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SW7060533_HISTORICAL FILE_20120409
STORMWATER DIVISION CODING SHEET POST -CONSTRUCTION PERMITS PERMIT NO. SW DOC TYPE ❑CURRENT PERMIT ❑ APPROVED PLANS HISTORICAL FILE DOC DATE �61/ WYYMMDD I 13,116;J3111 rN" coasoal f- Xperto April 6, 2012 Mr. Roger K. Thorpe Environmental Engineer NC Division of Water Quality Washington Regional Office 943 Washington Square Mall Washington, NC 27889 Re: 4244 — Coastal Accents — SW7060533 Dear Mr. Thorpe: RECEIVED APR - 9 2012 DWQ-WARO am in receipt of the enclosed letter dated April 5, 2012 from The Division of Water Quality regarding the Stormwater Management Permit for Coastal Accents. I am sending this letter to inform you that Coastal Accents as of this date has not been developed. If this project moves forward in the future, we will provide the requested information upon completion, If you have any question or concerns regarding this information, please do not hesitate to contact me at 252-261-3266. Sincerely, BisseA PrAssioal Group Bissell, P.E. Cc: Mr. James M. Rose, Jr. P.O. Box 1068 ■ 3512 N. Croatan Hwy. ■ Kitty Hawk, NC 27949 252-261-3266■ Fax: 252-261-1760 ■ E-mail:bpg@blssellprofessionalgroup.com N� MC®ENR North Carolina Department of Environment and Natural Resources Division of Water Quality Beverly Eaves Perdue Charles Wakild, P. E. Dee Freeman Governor Director Secretary April 5, 2012 Mr. James M. Rose, Jr. Grandy Express, LLC P.O. Box 147 Harbinger, NC 27941 Subject: Failure to -Provide Certification Stormwater Management Permit SV 7060533 Coastal Accents Currituck County Dear Mr. Rose: This letter is to inform you of certain conditions of your stormwater permit that have not been met. A.Division .of Water Quality file review confirms that a certification of completion has not been submitted. Permit condition number II. 6 states "Upon completion of construction and prior to operation of this permitted facility, a certification must be received from an appropriate designer for the system installed certifying that the permitted facility has been installed in accordance with this permit, the approved plans and specifications, and other supporting documentation. Mail the Certification to the Washington Regional Office, 943 Washington Square Mall, Washington, North Carolina 27889, attention Division of Water Quality" Please'provide a copy of the certification or a statement that the project has not been constructed to this Office at the letterhead address within 30 days of receipt of this letter. If you have questions, please feel free to contact me at (252) 948-3923. Sincerely, x-,v /C po>� Roger K. Thorpe Environmental Engineer Washington Regional Office Cc Bissell Professional Group North Carolina Division of Water Quality Internet: un�c.ncuateruu�lia�.ore 943 Washington Square Mall Phone: 252-946-6481 One Washington, NC 27889 FAX 252-946-9215 NorthCaro ina An Equal 0pportun4/Affimta*e Action Employer — 50% RetydW10% Post Consumer Paper ( /Vat / jvi f / q y � � � � .� � ' . - � � � f � � 1 {S � � � 1 f. e. � .� �. � j, 1 ;AF NCDENR North Carolina Department of Environment and Division of Water Quality Beverly Eaves Perdue Governor Mr. James M. Rose, Jr. Grandy Express, LLC P.O. Box 147 Harbinger, NC 27941 Dear Mr. Rose: Charles Wa€ciid, P. E. Director April 5, 2012 wall o Natural Resources Dee Freeman Subject: Failure to Provide Certification Stormwater Management Permit SW7060533 Coastal Accents Currituck County This letter is to inform you of certain conditions of your stormwater permit that have not been met. A Division -of Water Quality file review confirms that a certification of completion has not been submitted. Permit condition number II. 6 states "Upon completion of construction and prior to operation of this permitted facility, a certification must be received from an appropriate designer for the system installed certifying that the permitted facility has been installed in accordance with this permit, the approved plans and specifications, and other supporting documentation. Mail the Certification to the Washington Regional Office, 943 Washington Square Mall, Washington, North Carolina 27889, attention Division of Water Quality" Please provide a copy of the certification or a statement that the project has not been constructed to this Office at the letterhead address within 30 days of receipt of this letter. If you have questions, please feel free to contact me at (252) 948-3923. Sincerely, X ;x;)� Roger K. Thorpe Environmental Engineer Washington Regional Office Cc Bissell Professional Group North Carolina Division of Water Quality Internet: +r,r++.nc+ca[erqunlih.org 943 Washington Square Mall Phone: 252-946-6481 One Washington, NC 27889 FAX 252-946-9215 NorthCarohna An Equal OpportunitylAffirnta*e Action Employer - 50% Recyde&10% Post Consumer Paper Vatmlly The Goasial f x ertg Hand Delivered 0 Over -Nits Mail E] Faxed Mailed To: Mr. William Moore Date: May 18, 2006 Water Quality Section fA� NCDENR r 943 Washington Sq. Mall Washington, NC 27889 MAY 2 2 2006 Project: Coastal Accents, Grandy We Transmit: Herewith: El FOR YOUR: x Approval review & comments Use Other Project No.: 4244 DWQ-WARO Copies Description Date 2 Stormwater management plans 5-18-06 1 Stormwater Management Application w/ supplement 5-18-06 Narrative, & Calculations 1 $420 Application Fee 5-18-06 Comments: Bill, On behalf of Grandy Express, LLC, BPG requests your review of the proposed stormwater management plans for the Coastal Accents commercial site located in Grandy, Currituck County, NC. If you have any comments or questions pertaining to this information, please do not hesitate to contact me. Sincerely, Bissell Professional Group David M. Klebitz P.O. Box 1068 ■ 3512 N. Croatan Hwy. ■ Kitty Hawk, NC 27949 252-261-3266■ Fax:252-261-1760 ■ E-mail:bpg@bissellprofessionalgroup.com II. Stormwater Management Narrative: The following developmental activities require a stormwater management permit under Rule .1003 of the NCDENR Division of Water Quality Administrative Code for Stormwater Management, 15A NCAC 21-1.1000. Developmental activities will result in the project being permitted pursuant with Rule .1005 (2) (d), High Density Projects, with proposed built -upon area of 30% or greater, with best management practices being employed via; vegetative buffers, grassed swales, and wet detention basins. The intent of this application, to the maximum extent possible, is to employ best management practices for all pro�6sed developmental activities. The 2.00 ac. subject property is located on the west side of US Highway 158, approximately 500 ft from the roadway intersection of Walnut Island Rd., (SRI 186), and US Highway 158 along Forbes Loop Rd. in Grandy, Currituck County, North Carolina. The site is currently being utilized for the on -site ww disposal system that services the Grandy Express Convenience store and gas station, located to the east on Hwy 15S. The proposed developmental activities will consist of the removal of the existing ww disposal system and the construction of a single 15,000 sq.fl. retail building with concrete sidewalks, asphalt parking & drives in association with utility & drainage infrastructure improvements to service the Coastal Accents Commercial development. An on -site visit was conducted by David Meyer, L.S.S. of Protocol Sampling Service, Inc. to investigate the existing groundwater profiles through on -site soil borings to be used in the determination of suitability for wastewater disposal system and drainage improvements. Based on the investigation of the soil profile taken in the approximate location of the proposed wet detention basin it was discovered that the seasonal high water table is 30" below the existing ground surface. The soil investigation provided the useful information necessary in determining the size, type, and location of stormwater drainage improvements for the associative developmental activities. The following is a summary of the predominant soils found within the areas of investigation; (See attachment C for soils report) The soils encountered on the site reasonably match the soils mapped by the Soil Conservation Service in the 1988 Soil Survey of Currituck County, North Carolina. The soil mapped was the Dragston Loamy Fine Sand, which is described as nearly level, somewhat poorly drained, and is usually found in low ridges along streams that flow to the Currituck Sound. Subsurface permeabilities range from 2.0 to 6.0 inches per hour and the seasonal high water table fluctuates between 1 to 2.5 ft below the surface. Soil Boring B5- Location of the Proposed Wet Detention basin Soil Series: Dragston loamy fine sand Vegetation: Mainly grassed Existing Surface Elevation: 11.5' fmsl Seasonal Hiah Water Table: 9.0' fmsl Slope. 0-2% Depth Description 0"-18" Brown Gray loamy sand 18"-30" Dark Gray sandy clay loam 30"-48" Gray sandy foams MAY 2 2 20V6 DWQ-WARD The sight was found to be primarily Hat, with slopes ranging between 0-1 percent. An existing . drainage way runs from west to east along the southern property line to a point midway of the lot where it then turns to the north and crosses through the middle of the site. An existing detention pond that services the food Lion shopping center to the north borders the western boundary of the site. Narrow wooded areas border both the western and southeml boundaries. The existing drainage for the site primarily sheet flows to the nearest section of existing drainage ditch which is connected to a culvert pipe that runs to the north across the food Lion site and empties to a drainage ditch that then runs east under HWY 158 and out to the Dowdys Bay tributary that connects to the adjoining Currituck Sound. The surface waters within Dowdys Bay have been classified "SC". All developmental activities are to be designed in conformity with the requirements for application and issuance of permits for stormwater management systems in pursuant with rules .1003 and .1005 in accordance with G.S. 143-215.1 and 15A NCAC 2H .0200 as set forth. These requirements are designed to control pollutants associated with stormwater ninoff applicable to development of land for residential, commercial, industrial, or institutional uses. The I developmental activities described herein were designed in compliance with the requirements as set to for stormwater management within coastal counties Rule .1005, section 3, subparagraph B: (i) Control systems must be infiltration systems, wet retention ponds, or alternative stormwater management control systems designed in accordance with Rule .1008; (ii) Control systems must be designed to control runoff over the entire drainage area generated by one inch of rainfall. Design of the active stormwater management measures are based on the design criteria indicated in .1008(e) Wet Detention Pond Requirements, under the NCDENR Division of Water Quality Administrative Code for Stormwater Management, 15A NCAC 2H.1000. Design of the conveyance measures are based on the design criteria indicated in .1008(f) Design of The project will consist of the construction of (t) 15,000 s.f. commercial building, concrete sidewalks, asphalt drives and parking and utility and drainage infrastructure improvements service the development. Based upon the nature and size of the tract, the site design will contain only (1) drainage basin. Rainfall runoff from all the proposed parking & driveisurfaces, to the maximum extent possible, will primarily sheet flow overland into a vegetative conveyance swale via concrete flumes or a system drop inlets and culverts, ultimately discharging to the wet detention basin located along the projects western boundary. Roof runoff associated with the building ) will be collected by a perimeter gutter system that will also discharge to the vegetative conveyanceswale. Stormwater runoff from the proposed impervious surfaces will receive treatment from the grassed lined swale and wet detention basin. Pipe connections to vegetative conveyances will aid in the distribution and increase pollutant removal efficiency of stormwater runoff in association with the allowance for additional stonmwater storage capacity. Rip -Rap inlet protection will be placed at the basin inlet and all connection to the vegetative conveyance swale for velocity dissipation an to aid in infiltration and sediment removal. The wet detention basin will collect sediment within its forebay section prior to transitioning into the main pond section. The detention basin will accommodate approximately 2.6" of stormwater storage 1 prior to overflowing into the shallow vegetated outlet swale/drawdown device on the southern end of the pond. The 30' vegetative overflow swale will deposit residual runoff into an existing vegetative Swale that parallels the southern boundary and connects to the main drainage outlet described above. Based on the system desigm, stormwater runoff from proposed impervious surfaces will receive treatment in the form of vegetative buffers, gassed swales, and a wet detention basin. Vegetative buffers will be provided, to the maximum extent possible, for pollutant filtration. The vegetative buffer is described as a passive best management practice that provides a small degree of filtration and pollutant removal from stormwater runoff. The vegetative conveyance swale consists mainly as a broad, shallow, vegetative filter constructed with approximately 3:1 side slopes, Longitudinal slopes are kept relatively flat, to provide for low velocity flow, thereby aiding infiltration and sediment removal. Enhanced removal efficiency from stormwater conveyed into this measure is achieved through a minimum filtration length of 60 feet. This practice' is also described as a passive in accordance with best management practices. The intent of the design is to provide adequate pollutant filtration measures from stormwater runoff resulting from the proposed high -density development. Measures were designed, to the maximum extent possible, to treat runoff from the associated development in accordance with best management practices. Proposed impervious surface areas were utilized to compute the required storage volume from the associated 1.0 inch rainfall storm event, Olease reference attachment ,4 for stormwater management calculation.). It is expected, that these measures will enhance the pollutant removal efficiency and provide sufficient protection to the adjoining'surface waters. A Vegetative filter will be employed at the outlet of the wet 'detention pond via the existing 200 lineal foot, naturally vegetated, ditch that runs along the souther property line. A level spreader will be added to the ditch bringing the filter into accordance with the "vegetative filter" definition defined in Rule .1002 of Subchapter 21-1 Procedures for Permits: Approvals, Stormwater Management Rules, September 1, 1995. Stormwater runoff from all impervious surfaces will receive a form of pollutant and sediment removal as described in best management practices. The following information is in conformance with the regulations as specified for high -density development: 1) Proposed impervious coverage of 55.67% over the total development area 2) Provision of vegetative conveyances along the outer periphery of asphalt drives & parking to collect and transport stormwater runoff from all impervious surfaces. 3) Provision of wet detention basins for temporary stormwater storage for the design storm event in conjunction witht 85% pollutant removal. 4) Provision of a vegetative filter at the outlet of the wet detention pond to further aid in pollutant and sediment removal. An easement has been set for the stormwater management basin for the purpose of operation and maintenance. A drainage casement has been provided around the perimeter of the wet detention basin. Access is provided through the parking & drive area. 1) Accumulated sediment within the basiim shall be removed semi-annually or when depth is reduced to 75% of the original design depth. (See individual wet detention basin supplements for proper levels) i LC; MAY 2 2 2006 DWQ-WARQ Wet Detention Basin Coastal Accents 5/17/2006 Stormwater Management Calculations Design Storm Event Storrnwater Management 15A NCAC 211.1005 3(b) Soils Report Data LO in. rainfall event Soil Type * Dragston loamy fine sand Infiltration Rate* (IR) 6.0 in/hr. Seasonal High Water Table Elev. ** 9.0 ft. finsl *Taken front the Soil Sunny Manual, U.S. Dept. of Agriculture **Data taken front Out -Site Sunny Data Collection Drainage Basin Area Data I On -site Drainage Area 87189.23 ft. Off -Site Drainage Area 0 ft. Total Drainage Area 87189.23 ft. a MAY 2 2 2006 ®Q-VUARQ 2.00 ac. 0.00 ac. 2.00 ac. Subarea Description` Area T` (F) Factor © Adj. Impervious Area (FT`) Adj. Impervious `Area'(Ac.)` Building 15,000 1.00 j 15,000 0.34 Parking 30, 962.0 1.00 1 30,962 0.71 Concrete walks 2,579.0 1.00 1 2,579 0.06 Green Open Space 1 38,648.2 1 0.00 i 0 0.00 Total Drainage Area (ft') 87,189.2 2.00 Calculated Impervious Coverage 48,541 1.11 Percent Intpemious(1) 55.67 % Rv = .05+ .009(I) 0.55 Required Pond Volume (f13) (PV) = (1 "112")xR ,.xDA u 3,996 f t Proposed Pond Depth 3.50 ft. SAIDA (UseSAIDA Table for 85% T.SS Removal, 3.5'depth) 4.20% Pond Area Required (SA) = DA x SAIDA 3,662 ft ` Surface Area Provided a Permanent Pool Elevation (SA nr) 4,252 ft ` Surface Area Provided > Surface Area Req'd YES Existing Ground Elevation (approx.) 11.50 ft. nu'1 Permanent Pool Elevation (approx.) 9.00 ft. ntsl Depth of Temporary Pool Storage (1'VISapr) 2.00 ft. Proposer! Temp. Pool Elevation (TPeu,.,,) 11.00 ft. /list Proposer( Temporary Pool Surface Area (SA +n) 6,283 f i - Proposed Basin Outlet Elevation (0,1,1,) 11.00 ft, nnsl Total Storage Volume Provided (SV) 10,535 ft' Storage Volume Provided>Storage Vohone Req'd YES Forebay Calculations Volume Provided @ Perm. Pool Elev. 5,906 ft3 Forebay Volume Required = (20% of Total) = 1,181 ft3 Forebay Volume Provided = (@ 3.00' Depth) = 1,323 ft3 Drawdown Calculations Qd,;,.d.. = (SV/Period of Time) Total Storage Volume Provided 10,535 ft' 78,804 gal. Q = 11.79 d ` h"- (h = 112 of the static head, measured front the temp. pool elevation to the cl of the orifice) Q 2day = 0.061 cfs 27.37 gpnn Q 5day = 0.024 cfs 10.95 g1wn 112 h: (112 static head from temporary pool to permanent pool for storm event) 1.00 Choose a circular outlet orifice 1.00 in Calculate a 1.5" diameter orifice Q= 11.79 gpnt Is the drawdown period between 2-5 days YES Drawdown Period 6684,00 mint. = 4.64 days Drawdown Period is ¢ 5 days O.K. ,��` A OI •�• °°e •set i .4L , 4: ��illa Rdgw41' ^��, MAY 2 2 2006 DWQ-WARD 1 4244 Tributary Drainage Analysis 10 yr Design Storm Event — Rational Method Drainage Analysis Overview: As part of the proposed development of the Coastal Accents site, an existing drainage ditch that runs from south to north across the center of the project area will need to be substituted with a culvert pipe(s). To appropriately determine the size of an adequate culvert to replace the existing drainage feature a drainage tributary analysis has been completed to estimate upstream runoff quantities during a I Oyr storm event. The following upstream runoff quantity combined with proposed post development on -site runoff quantity, previously determined in attachment A, will provide the necessarylinformation needed to appropriately size the proposed culvert substitution. Using the Rational Method the following is a conservative approximation of the runoff associated with an estimated 200 acrejupstream tributary. Calculation of Required Input Information: Weighted runoff Coefficient Description Area (ac) Curve Number Approximate Wooded Area 41.0 .15 Approximate Impervious Area 4,0 .85 Approximate Sandy Soil Flat Lawn 150.0 .075 Total: 195.0 Weighted Coe ff. 0.11 Time of concentration Calculator Sheet Flow Description ..................... GRASS (GOOD CONDITION) TYPE C SOIL Manning's n ..................... 0.24 Flow Length ..................... 300.0000 ft Two Yr, 24 hr Rainfall .......... 4.3000 in Land Slope ...................... 0.0090 ft/ft Computed Sheet flow time .............. ......... > 0.68 hrs Channel Flow Description,,. .................. GRASS SWALE Avg. Flow Area .................. 16.667 ft2 Avg. Wetted Perimeter ........... 11,00 ft Flow Length ..................... 3552,0000 ft Channel Slope ................... 0.001 ft/ft Manning's n ..................... 0.0175 Avg. Hydraulic radius ........... 1.51388 ft Avg. Velocity ................... 3.54 fps Computed Channel flow time .....................> 0.2787 hrs Total Time of Concentration .........................> 0.9587 hrs 1.0 hour Peak Discharge Rate Rational Method: Upstream Tributary Given Input Data: Description ................................... 4244 Tributary Frequency ..................................... 10 years Time of Concentration/Duration....... 1.0 hour ' Rainfall intensity, i ....................... 2.750 in (from duration curves 1-fatteras/Raleigh) Drainage area, A ............................ 195 ac Weighted Runoff Coefficient, C ......... 0.11 Computed Results: I Peak discharge rate, Qp = C*I*A 4 59.0 efs I Total estimated peak discharge rate into proposed clulvert: Peak discharge from tributary ............................ 59.0 cfs Peak discharge from proposed development............ 0.85 cfs Peak discharge from adjoining pond overflow ......... 5.0� cfs Total peak discharge ............................. 64.85 cfs l Proposed culvert sizing: Mannings formula for circular pipe flowing full Given Input Data: Flow rate ...................................... 32.5 cfs (half of peak discharge rate, 65 cfs) Slope ....................................... 0.002 ft/ft Manning's n................................. 0.012 Computed Results: Pipe Diameter ............. 36 in. Flowrate ........................ 32.3141 cfs Area ............................ 7.0686 ft2 Wetted Area ..................... 7.0686 ft2 Wetted Perimeter ................ 113.0973 in Perimeter ....................... 113.0973 in Velocity ........................ 4.5715 tps Hydraulic Radius ................ 9.0000 in Percent Full .................... 100.0000 % Full flow Flowrate .............. 32.3141 cfs Full flow velocity .............. 4.5715 fps Critical Information Critical depth .................. 27.0559 in Critical slope .................. 0.0045 ft/ft Critical velocity ............... 7.8857 fps Critical area ................... 5.7983 ft2 Critical perimeter .............. 74.6605 in Critical hydraulic radius ....... 11.1833 in Critical top width .............. 36.0000 in Specific energy ................. 3.5033 ft Minimum energy .................. 3.3820 ft Fronde number ................... 0.6131 Flow condition .................. Subcritical Drainage Analysis Summary: Various methods have been utilized to determine the combined peak point discharge from both the upstream tributary and proposed on -site development. The resulting peak discharge rate is then utilized to determine the appropriate culvert sizes needed to replace an existing ditch that currently runs through the proposed development area. It was determined that the estimated combined peak point discharge at the inlet of the proposed culverts would be 65 cfs. Installing a single culvert capable of handling this quantity of runoff is unpractical and thus (2) parallel culverts shall be installed.�Calculations show that the combination of (2) 36" concrete culvert pipes will adequately handle the estimated 65cfs runoff generated from a 10-yr storm event. MAY 2 2 2006 DVUQA^JARO i i PROTOCOL SAMPLING SERVICE� INC. �% national � P.O. Box 31133, Raleigh, NC 27622 * (919) 210-6547 / Fax (919) 510-5901 CERTIFIE4 c.w.a. May 5, 2006 Mr. David Ryan, P.E. Bissell Professional Group, Inc.Post Office Office Box 1068 `r 7:. Kitty Hawk, North Carolina 27949 Re: Storm Water Retention Basin Soil Investigation i MAY 2 2 2006 Proposed Grandy Express Grandy, Currituck County, North Carolina ` ���� Protocol Project #06-24 I} Gear Mr. Ryan: The following Soil Investigation is submitted to assist in a site assessment for a proposed storm water retention basin system located adjacent to the existing Food Lion Shopping Center, Grandy, Currituck County, North Carolina. SITE HISTORY AND PHYSICAL CHARACTERISTICS I The tract is currently developed with a gasoline relaillconvenient store and is adjacent to the Food Lion Shopping Center in Grandy, North Carolina. Protocol Sampling Service,�lnc. of Raleigh, North Carolina was hired to Pei -form .a_curs9ry uiv,estifation to: identify, the depth ,to seasonal high water table and if any restrictive layers are present across the site Lo order to.detennine the opt mum location for the storm water basin. SOIL INVESTIGATION I The field survey was conducted on Wednesday March 15, 2006. Five (5) soil borings were advanced to between 48 inches and 72 inches below the land surface (b.ls) with a handlauger throughout the site. Soil color was determined with a Munsell Soil Color Chart. The prese'nce-of fill or other disturbances, the depth to the seasonal high water table, soil structure and consistence were noted (Soil Profiles — attached). Ali boring locations were marked in the field using the Site Plan as a guide. The borings were also checked for reduced colors, an anaerobic smell or obvious soil wetness. FINDINGS • The soil was found io have a depth to seasonal high water table of20 to 30 inches from east to west across the site. No obvious sign of prolonged saturation above 20-inches' (perched water) was observed across the site. }. • The static water table was measured in each borehole 1 hour after (advancement. The water table was found at depths ranging from 30 to 40 inches bIs in the east and west portions of the site, respectively, • The estimated infiltration rate at through the subsurface which conitams a sandy loam texture is expected to exceed 1 irich/hour. !I i Recommend ati its ` The storin water retention basin should be.located in the area of soil boring 5 at the rear of the site where the greatesf depth to the seasonal. high water table was cncounte icd. The findings and recommetidations I DIRECT PUSH TECHNOLOGY (EARTHPROBE 200) • MONITOR WELL INSTALLATION • SOIL MAPPING WETLAND DELINEATION • NC LICENSED WELL CONTRACTOR • NC LICENSED SOIL SCIENTIST • NGWA CERTIFIED WELL DRILLER ,I I herein are based on the site conditions obsen, cd duri Ii performance of the field survey on March presented � 15, 2006. Please call me at (919) 210-6547 if you have any questions or need further assistance. Sincerely, II Protocol Sampling Service, Inc. David E. Meyer, L.S.S. r , President t _ rr 2 I ��L� �f [%;t t` ' rr DATI I J7 f3 � �v COUNTY Ca9(2tV0c. JjLCT '� _. .ZOPOSAL/ LOT4 'arent material (rcS/Coll/all) clay ,mneralogy:(sl.cxp./exp.?) Boring ft Boring Boring It Boring It DEVTH HORIZON l (7 _ ('91I r�:..t rr I COLOR �.5�f•;t��•n'!r,,a IsPJ ; 4:F[..� v�+! tSF1J b��+ STRUCTURE `xl,'>�- CONSISTENCE q, I I l COLOR k*k-? PV, & 'VEXTURL FrL- �[.t 5�,L so, STRUCTURE Seµ, CONSISTENCE o.N '%,CLAY IJ I I DEPTI•I H01ZIZON III COLOR. TEXTURE: 5 0-- STRUC!'URC CONSISTENCE (� %,CLAY i t i DEi'-I-I-I I•IOI:IZON IV COLORL a I TEXTURE STRucruRE CONSISTENCES liII V Soil Depth ? Restrict. Hor7 Ld. Wcl? �us.7 l io slope Fs A'" 0- �.'i., - .t- LTAR soil CI,ASSTFICNI'fUN� I 1 NOWS: } �b i MS'gMG LOT 3A (;RANDY EXIKM LLC- a2.S93-16 SaFf.. 1,90 PR LOT 2r AREA ", 2.00 ACRES 0010 NCO OR FDRf LE LT ORMOYLLC PIS alol-000- 730- 0.a.153. PG022. OKAKDY LLC 'MASTE SYSTEM (AMROXMxTL umirs 0M.y) Nol- C' HOW OR FOMM.y GHWDY C. 0107-"LI-07O0-iX)OO 077 0. EW.M.. LOT M GRANDY FVRES!r LLr- 1.80 ACRES i. IR LOT W3�'. n,, ACRES 1 lie q%t AMM, umm A sm C4, :�E GruP= WALK OTITA 25VI Iff a C2 37.38 2 00 31 C4 7-m, 172. J244 F� I- C, E9 V `�D MAY 2 2 2006 �4 DWQ-WARO I I 4244 Vegetative Filter Design Calculations Existing 200 lineal foot vegetative channel to be used as vegetative filter. Channel stability calculations: 4 Peak Q 10 yen, storm event Filter Grade Soil Type: Vegetation: Permissible Velocity: Retardance Class Existing channel dimensions: Side Slope (Z): Base width (b): Depth (d): Cross Sectional Area(A)=bd+Zd2 Top Width (T)= b+2dZ Hydraulic Radius® = bd+zd2 b+2d(z2+ 1)1/2 5 cfs 0.1% 5/11/2006 Dragston Laomy Fine Sand (Easily Erodible) [Natural grasses and bushy growth 3.0 fps Conservative Approximation "C" uncut (Figure 8.05c, pg. 8.05.07) Based on 6" 10" avg. length 2.5 to 1 (Horizontal to Vertical) 7 3.5 55.125 ft2 24.5 ft. I 2.13 I VR: VN,,,,s,,;t,i„*Hydraulic radius: 6.40 Mannings "n" 0.034 (Figure 8;05c, pg. 8.05.07) Design Velocity = 1.49/n*R^(2/3)*S^(1/2) 2.3 fps Design Flow (Q): Q=AV 126.6 cfs i Design Velocity < Permissible Velocity YES Design Flow > Peak Q10yearstormeuent YES Design Data referenced front Erosion c& Sediment Control Manual, State of North Carolina Division of Land Resources, Land Quality Section Title I5A, Chapter 4 of NC Administrative Code I I I 1 Appendices I i Step 10. For grass -lined channels once the appropriate channel dimensions have been selected for low retardance conditions, repeat steps 6 through 8 using a higher retardance class, corresponding to tall grass. Adjust capacity of the channel by varying depth where side conditions permit. NOTE 1: If design velocity is greater than 2.0 ft/sec., a temporary lining may be required to stabilize the channel until vegetation is established. The temporary liner may be designed for peak flow from the 2-yr storm. If a channel requires temporary lining, the designer should analyze shear stresses in the channel to select the liner that provides protection and promotes establishment of vegctation. For the design of temporary liners, use tractive force procedure. NOTE 2: Design Tables —Vegetated Channels and Diversions at the end of this section may be used to ' design grass -lined channels with parabolic cross -sections. Step 11. Check outlet for carrying capacity and stability. If discharge velocities exceed allowable velocities for the receiving stream, an outlet protection struc- ture will be required (Table 8.05d, pg. 8.05.9). I Sample Problem 8.05a illustrates the; design of a grass -lined channel. I less than 2" E■EM■"WRI Ike►►_001111M• m0ME©4101�i�l��C�i :::��� ■�■�111111■�■■■■1::1■� .4 .6 a 1.0 I2 4 6 a 10 20 VR, Product of Velocity and Hydraulic Radius Figure 8.05c Manning's n related to velocity, hydraulic radius, and vegetal retardance. Note: From Sample Problem 8.05a multiply Vp x Hydralulic Radius (4.50,54=2.43), then enter the product of VR and extend a straight line up to Retardance class "D", next project a straight line to the left to determine a trial manning's n. I Rev. 12P3 8.05.7 1 4244 Vegetative Filter Design Calcullations i 5/1112006 Proposed vegetative overflow swale. Channel stability calculations: Peal{ Q 10 year storm event Filter Grade Soil Type: Vegetation: Permissible Velocity: Retardance Class Existing channel dimensions: Side Slope (Z): Base width (b): Depth (d): Cross Sectional Area(A)=bd+Zd2 Top Width (T)= b+2dZ Hydraulic Radius® = bd+zd2 b+2d(z2_+ 1) 1/2 1 cfs I 0.1% Dragston Laomy Fine Sand (Easily Erodible) Bermudagrass 5.0 fps i (Table 8.05a, pg. 8.05.04) "D" cut (Table 8.05c, pg. 8.05.08) 1 3 to 1 (Horizontal to Vertical) 4 1 7 ft2 i 10 ft. 0.68 I VR: Vpermitisible*Hydraulic radius: 3.39 Mannings "n" 0.04 (Figure 8.`05c pg 8.05.07) Design Velocity = 1.49/n*RA(2/3)*S^(1/2) 0.9 fps ; Design Flow (Q): Q=AV 6.4 cfs Design Velocity < Permissible Velocity YES Design Flow > Peak Q10yearstormeueni YES Design Data referenced from Erosion & Sediment Control Manual, Stale of North Carolina Division of Land Resources, Land QualitySection Title 15A, Chapter 4 of 'NC Administrative Code I I I i I I I Table 8.U5a Maximum Allowable Design Velocities' for Vegetated Channels I Typical Soil Grass Lining Permissible Veloci.ty3 Channel Slope Characteristics I for Established Grass Application Lining (ftlsec) 0-5% Easily Erodible Bermudaglrass 5.0 Non -plastic Tall fescue 4.5 (Sands & Silts) Bahiagrass 4.5 Kentucky bluegrass 4.5 Grass -legume mixture 3.5 Erosion Resistant Bermudagrass 6.0 Plastic Tall fescue 5.5 (Clay mixes) Bahiagrass 5.5 Kentucky bluegrass 5.5 Grass-legui a mixture 4.5 5-10% Easily Erodible Bermudagrl ss 4.5 Non -plastic Tall fescue 1 4.0 (Sands & Silts) Bahiagrassl 4.0 Kentucky bluegrass 4.0 Grass -legume mixture 3.0 Erosion Resistant Bermudagrass 5.5 Plastic Tall fescue 5.0 (Clay Mixes) Bahiagrass 5.0 Kentucky bluegrass 5.0 Grassdegu 4 e mixture 3.5 >10% Easily Erodible Bermudagr ass 3.5 Non -plastic Talllescue I 2.5 (Sands & Silts) Bahiagrass i 2.5 Kentucky bluegrass 2.5 Erosion Resistant Bermudagrass 4.5 Plastic Tall fescue I 3.5 (Clay Mixes) Bahiagrass i 3.5 Kentucky bluegrass 3.5 Source: USDA-SCS Modified NOTE: Permissible Velocity based on 10-yr storm peak runoff Soil erodibility based on resistance to soil movement from concentrated flowing water. 313efore grass is established, permissible velocity is determined by the type of temporary liner used. Selecting Channel To calculate the required size of an open channel, assume the design flow is uniform and does not vary with time. Since actual flow conditions change Cross -Section throughout the length of a channel, subdivide the channel into design reaches, Geometry and design each reach to carry the appropriate capacity. The three most commonly used channel cross -sections are " V"-shaped, par- abolic, and trapezoidal. Figure 8.05b gives mathematical formulas for the area, hydraulic radius and top width of each of these shapes. i } 8.05.4 0 Table 8.05c I Retardance Classification for Vegetal Covers I Retardance Cover Condition I A Reed canarygrass I Excellent stand, tall (average 36") Weeping lovegrass Excellent stand, tall (average 30") I B Tall fescue I Good stand, uncut, (average 18") Bermudagrass Good stand, tall (average 12") Grass -legume mixture (tall fescue, red fescue, sericea lespedeza) Good stand, uncut Grass mixture (timothy, smooth bromegrass or orchardgrass) Good stand, uncut (average 20") Sericea lespedeza Good stand, not woody, tall (average 19") Reed canarygrass Good stand, cut (average 12-15") Alfalfa Goad stand, uncut (average 11 ") I C Tall fescue Good stand (8-12") Bermudagrass Good stand, cut (average 6") Bahiagrass Good stand, uncut (6-8") Grass -legume mixture - summer (orchardgrass, redtop and annual Good stand, uncut (6-8") lespedeza) Centipedegrass Very dense cover (average 6") Kentucky bluegrass Good stand, headed (6-12") Redtop Good stand, uncut (15-20") I D Tall fescue Good stand, cut (3-4") Bermudagrass Good stand, cut i2.5") _ _ Bahiagrass Good stand, cut (3-4") Grass -legume mixture -- fall -spring (orchard - grass, redtop, and annual lespedeza) Good stand, uncut (4-5") Red fescue Good stand, uncut (12-18") Centipedegrass Good stand, cut (3-4") Kentucky bluegrass Good stand, cut (3-4") I' E Bermudagrass Good stand, cut (1.5") Bermudagrass Burned stubble Modified from: USDA-SCS, 1969. Engineering Field Manual. 8.05.8 .4 t m .08 .06 .04 .02 .I Appendices I I Step 10. For grass -lined channels once the appropriate channel dimensions have been selected for low retardance conditions, repeat steps 6 through 8 using a higher retardance class, corresponding to tall grass. Adjust capacity of the channel by varying depth where site conditions permit. NOTE 1: If design velocity is greater than 2.0 ftlsec., a temporary lining may be required to stabilize 'the channel until vegetation is established. The temporary liner may be designed for peak flow from the 2-yr storm. If a channel requires temporary lining, the designer should analyze shear stresses in the channel to select the liner that provides protection and promotes establishment of vegetation. For the design of temporary liners, use tractive force procedure. NOTE 2: Design Tables —Vegetated Channels and Diversions at the end of this section may be used tolldesign grass -lined channels with parabolic cross -sections. Step 11. Check outlet for carrying capacity and stability. If discharge velocities exceed allowable velocities for the receiving stream, an outlet protection struc- ture will be required (Table 8.05d, pg. 8.05.9). i Sample Problem 8.05a illustrates th I design of a grass -lined channel. i 4 I . r ■',.,,1'I I,�',,, �11■ M MENEM No Ill "M 04mma\-w MEMO � MEMMS21.4111=1 Sim► 401111i O br� 06•12R I q .2 .4 6 .8 1.0 12 4 6 e 10 20 I VR, Product of Velocity and Hydraulic Radius Figure 8.05c Manning's n related to velocity, hydraulic radius, and vegetal retardanee. . Note: From Sample Problem 8.05a multiply Vp x Hydralulic Radius (4,5x0.54=2.43), then enter the product of VR and extend a straight lineup to Retardance class T", next project straight line to the left to determine a trial manning's n. Rev. t21D 1 8.05.7 IIc i ®Lf 1' �ili�� 1Eli 1111l111l;! II�i19111Ei1 COASTAL ACCENTS GRANDY LYPRH3S FINANCIAL RESPONSIBILITY/OWNERSHIP FORM SEDIMENTATION POLLUTION CONTROL ACT 1���'SV1ictrcl �-� ��zslG� No person may Initiate any land -disturbing activity on one or more acres as covered by the Act before this form and an acceptable erosion and sedimentation control plan have been Completed and approved by the Land Quality Section, N.C. Department of Natural Resources. (Please type or print and, if the question is not,applicablefor.'.the e-mail and/or fax information unavailable, place N/A in the blank.) ° llo;%� il�- 9 V L 0 Part A. MAY 2 5 2006 , 1. Project Name Coastal Accents 2. Location of land -disturbing activity: Currituck County , City or Township Highway/Street Jorbes Loop Road Latitude 36.14 N I Longitude 75.52 W 3. Approximate date land -disturbing activity will be commenced:_ June 2006, 1 4. Purpose of development (residential, commercial, Industrial, etc) Commercial 5. Total acreage disturbed or uncovered (including off -site borrow and waste areas 2.46 ac. 6. Amount of fee enclosed: $ 150.00 The application fee of $50.00 per acre (rounded up to the next acre) is assessed without a ceiling amount (Example: a 9-acre application fee is $450). 7. Has an erosion and sedimentation control plan been filed? Yes No Enclosed X_ 8. Person to contact should sediment control issues arise during land -disturbing activity. i Name James M. Rose Jr. E-mail Address �Illyog'y (AV �l - Telephone 252-429-1128 Cell # 252-202-1292 1 Fax # _252-475-1630� 9. Landowner(s) of Record (attach accompanied page to list additional oIwners): Grandy Express, L.L.C. 252-429-1128 252-475-1630 Name Telephone Fax ## P.O. Box 147 7578 Caratoke Hwy. Current Mailing Address Current Street Address Harbinger NC 27941 Jarvisbur 1 N FF &79_4T—r�i City State Zip City Stat 10. Deed Book No. 826 Page No. 412 Provide a dopy of the most current d. E�A 9 It], % a06 � Part B. 1. Person (s) or firms (s) who are financially responsible for the land -disturbing a, tivity Piovrde i3 'obi�p'�ehens ve list of all responsible parties on an attached sheet): EGKNAL OFFICE Grandy Express, L_.L.C. Name E-mail Address P.O. Box 147 _7578 _Caratoke Hwy. Current Mailing Address Current Street Address Harbinger NC 27941 Jarvisburg, NC 27947 City State Zip City State Zip Telephone 252-429-1128 Fax Number 252-475-1630 2. (a) If the Financially Responsible Party is not a resident of North Carolina, give name and street address of the Registered Agent. Name E-Mail Address I Current Mailing Address City Telephone Current Street Address City i State Zip Fax Number l (b) If the Financially Responsible Party is a Partnership or other person engaging in business under an assumed name, attach a copy of the Certificate of Assumed Name. If the Financially Responsible Party is a Corporation, give name and street address of the Registered Agent: _James M. Rose Jr. MGR:Member Name of Registered Agent E-Mail Address P:O. Box 147 _ _ - _ 7578_Car atoke_Hwy. Current Mailing Address Current Street Address Harbin er NC 27941 Jarvisbur"g NC 27947 City State Zip City State Zip Telephone 252-429-1128 Fax Number 252-475-1630 The above information is true and correct to the best or my knowledge and belief and was provided by me under oath. (This form must be signed by the financially. responsible person if an individual or his attorney -in -fact or if not an individual, by an officer, director, partner, or registered agent with authority to execute instruments for the Financially Responsible Person). I agree to provide corrected ' fo i ation should tLpre be any change in the information provided herein. James M. Rose Jr. T r ri e tl or AutYio y� Sign e Date State Zip a Notary Public of the County of C . .. State of North Carolina, hereby certify that appeared personally before me this day and being duly sworn acknowledged that the above form was executed by him. j Witness my hand and notarial seal, this f S day of it �'I ' , 20 � L Notary ) + My commission expires( J -:�)—L / C" 01-06