. Runoff to basin #2 will be pumped to basin #1 for infiltration over a 23 hour period. Runoff in excess of the stored amount will bypass to vegetated filters leading to off -site ditches. The grading contractor and developer will provide maintenance during construction. The property owners association will provide maintenance after completion. 2 Date Design Andrew and Kuske JZd�03 GL 5 902 Market St. CONSULTING ENGINEERS, INC. Wilmington, N.C. 28401 >Sheet3 f Check Job For Job No. S �O gl''k\'/AT-6AL 57YsT45t-t 'F'nrz-rcc r rgCc k hh vac �21 ¢6 5 1 - C, -ramA'rA t\+ c Am -LA -ro in! FILTRATlopi T3P S+N 41 1ry iZc-HtZ A ? - A I Z-C!5 Q -r 0 �-1 0 L 0 1 ?,J C 13 A s r Pr J4 z 1 +J. r-- R fj 4' 7- . r� d n, 4-E0 Tv I NJ 1--/4. # ! OFF - Sore - A-C-4 dr-F-Sf'T4:-- 1JrvC.CV+1�n/f 'TWZn/ LANL'. !1v l�0av, A, A2- OF.F frre -ro-r'l c. 5I--e5j, IlV- GQ 2,13 At I,s4 AC.- p.3o AC 3,q-7 q Z+ 8 on SF G 7�3Uo SI= r Z� �� 0 1 73� OGm f r= I Wlf'E,+-v,pvS covC- -A4cr 13ul+_p+#'jO'5 0,31 Ac- O'lZAC- 0 A o,s 3 Ac- 13,s uu S!~ 9, Sna Sf= O Sr 23 ou0 Sr - PARK,,,,< �1•R��v 1, d0 A.rr 0,7 P Ae- 0,14 Ac- Z,00 /�t 41 Soo,sr 31)OU0 Sr$� 3oa $7 Zoo SF -S IDC-WALKS a, r d Ac a,a� �� o A 0,20 Ar- Lroeo Sr 27 d sl-- 87oa s+-- To 1 ,s'S Ac. 6,T? A, 6, Iq A 2,73 lac G7/.4001r �3..Z'00.5r g330e SF 116?1.9oo5+= '�Pa 73 g, G ¢' s G 4- a 6171.0 ' `t'Ct 111it11lfl�',. CAP, E Al -. 10972 r • A • • ti -j/z ¢/0? '�c�s Andrew and Kuske C G s 902 Market St. CONSULTING ENGINEERS, INC. Wilmington, N.C. 28401 >Sheet FDatelDesign Check Job For Job No, S-7-0R+.�,\vArew S -sin -PaILTCk� 1vCL7c 0214 j t,4 >` 1 L. T 12 A-T i s nj T3 A S I nt 41 q - q 2, ego sr- A_r = 6 7, ¢-o0 S" S 1= LS. Vo L u► NC \/=((67, ¢oo sr-' x0,4) } �zs,4�o ,F. x o,z)) x l s x 7L 8'22o cp REQ'rJ S i OW-44e Sro 2A C c_ vaLu►-`cz- T'Rov 'a - VAS/n./ 6- 1 C--LCY AfiC/a 4VoL_ !E Va Pr ; 5 i- cF e.r- '�-a 3('4-d o 4q 30 6'1 G zza 430 -75`8 0 SZ 89 ¢0 1 Z15� o VOL = ¢ S'3o C.+= � 0, 5(75'78o cr-) = 872-o ter- > 6220 cr- orc D rLA�VDO \v n1 -r) k, L Id A! 17£' crAl, T Z 7Z O cr i7g CFA� ¢Q titrAJ DfSC14ArLG4;5 9Aa,EJ CSUAi")AILr 0r- Arrl7cwLrj!rp CgLer1 Q a cFs t Date Design Andrew and Kuske heet 3 � 03 z. Cc_ s ENGINEERS, INC. 902 Market St. CONSULTING ENGWilmington, N.C. 2$4131 of 6 Check Job For Job No. STo7-ij"- Sy3Tc`n`-P 61rve-CK I dz I'4G 140LO ltlj( r3/AJfN d 2 $'r-01Ajj_f I,S' O� 'Ra,ur-r3(-L 13Y► Asr RC-n5A+r.10G•2 To VC<GTA-r6V T=7r_rd+L 1--�uh-r S-rov-a4 VoLv+�-16 Ta ngz",j ML1 A = (0 7,1, C' 5F A;e- S%prLACC- \/aLLl)kl a TZ-C40 43f ao Sr= �.c b,9)+(241.16a SFrtd,2)x S-4r- 5 O )z/AC ,: P0.4 v'l7 H o�-n,+'j( 134.s+r.1 LtY CrzovvJ* SYo,zAcL �ViRe-c�Kf sukr-AC-d AjeC sA 4S`.X 77- 34GS Sr- q3 p -� � 4 3, ra • co ¢s G v- f3 (-2, o c F -ro 'rA G 5 G -S 'p,2 q W no �v ,v rl k-� G ri n ut vilao Toe Z" FoitGn/ 5 i�-r C- 1{E14 1JWL F,M, n+ScN _ -S-o� iffr}S4Gmcr- -oK I% Y 6_1 53 hn 3 3 T0rADYh-Ar,!C I4t9i,4iD 144 Ib o r6 v, �-. za o,s7 JA- 1,7 3U !. Z! 3.0 �. o 2.G 4Q _ 2,04 Y- L 1v, z 3,S T C-' F .. 137o Acrn! -3 id 25 REAR OFLOT TO INFILTRATION BASIN P1.. , INFILTRATI u DETENTION @ DRIVEWAY CULVERT Su�cat Reach on ��rik' PARKING)BLDG. TO HOLDING BASIN #2 HOLDIN BASIN #2 - CUL EC 330HD -ATED FILTER 02146 PORTERS NECK MEDAC - REV2 Type/1/ 24-hr 10-Yr Rainfall=7.00" Prepared by Andrew & Kuske Consulting Engineers, Inc. Page 2 HydroCADO 6.40 sln 000479 O 1986-2003 Applied Microcomputer Systems 9/15/03 Time span=11.00-15.00 hrs, dt=0.01 hrs, 401 points Runoff by SCS TR-20 method, UH=SCS Reach routing by Stor-Ind+Trans method - Pond routing by Stor-Ind method Subcatchment 2S: PARKING/BLDG. TO HOLDING Runoff Area=67,300 sf Runoff Depth=3.14" Tc=10.0 min CN=77 Runoff=6.89 cfs 0.405 of Subcatchment S1: REAR OF LOT TO INFILTRATI Runoff Area=92,800 sf Runoff Depth=3.49" Tc=10.0 min CN=82 Runoff=10.58 cfs 0.619 of Reach R1: VEGETATED FILTER Peak Depth=0.16' Max Vet=2.5 fps Inflow=4.03 cfs 0.232 of n=0.024 L=50.0' S=0.0200 '1' Capacity=97.80 cfs Outflow=4.03 cfs 0.231 of Pond P1: INFILTRATION BASIN Peak Elev=51.03' Storage=5,188 cf Inflow=10.58 cfs 0.619 of Discarded=5.16 cfs 0.619 of Primary=0.00 cfs 0.000 of Outflow=5.16 cfs 0.619 of Pond P2: HOLDING BASIN #2 - C Peak Elev=46.48' Storage=7,698 cf Inflow=6.89 cfs 0.405 of Discarded=0.07 cfs 0.023 of Primary=4.03 cfs 0.232 of Outflow=4.10 cfs 0.255 of Pond P3: DETENTION @ DRIVEWA Peak Elev=44.00' Storage=405 cf Inflow=4.03 cfs 0.231 of 12.0" x 60.0' Culvert Outflow=3.58 cfs 0.231 of 02146 PORTERS NECK MEDAC - REV2 Type 11124-hr 10-Yr Rainfa11=7.00" Prepared by Andrew & Kuske Consulting Engineers, Inc. Page 3 HydroCADO 6.40 sln 000479 O 1986-2003 Applied Microcomputer Systems 9/15/03 Subcatchment 2S: PARKING/BLDG. TO HOLDING BASIN #2 Runoff = 6.89 cfs @ 12.14 hrs, Volume= 0.405 af, Depth= 3.14" Runoff by SCS TR-20 method, UH=SCS, Time Span= 11.00-15.00 hrs, dt= 0.01 hrs Type III 24-hr 10-Yr Rainfall=7.00" Area (sf) CN Description 9,500 98 Roofs 24,100 39 >75% Grass cover, Good, HSG A 31,000 98 Paved parking 2,700 98 Sidewalks 67,300 77 Weighted Average Tc Length Slope Velocity Capacity Description min) (feet) (ftlft) (f#/sec) (cfs) Direct Entry, Subcatchment S1: REAR OF LOT TO INFILTRATION BASIN #1 Runoff = 10.58 cfs @ 12.14 hrs, Volume= 0.619 af, Depth= 3.49" Runoff by SCS TR-20 method, UH=SCS, Time Span= 11.00-15.00 hrs, dt= 0.01 hrs Type III 24-hr 10-Yr Rainfall=7.00" Area (sf) CN Description 47,900 98 Paved parking 25,400 39 >75% Grass cover, Good, HSG A 13,500 98 Roofs 6,000 98 Sidewalks 92,800 82 Weighted Average Tc Length Slope Velocity Capacity Description (min) (feet) (fUft) (fUsec) (cfs) 10.0 Direct Entry, Reach R1: VEGETATED FILTER Inflow Area = 1.545 ac, Inflow Depth = 1.80" for 10-Yr event Inflow - 4.03 cfs @ 12.30 hrs, Volume= 0.232 of Outflow = 4.03 cfs @ 12.31 hrs, Volume= 0.231 af, Atten= 0%, Lag= 0.6 min Routing by Stor-Ind+Trans method, Time Span= 11.00-15.00 hrs, dt= 0.01 hrs Max. Velocity= 2.5 fps, Min. Travel Time= 0.3 min Avg. Velocity = 1.3 fps, Avg. Travel Time= 0.6 min 02146 PORTERS NECK MEDAC - REV2 Type 11124-hr 10-Yr Rainfall=7.00" Prepared by Andrew & Kuske Consulting Engineers, Inc. Page 4 H droCADO 6.40 s/n 000479 O 1986-2003 Applied Microcomputer Systems 9/15/03 Peak Depth= 0.16' @ 12.31 hrs Capacity at bank full= 97.80 cfs Inlet Invert= 45.10', Outlet Invert= 44.10' 10.00' x 1.00' deep channel, n= 0.024 Length= 50.0' Slope= 0.0200 7' Side Slope Z-value= 3.0 7' Pond P1: INFILTRATION BASIN #1 Inflow Area 2.130 ac, Inflow Depth = 3.49" for 10-Yr event Inflow = 10.58 cfs @ 12.14 hrs, Volume= 0.619 of Outflow = 5.16 cfs @ 12.36 hrs, Volume= 0.619 af, Atten= 51 %, Lag= 13.6 min Discarded = 5.16 cfs @ 12.36 hrs, Volume= 0.619 of Primary - 0.00 cfs @ 11.00 hrs, Volume= 0.000 of Routing by Stor-Ind method, Time Span= 11.00-15.00 hrs, dt= 0.01 hrs Peak Bev= 51.03' @ 12.36 hrs Surf.Area= 6,313 sf Storage= 5,188 cf Plug -Flow detention time= 7.7 min calculated for 0.619 of (100% of inflow) Center -of -Mass det. time= 7.5 min ( 757A - 749.9 ) # Invert Avail.Storage Storage Description 1 - 50.00' 12,510 cf Custom Stage Data (Prismatic) Listed below Elevation Surf.Area Inc.Store Cum.Store (feet) (sq-ft) (cubic -feet) (cubic -feet) 50.00 3,640 0 0 51.00 6,220 4,930 4,930 52.00 8,940 7,580 12,510 # Routinq Invert Outlet Devices 1 Discarded 0.00' 0.049000 fpm Exfiltration over entire Surface area 2 Primary 51.50' 3.0' long x 2.0' high Sharp -Crested Rectangular Weir 2 End Contraction(s) Discarded OutFlow Max=5.16 cfs @ 12.36 hrs HW=51.03' (Free Discharge) L1=Exfiltration (Exfiltration Controls 5.16 cfs) Primary OutFlow Max=0.00 cfs @ 11.00 hrs HW=50.00' (Free Discharge) L2=Sharp-Crested Rectangular Weir ( Controls 0.00 cfs) Pond P2: HOLDING BASIN #2 - CULTEC 330HD Inflow Area = 1.545 ac, Inflow Depth = 3.14" for 10-Yr event Inflow = 6.89 cfs @ 12.14 hrs, Volume= 0.405 of Outflow = 4.10 cfs @ 12.30 hrs, Volume= 0.255 af, Atten= 40%, Lag= 9.8 min Discarded = 0.07 cfs @ 11.12 hrs, Volume= .0.023 of Primary = 4.03 cfs @ 12.30 hrs, Volume= 0.232 'af Routing by Stor-Ind method, Time Span= 11.00-15.00 hrs, dt= 0.01 hrs Peak Elev= 46.48' @ 12.30 hrs Surf.Area= 3,465 sf Storage= 7,698 cf Plug -Flow detention time= 55.0 min calculated for 0.254 of (63% of inflow) Center -of -Mass det. time= 25.8 min ( 777.5 - 751.6 ) 02146 PORTERS NECK MEDAC - REV2 Type Ill 24-hr 10-Yr Rainfall=7.00" Prepared by Andrew & Kuske Consulting Engineers, Inc. Page 5 HydroCADO 6.40 sln 000479 ©1986-2003 Applied Microcomputer Systems 9/15/03 # Invert Avail.Stora a Storage Description 1 43.00' 3,627 cf Custom Stage Data (Prismatic) Listed below 13,860 cf Overall - 4,791 cf Imbedded = 9,069 cf x 40.0% Void 2 43.50' 4,627 cf 47.8"W x 30.0"H x 69.001 Cultec R-330 x 9 Inside #1 3 43.50' 150 cf 33.6"W x 20.0"H x 4.831 Cultec HVLV 180 x 9 Inside #1 4 43.50' 15 cf 15.8"W x 12.0"H x 2.001 Cultec HVLV F-24 x 9 Inside #1 8,419 cf Total Available Storage Elevation Surf.Area Inc.Store Cum.Store feet s -ft cubic -feet cubic -feet 43.00 3,465 0 0 47.00 3,465 13,860 13,860 # Routing Invert Outlet Devices 1 Primary 45.30' 18.0" x 50.0' long Culvert RCP, square edge headwall, Ke= 0.500 Outlet Invert= 45.10' S= 0.0040'1' n= 0.013 Cc= 0.900 2 Device 1 45.60' 3.00' x 0.50' Vert. Orifice/Grate C= 0.600 3 Discarded 43.00' Pump Head (feet) 0.00 0.10 4.00 Disch. (cfs) 0.00 0.07 0.07 Discarded OutFlow Max=0.07 cfs @ 11.12 hrs HW=43.10' (Free Discharge) '-3=Pump (Custom Controls 0.07 cfs) Primary OutFlow Max=4.03 cfs @ 12.30 hrs HW=46.48' (Free Discharge) L1=Culvert (Barrel Controls 4.03 cfs @ 3.7 fps) L2=Orifice/Grate (Passes 4.03 cfs of 5.69 cfs capacity) Pond P3: DETENTION @ DRIVEWAY CULVERT Inflow Area = 3.675 ac, Inflow Depth = 0.75" for 10-Yr event Inflow - 4.03 cfs @ 12.31 hrs, Volume= 0.231 of Outflow = 3.58 cfs @ 12.41 hrs, Volume= 0.231 af, Atten= 11 %, Lag= 5.7 min Primary - 3.58 cfs @ 12.41 hrs, Volume= 0.231 of Routing by Stor-Ind method, Time Span= 11.00-15.00 hrs, dt= 0.01 hrs Peak Elev= 44.00' @ 12.41 hrs Surf.Area= 818 sf Storage= 405 cf Plug -Flow detention time= 0.7 min calculated for 0.230 of (100% of inflow) Center -of -Mass det. time= 0.7 min (778.3 - 777.6 ) # Invert Avail.Storage Storage Description 1 43.50' 2,563 cf 10.00'W x 80.00'L x 3.00'H Prismatoid Z=0.2 # Routing___Invert Outlet Devices _ 1 Primary 42.60' 12.0" x 60.0' long Culvert RCP, end -section conforming to fill, Ke= 0.500 Outlet Invert= 42.00' S= 0.0100 '1' n= 0.012 Cc= 0.900 02146 PORTERS NECK MEDAC - REV2 Type I1124-hr 10-Yr Rainfall=7.00" Prepared by Andrew & Kuske Consulting Engineers, Inc. Page 6 HydroCADO 6.40 sln 000479 © 1986-2003 Applied Microcomputer Systems 9/15/03 Primary OutFlow Max=3.58 cfs @ 12.41 hrs HW=44.00' (Free Discharge) '-1=Culvert (Barrel Controls 3.58 cfs @ 4.6 fps) ut ESL SP ',, THE MYERS SSM33 IS A RUGGED, HEAVY DUTY 113 HP SUBMERSIBLE PUMP DESIGNED FOR DEMANDING DRAINAGE JOBS. The SSM33's recessed, vortex, impeller provides a clear, unobstructed passage in the volute case for superior solids handling. Its 1/2" solids handling capa- bility allows it to be used in a wide variety of drainage and effluent pumping applications. Extensive use of cbrrosion resistant cast iron and thermoplastics ensures that the SSM33 will perform for years to come in most installations. Contact your Myers distributor, or the Myers Ohio sales office at 419/289-1144 for more details, j SSM33 Submersible Sump and Effluent Pump ADVANTAGES BY DESIGN DURABLE MOTOR WILL.DELIVER MANY YEARS OF RELIABLE SERVICE. • Oil -filled motor for maximum heat dissipation and continuous bearing lubrication, ■ Shaded pole motor eliminates starting switches. ■ Recessed vortex impeller operates completely out of volute` provides free flow -through passage for solids and liquid and has minimal radial loading for long bearing life, THE SSM33 IS ENGINEERED FOR MANY YEARS OF MAINTENANCE -FREE OPERATION. >• Automatic models available with piggy -back float switch or piggyback vertical switch, (Both mercury free) ■ Pump can be operated manually by unplug- ging piggy -back switch and plugging pump directly into outlet (Automatic models). ■ Heavy cast iron motor housing and volute case dissipate heat, allow motor to run cooler for extended life, resists corrosion. PRODUCT CAPABILITIES Capacities To 31 gpm 117 Imp Heads To 23 It. 7 m Pump Down Range Float Switch Vertical Switch 7 to 10 In. 4.1/8' 178 to 254 mrn 107 mm Solids Handling Capacity If2 in. 12.8 mm Liquids Handling Iresh drain water, effluent Intermittent Liquid Temp. I up to 140T I up to 60'C Motor 1/3 HP shaded pole 1550 RPM Electrical 115V, 7.5 amps 10, 60 Hz. Acceptable pH Range 5-9 Discharge, NPT 1.1/2 in. 38.1 mm, Minimum Sump Diameter 12 in. 305 mm ETL Listing Class 1, Div. 2 Group D Class 2, Div. 2 Group F, G Class 3, Div. 1, 2 Construction Materials Motor Housing, volute Case cast iron, Class 30, ASTM A48 Pump Base high impact ABS thermoplastic Impeller recessed, thermoplastic Power Cord 10 or 20 It., 1613 SJTWISJTW-A Mechanical Seal carbon and ceramic WHERE INNOVATION MEETS TRADITION ISO 9001 Certified PENTAIR PUMP GROUP SSM33 Submersible Sump and 4 Effluent Pump • S • • �� • I 1.t.1�.� �tt1 � Ir�`r1�,r1►�► e � -p 1 VOLUTE CASE 1�discharge..._ design allows unobstructed passage of 1/2' MECHANICAL SHAFT SEAL Carbon and ceramic faces. Body is stationary: prevents string or trash from winding on seal. 1 I RECESSED IMPELLER Operates Out of volute passage, allowing maxi- mum flow of liquids and solids up to 112 inch diameter. i )IMENSIONS I i:�■tea..+ i:�i� PERFORMANCE CURVE CAPACITY LITERS PER MINUTE O zo 4a so 100 120 IW I.0 30 0 0 5 10 IS 20 25 30 35 CAPACITY GALLONS PER MINUTE PERFORMANCE TABLE 4R� ti Total Ft. 2 4 6 8 10 1 12 14- 16 1 B 20 22 Head M 0.61 1.22 1.83 2.44 3.05 3.66 4,27 4.88 5.49 6.1 1860 1630181017801740 1650 1560 14101200 720 J71Ga11Hr. UHr. 7040 6927 685] 6 337 6586 6245 5905 5337 4542 272.5 K3384 9198 Printed in U.S.A. eo nr, ® •iNK PENTAIR PLUM F. E. Myers, 1101 Myers Parkway, Ashland, Ohio 44805-1969 419/289-1144, FAX: 419/289-6658, www.temyers.com Myers (Canada), 269 Trillium Drive, Kitchener, Ontario N2G 4W5 519/748.5470,FAX: 519174B-2553 • CULTEC, Inc. 878 Federal Road P.O. Box 280 Brookfield, CT 06804 PREPARED FOR: Larry Sneeden Andrew & Kuske 902 Market Street Wilmington, NC 28401 910.343-9653 910-343-9604 INPUT Please fill in your parameters Restrictive Horizon (R): Paved? (1ano, oyes) Wheal Load: (1a1-12O, 0=H10) Storage Required (ft3) Limiting Dimension (R) I I(800) 4-CULTEC (203) 775-4416 Fax (203) 775-5887 www.cultec.com custservice@cultec.com I CULTEC 'SYSTEM CALCULATIONS PROJECT INFORMATION: ENGINEER: Porters Neck Medac Larry Sneeden 8115 Market Street Andrew & Kuske Wilmington, NC 902 Market Street I Wilmington, NC 28401 910-343-9653 , i 910-343-9604 I Able to be Installed under these arameters? 40OHD 400 EZ 24HD EZ 24 280HD YES YES YES YES YES 10 V 330HD 330 10OHD 100 280 f0 YES YES YES YES YES 180HD 180 75HD 75 6500 YES YES YES YES 46 125HD 125 FDCjHD FDC-4 Model name Approx. Unit Count k of Rom wide { l C of Units Long Total 0 of Chambers Needed Storage Provided (m) Bed Area Needed (as) V111 Bed widthk7192(h Minimum Bed Depth (ftr Volume of Stone Needed (R3) RechargorTM 40OHD Heavy Duty H2O 95 9 1 11 99 7084.08 3200.51 44.97 3.96 5318.31 RechargerT 400 Standard Duty H10 95 9 1 11 99 7084.08 320D.51 44.67 3.96 5318.31 Recharger" 330HD Heavy Duty H2O 100 9 1 11 99 6750.73 3234,24 44.97 3.80 5182.60 Rechargor^ 330 Standard Duty Hi0 100 9 1 11 99 6750.73 3234.24 44.97 3,80 1 5182.60 Recharger" 280HD Heavy Duty H2O 114 11 1 10 110 6589.90 3345.59 45.83 73.00 3,55 4619.17 RechargerT 280 Standard Duty 11-1110 -- - I -- - -- - - -- - I - RechargerT" 180HD Heavy Duty H2O 217 14 1 15 210 6587.81 4309.80 44.00 97.95 2.96 1 4890.27 Recharger" 180 Standard Duty H110 217 14 1 15 210 6587.81 4309.80 44.00 97.95 2.96 4890.27 Contacto1a1125HD Heavy Duty H2O 31l 17 I 18 306 6697.33 5139.75 44.50 115.50 2.75 5996.01 Contactor®125 Standard Duty H10 311 17 1 18 306 6697.33 5139.75 44.50 115.50 2.75 5996.01 Contactor®100HD Heavy Duty H2O 291 1 14 20 280 6541.79 6754.00 44.00 153.50 2.30 6523,64 Contactors 100 Standard Duty H10 291 14 1 20 280 6541.79 6754,00 44.00 153,50 2,30 6523,64 Contactor® 75HD Heavy Duty H2O 416 17 24 408 6fi47.42 6797.38 44.50 152.75 2.29 6367.56 Contactors 75 Standard Duty 1-110 416 17 - 24 408 6647.42 6797.38 44.50 152.75 2.29 6367.56 Contactor® EZ-24HD Heavy Duty H2O 548 27 20 540 6611.40 7212.77 44.43 162.34 2.30 7629.86 ContactorlD EZ-24 Standard Duty 1-110 548 27 20 540 6611.40 7212.77 44.43 162.34 2.30 7629.86 ContaclorS Field Drain C4HD Heavy Duty H2O 275 11 ! 25 275 6739A9 9307,64 1 46.00 202.34 1,96 7559.96 ContactoFO Field Drain C-4 Standard Duty H10 275 11 25 275 6739.49 9307.64 1 46.00 202.34 F 1.96 7559.96 This calculator program is foresdma8on purposes only and should not take the place or a comprehensive engineering design, All calculations take into consideration a 1'stone border at 40% volume capacity surrounding bed. Reconfiguring the bed layout may effect actual storage provided. Contact Cultec Technical Assistance at 800426-5832 or 203-775.44 16 for further assistance. f Copyright (C) 2002 CULTEC, Inc. A11 rights reserved. CULTEC, Inc. 1 : (800) 4-CULTEC 878 Federal Road 1 (203) 775.4416 P.O. Box 280 Fax (203) 775-5887 Brookfield, CT 06804 www.cultee.com custservice@cultee.com CULTECWSTEM CALCULATIONS the tnllowina tnhlp rantaine Mdtp enxifiralinne need in all mlrsilatinns Model name eTs U Hen (me Unit (ft3) Chamber Length Adjustment (ft) Chamber Lay-up Length (ft) Design Unit Width (ft) Stone Border Excess (fl) H10 Min. Cover (tt) Paved H2O Min. Cover (ft) Unpaved H2O Min. Cover (ft) ham er Volume per Linear Foot (ft3ift) ReehargerT" 40OHD Heavy Duty H2O 3.2111 10.98 1 1,3 6.17 4.83 1.5 0.75 1,25 1.416 7.96 Recharger'" 400 Standard Duty H10 3.211 10.98 ; 1.3 6.17 4.83 1.5 0.75i 10000 10000 7.96 RechargerT" 330HD Heavy Duty H2O 3.05 10,35 ' 1.17 6.25 4.83 1.5 0.75 1.333 1.5 7.44 RechargerT" 330 Standard Duty H10 3.05 10,35 ; 1.17 6.25 4.83 1.5 0,75 10000 10000 7.44 Recharges'' 280HD Heavy Duty H2O 2.8 8.12 1 7 4 1.83 0,75 1.5 1.166 6.08 RechargerT" 280 Standard Duty H10 2.8 8.121 1 7 4 1.83 0.75 10000 10000 6.08 Recharger"' 180HD Heavy Duty H2O 2.21 4.72 1 1 6.33 3 2 0.75 1A666 1.333 3.45 Recharger' 180 Standard Duty H10 2.21 4.72 j 1 6.33 3 2 0.75 10000 100001 3.45 Contactors 125HD Heavy Duty H2O 2 3.34 1 6.251 2,5 2 0.75 1 1.16661 2.22 Contactort 125 Standard Duty H10 2 3.34 1 6,251 2.5 2 0.75 10000 1 Owl) 2,22 ContactorO 100HD Heavy Duty H2O 1.56 2.07 ! 1.5 7.5 3 2 0.75 1.1666 1,333 1.86 Contactor®100 Standard Duty H10 1.55 2.97 i 1.5 7,5 3 2 0.75 10000 10000 1.86 Contactor® 75HD Heavy Duty H2O 1,54 2.5 0.75 6.25 2.5 2 0.75 1 1.1666 1.6 Contactor® 75 Standard Duty H10 1.54 2.5 0.75 6.25 2.5 2 0.75 10000 100w 1.6 Contactor(D EZ-24HD Heavy Duty H2O 1.55 1.48 0.34 8 1.59 1.5 0.75 1.166 1.6 0,82 Contactor(D EZ-24 Standard Duty H10 1.55 1,48 I 0.34 8 1.59 1.5 0.751 100001 10000 1 0.82 Contactort Field Drain C4HD Heavy Duty H2O 1.21 2.95 0,34 8 4 21 0,751 1.16661 1.51 1.68 ContactorOD Field Drain C-4 Standard Duty H10 1.21 2,95 ; 0.34 8 4 2 0.75 10000 10000 1.68 This calculator program is for estimation purposes only and should not take The place of a comprehensive englneerrrtg design. All calculations take into consideration a 1'stone border at 40% volume capacity surrounding had. Reconfiguring the bed layout may effect actual storage provided. Contact Cultec 7echnicalAssistance at 800-428-5832 or 203-775-4416 for furthar assistance. i Copyright (C) 21302 CULTEC, Inc. All rights reserved. — = Andrew & Kuske CONSULTING ENGINEERS,INC. John P. Andrew, P.E. J. Phillip Norris, P.E. 902 Market Street Mrninglon, WC 28,101-4733 John S. Tuns3all, P.E. John A. Kuske, III, P.C. Neal Vj. Andiew, P.C. J.A. Kuske, P.E. of Counsel 9101343-9653 910/343-W01 FC3X vp.,"i.andrewandkusl,e.com ! James T. Pyrtle, P.E. C. Lawrence Sneeden, Jr„ P.E. Srateormwater Management Systems 1 Permit NOS030405 TO: Linda Lewis, Environmental Engineer E NC DENR/Division of Environmental Management Water Quality Section 127 Cardinal Drive Extension Wilmington, NC 28405-3845 RE: Porters Neck Medac Health Services New Hanover County, NC A&K Project No. 02146 Engineer's Certification I, _ J. Phillip Norris, P.E. I , as a duly registered Professional Engineer in the State of North Carolina, having been authorized to observe (periodically, weekly, ftill time) the construction of the project, Porters Neck Medac Health Services (Project) for Medac Health Services, P.A. (Project Owner) hereby state that, to the best of my abilities, due care and diligence were 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. I Required items to be checked for this certification tobeconsidered complete are on page 2 of this form. i Noted deviations from approveds,"andsspecifications: JPN/asn 02146 02-25-05-s-sw-cert. _ .• : �:r w Signature Registratio 11966 Date February 25, 2005 I cc: Tony Roberts, New Hanover County Building Inspector Dale Key / Medac Health Services, P.A. a� I I I I SEAL DECEIVED FEB 2 5 2005 BY: Certification Requirements: The drainage area to the system contains approximately the permitted acreage. The drainage area to the system contains no more than the permitted amount of built -upon area. All the built -upon area associated with the project is graded such that the runoff drains to the system. i I The outletibypass structure elevations are per the approved plan. i The outlet structure is located per the approved plans. h rack is provided on the outlet/bypass structure. 11 slopes are grassed with permaJnt vegetation. tated slopes are no steeper thari 3:1. he inlets are located per the approved plans and do not cause short-circuiting of the system. he permitted amounts of surface area and/or volume have been provided. 1 Required drawdown devices are correctly sized per the approved plans. 12 Ail required design depths are provided. required parts of the system are provided, such as vegetated shelf, and a forebay. i overall dimensions of the system, as shown on the approved plans, are provided. I cc: Tony Roberts, New Hanover County Building Inspector Dale Key 1 Medac Health Services, P.A. } t *S&MEFebruary 4, 2003 1 Medac Health Services c/o Andrew & Kuske Consulting Engineers 902 Market Street I Wilmington, North Carolina 28401 Attention: Mr. Larry Sneeden, P.E. Reference: Preliminary Soil Drainage Evaluation Proposed Medac Site j Porter's Neck Area Wilmington, North Carolina Job Number 1063-02-4391 Dear Mr. Sneeden: RECEIVED FEB 0 S 2063 ANDREW MID KUSKE As requested, S&ME personnel have recently completed an evaluation of the near -surface drainage characteristics at a'� proposed Medac site in the Porter's Neck area of New Hanover County. This letter presents our understanding of the project, describes our field work, and discusses our findings concerning soil drainage at this site. Project Information The project site is locat4north of Wilmington, North Carolina on the west side of U.S. Highway 17 (Market Street) between Sweetwater Drive and Porter's Neck Road. We understand that the construction of a multi -story high office building is being considered for this site. In addition to the office building and paved access roads and parking areas, stormwater infiltration measures will be incorporated into the design of the facility. S&ME has been requested to evaluate the near -surface soils and water conditions to assist in siting the proposed facility. Soil Borings t I On December 2, 2002, our Mr. Richard Connell visited the project site and advanced seven hand-augered borings beyond the level of standing water. The depth of the borings ranged from 31/4 to 7 feet below the existing ground surface. The approximate location of these borings is shown in Figure 1. S&ME, Inc. �(910) 799-9945 6409 Amsterdam Way, Building B-3 ;(9101 799-9958 fax Wilmington, North Carolina 28405 ;www.smeinc.com { i 4 I it Medac Health Services February 4, 2003 1 Page Two t At each boring location, ,our personnel observed the recovered soil samples and classified them in accordance with the visual/manual methods outlined in ASTM D-2487 (Unified Soil Classification System). V In addition to the visual/manual classifications, we compared the coloration of the visually distinct layers of soil to a Munsell Soil Color Chart and took notes of zones of soil cementation. These observations were made in order to aid in identifying areas which could be proposed to the appropriate regulatory agencies for use with stormwater infiltration features. In general, the subsurface soils encountered at the boring locations consisted of fine to medium sands with varying amounts of silt (USCS Soil Groups SP, SP-SM, and SM). It appears that silty sands occur at a depth of about 2 feet below the existing ground surface across the eastern half of the property (Locations 1, 2, and 3). In addition, the depth to water at these locations at the time of our site visit ranged from approximately 43 to 48 inches below the existing ground surface. �I Across the western portion of the site (Locations 4 through 7), the depth to silty sands was typically deeper and rangedl from about 3% to 4 feet below the existing ground surface. However, at Location 5 the in -place soils only consisted of slightly silty sands which contain less silt than the on -site silty sands. The depth to water measured on December 2, 2002, at Locations 4 through 7 ranged from about 5 to 6 feet below the existing ground surface. Slightly cemented silty sands (known locally as "hardpan") were noted at Locations 1 and 7. At Location 1, the slightly cemented silty sands were noted from a depth of 22 to 36 inches and from a depth of 39, to 60 inches below the existing ground surface. At Location 7, the slightly cemented silty sands were observed from a depth of about 12 to 18 inches below the existing ground surfaced Because cemented silty sands exhibit low infiltration rates, they are often considered by regulatory personnel to be a restrictive horizon. It is our opinion that the cemented silty sands at Location 1 would be considered a restrictive horizon, whereas the silty sands at Location 7 are so weakly cemented that they would not be considered a restrictive horizon. Detailed descriptions of the subsurface conditions encountered at each of these boring locations are presented in Table 1. 1 Medac Health Services February 4, 2003 Page Three On -Site Meeting On January 27, 2003, our, Mr. Michael Behen met with Messrs. Larry Sneeden of Andrew & Kuske Consulting Engineers 'and Vincent Lewis with the North Carolina Department of Natural Resources. The purpose of this meeting was to discuss the proposed project with Mr. Lewis, advance shallow hand-augered � borings at representative locations, and discuss the seasonal high water table conditions at this site. i The first boring, which was advanced at the eastern end of the site, encountered wet silty sands at a depth of about 24 inches below the existing ground surface. Four additional borings were advanced across the site (near Locations 3, 4, 5, and between Locations 6 and 7). The depth to the seasonal high water table at these locations ranged from approximately 36 inches to greater than 60 inches. A summary of these seasonal high water tables is presented in Table 2. 11 Infiltrometer Testing j On January 28 and 29, 2003, S&ME personnel conducted double -ring infiltrometer testing at three locations. Specifically, this testing was conducted near locations 3, 5, and 6, as shown in Figure 1. Each test was conducted at a depth of approximately 12 inches below the existing ground surface. The average infiltration rates measured at these test locations ranged from approximately 33 to 40 inches per hour. Summaries of the field test results are presented in Tables 3, 4, and 5. I Conclusions In our opinion, the subsurface soil and water conditions across the western half of the site (Locations 4 through 7) will provide the greatest useable depth below site grade for an infiltration system. Allowing for two feet of vertical separation above the estimated seasonal high water level, we feel that infiltration systems introducing water into the soils at depths ranging from about 1'/2 to 3 feet below the present site grade would be feasible at Locations 3 through 7. The subsurface conditions occurring across the eastern portion of the site (Locations 1 and 2) would not, in our opinion, be suitable for stormwater infiltration systems due to the shallow water levels and the presence of shallow layers of cemented soil or silty sands. I i I Medac Health Services February 4, 2003 Page Four I f II I I Closing Remarks I We appreciate having the opportunity to provide our services during this phase of the project. If you have any questions after reviewing this letter, please do not hesitate to contact us at your convenience. Very truly yours, IY S&ME, INC. Y David L. Winstead Construction Services Manager Michael W. Behen, P.E. Senior Geotechriical Engineer DLW :MWB/j ns Attachments Il I I Y II i I I 'Y I I I I Y I Munsell Soil Descriptions Medac Health Services ' Porter's Neck Wilmington, North Carolina ,lob No. 1063-02439 Depth i Location (Inches)Hue Value/Chroma Soil Description 1 0-10 2.5 Y i 4/1 ''� Dark Gray Fine to Medium SAND - Trace of Silt and Organics 10-22 10 YR 6/2 Light Brownish Gray Fine to Medium SAND - Trace of Silt 22-36 10 YR 2/1 Black Fine to Medium SAND - Some Silt (Slightly Cemented) 36-39 10 YR 3/1 Very Dark Gray Fine to Medium SAND - Trace of Silt 39-60 10 YR 2/2 ` Very Dark Brown Fine to Medium SAND - Some Silt (Slightly Cemented) Water was encountered at a depth of 47" below the existing ground surface. Estimated seasonal high water table at 22". t 2 0-6 2.5 Y 4/1 Dark Gray Fine to Medium SAND - Trace of Silt and Organics 6-24 10 YR 6/2 , Light Brownish Gray Fine to Medium SAND - Trace of Silt 24-34 10 YR 2/2 Very Dark Brown Fine to Medium SAND - Some Silt 34-39 10 YR 3/ 1 Very Dark Gray fine to Medium SAND - Trace of Silt 39-45 10 YR 2/1 Black Fine to Medium SAND - Some Silt Water was encountered at a depth of 43" below the existing ground surface. Estimated seasonal high water table at 24". 3 0-26 10 YR 6/1 Gray Fine to Medium SAND - Trace of Silt and Organics 2640 7.5 YR 3/2 1 Dark Brown Fine to Medium SAND - Some Silt 4046 10 YR 4/2 Dark Grayish Brown Fine to Medium SAND - Some Silt 46-58 10 YR 5/2 Grayish Brown Fine to Medium SAND - Trace of Silt i Water was encountered at a depth of 48" below''the existing ground surface. Estimated seasonal high water table at 26". I i I I I I III I Munsell Soil Descriptions Job No. 1063-02-439 I I Page Two k Depth { Location Inches Hue Value/Cliroma Soil Description 4 0-6 2.5 Y 411 } Dark Gray Fine to Medium SAND - Trace of Silt and Organics 6-24 10 YR 6/ 1 ; Gray Fine to Medium SAND -Trace of Silt 2443 2.5 Y 6/3 4 Light Yellowish Brown Fine to Medium SAND - Trace of Silt 4349 10 YR 4/2 '� Dark Grayish Brown Fine to Medium SAND - Some I Silt 49-72 10 YR 311 Very Dark Gray Fine to Medium SAND - Some Silt I Water was encountered at a depth of 65" below the existing ground surface. Estimated seasonal high water table at 43". t 5 0-8 2.5 Y 511 Gray Fine to Medium SAND _ Trace of Silt and Organics 8-26 2.5 Y 711 Light Gray Fine to Medium SAND - Trace of Silt 26-32 10 YR 4/4 ! Dark Yellowish Brown Fine to Medium SAND - Trace of Silt 32-60 2.5 Y 6/4 Light Yellowish Brown Fine to Medium SAND - Trace of Silt 60-84 10 YR 512 I Grayish Brown Fine to Medium SAND - Trace of Silt Water was encountered at a depth of 72" below the existing ground surface. Estimated seasonal high water table at 60". 6 0-16 2.5 Y 5/1 Gray Fine to Medium SAND - Trace of Silt 16-38 2.5 Y 6/4 Light Yellowish Brown Fine to Medium SAND - Trace of Silt 38-49 2.5 Y 613 Light Yellowish Brown Fine to Medium SAND - Trace of Silt 49-60 10 YR 3/1 Very Dark Gray Fine to Medium SAND - Some Silt 60-72 10 YR 2/2 j Very Dark Brown Fine to Medium SAND - Some Silt Water was encountered at a depth of 66" below the existing ground surface. Estimated seasonal high water table at 49". 1 I I 3 I f 4 t Munsell Soil Descriptions Job No. 1063-02439 Page Three f Depth Location Inches Hue Value/Chroma 7 0-12 2.5 Y 4/1! 1 12-18 2.5 Y 4/3 Soil Descri lion Dark Gray Fine to Medium SAND - Trace of Silt and Organics Olive Brown Fine to Medium SAND - Trace of Silt and Organics (Slightly Cemented) 1840 2.5 Y 6/4 1 Light Yellowish Brown Fine to Medium SAND - Trace of Silt 40-68 2.5 Y 6/2 . Light Brownish Gray Fine to Medium SAND - Trace i of Silt Water was encountered at a depth of 60" below the existing ground surface. Estimated seasonal high water table at 40". I I i 1 I 'E i I i i TABLE 2 Seasonal High Water Table January 27, 2003 Site Visit Medac Health Services Porter's Neck Wilmington, North Carolina Job No. 1063-02-439 i i Approximate Location Depth to SHV Tt') Ground Elevation(2) 3 36" i 50' 4 52" 1 52.5' 5 60" 53.5' 6/7(3) 40" % 52' i i I ('Seasonal High Water Table (2)Elevations estimated by Andrew & Kuske Consulting Engineers personnel (3)Boring advanced between Locations 6 and 7 Approximate SHWT Elevation 47' 48' 48.5' 48.5' . I 4 I I TABLE 3 Double Ring Infiltrometer Testing Medae Health Services jPorter's Neck Wilmington, North Carolina Job No. 1063-02-439 I Location: 3 Date of Test: 1-28-03 j Depth of Test Below Site Grade: 12 inches i i Depth of Water in Rings: 5'/z inches i Inner Diameter of Inner Ring: 11'/a inches { I Inner Diameter of Outer Ring: 22'/z inches I Average Infiltration Rate at: 33 inches per hour I� SOIL PROFILE Depth Location Inches Hue ValuelChroma Soil Description i 3 0-26 10 YR 611 Gray Fine to Medium SAND - Trace of Silt and Organics 26-40 7.5 YR 3/2 �, Dark Brown Fine to Medium SAND - Some Silt 40-46 10 YR 412 i Dark Grayish Brown Fine to Medium SAND - Some Silt 46-58 10 YR 5/2 i Grayish Brown Fine to Medium SAND - Trace of Silt Water was encountered at a depth of 48" below, the i I f existing ground surface on December 2, 2002. I I I I i �I TABLE 4 Double Ring Infltrometer Testing Medac Health Services � Porter's Neck Wilmington, North Carolina Job No. 1063-02-439 fi i i Location: 5 1 Date of Test: 1-29-03 Depth of Test Below Site Grade: 12 inches Depth of Water in Rings: G'/2 inches Inner Diameter of Inner Ring: 11'/a inches I Inner Diameter of Outer Ring: 22%z inches i Average Infiltration Rate at: 40 inches per hour I SOIL PROFILE Depth Location Inches I-lue Value/Chroma Soil Description 5 0-8 2.5 Y 511 } Gray Fine to Medium SAND - Trace of Silt and Organics 8-26 2.5 Y 711 Light Gray Fine to Medium SAND - Trace of Silt 26-32 10 YR 4/4 II Dark Yellowish Brown Fine to Medium SAND - I, Trace of Silt 32-60 2.5 Y 6I4 Light Yellowish Brown Fine to Medium SAND - I Trace of Silt 60-84 10 YR 5/2 Grayish Brown Fine to Medium SAND - Trace of Silt I A Water was encountered at a depth of 72" below, the existing ground surface on December 2, 2002. I TABLE 5 Double Ring Infiltrometer Testing Medac Health Services Porter's Neck Wilmington, North Carolina Job No. 1063-02-439 i Location: 6 Date of`rest: 1-29-03 # i Depth of Test Below Site Grade: 12 inches } Depth of Water in Rings: 6'/2 inches I Inner Diameter of Inner Ring: 111/4 inches Inner Diameter of Outer Ring: 22% inches Average Infiltration Rate at: 35 inches per hour li SOIL PROFILE Depth Location Inches Hue Value/Chroma Soil Description 6 0-16 2.5 Y 5/1 Gray Fine to Medium SAND - Trace of Silt 16-38 2.5 Y 6/4 Light Yellowish Brown Fine to Medium SAND - Trace of Silt 3849 2.5 Y 6/3 ; Light Yellowish Brown Fine to Medium SAND - Trace of Silt 49-60 10 YR 3/1 Very Dark Gray Fine to Medium SAND - Some Silt 60-72 10 YR 2/2 Very Dark Brown Fine to Medium SAND - Some Silt Water was encountered at a depth of 66" below the existing ground surface on December 2, 2002. I I I I m � rn u � N O O 4J 1 u 00 R O Z 2 LL 154 D ANDREW & KUSKE CONSULTING ENGINEERS, INC. Memorandum To: Mike Behen, S&ME From: Larry Sneeden Date: January 29, 2003 Re: SHWT Estimates Project: Porters Neck Medae Site A&K 9 02146 The following is my record of the field data collected during our site visit with Vincent Lewis. Please incorporate this information into your report for submittal to DENR with the stormwater permit application. The boring locations are your numbers included in your preliminary report of 12/4/02. Boring 4 Depth to Ground SHWT SHWT Elevation Elevation 3 36" 50' 47' 4 52" 52.5' 48' 5 60" 53.5' 47.5' 6/7 40" 52.0' 48.7' CC: Michael Kersting Dale Key 902 MARKET STREET WILMINGTON, NORTH CAROLINA 28401-4733 9101343-9653 FAX 910/343-9604