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WPO202100038 Plan - VSMP 2022-10-13
TH SITE INFORMATION TAX MAP PARCEL, ZONING, AND OWNER INFO: TOTAL AREA: 12.50 ACRES LIMITS OF DISTURBANCE: 4.88 ACRES OVERLAY DISTRICT: ENTRANCE CORRIDOR MAGISTERIAL DISTRICT: SCOTTSVILLE SOURCE OF BOUNDARY AND TOPOGRAPHY: BOUNDARY WILLIAM S ROUDABUSH, JR. 1974 ROUDABUSH, GALE, & ASSOCIATES, INC 2003 ROUDABUSH, GALE, & ASSOCIATES, INC 2015 BENCHMARKS (SPOT ELEVATION) AT THE INTX OF HICKORY & BITTERNUT ELEV=451.0 SOUTHWOOD REDEVELOPMENT -VILLAGE 2 09OA1-00-00-001 EO PARCEL AREA: 22.92 ACRES ZONING: NEIGHBORHOOD MODEL DISTRICT (NMD) DB 4773 PG. 328 SOUTHWOOD CHARLOTTESVILLE LLC 919 WEST MAIN STREET CHARLOTTESVILLE, VIRGINIA 22903 TOPOGRAPHY LOUISA AERIAL SURVEYS, INC. P.O. BOX 340 MINERAL, VA 23117 DATE OF PHOTOGRAPHY: 03/23/04 DATE OF COMPILATION: 02/02/07 SUPPLEMENTAL TOPO TIMMONS GROUP 28 IMPERIAL DRIVE STAUNTON, VA 24401 TELEPHONE: 540.885.0920 CONTACT: PAUL HUBER, L.S. PAU L. H U B ER@TI M MO NS. COM SURVEY CONDUCTED: MARCH 2O19 HORIZONTAL: NAD83(NA2011) VIRGINIA STATE SOUTH GRID VERTICAL: NAVD88 VIA GPS RTK OBSERVATIONS PHASING: PROJECT SHALL BE BUILT IN ONE PHASE. DRAINAGE DISTRICT: MOORES CREEK THE SOUTHERN PORTION OF THE PARCEL 90A1-1 E BOUNDARY FALLS WITHIN THE 100 YEAR FLOODPLAIN (ZONE A PER FEMA MAP NUMBER 51003CO407D, EFFECTIVE 02/04/2005) AND CONTAINS A STREAM BUFFER. IMPERVIOUS AREA EXISTING IMPERVIOUS AREA = 0.00 AC PROPOSED IMPERVIOUS AREA = 2.56 AC BURIAL SITES: NO CEMETERIES FOUND ON SITE. STORMWATER: WATER QUALITY REQUIREMENTS AND FLOW ATTENUATION WILL BE ACHIEVED THROUGH AN ONSITE DETENTION SYSTEM AND OFFSITE NUTRIENT CREDIT PURCHASE. AGRICULTURAUFOREST DISTRICT: NONE PUBLIC RNV: 1.19 AC. OPEN SPACE: 8.25 AC. PROPOSED LOTS: 3.06 AC. TOTAL AREA: 12.50 AC. ALL PROPOSED STORMWATER MANAGEMENT FACILITIES ARE TO BE OWNED AND MAINTAINED BY A HOME OWNERS ASSOCIATION. ALL NFPA REGULATIONS REGARDING PLACEMENT AND SETBACKS OF UNDERGROUND PROPANE TANKS SHALL BE ADHERED TO. LIGHTING: A RESIDENTIAL -SCALE POLE MOUNTED DUSK TO DAWN LIGHT SHALL BE PROVIDED ON EACH LOT AND SHALL NOT EXCEED 3,000 LUMENS. NOTES: 1. THE STREAM BUFFER(S) HEREON SHALL BE MANAGED IN ACCORDANCE WITH THE ALBEMARLE COUNTY WATER PROTECTION ORDINANCE. 2. SIGNS IDENTIFYING THE NAME OF EACH STREET WITHIN THE SUBDIVISION SHALL BE INSTALLED AND MAINTAINED AS PROVIDED IN CHAPTER 7 OF THE CODE. 3. ALL WATER AND SEWER FACILITIES ARE TO BE DEDICATED TO THE ALBEMARLE COUNTY SERVICE AUTHORITY. VILLAGE 1 & 2 SITE PLAN TRIP GENERATION WEEKDAY PLAN LAND USE ITE CODE AMOUNT UNITS ADT AM PEAK HOUR PM PEAK HOUR IN OUT TOTAL IN OUT TOTAL APARTMENTS/ 220 46 D.U. 341 5 17 22 16 10 26 TOWNHOMES 1 SINGLE 210 34 D.U. 389 8 22 30 23 14 37 FAMILY VILLAGE 1 TOTAL 80 D.U. 730 13 39 52 39 24 63 APARTMENTS/ 220 25 D.U. 185 3 9 12 9 5 14 TOWNHOMES 2 SINGLE 210 22 D.U. 252 5 14 19 15 9 24 FAMILY VILLAGE 2 TOTAL 47 D.U. 437 8 23 31 24 14 38 CUMULATIVE TOTAL 127 D.U. 1167 21 62 83 63 3811 8 101 GNATURE PANEL: DEPARTMENT OF COMMUNITY DEVELOPMENT: PLANNING & ZONING ENGINEERING INSPECTIONS ARCHITECTURAL REVIEW BOARD DEPARTMENT OF FIRE AND RESCUE ALBEMARLE COUNTY SERVICE AUTHORITY APPROVAL DATE WP0202100038 WPO PLAN ALBEMARLE COUNTY VIRGINIA 7/8/2021 v� Y s Oak 1 liii T Od x� d 3 631 °�esw C (` I_ ti m I St 2 0 i 631 VICINITY MAP 111=10001 DEVELOPER: SOUTHWOOD CHARLOTTESVILLE LLC 919 WEST MAIN STREET CHAROTTESVILLE, VA 22903 ENGINEER OF RECORD: TIMMONS GROUP 608 PRESTON AVE. SUITE 200 CHARLOTTESVILLE, VA 22903 CONTACT: CRAIG KOTARSKI, P.E. TELEPHONE: (434) 327-1688 Sheet List Table Sheet Number Sheet Title CO.00 COVER CO.01 CODE OF DEVELOPMENT PROFFERS & TABLES C1.00 NOTES & DETAILS C1.01 NOTES & DETAILS C1.02 NOTES & DETAILS C1.03 NOTES & DETAILS C2.00 EXISTING CONDITIONS & DEMOLITION PLAN C3.00 EROSION & SEDIMENT CONTROL NOTES & DETAILS C3.01 EROSION & SEDIMENT CONTROL NOTES & DETAILS C3.02 EROSION & SEDIMENT CONTROL NOTES & DETAILS C3.03 EROSION & SEDIMENT CONTROL PLAN PHASE I C3.04 EROSION & SEDIMENT CONTROL PLAN PHASE II C4.03 OPEN SPACE PLAN C4.04 OPEN SPACE PLAN C4.05 GRADING & DRAINAGE PLAN C6.00 STORMWATER MANAGEMENT PLAN C6.01 STORMWATER QUALITY PLAN C6.02 INLET DRAINAGE AREA MAP C6.03 PIPE & INLET CALCULATIONS C6.03 STREAM BUFFER MITIGATION PLAN C7.00 STORM PROFILES C7.01 STORM PROFILES C7.02 STORM PROFILES I L1.00 I LANDSCAPE PLAN I NUMBER OF SHEETS = 24 CLINT W. S F LET Lic. N 4380 10113/ 2022 t7 AL DATE 07108121 DRAWN BY J. FOX DESIGNED BY C. SHIFFLETT CHECKED BY C. SHIFFLETT SCALE N.A. (W V J J H4 I I W Q ^ w LL J 0< Q Lu W J m > W Q p `L U Lu 0 0 0 W " 0 0 0 2 ,0 V) VIRGINIA DEPARTMENT OF TRANSPORTATION HEALTH DEPARTMENT L JOB NO. 47039 SHEET NO. C0.00 PROPOSED BUILDING HEIGHTS BY BLOCK f� 'NUTH (J.4' NEIGHBORHOOD CENTER SPECIAL AREA��1 /•���L_ BLOCKS 3-4 BLOCK 5 BLOCKS 6-9 BLOCKS 10-12 115' MEASURED ON BOTH SIDES FROM s HICKORY STREET RIGHT-OF-WAY) ?A CUNT W. 2i REQUIRED: NO MIN., 3 STORIES OR 35' MAX. REQUIRED: NO MIN., 3 STORIES OR 40' MAX. REQUIRED: NO MIN., 3 STORIES OR 45' MAX. REQUIRED: 2 STORIES MIN., 4 STORIES OR 45' MAX. REQUIRED: 2 STORIES MIN., 4 STORIES OR 50' MAX. Gad S F LET > PROPOSED: 35' MAX. PROPOSED: 40' MAX. PROPOSED: 40' MAX. PROPOSED: 37.6' MAX. PROPOSED: 37.6' MAX. e, Lic. N 4380 (� 0/ 13/ 2022; ~WOOO ALA `'G�� M E 0 0 rn U N N 0 > E w ai E w w 3 a LL o 3 p LL - wO `mom �_j U0M0 Z w - ui O rn C7 W ry V d w 30'x U) w .0 v i ry Z �� "> O W W W W ~ 0M w M 0 0 0 0 H > O O O O O O O O o wwww = ti ti ti ti > > > > w w w w � � � N ~ N N O w F �\�M U f] "z \ a �c�o z 0 in DATE 07108121 0 } DRAWN BY J. FOX • DESIGNED BY • C. SHIFFLETT • CHECKED BY • C. SHIFFLETT SCALE N.A. N ((3V J � w I\ -I J / Q z � I= w w LL > LL w pQ J m z w Q w }O w z O o J W > 0L W LL O O 0 O `2 1 ,O V 1 JOB NO. 47039 SHEET NO. C0.01 00 3-4 Habitat Townhomes rLU 0 C46 0 10 Z 0 t HOUSING MIXTURE PLAN BLOCK HOUSING TYPES Tenure Type AMI Range Affordability Provisions Period Approximate Number (range) Number provided SUB201900174& SU6202100019 Number provided SU6202100011 Number provided SU6202100079 Number Provided with This Plan TOTAL 1-2 N/A -Open Space Market Rate Single Family Attached Ownership/Rental Unrestricted N/A 0-20 0 0 0 0 0 Market Rate Single Family Detached Ownership/Rental Unrestricted N/A 0-40 3 0 0 4 7 PARKING REQUIRED AND PROVIDED TOTAL NUMBER TOTAL PARKING TOTAL PARKING PARKING SPACE LOTS HOUSING TYPE OF DWELLING SPACES SPACES LOCATION UNITS (D.U.) REQUIRED PROVIDED 9 21, SINGLE FAMILY DETACHED 20 X (2 SPACES/D.U) = 40 40 (40) DRIVEWAY 23-29 X (2 SPACES/D.U.) + (1 (g) DRIVEWAY, 5-8 DUPLEXES 4 GUEST SPACE/4 D.U.) 9 (1) ON PARADISE PARK LANE = 8 + 1 GUEST = 9 22 MULTIFAMILY 4-UNIT 4 X (2 SPACES/D.U.) = 8 g (6) PARKING LOT, (2) ON PARADISE PARK LANE 1-4, X (2 SPACES/D.U.) + (1 (13) GARAGE, (29) DRIVEWAY, 30-46 TOWNHOMES 21 GUEST SPACES/4 D.U.) 50 (1) ON HORIZON ROAD, (4) ON = 42 + 5 GUEST = 47 PARADISE PARK LANE DEVELOPMENT CHART RESIDENTIAL UNITS MARKET RATE UNITS AFFORDABLE UNITS MAX. NON- AREA BLOCK RESIDENTIA NOW S.F. S.F. TOWN CONDO/ DWELLING DENSITY GROSS TOTAL# TOTAL BLOCK RESIDENTIAL NUMBER OF TOTAL RANGE RESIDENTIAL %OF ALL FOR RENT (AC.) CLASSIFICATION LBUILDING DETACHED ATTACHED HOUSE APARTMENT UNIT RANGE MARKET REQUIRED FOR TOTAL ° /oOF BUILDING(S.F.) LOTS UNITS REQUIRED DENSITY TOTAL APARTMENT (S.F.) UNITS UNITS UNITS UNITS REQUIRED RATE AFFORDABLE SALE (DU/AC) (DU/AC) UNITS UNITS S NUMBER TOTAL OF UNITS UNITS 1 7.1 GREEN SPACE 8c 0 0 0 0 0 0 0 0 0 0 0.0 0 0% Fifteen 0 0 0 0% 2 1.5 BUFFER 0 0 0 0 0 0 0 0 0 0 0.0 0 0% Percent(15%) 0 0 0 0% 3 1.S NEIGHBORHOOD 5000 0 10 4 4 2 0 412 10 3-6 6.7 0 �/° of the total 10 0 10 100% 4 1.7 DENSITY 5000 0 10 8 2 0 0 5-14 10 3-6 6.0 7 70% number of 3 0 3 30% URBAN DENSITY residential 5 6.8 RESIDENTIAL 5000 SS 6 4 43 20 60-127 73 6-18 10.7 23 32% 30 20 50 68% dwelling units VILLAGE 0 constructed on 6 1.3 NEIGHBORHOOD MIXED USE/ 10000 0 10 9 0 0 4 0-31 13 0-28 10.1 7 54% the Southwood 2 4 6 46% 7 0 7 10000 7 7 0 0 0 0-12 7 0-18 9.7 7 100% 0 0 0 0% NEIGHBORHOOD 0 Property 8 12 10000 0 16 12 2 2 0 0-17 16 0-18 13.0 11 69% S 0 5 ° 31/ PLACES 9 1.7 10000 0 15 0 0 15 0 0-61 15 0-34 9.0 15 100% 0 0 0 0% 10 1.9 20000 0 26 0 0 10 16 11-62 26 6-34 13.9 10 38% 0 16 16 62% 11 5.7 URBAN DENSITY 20000 p 46 0 0 46 51 20-182 96 6-34 16.9 45 47% 0 51 51 53% MIXED USE 12 3.0 30000 p 1 0 0 0 70 13-102 70 6-34 23.5 0 0% 0 70 70 100% TOTAL 34.0 N/A 0 196 46 12 117 161 N/A 336 N/A 9.9 126 37% 50 161 211 63% TABLE 7: MINIMUM GREEN SPACE AND AMENITY AREA BY BLOCK SUMMARY BLOCK ASSOCIATED PLAN (S) STEEP SLOPES (ACRES) OPEN SPACE REQUIRED (ACRES) OPEN SPACE PROVIDED (ACRES) TRAILBcPATH AMENITY REQUIRED (ACRES) TRAIL&PATH AMENITY PROVIDED (ACRES) REC.AMENITYBc CIVIC SPACES REQ. (ACRES) REC.AMENITY& CIVIC SPACES PROV. (ACRES) MINIMUM RECREATIONAL AMENITIES & CIVIC SPACE REQUIRED RECREATIONAL AMENITI ES & CIVIC SPACE PROVIDED TOTAL GREEN SPACE REQUIRED (ACRES) TOTAL GREEN SPACE PROVIDED (ACRES) TOTALAMENITY SPACE REQUIRED (SF) TOTALAMENITY SPACE PROVIDED (SF) 1.80 5.97 0.23 0.00 8.00 30,000 SDP202100019 0.56 0.05 0.05 405 LF CLASS B TYPE 1 PRIMITIVE TRAIL 0.56 2,025 1 2,000 LF CLASS BTYPE 1 PRIMITIVE TRAIL THIS PLAN 6.60 0.20 0.20 1,727 LF CLASS B TYPE 1 PRIMITIVE TRAIL 6.60 8,555 TOTAL 7.16 0.25 0.25 TOTAL: 2,132 LF CLASS B TYPE 1 PRIMITIVE TRAIL 7.16 30,580 0.10 1.10 0.20 0.00 1.40 8,700 SDP202300019 0.44 0.03 0.03 297 LF CLASS B TYPE 2 PEDESTRIAN TRAIL 0.44 1,491 2 1,740 LF CLASS B TYPE 2 PEDESTRIAN TRAIL SDP202300066 0.81 0.17 0.00 1,493 LF CLASS B TYPE 2 PEDESTRIAN TRAIL 1.11 8,950 TOTAL 1.25 0.20 0.03 TOTAL: 1,790 LF CLASS B TYPE 2 PEDESTRIAN TRAIL 1.55 10,441 0.00 0.00 0.00 0.00 0.00 0.00 SDP202300019 0.23 0.00 0.00 0.23 0 3 THIS PLAN 0.04 0.00 0.00 0.04 0 TOTAL 0.27 0.00 0.00 0.27 0 4 0.00 0.00 0.00 0.00 0.00 0.00 THIS PLAN 0.35 0.00 0.04 1,7745E PARK 0.35 1,774 0.00 0.00 0.12 0.11 0.23 10,500 4,415 SF PLAY FIELD 1,866 SF TOT LOT SOOSF NEIGHBORHOOD PARK 985 SF COMMUNITY GARDEN 5-8 1.08 0.11 0.66 600 LF CLASS B TYPE 2 TRAILS 2,693 SF GARDEN 3,9405E PARK 0.90 28,551 4,000 SF NEIGHBORHOOD PARK OR REC. AMENITY 1,855 SF PARK 2,555 SF PARK 220 LF TRAIL PEDESTRIAN CONNECTIONS SDP202100019 746 LF CLASS B TYPE 2 TRAILS 9,597SF PARK THIS PLAN 1,452 SF TOT LOT 0.52 0.01 0.23 107 LF TRAIL PEDESTRIAN CONNECTIONS 0.52 10,133 TOTAL 1.6 0.12 0.89 TOTAL: 746 LF CLASS B TYPE 2 T RAILS 1.42 38,684 0.38 0.00 0.50 0.13 0.63 22,700 2,112 SF PLAY GROUND 500 SF NEIGHBORHOOD PARK 1,059 SF AMENITY SPACE 9 11 SDP202100066 1.64 0.51 0.32 2,170 LF CLASS B TYPE 2 TRAI LSb 4,4345E OPEN FLEX SPACE 6,779 SF REC. AMENITY 1,493 LF BLOCK 2 TRAIL (BLOCK 2, SEE ABOVE) 5,000 SF NEIGHBORHOOD PARK OR REC. AMENITY 1,211 LF CONNECTOR SITE PATHS 1.37 23,560 SDP202100071 0.00 0.00 0.00 0.00 0 TOTAL 1.64 0.61 0.32 1.37 23,660 12 0.00 0.00 0.00 0.15 6,SOOSFACTIVE USE REC. AMENITY 0.15 6,600 SDP202100071 0.00 0.00 0.16 6,SOOSFACTIVE USE REC. AMENITY 0.15 6,600 TOTAL 2.28 7.07 12.04 1.05 1.08 0.39 1.68 10.41 12.04 58,400 91,539 aTHREE PEDESTRIAN CONNECTIONS DISTRIBUTED ACROSS BLOCKS 6, 7, AND 8 b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ft./ft. 10. TREES ARE NOT PERMITTED IN THE ACSA EASEMENT. 27. WHERE A TYPE "B" NOSE IS SPECIFIED ON AN INLET IN CONJUNCTION WITH ROLL FACE CURB AND GUTTER OR CG-7, THERE SHALL BE A 11. THE CONTRACTOR SHALL BE RESPONSIBLE TO COMPLY WITH THE NO -LEAD REGULATION REGARDING BRASS FITTINGS EFFECTIVE 20' TRANSITION ON EACH SIDE OF THE INLET. (N/A) JANUARY 4, 2014 (SENATE BILL 3874 WHICH AMENDS THE SAFE DRINKING WATER ACT). 28. CONTRACTOR SHALL PROVIDE A SEQUENCE OF CONSTRUCTION/MAINTENANCE OF TRAFFIC PLAN IN ACCORDANCE WITH THE 12. THE SEWER LATERAL BEYOND THE CONNECTION AT THE SEWER MAIN SHALL BE PRIVATE. THE SEWER LATERAL STUB -OUT SHALL STANDARDS AND GUIDELINES CONTAINED IN THE 2011 EDITION OF THE VIRGINIA WORK AREA PROTECTION MANUAL FOR REVIEW BY THE UNDERGO THE ACSA LOW-PRESSURE AIR TEST TO SATISFY COUNTY TESTING REQUIREMENTS. VISUAL INSPECTION OF THE SEWER ENGINEER, OWNER'S REPRESENTATIVE, AND VDOT PRIOR TO STARTING WORK THAT IMPACTS TRAFFIC ON STATE ROADS. LATERAL STUB -OUT SHALL BE WITNESSED BY THE COUNTY BUILDING INSPECTIONS DEPARTMENT. THIS INSPECTION SHALL OCCUR 29. ALL NEW HANDICAP ACCESSIBLE REQUIREMENTS ON -SITE AND WITHIN ALL NEW STRUCTURES SHALL COMPLY WITH THE 2015 UNIFORM UNDER AN "OTHER PLUMBING" PERMIT WHICH MUST BE OBTAINED BY THE CONTRACTOR. STATEWIDE BUILDING CODE, 2015 VIRGINIA CONSTRUCTION CODE, AND ICC/ANSI Al17.1-03. 13. THE SEWER LATERAL BEYOND THE CONNECTION AT A MANHOLE SHALL BE PRIVATE. VISUAL INSPECTION AND PRESSURE TESTING OF 30. THE CLEAR ZONE IS TO BE FREE OF STORED MATERIALS AND PARKED EQUIPMENT. THE SEWER LATERAL SHALL BE WITNESSED BY THE COUNTY BUILDING INSPECTIONS DEPARTMENT. THIS INSPECTION SHALL OCCUR 31. HORIZONTAL AND VERTICAL SIGHT DISTANCES SHALL BE FREE OF PARKED VEHICLES. UNDER AN "OTHER PLUMBING" PERMIT WHICH MUST BE OBTAINED BY THE CONTRACTOR. 32. ALL EXCAVATED AREAS WITHIN THE CLEAR ZONE THAT HAVE A DEPTH GREATER THAN 6" SHALL HAVE A 6:1 STONE WEDGE PLACED AT 14. THE FIRE SPRINKLER MAIN DOWNSTREAM OF THE GATE VALVE IS PRIVATE. VISUAL INSPECTION AND TESTING OF THE FIRE SPRINKLER THE END OF THE DAY MAIN DOWNSTREAM OF THE GATE VALVE SHALL BE WITNESSED BY THE COUNTY BUILDING INSPECTIONS DEPARTMENT. THIS 33. VISIBILITY OF ALL MECHANICAL EQUIPMENT FROM THE ENTRANCE CORRIDOR SHALL BE ELIMINATED. INSPECTION SHALL OCCUR UNDER AN "OTHER PLUMBING" PERMIT WHICH MUST BE OBTAINED BY THE 34. ALL WATER LINES, SEWER LINES, AND FIRE LINES FROM THE MAIN TO THE STRUCTURE MUST HAVE A VISUAL INSPECTION PERFORMED CONTRACTOR. BY THE BUILDING DEPARTMENT. SEWER AND FIRE LINES IDENTIFIED BUT NOT WATER LINES. 15. ALL FLUSHING OF FIRE SPRINKLER MAINS SHALL NOT OCCUR UNTIL APPROVAL IS GIVEN BY THE ACSA. 35. RETAINING WALLS GREATER THAN TIN HEIGHT REQUIRE A SEPARATE BUILDING PERMIT. WALLS EXCEEDING 4' IN HEIGHT REQUIRE A 16. PRIOR TO BACKFLOW PREVENTION DEVICE TESTING AND THE ESTABLISHMENT OF WATER SERVICE, ALL BACKFLOW PREVENTION STAMPED ENGINEERED DESIGN ALSO. WALLS REQUIRE INSPECTIONS AS OUTLINED IN THE USBC. DEVICE INSTALLATIONS SHALL MEET THE ACSA BACKFLOW REQUIREMENTS AS DETAILED IN SECTION 8 OF THE MOST RECENT REVISION OF THE ACSA RULES AND REGULATIONS. Albemarle County As -built Road Plan Policy As -built drawings shall be prepared for all public and private roadway construction projects within Albemarle County. The following is a list of the minimum information required on the drawings. Additional information may be requested. The County only reviews private road as -built plans. The county does not review or approve public road as-builts. For questions regarding public roads, please consult with VDOT. 1. A signed and dated professional seal of the preparing engineer or surveyor. 2. The name and address of the firm and individual preparing the drawings on the title sheet. 3. "As -built" must be labeled on the drawings with the date of preparation or revision. 4. The constructed location of all items associated with the road construction must be shown. The items include, but are not limited to the following: a. Horizontal Alignment - Show and label measurement points, and an interpreted line between measurements. Show the as -built centerline over the design centerline. Distinguish between the design elevation and as -built by labels and line type. Measurements shall be at each station as a minimum, and at frequent enough intervals to accurately portray the as -built centerline and the position of the roadway q Sh Y P Y . P Y within the right-of-way or easement. Any portions outside the right-of-way or easement must be corrected by plat or construction. b. Vertical Alignment - Show and label measurement points, and an interpreted line between measurements. Show the as -built centerline over the design centerline. Distinguish between them by labels and line type. Write the constructed vertical elevations adjacent to the design elevations. Distinguish between the elevations by striking a single line through the design elevation. Measurements shall be at each station as a minimum, and frequent enough intervals to accurately portray the as -built centerline. For alignments which deviate significantly from the design, provide curvature and sight - distances. Corrections may be required for alterations from the design alignment. b. Edge of Pavement - Display the constructed edges of pavement and width measurements at every station, or more frequently if necessary to accurately portray the as -built edges. Show the as -built edges over the design edges. Show and label constructed edge of pavement radii for all intersections and cul- de-sacs. Edges for sidewalk, as well as ramps and curb cuts must be included. c. Culverts, Pipes and Drainage Structures - Display the installed type of drainage structure, culvert/pipe size, material, inlets or end treatment(s), inlet and outlet protection, alignment and invert elevations compared to design. For slopes flatter than design, or inverts shallower than design, provide computations verifying design standards. d. Ditch Lines - Display the constructed location of all ditch lines, including typical section, direction of flow, and linings. e. Drainage Easements - Show all platted easements with dead book references labeled. Drainage must be within platted right-of-way or drainage easements. Provide copies of recorded documents. e. Guardrail - Display the constructed location of guardrail, including the guardrail type, length and applied end treatments, compared to design. f. Right of way and associated easements - Label deed book and page numbers for all dedicated right- of-ways, sight easements, slope easements, etc., and provide copies of recorded documents. g. Pavement Designs - Label the as -built pavement and base on the design typical sections. Strike through any design elements which were not applied. Inspection reports are required for fill compaction, CBR's, and pavement applications. It. Street Trees - if street trees are on the design plan, provide design and as -built locations and species. i. Signs - Show all installed signs and pavement markings. Include any pedestals or other features. Albemarle County Public Road Acceptance Procedure The processing, inspection and acceptance of public roads is administered solely by VDOT. The County is not involved in this process until the road is ready for acceptance. County bond releases (or partial releases) will be considered on public roads for all portions approved by VDOT. The following items are required to be submitted for bond releases to be considered: 1. Bond Inspection Request and fee A form and fee are required for each bond, such as for a project with multiple phases and bonds. 2. As -built plan approved by VDOT, and copies of all recorded drainage easements, sight easements, and right-of-way plats. Plats should be copies of the actual recorded documents from the Clerk's office. An as -built plan prepared in accordance with the County's As -Built Road Plan Policy is required. VDOT does not always follow this paperwork or policy, but for bond releases, especially where VDOT has not yet accepted the road, the minimum requirements of this policy must be met, if only to ensure that all improvements are in right-of- way and easements. 3. Written documentation of acceptance from VDOT for the entire roadway or for completed items. Formally, this is sent directly to the county on an AM-4.3 from VDOT, when VDOT requests that the Board of Supervisors pass a resolution of acceptance. After the resolution of acceptance is sent to VDOT, it is usually about six weeks before actual acceptance takes place, and VDOT issues a formal memo to the county with the road additions and new route numbers. This final notification is needed for bond release. For partial bond releases prior to this, some correspondence from VDOT for items inspected and approved is necessary. This is usually in the form of letters approving compaction reports, CBR's, pavement cores, pipe video, or other items where partial release is sought. A final punchlist inspection report from VDOT can be used for a partial bond release, but only if outstanding items are not too broad. If the punchlist is not official, and only a courtesy review, it carries much less weight. In any case, if there are problems meeting the eligibility or occupancy minimums, and it is not known how long improvements may sit, or need replacement, partial releases may not be possible. 4. Signed and sealed letter from a professional engineer listing and certifying that completed improvements are built according to plan. Please do not e-mail or fax copies of this letter. An original signature and certifying seal are required. Please do not use qualifying statements such as "it appeared", or "to the best of my knowledge", or "generally in accord". Improvements were either built to plan, or they were not. As -built measurements, construction inspections, and other field verifications should be cited and included. Tolerances should be noted. The items not built according to plan must be listed, with explanations. Deviation in pavement materials and thicknesses must be listed. If street trees or sidewalks, or other items were moved, or added, this should be noted. If drainage changed, by addition or deletion of culverts, inlets, or re -alignments of pipes or grades, this should be verified by revised computations and attached to the letter. If there are outstanding items or omissions, these should be listed. Graphics are helpful. In short, please provide more than a statement of opinion or assurance. Please demonstrate that the improvements and construction have been inspected, investigated and documented, and are certified in detail, and county staff will not be in the position of discovering discrepancies and deficiencies in the field. 5. Certificate of Completion This form must be received for release of a bond. It is available on the county website. In the case of reductions, a letter listing the outstanding items that need to be completed before signing the certification is acceptable. It must be signed by the owner. This form says all subdivision improvements have been completed. It also says that all construction conforms to approved plans and any discrepancies have been approved by the County. This means the as -built plans have been approved by VDOT, and they have agreed to any discrepancies, which should be documented in acceptance correspondence or punchlists. 36. ALL ROOF DRAINS SHALL DISCHARGE IN A MANNER NOT TO CAUSE A PUBLIC NUISANCE AND NOT OVER SIDEWALKS. 37. BUILDINGS OR STRUCTURES BUILT BEFORE JANUARY 1, 1985 MUST HAVE AN ASBESTOS SURVEY PERFORMED IN ORDER TO APPLY FOR A DEMOLITION PERMIT. ASBESTOS REMOVAL PERMITS ARE REQUIRED IF POSITIVE FOR SUCH FROM ALBEMARLE COUNTY AND VDOLI. CONTACT VDOLI FOR THEIR ADDITIONAL REQUIREMENTS AND PERMITS FOR DEMOLITION PROJECTS AT (540)562-3580 (EXT. 131). 38. ALL VDOT ROAD AND BRIDGE STANDARD DETAILS ARE LOCATED ON THE VDOT WEBSITE: HTTPS:/NW WV.V I RGIN IADOT.ORG/BUSINESS/LOCDES/2016-ROAD-AND-BRIDGE-STANDARDS.ASP BLASTING NOTES 1. BLASTING SHALL NOT BE PERMITTED ON THIS PROJECT. ALBEMARLE COUNTY STORMWATER MANAGEMENT NOTES 1. ALL DAMS AND CONSTRUCTED FILL TO BE WITHIN 95% OF MAXIMUM DRY DENSITY AND 2% OF OPTIMUM MOISTURE CONTENT. ALL FILL MATERIAL TO BE APPROVED BY A GEOTECHNICAL ENGINEER. A GEOTECHNICAL ENGINEER IS TO BE PRESENT DURING CONSTRUCTION OF DAMS. 2. PIPE AND RISER JOINTS ARE TO BE WATERTIGHT WITHIN STORMWATER MANAGEMENT FACILITIES. 3. FOR TEMPORARY SEDIMENT TRAPS OR BASINS WHICH ARE TO BE CONVERTED TO PERMANENT STORMWATER MANAGEMENT FACILITIES; CONVERSION IS NOT TO TAKE PLACE UNTIL THE SITE IS STABILIZED, AND PERMISSION HAS BEEN OBTAINED FROM THE COUNTY EROSION CONTROL INSPECTOR. GENERAL CONSTRUCTION NOTES FOR EROSION AND SEDIMENT CONTROL 1. THE PLAN APPROVING AUTHORITY MUST BE NOTIFIED ONE WEEK PRIOR TO THE PRE -CONSTRUCTION CONFERENCE, ONE WEEK PRIOR TO THE COMMENCEMENT OF LAND DISTURBING ACTIVITY, AND ONE WEEK PRIOR TO THE FINAL INSPECTION. 2. ALL EROSION AND SEDIMENT CONTROL MEASURES WILL BE CONSTRUCTED AND MAINTAINED ACCORDING TO MINIMUM STANDARDS AND SPECIFICATIONS OF THE VIRGINIA EROSION AND SEDIMENT CONTROL HANDBOOK AND VIRGINIA REGULATIONS VR 625-02-00 EROSION AND SEDIMENT CONTROL REGULATIONS. 3. ALL EROSION AND SEDIMENT CONTROL MEASURES ARE TO BE PLACED PRIOR TO OR AS THE FIRST STEP IN CLEARING. 4. A COPY OF THE APPROVED EROSION AND SEDIMENT CONTROL PLAN SHALL BE MAINTAINED ON THE SITE AT ALL TIMES. 5. PRIOR TO COMMENCING LAND DISTURBING ACTIVITIES IN AREAS OTHER THAN INDICATED ON THESE PLANS (INCLUDING, BUT NOT LIMITED TO, OFF -SITE BORROW OR WASTE AREAS), THE CONTRACTOR SHALL SUBMIT A SUPPLEMENTARY EROSION CONTROL PLAN TO THE OWNER FOR REVIEW AND APPROVAL BY THE PLAN APPROVING AUTHORITY. 6. THE CONTRACTOR IS RESPONSIBLE FOR INSTALLATION OF ANY ADDITIONAL EROSION CONTROL MEASURES NECESSARY TO PREVENT EROSION AND SEDIMENTATION AS DETERMINED BY THE PLAN APPROVING AUTHORITY. 7. ALL DISTURBED AREAS ARE TO DRAIN TO APPROVED SEDIMENT CONTROL MEASURES AT ALL TIMES DURING LAND DISTURBING ACTIVITIES AND DURING SITE DEVELOPMENT UNTIL FINAL STABILIZATION IS ACHIEVED. 8. DURING DEWATERING OPERATIONS, WATER WILL BE PUMPED INTO AN APPROVED FILTERING DEVICE. 9. THE CONTRACTOR SHALL INSPECT ALL EROSION CONTROL MEASURES PERIODICALLY AND AFTER EACH RUNOFF -PRODUCING EVENT. ANY NECESSARY REPAIRS OR CLEANUP TO MAINTAIN THE EFFECTIVENESS OF THE EROSION CONTROL DEVICES SHALL BE MADE IMMEDIATELY. 10. ALL FILL MATERIAL TO BE TAKEN FROM AN APPROVED, DESIGNATED BORROW AREA. 11. ALL WASTE MATERIALS SHALL BE TAKEN TO AN APPROVED WASTE AREA. EARTH FILL SHALL BE INERT MATERIALS ONLY, FREE OF ROOTS, STUMPS, WOOD, RUBBISH, AND OTHER DEBRIS. 12. BORROW OR WASTE AREAS ARE TO BE RECLAIMED WITHIN 7 DAYS OF COMPLETION PER ZONING ORDINANCE SECTION 5.1.28. 13. ALL INERT MATERIALS SHALL BE TRANSPORTED IN COMPLIANCE WITH SECTION 13-301 OF THE CODE OF ALBEMARLE. 14. BORROW, FILL OR WASTE ACTIVITY INVOLVING INDUSTRIAL -TYPE POWER EQUIPMENT SHALL BE LIMITED TO THE HOURS OF 7:OOAM TO 9:OOPM. 15. BORROW, FILL OR WASTE ACTIVITY SHALL BE CONDUCTED IN A SAFE MANNER THAT MAINTAINS LATERAL SUPPORT, OR ORDER TO MINIMIZE ANY HAZARD TO PERSONS, PHYSICAL DAMAGE TO ADJACENT LAND AND STRUCTURES/IMPROVEMENTS, AND DAMAGE TO ANY PUBLIC STREET BECAUSE OF SLIDES, SINKING, OR COLLAPSE. 16. THE DEVELOPER SHALL RESERVE THE RIGHT TO INSTALL, MAINTAIN, REMOVE OR CONVERT TO PERMANENT STORMWATER MANAGEMENT FACILITIES WHERE APPLICABLE ALL EROSION CONTROL MEASURES REQUIRED BY THIS PLAN REGARDLESS OF THE SALE OF ANY LOT, UNIT, BUILDING OR OTHER PORTION OF THE PROPERTY. 17. TEMPORARY STABILIZATION SHALL BE TEMPORARY SEEDING AND MULCHING. SEEDING IS TO BE AT 75 LBS/ACRE, AND IN THE MONTHS OF SEPTEMBER TO FEBRUARY TO CONSIST A 50/50 MIX OF ANNUAL RYEGRASS AND CEREAL WINTER RYE, OR IN MARCH AND APRIL TO CONSIST OF ANNUAL RYE, OR MAY THROUGH AUGUST TO CONSIST OF GERMAN MILLET. STRAW MULCH IS TO BE APPLIED AT 80LBS/100SF. ALTERNATIVES ARE SUBJECT TO APPROVAL BY THE COUNTY EROSION CONTROL INSPECTOR. 18. PERMANENT STABILIZATION SHALL BE LIME AND FERTILIZER, PERMANENT SEEDING, AND MULCH. AGRICULTURAL GRADE LIMESTONE SHALL BE APPLIED AT 90LBS/1000SF, INCORPORATED INTO THE TOP 4-6 INCHES OF SOIL. FERTILIZER SHALL BE APPLIED AT 1000LBS/ACRE AND CONSIST OF A 10-20-10 NUTRIENT MIX. PERMANENT SEEDING SHALL BE APPLIED AT 180LBS/ACRE AND CONSIST OF 95% KENTUCKY 31 OR TALL FESCUE AND 0-5% PERENNIAL RYEGRASS OR KENTUCKY BLUEGRASS. STRAW MULCH IS TO BE APPLIED AT 80LBS/100SF. ALTERNATIVES ARE SUBJECT TO APPROVAL BY THE COUNTY EROSION CONTROL INSPECTOR. 19. MAINTENANCE: ALL MEASURES SHALL BE INSPECTED WEEKLY AND AFTER EACH RAINFALL EVENT. ANY DAMAGE OR CLOGGING TO STRUCTURAL MEASURES SHALL BE REPAIRED IMMEDIATELY. SILT TRAPS SHALL BE CLEANED WHEN 50% OF THE WET STORAGE VOLUME IS FILLED WITH SEDIMENT. ALL SEEDED AREAS SHALL BE RESEEDED WHEN NECESSARY TO ACHIEVE A GOOD STAND OF GRASS. SILT FENCE AND DIVERSION DYKES WHICH COLLECT SEDIMENT TO HALF THEIR HEIGHT MUST BE CLEANED AND REPAIRED IMMEDIATELY. 20. ALL TEMPORARY EROSION AND SEDIMENT CONTROL MEASURES SHALL BE REMOVED WITHIN 30 DAYS OF FINAL SITE STABILIZATION, WHEN MEASURES ARE NO LONGER NEEDED, SUBJECT TO APPROVAL BY THE COUNTY EROSION CONTROL INSPECTOR. 21. THIS PLAN SHALL BE VOID IF THE OWNER DOES NOT OBTAIN A PERMIT WTIHIN 1 YEAR OF THE DATE OF APPROVAL. (WATER PROTECTION ORDINANCE SECTION 17-204G.) 22. PERMANENT VEGETATION SHALL BE INSTALLED ON ALL DENUDED AREAS WITHIN NINE (9) MONTHS AFTER THE DATE THE LAND DISTURBING ACTIVITY COMMENCED. (WATER PROTECTION ORDINANCE SECTION 17-207B) COUNTY OF ALBEMARLE Department of Community Development Construction Record Drawings (As -built) for VSMP The following is a list of information required on construction record drawings for stormwater facilities (reference Water Protection Ordinance 17-422). It is preferable that the construction record drawing be prepared by someone other than the designer. Please do not provide design drawings as construction record drawings. A. A signed and dated professional seal of the preparing engineer or surveyor. B. The name and address of the firm and individual preparing the drawings on the title sheet. C. The constructed location of all items associated with each facility, and the inspection records to verify proper dimensions, materials and installation. The items include, but are not limited to the following: 1. Inspection Records and photographs for pipe trenches and bedding. including underdrains. 2. Video Pipe Inspection for an pipes which are not accessible or viewable. P YPP 3. Updated Location with eo-coordinates of all facilities. P g 4. Verified Drainage Area maps for the drainage area treated and for drainage to the facilities. g P g g 5. Current physical and topographic survey for all earthen structures. Ponds should include a survey of the pond bottom. Surveys should verify pond volumes are per design. Corrections may be required for alterations from the design. 6. Plants, location and type. 7. Plans and profiles for all culverts, Pipes, Risers, Weirs and Drainage Structures - Display the installed type of drainage structures, culvert/pipe size, weirs, materials, inlets or end treatment(s), inlet and outlet protection, alignment and invert elevations compared to design. 8. Computations: For significant deviations from design, provide sealed computations verifying that the as -built condition is equivalent or better than design. 9. Ditch Lines - Display the constructed location of all ditch lines and channels including typical P Y . g YP sections and linings. 10. Easements - Show all platted easements with dead book references labeled. Facilities and drainage must be within platted easements. Provide copies of recorded documents. 11. Guardrail, fences or other safety provisions - Display the constructed location of all safety provisions; fences, guardrail, including the type, length and applied end treatments, compared to design. 12. Material layers - biofilter media, stone layers, sand layers, keyways and cores must be verified as to material types and depths. Include inspection reports, boring or test pit reports and materials certifications. Biofilter media must be an approved state mix. 13. Access roads - show location of access roads, surface treatment, drainage, etc, as applicable. 14. Compaction reports are required to verify fill compaction in dams. 15. Manufacturers certifications for proprietary BMP's certifying proper installation and functioning. Albemarle County Engineering Final Plan General Notes Page I of 4 ALBEMARLE COUNTY FINAL PLAN GENERAL NOTES General Construction Notes 1. Prior to any construction within any existing public right-of-way, including connection to any existing road, a permit shall be obtained from the Virginia Department of Transportation (VDOT). This plan as drawn may not accurately reflect therequirements of P ( ) P Y Y the permit. Where any discrepancies occur the requirements of the permit shall govern. 2. All materials and construction methods shall conform to current specifications and standards of VDOT unless otherwise noted. 3. Erosion and siltation control measures shall be provided in accordance with the approved erosion control plan and shall be installed prior to any clearing, grading or other construction. 4. All slopes and disturbed areas are to be fertilized, seeded and mulched. 5. The maximum allowable slope is 2:1 (horizontal:vertical). Where reasonably obtainable, lesser slopes of 3:1 or better are to be achieved. 6. Paved, rip -rap or stabilization mat lined ditch may be required when in the opinion of the County Engineer, or designee, it is deemed necessary in order to stabilize a drainage channel. 7. All traffic control signs shall conform with the Virginia Manual for Uniform Traffic Control Devices. 8. Unless otherwise noted all concrete pipe shall be reinforced concrete pipe - Class III. 9. All excavation for underground pipe installation must comply with OSHA Standards for the Construction Industry (29 CFR Part 1926). CLINT W. S F LET Lic. N 4380 10113/ 2022 0 AL WMNN F a Imo. DATE 07108121 DRAWN BY J. FOX DESIGNED BY C. SHIFFLETT CHECKED BY C. SHIFFLETT SCALE N.A. W LU > J_ aw _1Q F- 0 a W JLLJ m 0 W a 06 > O U) LU W z I- 0 O Z U 0. 0 0 0 2 ,0 V 1 JOB NO. 47039 SHEET NO. C 1.00 L FIRE PREVENTION STEPS DURING CONSTRUCTION A. SMOKING SHALL BE PROHIBITED IN AREAS WHERE SMOKING MAKES CONDITIONS SUCH AS TO MAKE SMOKING A HAZARD AND THESE AREAS SHALL BE DESIGNATED WITH NO SMOKING SIGNS PER VIRGINIA STATEWIDE FIRE PREVENTION CODE. B. AREAS WHERE SMOKING CAN OCCUR, SHALL HAVE APPROPRIATE RECEPTACLES FOR DISCARDED SMOKING MATERIALS PER VIRGINIA STATEWIDE FIRE PREVENTION CODE. C. PER THE VIRGINIA STATEWIDE FIRE PREVENTION CODE, VEHICULAR ACCESS FOR FIREFIGHTING SHALL BE PROVIDED AT ALL CONSTRUCTION AND DEMOLITION SITES, PROVIDE ACCESS TO WITHIN 100 FT OF TEMPORARY OR PERMANENT FIRE DEPARTMENT CONNECTIONS, AND HAVE NO OVERHEAD WIRING OR OTHER OVERHEAD OBSTRUCTIONS LOWER THAN 13 FT 6 INCHES; THIS ACCESS MAY BE VIA PERMANENT OR TEMPORARY ROAD, BUT SHALL BE CAPABLE OF SUPPORTING FIRE APPARATUS IN ALL WEATHER CONDITIONS. D. CONTRACTOR SHALL ENSURE THE STREET NUMBERS ARE ALWAYS PLAINLY VISIBLE FROM THE FRONTAGE STREET DURING CONSTRUCTION PER THE VIRGINIA STATEWIDE FIRE CODE. E. AN APPROVED WATER SUPPLY FOR FIREFIGHTING OPERATIONS SHALL BE IN PLACE AND AVAILABLE AS SOON AS COMBUSTIBLE MATERIALS ARRIVE ON SITE. F. WASTE AND COMBUSTIBLE DEBRIS SHALL BE REMOVED FROM THE BUILDING AT THE END OF EACH DAY AND DISPOSED OF IN ACCORDANCE WITH THE VIRGINIA STATEWIDE FIRE CODE. G. FIRE EXTINGUISHERS SHALL BE PROVIDED, WITH NOT LESS THAN ONE APPROVED FIRE EXTINGUISHER AT EACH STAIRWELL, ON ALL FLOOR LEVELS WHERE COMBUSTIBLE MATERIALS HAVE ACCUMULATED, IN EVERY STORAGE AND CONSTRUCTION SHED AND IN AREAS OF SPECIAL; HAZARDS, SUCH AS WHERE FLAMMABLE AND COMBUSTIBLE LIQUIDS ARE STORED OR USED, IN ACCORDANCE WITH THE VIRGINIA STATEWIDE FIRE CODE. H. OPERATIONS INVOLVING THE USE OF CUTTING AND WELDING SHALL COMPLY WITH THE VIRGINIA STATEWIDE FIRE PREVENTION CODE AND SHALL REQUIRE A PERMIT FROM THE ALBEMARLE COUNTY FIRE MARSHAL'S OFFICE. A L A R1-1 STOP `Reduce spacing 40% A B C 0 E F 18 .375 6 6 C 3 7.75 24 .625 8 8 C 4 10 30 .75 10 10 C 5 125 36 .875 12 12 C 6 15 48 1.25 16 16 C 8 20 COLORS: LEGEND - WHIIE (RETROREFLECTIVE) BACKGROUND - RED (RETROREFLECTIVE) 1-1 MUTCD STOP SIGN DETAIL No Scale ROAD CROSS SECTION HORIZON ROAD (25 MPH DESIGN SPEED) r F-'-1 1 1_�=�JJJ=�_•JJJ=•J_ILI=IJJJe'�JJJ=1-1 IJ_�=• I_1-1=1_1=1 NOTE: ROAD CROSS SECTION COMPLIES WITH VDOT SSAR DESIGN STANDARDS. PARKING ALLOWED ON ONE SIDE OF THE ROAD HORIZON ROAD CROSS SECTION No Scale RIGHT OF AGGREGATE SHALL EXTEND I'BEYOND THE BACK OF CURB (TYP.) ROAD CROSS SECTION PARADISE PARK LANE (25 MPH DESIGN SPEED) RIGHT OF NOTE: ROAD CROSS SECTION COMPLIES WITH AGGREGATE SHALL EXTEND VDOT SSAR DESIGN STANDARDS. 1' BEYOND THE BACK OF CURB (TYP.) PARKING ALLOWED ON ONE SIDE OF THE ROAD. PARADISE PARK LANE CROSS SECTION No Scale VDOT DETAILS LEGEND STANDARD TITLE PAGE ES-1 FLARED END -SECTION FOR 12" TO 60" CONCRETE PIPE CULVERTS 102.01 DI-1 STANDARD DROP INLET (12" TO 24" PIPE: MAXIMUM DEPTH (H) = 10') 104.01 DI-2A, 213, 2C STANDARD CURB DROP INLET (12" TO 24" PIPE: MAXIMUM DEPTH (H) = 9') 104.03 DIMENSIONS, NOTES, AND QUANTITIES 104.04 DI-3A, 3B, 3C STANDARD CURB DROP INLET (12" TO 30" PIPE: MAXIMUM DEPTH (H) = 8') 104.09 DIMENSIONS, NOTES, AND QUANTITIES 104.10 MH-1 MANHOLE FOR 12" TO 48" PIPE CULVERT 106.01 STANDARD MANHOLE FRAME AND COVER 106.02 STANDARD MANHOLE FRAME AND COVER 106.04 SLA TYPICAL CONCRETE SAFETY SLAB FOR DROP INLETS, MANHOLES AND JUNCTION BOXES 106.14 PB-1 INSTALL. OF PIPE CULVERTS AND STORM SEWERS CIR. PIPE BEDDING AND BACKFILL - METHOD "A" 107.01 UD-2 STANDARD UNDERDRAIN FOR USE WITH RAISED GRASS MEDIAN STRIPS 108.02 CD-1 STANDARD COMBINATION UNDERDRAIN (AT LOWER END OF CUTS) 108.04 CD-2 STANDARD COMBINATION UNDERDRAIN (AT SAGS AND BRIDGE APPROACHES) 108.05 CG-9D STANDARD ENTRANCE GUTTER 203.03 CG-12 CG-12 DETECTABLE WARNING SURFACE (GENERAL NOTES) 204.01 CG-12 DETECTABLE WARNING SURFACE (TYPE A, PERPENDICULAR APPLICATION) 204.02 CG-12 DETECTABLE WARNING SURFACE (TYPE B, PARALLEL APPLICATION) 204.03 CG-12 DETECTABLE WARNING SURFACE (TYPE C, PARALLEL & PERPENDICULAR APPLICATION) 204.04 NOTE: IT IS THE CONTRACTOR'S RESPONSIBILITY TO REFERENCE CURRENT DETAILS IN THE VDOT ROAD & BRIDGE STANDARDS. POST RAILS CONCRETE FOOTING 3,000 PSI @ 28 DAYS VDOT #57 STONE ■ 5' SIDEWALK 5' SIDEWALK NOTES: - ALL LUMBER TO BE PRESSURE TREATED - ALL FASTENERS TO BE GALVANIZED --412" MIN. THREE -BOARD FENCE DETAIL No Scale 6"x6" POST (a36'O./C.t STEEL EDGING ROT -RESISTANT LANDSCAPE FABRIC - TURN UP AT EDGES — 3/16" THK. STEEL EDGING W/ 12" STAKES @ 24" O/C 'ICI III�IIIII 1-III- IIIIIII IIII—III- I II I III —III II 11= 1_1III III i III 1 1 — 2" COMPACTED STONE DUST PATH 4" COMPACTED VDOT #21A STONE BASE COMPACTED SUBGRADE - 95% S.P.D. STONE DUST PATH SECTION No Scale NON -SLIP BROOM FINISH VARIABLE WIDTH' MAX. CROSS SLOPE 2% 4" 3,000 PSI AIR -ENTRAINED CONCRETE COMPACTED SUBGRADE 4" TYPE 21A STONE COVER a. 8 DENOTES CONCRETE SIDEWALK PAVEMENT ON PLANS NOTE: SIDEWALKS SHALL BE CONSTRUCTED IN ACCORDANCE WITH VDOT STANDARDS. RETE SIDEWALK PAVEMENT SECTIO • \\\\\\\\\\O\\\\\\\\ a ' • - • �� COMPACTED SUBGRADE (PER GEOTECHNICAL REPORT) DENOTES HEAVY DUTY ASPHALT PAVEMENT ON PLANS HEAVY DUTY ASPHALT PAVEMENT SECTION No Scale 2" BITUMINOUS CONCRETE SURFACE COURSE - SM-9.5A (PLACED IN ONE LIFTS) 8" TYPE 21 B AGGREGATE BASE COURSE COMPACTED SUBGRADE i rc•c:..c DENOTES LIGHT DUTY ASPHALT PAVEMENT ON PLANS LIGHT DUTY ASPHALT PAVEMENT SECTION No Scale SIGN SIGN AND POST DETAIL No Scale STD. U POST GALVANIZED POST TO BE DRIVEN TH CLINT W. S F LET III N 4380 10113/ 2022 ^� E 0 � o N � N C ¢ o > E w a E H_ W.0 ¢ LL o 3 p LL — wO `m^ 0 W L M ¢�_j U00 W J —N M COW NV w IT I=x oa =LL Ln _ N =v>m F ¢ . C U' 0 00 W M uo 0 2 0 0 F p W w x Q Z 0 0 O N N a MR 10 DATE 07108121 DRAWN BY J. FOX DESIGNED BY C. SHIFFLETT CHECKED BY C. SHIFFLETT SCALE N.A. (W V J J H� LI I W > J_ ^ w Q LL � F— O Q LU L 0 J w m �( WLL Q W O w W z 0 O W z 0C 0 O O D O U) L JOB NO. 47039 SHEET NO. C1.01 PRECAST CONCRETE MANHOLE BASES SHALL BE FABRICATED IN ACCORDANCE WITH PART V, SECTION G OF THESE SPECIFICATIONS. FRAME & COVER SEE FIG. I S--, E 1 1� " " �LTH,11111/1/1/ �D , UP oa E PLACE 5' GALVANIZED WITNESS POST WITH CAPPED ENDS PAINTED BLUE IN REMOTE AREAS FRAME & COVER STREET SURFACE OR NON -PAVED AREA►so f �r'N / n �E Mu o AS DIRECTED. MARKER LOCATION MAY BE SUBJECT TO HIGHWAY DEPARTMENT APPROVAL. •• ". • ::• ;; ''.� (SEE FIG. S-I-D,E) SLOPED AREA ? .; ; , CLINT W. 2Z O N m _ o n = N E o m �^ 8 �E �� u FINISHED GRADE SET DOGHOUSE BASE •..,:• •. EXISTING SANITARY STREET SURFACE OR NON -PAVED AREA =` �; RUBBER COATED STEEL STEPS 1'-0" MAX CAST IN PLACE • 6J� S F i • _ yq O m o ON CONCRETE BLOCKS SEWER PIPE SLOPED AREA o ,LET , Lic. N 4380 Ar E 8 E ^o nM �a r DOGHOUSE OPENING SHALL°• ' '"•' •'•. l' MIN. 12" CLEARANCE BE PREFORMED BY• • ° - OR •- �- •:: ° AND STONBETWEEN E BEDDING NG ISTING PE ='"�`^'t��`-'-~° 1 —0 MAX o PRECAST REINFORCED CONCRETE ° �- SECTIONS WITH 0 RING SEALS 10/ 13/ 2022 °V; x!y ',• MANUFACTURER ?' ,T' SAW CUT TO FIT PIPE OR APPROVED EQUAL ro _fit, •" OUTSIDE DIAMATIIt - aC'. -we 1 1j11111H�1 I!�pl ..:. PLUS 6". ADJUSTABLE TRAFFIC RATED .,2-00 :; 3'-0" MIN ° s E z -�. Ely ° g E I VALVE BDX W/ LID 3" 12" THICK VDOi THE DROP CONNECTION SHALL BE SHALL e E O E F rC 8,0 y ' Z u ` No. 88 STONE BEDDING 8"x8"x16" AND 4"x8"x18" RUBBER COATED STEEL , „ 3'-0" MIN STEPS CAST IN PLACE DUCTILE IRON PIPE CLASS p 'p ( ) 5" BACKFILLED IN 6" LAYERS AND ,n E ,� w i3 w SOLID CONCRETE BLOCKS COMPACTED BY HAND TAMPERS OR o 0 E y m a `m'� ° z N CENTER W ISER WALL (4 EACH) DOGHOUSE MANHOLE BASE PRECAST REINFORCED � e o 12 MIN � BACKFlLLED WITH SELF -COMPACTING 18" MAX STONE. rn u - N o _ LLJ 'ao c �Z d „ „ „ ,,,, „ „ ,,,, ,,, CONCRETE SECTIONS 12 MIN "0" RING SEALS 6 16" MAX p ¢ > E a E iv S. v E o.f m E U V• FILL DOGHOUSE OPENING MANHOLE ABOVE BASE SHALL AROUND EXISTING PIPE MINIMUM ELEVATION T •• p ACROSS M.H. M ELEVATION DIFFERENCE 12"MIN 12"MIN w — N 3 Ems-. :- E E E= H E E BE CONSTRUCTED A5 SHOWN WITH 3,000 PSI CONCRETE ON FIGURE S-1-A DIFFERENCE ACROSS M.H. 5" 4'-0" . OUTLET HALL BEM0.20EFEET VARI G„ U w 3 w nm OR NON -SHRINKING GROUT FROM INLET TO OUTLET �.. ¢ a o 3 m E --- M.J. GATE VALVE SHALL BE 0.20 FEET. ° VARIES �• .' A FILLETED INVERT FOR A SMOOTH " � 0 ;6 w m n N E u DEPTH OF FLOW CONCRETE 1 FILLETS 1 TRANSITION OF FLOW BETWEEN p¢ INLET & OULET PIPE SHALL BE � v oo a -iri z 0 om ALLOW CONCRETE WRAP EXISTING PIPE WITH CHANNEL TO BE -L 3/4 DIAMETER OF �• t'• •' •: • • ' !, PROVIDED. 12 �: '; •... m• w a F, o N P TO FLOW A MIN. 1'-0" BEYOND BASE NEOPRENE GASKET MATERIAL STRUCTURE BEFORE FILLING THE OPENING - CONTRIBUTING .� -•OF SEWER. a L .. o" , p. p :"• 3/4 DIA OF LARGEST rn ry a V NEOPRENE SECURED BY 2 NON- :, 12" INVERT�R A SM00 TM X a U) r I WATER LINE CORROSIVE STRAPS, 1 ON EACH SIDE OF OPENING FILLETED TRANSITION OF FLOW BETWEEN INLET & OUTLET PIPE SHALL BE PIPE IN MANHOLE MIN. 6" BEDDING WITH N0. 68 STONE o < Ln = u ry wA 0 z In- 2 � 2 � 2 � 2 0 Lu Lu Lu Lu b 12" MIN. CAST -IN PLACE PROVIDED. MIN. 6" BEDDING NOTES: F ¢' a z0 IY j O 3,000 PSI CONCRETE BASE NOTE : W/ NO. 68 STONE 1. BEDDING THICKNESS REQUIREMENTS SHOWN ARE MINIMUM AND SHALL BE SPECIFICALLY c O 4 ry .. � O O O O °^^E o E 5� E SECTION VIEW 1. BEDDING THICKNESS REQUIREMENT SHOWN IS MINIMUM AND SHALL BE DETERMINED BY THE CONSULTANT FOR THE SOIL CONDITIONS. M O N E a $ E m ° w N 2500 P.S.I. CONCRETE 8 2'x 2' BEARING AREA. , „ 'FOUNDATION SPECIFICALLY DETERMINED BY THE CONSULTANT FOR THE SOIL CONDITIONS. 2• THE CONSULTANT SHALL DETERMINE WHETHER MANHOLES SHALL HAVE EXTENDED OR NON -EXTENDED BASES. oit o n THRUST BLOCK NOTES: 2. THE CONSULTANT WILL DETERMINE WHETHER MANHOLES SHALL HAVE 3. ALL JOINTS, LIFT HOLES, INLETS, OUTLETS To BE SEALED GROUTED o w 2 2 2 2 ,.4 1. CONSTRUCT A FORMED INVERT FROM NEW SEWER LINE TO ALLOW EXTENDED OR NON —EXTENDED BASES. INSIDE AND SIDE 4. SPECIAL CONSIDERATION HALL BE GIVEN FOR ENTRANCE O O O O a a FLOW TO THE EXISTING PIPE. 3. ALL JOINTS, LIFT HOLES, INLETS, OUTLETS TO BE SEALED & GROUTED DESIGN ON SEWERS WITH STEEP SLOPES. � � � O OLt j j . c „ b d 2. POUR A SHELF TO THE LOWER HALF OF THE EXISTING PIPE. INSIDE AND OUT. 3. CUT AND REMOVE THE TOP HALF OF EXISTING PIPE TO WITHIN 6 TYPICAL MANHOLE SECTION 0 o w 0 w 0 w 0 w OF THE MANHOLE WALLS AFTER THE INVERT AND SHELF HAVE BEEN FORMED, AND THE MH HAS BEEN FULLY TESTED IN SHOWING BRANCH TIE-IN TYPICAL MANHOLE WITH DROP CONNECTION NOTE : IN REMOTE AREAS, VALVE BOXES SHALL EXTEND SIX (6) INCHES ABOVE GRADE. ACCORDANCE WITH THESE SPECIFICATIONS. 0 TYPICAL MANHOLE FRAME & COVER TYPICAL MANHOLE BASE N.T.S NTS ~ ^I TYPICAL GATE VALVE " " SHOWING DOGHOUSE INSTALLATION FIG. S-I-A FIG. S-I-C w > "I o o "I N N.T.S x w Q M FIG S-I-D NTS FIG. W-5 N.T.S FIG. S-1-A1-25 ¢ 0 W p TD-28 z VARIES VALVE BOX UST YD NOTE: HYDRANT MBE —FINISHED GRADE O t/U DATE 4" DIAMETER BRANCH EQUIPPED WITH CHARLOTTES- AND VALVE M.J. PLUG VILLE THREADS WHICH IS QTHE LOCAL STANDARD. 1 LENGTH OF BRANCH VARIES COVER LIFT NOTCH 12 3/8" - - - AIR RELEASE VALVE •DRAWN rREG BACKFILL SHALL 07/08/21 BY s' MIN TAIN ROCK MATERIAL VARIES 2' To iO' 5" IN FOX y,. (270•) 36"MINTHAN ANY J. "1/2 N DESIGNED BY "% "• `i° 19"-22" 7 CU. FT. ALVE BOX WATER BRASS oR HRONZE PIPE BRONZE GATE VALVE 24' MI KFILL* • #68 STONE I „ 8 MIN (6� LIFTS) C. SHIFFLETT WATER MAIN RESTRAINED JOINT FITTINGS DRAIN T GRADE EMBEDMENT * THOROUGHLY COMPACTED BY HAND OR APPROVED • • CHECKED BY 6" GATE 42"MIN ;', ' CAST IRON LID •- 18" METER BOX SIBLE SPRING LINE OF PIPE MECHANICAL TAMPER O • C. SHIFFLETT ON—LINE VALVE ;-'�;' e. :'= HAUNCHING N0. 68 STONE — — • SCALE (TYPE B > . �, a" X s" �4 TEE BEDDING 6" max • - 4" min • N.A. 2500 P.S.I. CONCRETE " + BASE AND THRUST :.'; °':l';'i �'U'' o;%; •�..-.. BLOCK AGAINST • o ••+ BRICK SUPPORTS OR SOLID CEMENT BLOCKS CRUSHED STONE FOUNDATION (SHALL BE REQUIRED WHEN SOIL CONDITIONS ARE UNSTABLE UNDISTURBED STABLE �� *' 11 VARIES THREADED COUPLING STEEL PILE }, tiry ryN " " ALL PIPE) NIPPLE AND PVC BRAPVC SLEEVE o CAP RESTRAINED JOINT FITTINGS �1 COPPER SOFT ^' , V MEN WHEN THE SOIL IS DISTURBED OR WHEN 18" i LUBRICATE ALL THREADS A HYDRANT IS LOCATED IN A FILL, IN ADDITION THRUST BLOCK METER BOX (SEE FIG. W-7) TO POURING CONCRETE, A STEEL PILE SHALL BE USED AS ADDITIONAL SUPPORT. " : 6" EXTENSION CORPORATION STOP Lu 6" NOTE VALVE NO. 57 STONE PIPE SLOT 1, OPEN CUTS IN PAVED AREAS WITHIN EXISTING VDOT RIGHT—OF—WAY SHALL BE ENTIRELY WITH NO. 21A STONE. Q M.J. FITTING NOTE (2 PLACES) BACKFILLED BE SCRAPED 2" PIPE SLOPED 2. FOR DUCTILE IRON PIPE THE BOTTOM OF THE TRENCH SHALL TO DRAIN IF 1. SURROUND WEEP HOLES WITH GRAVEL AND KEEP FREE OF CONCRETE. AND COMPACTED, AND ALL STONES REMOVED OR A 4" BEDDING OF NO. 68 J - GRADE ALLOWS 2. MAINTAIN A 3 1/2' MIN. COVER FROM THE MAIN TO THE FIRE HYDRANT NOTES: STONE SHALL BE PROVIDED' �;.a VARIES VARIES 2" BRASS PIPE ( INCLUDING DITCHES) 3. FINISHED GRADE SHALL SLOPE AWAY FROM THE FIRE HYDRANT AND 1) A PRECAST MANHOLE CONE AND COVER WITH WATER CAST ON LID FOR TRAFFIC AREAS, OR A METER BOX ASSEMBLY IN NON -TRAFFIC AREAS, OR APPROVED EQUAL, 3. WHERE ROCK IS ENCOUNTERED PIPE SHALL BE INSTALLED ON A MINIMUM 6" BEDDING OF NO. 68 STONE ~ VALVE BOX. SHALL BE USED. WATER MAIN AND VALVE 2" THREADED TAP 4. THE GATE VALVE IS ALLOWED IN SHOULDER OR BEHIND THE DITCH. IT IS NOT ALLOWED IN THE DITCH. NOTES: 2) FOR WATERLINES SMALLER THAN 12„ USE A 1" A.R.V. AND FITTINGS. FOR WATER ARE SAME SIZE PLUG 5. FIRE HYDRANTS SHALL BE INSTALLED AT LOCATIONS WHERE WEEP (1) A 1-3/4" DIAMETER HOLE IS REQUIRED IN THE LID FOR TOUCH READ METERS, LINES 12" AND LARGER USE 2" A.R.V. AND FITTINGS. HOLES ARE ABOVE THE PREVAILING GROUNDWATER ELEVATION. IF REQUIRED TO BE IN WET AREAS, THE WEEP HOLES SHALL BE 3) IN SITUATIONS WHERE THE A.R.V. ASSEMBLY CANNOT BE OFFSET FROM THE MAIN AN ADEQUATE DEAD END FOUNDATION SHALL BE INSTALLED SO THE WATER LINE DOES NOT SUPPORT "A") PLUGGED AND THE HYDRANT SHALL BE PUMPED DRY. THE MANHOLE CONE. 7 (TYPE TYPICAL SEWER PIPE TYPICAL METER BOXES W TYPICAL BLOW —OFF ASSEMBLY TYPICAL FIRE HYDRANT ASSEMBLY DETAIL (5/8"-1" METERS) INSTALLATION IN TRENCH Q '. (n J AIR RELEASE VALVE (ARV) NTS N.T.S. FIG. W-4 NTS NTS NTS ^ Lu I..L � Q FIG. W-8 — FIG. W-7 FIG. W-9 FIG. S-3 O a Lu 2: JDO m 0 W Q 06 Lu O WzF_ W O ° Z W II� 0 O O T� i O U) JOB NO. 47039 SHEET No. C1.02 L NOTE: HYDRANT MUST BE EQUIPPED WITH CHARLOTTES- MLLE THREADS WHICH IS THE LOCAL STANDARD. t LENGTH OF BRANCH VARIES 6' MIN Y TO 10' (2701 18"-22' ALVE BO 7 CU. FT #68 STONE 42"MIN 6" GATE •,.I VALVE TT x 6" TEE 2500 P.S.I. CONCRETE BASE AND THRUST 11,1"fit BLOCK AGAINST UNDISTURBED STABLE SOIL. STEEL PILE WHEN THE SOIL IS DISTURBED OR EN RESTRAINED JOINT FITTINGS A HYDRANT IS LOCATED IN A FILL, IN ADDITION TO POURING CONCRETE, A STEEL PILE SHALL BE USED AS ADDITIONAL SUPPORT. NOTE : 1. SURROUND WEEP HOLES WITH GRAVEL AND KEEP FREE OF CONCRETE 2. MAINTAIN A 3 1/2' MIN. COVER FROM THE MAIN TO THE FIRE HYDRANT ( INCLUDING DITCHES ) S FINISHED GRADE SHALL SLOPE AWAY FROM THE FIRE HYDRANT AND VALVE BOX. 4 THE GATE VALVE IS ALLOWED IN SHOULDER OR BEHIND THE DITCH. IT IS NOT ALLOWED IN THE DITCH. 5. FIRE HYDRANTS SHALL BE INSTALLED AT LOCATIONS WHERE WEEP HOLES ARE ABOVE THE PREVAILING GROUNDWATER ELEVATION. IF REQUIRED TO BE IN WET AREAS, THE WEEP HOLES SHALL BE PLUGGED AND THE HYDRANT SHALL BE PUMPED DRY. TYPICAL FIRE HYDRANT ASSEMBLY DETAIL N.T.S. FIG. W-4 TD-8 Z Z I � 1 12" y I 1 \r 3000 PSI CONIC. BASE BENCH SLOPED TO FLOW CHANNEL 1/4" : 1' MIN AIII FLEXIBLE CONNECTION -/ NOTE: WITH STAINLESS STEEL ALL CONNECTIONS TO BAND EXISTING MANHOLES SHALL w BE CORED AND A FLEXIBLE CONNECTION " BOOT " INSTALLED 2" BRANCH a� 0 TYPICAL MANHOLE PLAN SHOWING BRANCH TIE - IN NTS FIG. S-I-B TD-27 SEWER SERVICE LATERAL CONNECTION NOTES: 1. WHERE A SEWER SERVICE LATERAL CONNECTS TO A MANHOLE AND NO INVERT ELEVATION FOR THE SERVICE LATERAL IS INDICATED , THE TOP (CROWN) ELEVATION OF THE SERVICE LATERAL PIPE SHALL BE AT LEAST 0.2' HIGHER THAN THE TOP (CROWN) ELEVATION OF THE THE LOWEST PIPE CONNECTED TO THE MANHOLE. 2. SEWER LATERALS TAPPED INTO AN EXISTING SEWER MAIN SHALL BE CONNECTED USING A PIPE SADDLE. 3. MINIMUM GRADE FOR SEWER SERVICE CONNECTION SHALL BE 2R (1/4" PER FOOT ) Q 4. ALL SEWER LATERALS SHALL HAVE A MINIMUM COVER 2' MIN DIAMETER OF 4". 5. ALL SEWER LATERALS SHALL HAVE A MINIMUM COVER OF 3 FEET. SALT - TREATED FINISHED GROUND 2 x 4 MARKER PLUG END OF - MAIN LINE I SECTION SERVICE LATERAL r[N LINE WYE-TEE PLAN VARIES e SEWER SERVICE LATERAL CONNECTION N.T.S. FIG. S-2 TD-33 r VIA OLNUD O a< ,MALLLPI USE STRAP ON B WITH ANCHOR BOLT ON CENTER LINE OF BEND. - FOR BENDS 10" THROUGH 12" USE 2 STRAPS ON BENDS ADJACENT TO BELLS. - FOR 18" BEND USE 3 STRAPS AS SHOWN. B ELEVATION PAINT ALL EXPOSED STEEL WITH 2 COATS OF BITUMINOUS PAINT. BEND SIZE I A I B I C D E F V- 6 V-9 2'-3' 2'-6" V-2 2' 1 1/4' 9" 2'-3 S-O 2' 6' 1'-6 2'-0' 1 Ile 11 1/W 10' 7-9 N-9 2'-6' 2'-0 3'- 2' T-0 4'-3' 3'-0 2'-3" 3'-6' T 9-6 5'-0' Y-3' Y-0. 4'-8" 2 1/2" 2'-6 S-0 2'-e' 1•- 2'-B' 1 I V 3'- 4'-3" T-9' 2'-9" V-3" 2" T-V S'-0 3•-0 2'- 3:_9" 2' 3'-9' B'W-O i!n 7'S-W 6'-0 Y-0' S'-3 3'-3 2 7S-B 6'-6 S- 3' V-9'2 1'- 1'-e 3•- 4'-3 5'-0 2W-3 C- 3'-3 5-9"6•-6 1T- Y-9" B'-0 i-3' 2 1 ' CHART FOR UPPER VERTICAL BLOCKING N 3" THREAD 1" AL INSIDE DIAMETER EXTRA STRONG STEEL PIPE Ic =NDS 8c-•) CONCRETE CLASS "B" TES :R F- C� SECTION NOTE. BLDATCHCNERFBOS.�OROTSO FACE CENTER OLCKS. CONCRETE BLOCKING FO UPPER VERTICAL BENDS N.T.S. FIG. W-3A TO-4 NOTE: RESTRAINED JOINT FITTINGS 42" Minimum rGalvanized 5x red 4 Steel Beam, (min. size) 3' min. penetration Into undisturbed soil , or as approved by the ACSA. 'dial I I hi<5§+ Tt�Yf v TYPICAL THRUST BLOCK IN FILL AREA NTS FIG. W-3B d V COMPRESSION . 3/4' MALE PIPE GQUPUNG OR APPROVED EQUAL i• SOFT COPPER 1^.1'.1' TEE NOTE NO SNEAIEO FITTINGS DUAL SERVICE I' TYPE 'K' SOFT COPPER SINGLE SERVICE NOW: 1) SADDLES SHALL BE USED ON PVC PIPE. /// W MN. / 1/8 BEND COUPUNG-\ And lJ FOR USE ON ATTACHED OSINGLER FAMILY RESIDENTIAL ON SERVICES, OR DUAL RESIDENTIAL AND IRRCAnoN sERMCEs. 0 1' COMPRESSION . 3/4' MALE PPE COUPUNG OR APPROVED EQUAL O FOR USE ON DETACHED SINGLE FAMILY READENML SERVICE WHERE AN IRRIGATION METER IS NOT PROMDED. IRON LID -FINISHED GRADE � -COI&ORATION STOP 17+1' K.. ,y"�,a .Tlr' NECESSARY SANG OR DUST UNDER'yT.;.'11y BOX AND SETTER (2-INOI MINIMUM THICKNESS) 4 t'; IT%."".� 4' MAMLIER GRAN RPL 19" Yy hhJiY•',?"' LONG GTOIE POCKET, VWT Ix,Vt, WED. 203, N0. 5) A90RE6A1E Ik>L`.A, y` ,N'�,.1°,'{yt TYPICAL SERVICE LATERAL INSTALLATION (5/8" & 1" METERS) NTS FIG. W-6A ID-10 JUNCTION BOXES, TRANSFORMER PADS PmESTALS, ETC. SHALL NOT BE LOCATED WITHIN THE RIGHT OF WAY VARIES 5' r-I01 T5'i WATER SEWER 3 � o P LOCATION OF OTHER UTILITIES /(GAS, ELECTRIC, TELEPHONE, CABLE, ETC.) EASEMENT WIDTHSI WATER DR SEWER ONLY - 20' MINIMUM WATER &SEWER 30' MINIMUM s SEE PART 3, PARAGRAPH ➢1 SEPARATION OF WATER &SEWER SYSTEMS. UTILITIES CROSSING A WATER OR SEWER EASEMENT SHOULD HE AT 90° TO THE RIGHT OF WAY: UTILITY LOCATIONS &EASEMENT WIDTHS NITS FIG. W-1 TD-I GOOD FOUNDATION MATERIAL ROCKY FOUNDATION MATERIAL 62a IN a.: INITIAL BACKFILL az4 IN B:, MIN MIN. MIN. MIN. \ _� 6" BEDDING s%�''.�=%••''�' "• #68 STONE * STABLE SOIL ROCK * SCRAPE THE BOTTOM OF THE TRENCH. REMOVE ALL STONES TO INSURE THE PIPE DOESN'T REST ON ROCK AND THEN COMPACT THE SOIL OR PROVIDE A 4" BEDDING OF #68 STONE FOUNDATION IN POOR SOIL UNDER -CUT CONDITION 4 MI INITIAL BACKFILL 4 I UNSTABLE a" e" B" e" SOIL\ MIN. MIN. MIN MIN. #68 STONE :GRANULAR FILL AS ��A\\PPROVED BY ACSA � ?::`i:':r_�'=«. STA I bCK' � STABLE SOIL OR ROCK' NOTE 1. NO ROCKS SHALL BE ALLOWED WITHIN 24" OF THE WATER LINES. 2. NO ROCKS LARGER THAN 6" IN ANY DIMENSION SHALL BE ALLOWED ABOVE THE INITIAL BACKFILL. 3.THE INITIAL BACKFILL SHALL BE PLACED AND COMPACTED IN 6" LIFTS. 4. NO ORGANIC OR FROZEN MATERIAL OR DEBRIS SHALL BE ALLOWED IN THE TRENCH. 5. BELL HOLES SHALL BE DUG OUT IN ALL CASES. DUCTILE IRON WATER PIPE INSTALLATION &BEDDING NTS FIG. W-2 PIPE DEGREE BEND DIMENSIONS VOL TEE AND PLUGS VOL. SIZE OF FEE CU.YD. FEE CU.YD. BEND L H T L H T 90 250 250 3.01 0.24 a" a 6" 45 200 225 260 als 200 225 2.5o o.15 221/2 1.50 200 252 0.10 it 1/4 1.50 200 250 0.10 BO 3.66 3.16 3.21 0.48 46 288 288 277 0.28 8„ 221/2 1.68 218 289 0.13 3.18 2.91 2.66 0.32 11 1/4 1.88 218 287 0.13 90 4.83 3.83 3.42 0.83 10" 8t 12" 45 3.33 3.58 2.95 0.43 3.63 4.00 2.63 0.52 22 1/2 2.33 2.58 2.86 0.24 11 1/4 1.83 2.33 2.84 0.18 I CLINT W. S F LET Lic. N 136• 10/ 13/ 2022 yslo;�AL 6;. tj LU C�0 LLII LL O 06 LLJ Z cl� 0 C) Z ^I E 0 0 rn u N � N C > E W ai E ;J Q LL o 3 p U. W 0 N � V oMo Z a Zj O M rn ry r CD to w � 30'x VUi � W 0 0 = v 0 h h h h i UnC ry Z �">�° owwww w M � 0 0 0 0 o w 2 2 2 2 IxLU : R R R R o000 O wwww = ti ti ti ti � W W W W 2 F ry ~ N N O w F �\�M a �c o z •'R O in DATE 0 07/08/21 } DRAWN BY J. FOX • DESIGNED BY • C. SHIFFLETT • CHECKED BY • C. SHIFFLEiT SCALE N.A. � N W V J I --I LI I ce��/^1 Cy V / l/mow/ i■ LL O J m W Q 0 O W I- Q � O � W z O O T� i IO V / JOB NO. 47039 SHEET NO. 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SHIFFLET Y /1\T SCALE EXISTING VEGE TO BE REMOVED LL It oO Lu O 0VE STUB -OUT >o °o o Iz TREET SIGN & w w SPLASH PAD o o Q LLJ co 0 L7 �°\\ <o° Lu it 0o 0 \ O / LL 0O00 O m� Sl 0 TOP=400.�q' ° IN 1N=395.55' 12"PVC (SV o "PVC (NE) Lu LEGEND EXISTING STEEP SLOPES - PRESERVED EXISTING VEGETATION TO BE REMOVED /V� T ( %' � ` `\ \� `, , \ \� \ \�\ \ - \ \ ` \ \ \ �� " - \ \�% \ / r / / \ 1 I ! 1 I / / / / / r• \/ — / vm /\ \ 11 I I I I I I I / JOB NO. -\\\ \ \ �\ \ \\ `\ `�\ \B-a0. _ _—`�\\\\ / /\k / / / 47039 I I I I / / / / / I SHEET NO. �s IV C2.00 L EROSION AND SEDIMENT CONTROL NARRATIVE: MINIMUM STANDARDS: GENERAL EROSION AND SEDIMENT CONTROL NOTES: TH PROJECT DESCRIPTION THIS PROJECT INCLUDES THE CONSTRUCTION OF 2 ROADS, A RESIDENTIAL COMMUNITY, AND ASSOCIATED UTILITIES & LANDSCAPING. LIMITS OF CLEARING AND GRADING ARE 4.88 ACRES. ADJACENT PROPERTY THE PROPERTY IS BOUNDED BY A RESIDENTIAL COMMUNITY ON THE NORTH, ROUTE 631 ON THE WEST, AND WOODS ON THE EAST AND SOUTH. EXISTING SITE CONDITIONS THE EXISTING SITE IS WOODED. OFF -SITE AREAS NO OFFSITE AREAS WILL BE DISTURBED. ANY OFF -SITE LAND -DISTURBING ACTIVITY ASSOCIATED WITH THE PROJECT SHALL HAVE AN APPROVED ESC PLAN. CRITICAL EROSION AREAS EARLY ESTABLISHMENT AND PROPER MAINTENANCE OF PERIMETER CONTROLS WILL PROVIDE SEDIMENTATION CONTROL. ALL SLOPES STEEPER THAN 3:1 SHALL BE STABILIZED WITH BLANKET MATTING. EROSION AND SEDIMENT CONTROL MEASURES UNLESS OTHERWISE INDICATED, ALL VEGETATIVE AND STRUCTURAL EROSION AND SEDIMENT CONTROL PRACTICES SHALL BE CONSTRUCTED AND MAINTAINED ACCORDING TO MINIMUM STANDARDS AND SPECIFICATIONS OF THE CURRENT ADDITION OF THE VIRGINIA EROSION AND SEDIMENT CONTROL HANDBOOK. THE MINIMUM STANDARDS OF THE VESCH SHALL BE ADHERED TO UNLESS OTHERWISE WAIVED OR APPROVED BY A VARIANCE BY LOCAL AUTHORITIES HAVING JURISDICTION. STORMWATER RUNOFF CONSIDERATIONS A PORTION OF THE PROPOSED DEVELOPMENT WILL BE CONVEYED TO A WET POND LOCATED ADJACENT TO THE STREAM, WHICH IS A TRIBUTARY OF BISCUIT RUN. THESE FACILITIES HAVE BEEN DESIGNED TO MEET STORMWATER QUALITY REQUIREMENTS. ALL OTHER AREAS WILL SHEET FLOW INTO THE SURROUNDING VEGETATED AREAS. ALL EROSION AND SEDIMENT CONTROL MEASURES SHALL BE MAINTAINED IN ACCORDANCE WITH VESCH AND THE CONSTRUCTION SEQUENCE, INCLUDING THE INSPECTION OF ALL MEASURES AFTER ALL RAIN EVENTS. STRUCTURAL PRACTICES: 1. TEMPORARY CONSTRUCTION ENTRANCE - 3.02 A TEMPORARY CONSTRUCTION ENTRANCE SHALL BE PROVIDED AT THE LOCATION INDICATED ON THE PLANS. IT IS IMPERATIVE THAT THIS MEASURE BE MAINTAINED THROUGHOUT CONSTRUCTION. ITS PURPOSE IS TO REDUCE THE AMOUNT OF MUD TRANSPORTED ONTO PAVED PUBLIC ROADS BY MOTOR VEHICLES OR RUNOFF. 2. SILT FENCE BARRIER - 3.05 SILT FENCE SEDIMENT BARRIERS SHAL L BE INSTALLED DOWNSLOPE OF AREAS WITH MINIMAL GRADES TO FILTER SEDIMENT -LADEN RUNOFF FROM SHEET FLOW AS INDICATED. ITS PURPOSE IS TO INTERCEPT SMALL AMOUNTS OF SEDIMENT FROM DISTURBED AREAS AND PREVENT SEDIMENT FROM LEAVING THE SITE. 3. STORM DRAIN INLET PROTECTION - 3.07 STONE FILTERS SHALL BE PLACED AT THE INLET OF ALL DRAINAGE STRUCTURES AS INDICATED ON PLANS. ITS PURPOSE IS TO PREVENT SEDIMENT FROM ENTERING THE STORM DRAINAGE SYSTEM PRIOR TO PERMANENT STABILIZATION. 4. DIVERSION DIKE - 3.09, 3.11 & 3.12 A TEMPORARY RIDGE OF COMPACTED SOIL TO DIVERT WATER FROM A CERTAIN AREA. 5. SEDIMENT TRAP - 3.13 A TEMPORARY BARRIER OR DAM WITH A CONTROLLED STORMWATER RELEASE TO DETAIN SEDIMENT -LADEN RUNOFF FROM DISTURBED AREAS IN "WET' AND "DRY' STORAGE LONG ENOUGH FOR THE MAJORITY OF SEDIMENT TO SETTLE OUT. 5.1. MAINTENANCE OF SEDIMENT TRAP - INSPECT TRAP EMBANKMENT WEEKLY TO ENSURE IT IS STRUCTURALLY SOUND AND HAS NOT BEEN DAMAGED DURING CONSTRUCTION ACTIVITIES. THE TRAP SHALL BE CHECKED AFTER EVERY RAINFALL EVENT. ONCE THE SEDIMENT HAS REACHED THE DESIGNATED CLEANOUT LEVEL IT SHALL BE REMOVED AND PROPERLY DISPOSED OF. 6. TEMPORARY SEDIMENT BASIN - 3.14 A TEMPORARY DAM WITH A CONTROLLED STORMWATER RELEASE STRUCTURE IS TO BE USED TO DETAIN SEDIMENT -LADEN RUNOFF FROM DISTURBED AREAS LONG ENOUGH FOR THE MAJORITY OF THE SEDIMENT TO SETTLE OUT. 5.1. MAINTENANCE OF SEDIMENT BASIN - INSPECT BASIN EMBANKMENT WEEKLY TO ENSURE IT IS STRUCTURALLY SOUND AND HAS NOT BEEN DAMAGED DURING CONSTRUCTION ACTIVITIES. THE BASIN SHALL BE CHECKED AFTER EVERY RAINFALL EVENT. ONCE THE SEDIMENT HAS REACHED THE DESIGNATED CLEANOUT LEVEL IT SHALL BE REMOVED AND PROPERLY DISPOSED OF. 6. OUTLET PROTECTION - 3.18 STRUCTURALLY LINED APRONS OR OTHER ACCEPTABLE ENERGY DISSIPATING DEVICES PLACED AT THE OUTLETS OF PIPES OR PAVED CHANNEL SECTIONS. 7. DUST CONTROL - 3.39 DUST CONTROL IS TO BE USED THROUGH THE SITE IN AREAS SUBJECT TO SURFACE AND AIR MOVEMENT. VEGETATIVE PRACTICES: 1. TOPSOIL (TEMPORARY STOCKPILE) - 3.30 TOPSOIL SHALL BE STRIPPED FROM AREAS TO BE GRADED AND STOCKPILED FOR LATER SPREADING. STOCKPILE LOCATIONS SHALL BE LOCATED ONSITE AND SHALL BE STABILIZED WITH TEMPORARY SILT FENCE AND VEGETATION. 2. TEMPORARY SEEDING - 3.31 ALL DENUDED AREAS WHICH WILL BE LEFT DORMANT FOR MORE THAN 30 DAYS SHALL BE SEEDED WITH FAST GERMINATING TEMPORARY VEGETATION IMMEDIATELY FOLLOWING GRADING OF THOSE AREAS. SELECTION OF THE SEED MIXTURE SHALL DEPEND ON THE TIME OF YEAR IT IS APPLIED. 3. PERMANENT SEEDING - 3.32 FOLLOWING GRADING ACTIVITIES, ESTABLISH PERENNIAL VEGETATIVE COVER BY PLANTING SEED TO REDUCE EROSION, STABILIZE DISTURBED AREAS, AND ENHANCE NATURAL BEAUTY. 4. SOIL STABILIZATION BLANKETS & MATTING - 3.36 A PROTECTIVE COVERING BLANKET OR SOIL STABILIZATION MAT SHALL BE INSTALLED ON PREPARED PLANTING AREAS OF CHANNELS TO PROTECT AND PROMOTE VEGETATION ESTABLISHMENT AND REINFORCE ESTABLISHED TURF. MANAGEMENT STRATEGIES 1. PROVIDE SEDIMENT TRAPPING MEASURES AS A FIRST STEP IN GRADING, SEED AND MULCH IMMEDIATELY FOLLOWING INSTALLATION. 2. PROVIDE TEMPORARY SEEDING OR OTHER STABILIZATION IMMEDIATELY AFTER GRADING. 3. ISOLATE TRENCHING FOR UTILITIES AND DRAINAGE FROM DOWNSTREAM CONVEYANCES IN ORDER TO MINIMIZE PERIMETER CONTROLS. 4. ALL EROSION AND SEDIMENT CONTROL PRACTICES SHALL BE MAINTAINED UNTIL THEY ARE NO LONGER REQUIRED TO COMPLY WITH THE CONTRACT DOCUMENTS OR STATE LAW. PERMANENT STABILIZATION ALL NON -PAVED AREAS DISTURBED BY CONSTRUCTION SHALL BE STABILIZED WITH PERMANENT SEEDING IMMEDIATELY FOLLOWING FINISHED GRADING. SEEDING SHALL BE IN ACCORDANCE WITH STD. & SPEC. 3.32, PERMANENT SEEDING. SEED TYPE SHALL BE AS SPECIFIED FOR "MINIMUM CARE LAWNS" AND "GENERAL SLOPES" IN THE HANDBOOK FOR SLOPES LESS THAN 3: 1. FOR SLOPES GREATER THAN 3: 1, SEED TYPE SHALL BE AS SPECIFIED FOR "LOW MAINTENANCE SLOPES' IN TABLE 3.32-D OF THE HANDBOOK. FOR MULCH (STRAW OR FIBER) SHALL BE USED ON ALL SEEDED SURFACES. IN ALL SEEDING OPERATIONS SEED, FERTILIZER AND LIME SHALL BE APPLIED PRIOR TO MULCHING. SEQUENCE OF INSTALLATION PHASE I (SEE SHEET C3.03) 1. A PRE -CONSTRUCTION MEETING IS REQUIRED WITH ALBEMARLE COUNTY E&S INSPECTOR, CONTRACTOR, OWNER, AND ENGINEER. THIS MEETING SHALL TAKE PLACE AT ALBEMARLE COUNTY COMMUNITY DEVELOPMENT BUILDING. CLEARING LIMITS MUST BE FLAGGED PRIOR TO THE MEETING WITH ONE (1) WEEK OF NOTICE. 2. INSTALL CONSTRUCTION ENTRANCE, SILT FENCE, SUPER SILT FENCE AND OTHER PERIMETER MEASURES. 3. CLEAR AND GRADE SEDIMENT TRAP, BASIN AND ASSOCIATED STORMWATER PIPE. REFER TO GRADING AND DRAINAGE PLAN ALONG WITH PIPE PROFILES FOR ADDITIONAL INFORMATION. 4. INSTALL DIVERSION DIKES, CLEAN WATER DIVERSIONS & INLET PROTECTION. 5. AFTER ALL EROSION AND SEDIMENT CONTROL MEASURES ARE IN PLACE, SITE WORK CAN BEGIN. 6. SEED ALL DENUDED AREAS PER VESCH STANDARDS. PHASE IIA (SEE SHEET C3.04) 1. INSTALL ADDITIONAL INLET PROTECTION WHERE SHOWN ON THE PHASE II EROSION AND SEDIMENT CONTROL PLAN AS THE STORM SYSTEM IS CONSTRUCTED AND BECOMES OPERATIONAL. 2. FINE GRADE PROJECT AREA. APPLY PERMANENT SOIL STABILIZATION TO THESE AREAS WITHIN SEVEN DAYS AFTER FINAL GRADE IS ACHIEVED. 3. ALL STORMWATER PIPING & STRUCTURES SHALL BE INSPECTED FOR SILT/SEDIMENT. IF PRESENT, SILT/SEDIMENT SHALL BE CLEANED OUT FOR THE SYSTEM TO THE SATISFACTION OF THE E&S INSPECTOR. 4. ONCE THE SITE UPHILL FROM A SEDIMENT TRAP OR BASIN HAS BEEN STABILIZED AND APPROVED BY ESC INSPECTOR, REMOVE THE SEDIMENT TRAP OR BASIN. 5. APPLY PERMANENT SOIL STABILIZATION TO THESE AREAS WITHIN SEVEN DAYS AFTER FINAL GRADE IS ACHIEVED. 6. ONCE CONSTRUCTION IS COMPLETE AND ALL CONTRIBUTING AREAS ARE STABILIZED, EROSION CONTROL MEASURES CAN BE REMOVED UPON APPROVAL FROM THE E&S INSPECTOR. AN EROSION AND SEDIMENT CONTROL PROGRAM ADOPTED BY A DISTRICT OR LOCALITY MUST BE CONSISTENT WITH THE FOLLOWING CRITERIA, TECHNIQUES AND METHODS: MS-1. PERMANENT OR TEMPORARY SOIL STABILIZATION SHALL BE APPLIED TO DENUDED AREAS WITHIN SEVEN DAYS AFTER FINAL GRADE IS REACHED ON ANY PORTION OF THE SITE. TEMPORARY SOIL STABILIZATION SHALL BE APPLIED WITHIN SEVEN DAYS TO DENUDED AREAS THAT MAY NOT BE AT FINAL GRADE BUT WILL REMAIN DORMANT FOR LONGER THAN 30 DAYS. PERMANENT STABILIZATION SHALL BE APPLIED TO AREAS THAT ARE TO BE LEFT DORMANT FOR MORE THAN ONE YEAR. MS-2. DURING CONSTRUCTION OF THE PROJECT, SOIL STOCKPILES AND BORROW AREAS SHALL BE STABILIZED OR PROTECTED WITH SEDIMENT TRAPPING MEASURES. THE APPLICANT IS RESPONSIBLE FOR THE TEMPORARY PROTECTION AND PERMANENT STABILIZATION OF ALL SOIL STOCKPILES ON SITE AS WELL AS BORROW AREAS AND SOIL INTENTIONALLY TRANSPORTED FROM THE PROJECT SITE. MS-3. A PERMANENT VEGETATIVE COVER SHALL BE ESTABLISHED ON DENUDED AREAS NOT OTHERWISE PERMANENTLY STABILIZED. PERMANENT VEGETATION SHALL NOT BE CONSIDERED ESTABLISHED UNTIL A GROUND COVER IS ACHIEVED THAT IS UNIFORM, MATURE ENOUGH TO SURVIVE AND WILL INHIBIT EROSION. MS-4. SEDIMENT TRAPS, PERIMETER DIKES, SEDIMENT BARRIERS AND OTHER MEASURES INTENDED TO TRAP SEDIMENT SHALL BE CONSTRUCTED AS A FIRST STEP IN ANY LAND -DISTURBING ACTIVITY AND SHALL BE MADE FUNCTIONAL BEFORE UPSLOPE LAND DISTURBANCE TAKES PLACE. MS-5. STABILIZATION MEASURES SHALL BE APPLIED TO EARTHEN STRUCTURES SUCH AS DAMS, DIKES AND DIVERSIONS IMMEDIATELY AFTER INSTALLATION. MS-6. SEDIMENT TRAPS SHALL BE DESIGNED AND CONSTRUCTED BASED UPON THE TOTAL DRAINAGE AREA TO BE SERVED BY THE TRAP. A. THE MINIMUM STORAGE CAPACITY OF A SEDIMENT TRAP SHALL BE 134 CUBIC YARDS PER ACRE OF DRAINAGE AREA AND THE TRAP SHALL ONLY CONTROL DRAINAGE AREAS LESS THAN THREE ACRES. MS-7. CUT AND FILL SLOPES SHALL BE DESIGNED AND CONSTRUCTED IN A MANNER THAT WILL MINIMIZE EROSION. SLOPES THAT ARE FOUND TO BE ERODING EXCESSIVELY WITHIN ONE YEAR OF PERMANENT STABILIZATION SHALL BE PROVIDED WITH ADDITIONAL SLOPE STABILIZING MEASURES UNTIL THE PROBLEM IS CORRECTED. MS-8. CONCENTRATED RUNOFF SHALL NOT FLOW DOWN CUT OR FILL SLOPES UNLESS CONTAINED WITHIN AN ADEQUATE TEMPORARY OR PERMANENT CHANNEL, FLUME OR SLOPE DRAIN STRUCTURE. MS-9. WHENEVER WATER SEEPS FROM A SLOPE FACE, ADEQUATE DRAINAGE OR OTHER PROTECTION SHALL BE PROVIDED. MS-10. ALL STORM SEWER INLETS THAT ARE MADE OPERABLE DURING CONSTRUCTION SHALL BE PROTECTED SO THAT SEDIMENT -LADEN WATER CANNOT ENTER THE CONVEYANCE SYSTEM WITHOUT FIRST BEING FILTERED OR OTHERWISE TREATED TO REMOVE SEDIMENT. MS-11. BEFORE NEWLY CONSTRUCTED STORMWATER CONVEYANCE CHANNELS OR PIPES ARE MADE OPERATIONAL, ADEQUATE OUTLET PROTECTION AND ANY REQUIRED TEMPORARY OR PERMANENT CHANNEL LINING SHALL BE INSTALLED IN BOTH THE CONVEYANCE CHANNEL AND RECEIVING CHANNEL. MS-12. WHEN WORK IN A LIVE WATERCOURSE IS PERFORMED, PRECAUTIONS SHALL BE TAKEN TO MINIMIZE ENCROACHMENT, CONTROL SEDIMENT TRANSPORT AND STABILIZE THE WORK AREA TO THE GREATEST EXTENT POSSIBLE DURING CONSTRUCTION. NONERODIBLE MATERIAL SHALL BE USED FOR THE CONSTRUCTION OF CAUSEWAYS AND COFFERDAMS. EARTHEN FILL MAY BE USED FOR THESE STRUCTURES IF ARMORED BY NONERODIBLE COVER MATERIALS. MS-13. WHEN A LIVE WATERCOURSE MUST BE CROSSED BY CONSTRUCTION VEHICLES MORE THAN TWICE IN ANY SIX-MONTH PERIOD, A TEMPORARY VEHICULAR STREAM CROSSING CONSTRUCTED OF NONERODIBLE MATERIAL SHALL BE PROVIDED. MS-14. ALL APPLICABLE FEDERAL, STATE AND LOCAL REGULATIONS PERTAINING TO WORKING IN OR CROSSING LIVE WATERCOURSES SHALL BE MET. MS-15. THE BED AND BANKS OF A WATERCOURSE SHALL BE STABILIZED IMMEDIATELY AFTER WORK IN THE WATERCOURSE IS COMPLETED. MS-16. UNDERGROUND UTILITY LINES SHALL BE INSTALLED IN ACCORDANCE WITH THE FOLLOWING STANDARDS IN ADDITION TO OTHER APPLICABLE CRITERIA: A. NO MORE THAN 500 LINEAR FEET OF TRENCH MAY BE OPENED AT ONE TIME. B. EXCAVATED MATERIAL SHALL BE PLACED ON THE UPHILL SIDE OF TRENCHES. C. EFFLUENT FROM DEWATERING OPERATIONS SHALL BE FILTERED OR PASSED THROUGH AN APPROVED SEDIMENT TRAPPING DEVICE, OR BOTH, AND DISCHARGED IN A MANNER THAT DOES NOT ADVERSELY AFFECT FLOWING STREAMS OR OFF -SITE PROPERTY. D. MATERIAL USED FOR BACKFILLING TRENCHES SHALL BE PROPERLY COMPACTED IN ORDER TO MINIMIZE EROSION AND PROMOTE STABILIZATION. E. RESTABILIZATION SHALL BE ACCOMPLISHED IN ACCORDANCE WITH THESE REGULATIONS. F. APPLICABLE SAFETY REGULATIONS SHALL BE COMPLIED WITH. MS-17. WHERE CONSTRUCTION VEHICLE ACCESS ROUTES INTERSECT PAVED OR PUBLIC ROADS, PROVISIONS SHALL BE MADE TO MINIMIZE THE TRANSPORT OF SEDIMENT BY VEHICULAR TRACKING ONTO THE PAVED SURFACE. WHERE SEDIMENT IS TRANSPORTED ONTO A PAVED OR PUBLIC ROAD SURFACE, THE ROAD SURFACE SHALL BE CLEANED THOROUGHLY AT THE END OF EACH DAY. SEDIMENT SHALL BE REMOVED FROM THE ROADS BY SHOVELING OR SWEEPING AND TRANSPORTED TO A SEDIMENT CONTROL DISPOSAL AREA. STREET WASHING SHALL BE ALLOWED ONLY AFTER SEDIMENT IS REMOVED IN THIS MANNER. THIS PROVISION SHALL APPLY TO INDIVIDUAL DEVELOPMENT LOTS AS WELL AS TO LARGER LAND -DISTURBING ACTIVITIES. MS-18. ALL TEMPORARY EROSION AND SEDIMENT CONTROL MEASURES SHALL BE REMOVED WITHIN 30 DAYS AFTER FINAL SITE STABILIZATION OR AFTER THE TEMPORARY MEASURES ARE NO LONGER NEEDED, UNLESS OTHERWISE AUTHORIZED BY THE LOCAL PROGRAM AUTHORITY. TRAPPED SEDIMENT AND THE DISTURBED SOIL AREAS RESULTING FROM THE DISPOSITION OF TEMPORARY MEASURES SHALL BE PERMANENTLY STABILIZED TO PREVENT FURTHER EROSION AND SEDIMENTATION. MS- 19. PROPERTIES AND WATERWAYS DOWNSTREAM FROM DEVELOPMENT SITES SHALL BE PROTECTED FROM SEDIMENT DEPOSITION, EROSION AND DAMAGE DUE TO INCREASES IN VOLUME, VELOCITY AND PEAK FLOW RATE OF STORMWATER RUNOFF FOR THE STATED FREQUENCY STORM OF 24-HOUR DURATION IN ACCORDANCE WITH THE STANDARDS AND CRITERIA LISTED IN SECTION 19 OF VIRGINIA ADMINISTRATIVE CODE 9VAC25-840-40 MINIMUM STANDARDS. ES-1: UNLESS OTHERWISE INDICATED, CONSTRUCT AND MAINTAIN ALL VEGETATIVE AND STRUCTURAL EROSION AND SEDIMENT CONTROL PRACTICES ACCORDING TO MINIMUM STANDARDS AND SPECIFICATIONS OF THE LATEST EDITION OF THE VIRGINIA EROSION AND SEDIMENT CONTROL HANDBOOK AND VIRGINIA REGULATIONS VR 625-02-00 EROSION AND SEDIMENT CONTROL REGULATIONS. ES-2: THE CONTROLLING EROSION AND SEDIMENT CONTROL AUTHORITY WILL MAKE A CONTINUING REVIEW AND EVALUATION OF THE METHODS AND EFFECTIVENESS OF THE EROSION CONTROL PLAN. CLINT W. S F LET Lic. N 4380 10/ 13/ 2022 ES-3: PLACE ALL EROSION AND SEDIMENT CONTROL MEASURES PRIOR TO OR AS THE FIRST STEP IN CLEARING, 'a%YONAL GRADING, OR LAND DISTURBANCE. N44#04 ES-4: MAINTAIN A COPY OF THE APPROVED EROSION AND SEDIMENT CONTROL PLAN ON THE SITE AT ALL TIMES M ES-5: PRIOR TO COMMENCING LAND -DISTURBING ACTIVITIES IN AREAS OTHER THAN INDICATED ON THESE PLANS g (INCLUDING, BUT NOT LIMITED TO, OFFSITE BORROW OR WASTE AREA), SUBMIT A SUPPLEMENTARY N EROSION CONTROL PLAN TO THE ARCHITECT/ENGINEER AND THE CONTROLLING EROSION AND SEDIMENT E CONTROL AUTHORITY FOR REVIEW AND ACCEPTANCE. v E w ES-6: PROVIDE ADDITIONAL EROSION CONTROL MEASURES NECESSARY TO PREVENT EROSION AND a a N 3 SEDIMENTATION AS DETERMINED BY THE RESPONSIBLE LAND DISTURBER. (MODIFIED NOTE) o w a o w O m U ES-7: ALL DISTURBED AREAS SHALL DRAIN TO APPROVED SEDIMENT CONTROL MEASURES AT ALL TIMES DURING a J N LAND -DISTURBING ACTIVITIES AND DURING SITE DEVELOPMENT. o d co N v ES-8: DURING DEWATERING OPERATIONS, PUMP WATER INTO AN APPROVED FILTERING DEVICE. ? F °1 v 30V)Q ES-9: INSPECT ALL EROSION CONTROL MEASURES DAILY AND AFTER EACH RUNOFF- PRODUCING RAINFALL EVENT. & ai LL MAKE ANY NECESSARY REPAIRS OR CLEANUP TO MAINTAIN THE EFFECTIVENESS OF THE EROSION CONTROL � v v DEVICES IMMEDIATELY. F ¢' u 0 SOILS INFORMATION: a o w 27B - ELIOAK LOAM, 2 TO 7 PERCENT SLOPES. MORE THAN 80 INCHES TO RESTRICTIVE FEATURES, WELL DRAINED, O HYDROLOGIC SOIL GROUP: B 27C - ELIOAK LOAM, 7 TO 15 PERCENT SLOPES. MORE THAN 80 INCHES TO RESTRICTIVE FEATURES, WELL DRAINED, HYDROLOGIC SOIL GROUP: B p 39E - HAZEL LOAM, 25 TO 45 PERCENT SLOPES. 20 TO 40 INCHES TO LITHIC BEDROCK, EXCESSIVELY DRAINED, HYDROLOGIC SOIL GROUP: B 0 F 0 w Lu x Q z 0 W 0 O am O ce H z 0 a u U) In Lu O ti ti ti ti 0 wwww W 0 0 0 0 2 2 2 2 O O O O W W W W a a a a wwww wwww N N a M DATE 07108121 DRAWN BY J. FOX DESIGNED BY C. SHIFFLETT CHECKED BY C. SHIFFLETT SCALE N.A. wI I W ^ 5m r) 0 J W Lu W 0L 0 0 0 2 ,0 V 1 Q w J CC Q w m J Q LL }O z O U JOB NO. J_ Q w 0 MR J �0�y LL z 0 U Z G w U) i1 r►� z _O U) w L 47039 SHEET NO. C3.00 TEMPORARY RIGHT-OF-WAY DIVERSIONS PIPE OUTLET CONDITIONS a �pLTH (I'pP, I VI TYPICAL GRAVEL STRUCTURE RWD TEMPORARY RIGHT-OF-WAY DIVERSION No Scale 1. SET POSTS AND EXCAVATE A 4"X4" TRENCH UPSLOPE ALONG THE LINE OF POSTS. co 3. ATTACH THE FILTER FABRIC TO THE WIRE FENCE AND EXTEND IT INTO THE TRENCH. 2. STAPLE WIRE FENCING TO THE POSTS. 4. BACKFILL AND COMPACT THE EXCAVATED SOIL. EXTENSION OF FABRIC AND WIRE INTO THE TRENCH. FILTER FABRIC All I I � SF 3.05-1 SILT FENCE (WITH WIRE SUPPORT) No Scale G El KL01 El El I uuuu STANDARD ORANGE VINYL OR PLASTIC CONSTRUCTION FENCE ATTACHED TO POSTS (PRE -WEATHERED WOOD, GALVANIZED STEEL, IRON OR THICK PVC PLASTIC), AT LEAST 40" ABOVE FINISH GRADE WITH SPAN BETWEEN POSTS NO GREATER THAN 6' ON CENTER. EVERY NINTH POST SHALL CONTAIN A WARNING SIGN THAT CLEARLY IDENTIFIES THE FENCE AS A TREE PROTECTION FENCE. TP NO SCALE REE PROTECTION Scale 31 do A A La j 0 %— SECTION A -A FILTER CLOTH SECTION A -A FILTER CLOTH IRE OUTLET TO FLAT ,REA WITH NO EFINED CHANNEL qW :dr 'KEY IN 6"-9"; RECOMMENDED FOR ENTIRE PERIMETER 3do (MIN.) IRE OUTLET TO VELL DEFINED :HANNEL -I KEY IN 6"-9"; RECOMMENDED FOR ENTIRE PERIMETER NOTES: 1. APRON LINING MAY BE RIPRAP, GROUTED RIPRAP, GABION BASKET, OR CONCRETE. 2. La IS THE LENGTH OF THE RIPRAP APRON AS CALCULATED USING PLATES 3.18-3 AND 3.18-4. 3. d = 1.5 TIMES THE MAXIMUM STONE DIAMETER, BUT NOT LESS THAN 6 INCHES. OUTLET PROTECTION # OUTLET # WIDTH 1 WIDTH 2 LENGTH CLASS OP1 100 6' 6' 9' CLASS II OP2 200 3' 3' 3' CLASS I OP3 300 6' 16' 14' CLASS II 3.38 1( OP OUTLET PROTECTION No Scale COMPACTED 18" MIN. i t i t i t i t i DD CWD TEMPORARY DIVERSION DIKE No Scale CWD TO HAVE VDOT STANDARD EC-2 MATTING ON UPHILL SIDE FLOW TYPICAL ORIENTATION OF VESCH TREATMENT - 1 SOIL (STABILIZATION SHALLOW BLANKET) SLOT E,��j` ��ON SHALLOW SLOPES, STRIPS NETTING PROTECTIVE COVERINGS MAY BE APPLIED ACROSS THE SLOPE. WHERE THERE IS A BERM AT THE BERM TOP OF THE SLOPE, BRING THE MATERIAL OVER THE BERM AND,qft STEEP ANCHOR IT BEHIND THE BERM. SLOPE ON STEEP SLOPES, APPLY PROTECTIVE COVERING PARALLEL TO THE DIRECTION OF FLOW AND ANCHOR SECURELY. BRING MATERIAL DOWN TO A LEVEL AREA BEFORE TERMINATING THE 4 INSTALLATION. TURN THE 12" DITCH FLOW END UNDER 4" AND STAPLE AT 12" INTERVALS. IN DITCHES, APPLY PROTECTIVE COVERING PARALLEL TO THE DIRECTION OF FLOW. USE CHECK SLOTS AS REQUIRED. AVOID JOINING MATERIAL IN THE CENTER OF THE DITCH IF AT ALL POSSIBLE. EXISTING GROUND allai TER l 0 m}N. AI OTHJ SIDE ELEVATION I�3�: 1j•1.1•lt 1•ai .r. Ir Ir a ��?'��?'��?'��?'�v' • ., . . BM 3.36-1 CE SOIL STABILIZATION BLANKET (TREATMENT-1) STONE CONSTRUCTION ENTRANCE No Scale No Scale TYPICAL VESCH TREATMENT - 1 (SOIL STABILIZATION BLANKET) INSTALLATION CRITERIA ANCHOR NOTES if SLOT APPROXIMATELY 200 STAPLES REQUIRED PER 100 SQ. YDS. OF MATERIAL ROLL. ANCHOR SLOTS, JUNCTION SLOTS & CHECK SLOTS TO BE BURIED 6" TO 12". JUNCTION 12" MAX. 4:1 OR FLATTER SLOT 6" MAX. STEEPER THAN 4:1 EDGE AND END JOINTS CHECK SLOT TO BE SNUGLY ABUTTED I I I I III TERMINAL FOLD (JUTE MESH WILL HAVE I I I LAP JOINT 2" MIN. (JUTE STAPLED LAP JOINT IN I MESH ONLY) LIEU OF EDGE JOINT) I I I I I I TAMP FIRMLY I I I ANCHOR SLOT F MAX. 4:1 OR FLATTER 3' I I o MAX. STEEPER THAN 4:1 I I I I N roCHECK SLOT I 1 O 2" II I II I II I I TAMP Z FIRMLY CHECK SLOT I I I I 0o r—VAR.yI—VAR.yI 2" � O 0 COL7 = STAPLE FORMED FROM NO.11 STEEL WIRE. CHECK SLOTS AT MIN. 50' C-C 8' STM. "'"' "'^T"'^^ ^""^" ^^" INTERVALS; NOT REO: D W1TH 6' STA JUNCTION SLOT TAMP FIRMLY [--12 2" O TERMINAL FOLD TAMP FIRMLY 3.18-1 BMMIT= SOIL STABILIZATION BLANKET TREATMENT-1 NO Scale TYPICAL VESCH TREATMENT-2 SOIL STABILIZATION MATTING INSTALLATION SOIL STABILIZATION MATTING SHALL BE USED IN CONJUNCTION WITH RIPRAP AT OUTLET END OF PIPE p p� • �- %:/T�Z.t+t'��r��T�� _ -••err 51 EXISTING f PAVEMENT MOUNTABLE BERM (OPTIONAL) EXISTING PAVEMENT GRAVEL FILTER 12" RUNOFF WATER WIRE MESH FILTERED WATER s SEDIMENT CONCRETE GUTTER �• CURB INLET 12" GRAVEL SHALL BE VDOT #3, #357 OR 5 COARSE AGGREGATE. SPECIFIC APPLICATION: THIS METHOD OF INLET PROTECTION IS APPLICABLE AT CURB INLETS WHERE PONDING IN FRONT OF THE STRUCTURE IS NOT LIKELY TO CAUSE INCONVENIENCE OR DAMAGE TO ADJACENT STRUCTURES AND UNPROTECTED AREAS. 3.36-2 IP STORMWATER INLET PROTECTION No Scale 'I wall VA ENTRENCH \ 1 4w EDGES OF MATERIAL 6" 3.09-1 CHECK SLOTS TO BE CONSTRUCTED AS PER MANFACTURERS RECOMMENDATIONS. e OPEN CHECK SLOT TRANSVERSE CLOSED CHECK SLOT UPSTREAM AND DOWNSTREAM T TERMINAL BM SOIL STABILIZATION BLANKET No Scale TMENT SILT FENCE DROP INLET PROTECTION DROP INLET WITH GRATE IL —FRAME 2 Al N=- 3' MIN.HER EXCESS —� AT CORNERS PERSPECTIVE VIEWS STAKE IAI � FABRIC J"i MIN. I I DETAIL A ELEVATION OF STAKE AND FABRIC ORIENTATION SPECIFIC APPLICATION THIS METHOD OF INLET PROTECTION IS APPLICABLE WHERE THE INLET DRAINS A RELATIVELY FLAT AREA (SLOPE NO GREATER THAN 5%) WHERE THE INLET SHEET OR OVERLAND FLOWS (NOT EXCEEDING 1 C.F.S.) ARE TYPICAL. THE METHOD SHALL NOT APPLY TO INLETS RECEIVING CONCENTRATED FLOWS, SUCH AS IN STREET OR HIGHWAY MEDIANS. 3.36-4 IP STORM DRAIN INLET PROTECTION No Scale CLINT W. S F LET Lic. N 4380 10113/ 2022 W;yo'NAIL �C�G• M E 0 ONo N Vi N C > E a E w H_ Lu U a) Q LL 3 p LL 0 w O `6 Q � V oMo Z o- — 1i .. O rn 0 W ry V w d 30 =x tVl1 w ur)i ry �>> Z O wwww ~ C rn w M Lu 0 0 0 0 00_1 o w 2 2 2 2 O O O O � aaa a 0 0 O O O O 3.02 = wwww ti ti ti ti 0 > W > W > W > W 2 ~ N N ry O F w Lu �\�M U Q C] "z \ Z y7�0 1 0 DATE in 0 07108121 DRAWN BY } J. FOX • DESIGNED BY • C. SHIFFLETT • CHECKED BY C. SHIFFLETT • SCALE N.A. • N Lu C� J P" 0 3.07- 6 1 06 0 U) LLI w/ z 0 li 7� Lu Q G > J a O L O� J co Z Lu Q O LL O Lu Q O w Lu Uj 006 O Z O O W IO V / JOB NO. 3.07-1 47039 SHEET NO. C3.01 0 d 0 3 c a 0 90 o o O Ez 20 162 2 c E' —2 a c m 1a a0 0 O 3 U3 Z„ 0 � a O �3 n d m 2 Y x c 0.0 g„ 0 = c Eo dm o a c RIM 10 a 0 .0 a 2 c m m c � o c 0 m nE c E F_ L NLTH UF��� f�IIIV 2: CLINT W. �S F LET >� Li10/f ERNST CONSERVATION SEEDS, RIGHT-OF-WAY NON-NATIVE WOODS MIX - ERNMX-132 I3/202326•a WOOONAL BOTANICAL NAME COMMON NAME PRICE/LB 30.00% FESTUCA RUBRA CREEPING RED FESCUE 1.90 M E rn ° N � N C 20.00% LOLIUMPERENNE, PERENNIAL RYEGRASS, 1.85 > E 'FASTBALL RGL' 'FASTBALL RGL' w a E (TURF TYPE) w > 3 w U 3 20.00% PHLEUMPRATENSE, TIMOTHY, 'CLIMAX' 1.20 p a CLIMAX' w O 'D a LU _j z O 12.00% TRIFOLIUM HYBR/DUM ALSIKE CLOVER 3.25 LU j o N 10.00% AGROSTIS PERENNANS, AUTUMN BENTGRASS, 14.00 z f a U ALBANYPINE BUSH - ALBANYPINEBUSH- 3: 0 w NY ECOTYPE NY ECOTYPE _ a)tLL In- h In- In- 8.00% AGROSTIS ALBA REDTOP 8.00 N F v ¢> z zt 100% MIX PRICE/LB BULK: $3.61 M LU O O O O SEEDING RATE: 40-60 LB PER ACRE 00 j j j j WOODLAND OPENINGS O U O U O U O U THE SHADE -TOLERANT GRASSES AND CLOVER ARE GOOD FOR o; WOODLAND OPENINGS AND PARTIALLY SHADED SITES. MIX FORMULATIONS ARE SUBJECT TO CHANGE WITHOUT NOTICE DEPENDING O W W W W ON THE AVAILABILITY OF EXISTING AND NEW PRODUCTS. WHILE THE FORMULA MAY CHANGE, THE GUIDING PHILOSOPHY AND FUNCTION OF LU LU LU LU THE MIX WILL NOT. _ F LU N N Ell~ Ell F rA U \ " \ SLOPE STABILIZATION SEED MIX z 0 No Scale DATE in o 07108121 Sediment Trap Design _ Drainage Area (acres, < 3) 0.72 ', } DRAWN BY TABLE 3.31-B ACCEPTABLE TEMPORARY SEEDING PLANT MATERIALS Trap Volumes: CREST OF STONE WEIR ,R ORIGINAL Elevation (ft) Area (sf) Volume (cy) GROUND \ J. FOX DESIGNED BY "QUICK REFERENCE FOR ALL REGIONS" 411 660 a a - - - • PLANTING DATES SPECIES RATE (LBS./ACRE) 413 1110 65.6 DRY STORAGE - N YRF 416 1980 171.7 • C. SHIFFLETT • CHECKED BY SEPT. 1 - FEB. 15 50/50 MIX OF ANNUAL RYEGRASS wET STORAGE (ExuvAao) ` MAc • C. SHIFFLE7T (LOLIUM MULTI-FLORUM) FLR CLOTH IXdLiR^L TE cRwRG SCALE & 50-100 El 1 CEREAL (WINTER) RYE Wet Storage: SEE PLATE xu-I EoalsE AGGRE"M_ C, S I RR Wet Storage Required (cy) (67*DA) 48.3 N 4 (SECALE CEREALE) Bottom of Stone Weir (ft) 413.0 • FEB. 16 - APR. 30 ANNUAL RYEGRASS 60-100 Wet Storage Provided at this Elevation (c, 65.6 *"Coarse Aggregate Shall be VDOT #3, #357 or #5 (LOLIUM MULTI-FLORUM) Elope of Wet Storage Sides 21 Weir Length (ft) (6xDA) 4.3 � ^' MAY 1 - AUG. 31 GERMAN MILLET 50 Dry Storage: Bottom of Trap Elevation (ft) 411 , V (SETARIA ITALICA) Dry Storage Required (cy) (67*DA) 48.3 Bottom Trap Dimensions: 19' x 36 Crest of Stone Weir 417.0 Top of Dam Elevation (ft) 416 W Dry Storage Provided at this Elevation (cy 171.7 Top Width of Dam (ft) 3 Slope of Dry Storage Sides 21 Top Trap Dimensions 39' x 56 , ^ v TS 3.31 ST 3.13 J J Q TEMPORARY SEEDING PLANT MATERIALS SEDIMENT TRAP 1 � > LUNo 0 Scale No Scale 06 Sediment Basin Design TABLE 3.32-C SITE SPECIFIC SEEDING MIXTURES FOR APPALACHIAN/MOUNTAIN AREA MIN. 1'WI SPILLWAY CREST OF EMERGENCY 2' WITHOUT SPILLWAY Drainage Area (acres) 3.73 //� LJ DESIGN HIGH WATER W Basin Volumes: 'i35-YR. STORM EI.W.) H TOTAL LBS. PER ACRE Elevation (ft) Contour Area (st) Volume (cy) 0.3• 400 1360 MIN. 10 --- LU O MINIMUM CARE LAWN CREST 404 3790 381.5 Q COMMERCIAL OR RESIDENTIAL 200-250 LBS. • DRY • STORAGE DEWATEPoNG KENTUCKY 31 OR TURF -TYPE TALL FESCUE 90-100% 406.8 6070 511.3 DLnEE J IMPROVED PERENNIAL RYEGRASS ` 0-10% 409 8180 580.6 WET SMRAGE a J O KENTUCKY BLUEGRASS 0-10% < O HIGH -MAINTENANCE LAWN IINTPO SEq WET (' WET • ENT CLENNOE REDUCED REDUCED TO 34 C.Y./ ACRE) m MINIMUM OF THREE (3) UP TO FIVE (5) _j O VARIETIES OF BLUEGRASS FROM Wet Storage: w Q APPROVED LIST FOR USE IN VIRGINIA. 125 LBS. Wet Storage Required (cy) (67*DA) 249.8 Design High Water 408.0 p U Dewatering Orifice Elevation (ft) 404.0 Top of Dam (ft) 409.0 GENERAL SLOPE (3:1 OR LESS) Wet Storage Provided at this Elevation (cy) 381.5 Top Width of Dam (ft) 6.0 W Z KENTUCKY 31 FESCUE 128 LBS. Available Volume Before Cleanout (cy) (34*DP 126.8 Bottom of Basin (ft) 400.0 w RED TOP GRASS 2 LBS. SEASONAL NURSE CROP " 20 LBS. Cleanout Elevation (ft) 403.00 Approx. Bottom Dimensions: 66' x 27' O U C Distance from Cleanout to Orifice (ft) (> 1') 1.0 Upstream Face Slope: 21 e_ 150 LBS. LOW -MAINTENANCE SLOPE (STEEPER THAN 3:1) Downstream Face Slope: 21 0 Dry Storage: w KENTUCKY 31 FESCUE 108 LBS. 2 LBS. Dry Storage Required (cy) (67*DA) 249.8 Baffles: Yes U) RED TOP GRASS SEASONAL NURSE CROP " 20 LBS. Riser Crest Elevation (ft) 406.8 Length of Flow, L (ft) 55 CROWNVETCH *" 20 LBS. Dry Storage Provided at this Elevation (cy) 511.3 Effective Width, We (ft) 48 150 LBS. Diameter of Dewatering Orifice (in) 5.0 L / We (Baffles required if < 2) 1.1 O z Diameter of Flexible Tubing (in) (Orifice+2") TO Collars: No O O _ * PERENNIAL RYEGRASS WILL GERMINATE FASTER AND AT LOWER SOIL TEMPERATURES THAN FESCUE, THEREBY PROVIDING COVER AND Runoff. (See Routing in Calc. Book) Depth of Water at Spillway Crest (ft) 0 C (Use 0.45 for Bare Earth) 0.45 Slope of Upstream Face (Z1) 0 O EROSION RESISTANCE FOR SEEDBED. Tc (min) 5 Slope of Barrel (Sb) 0 1 2yr 3.69 Qp 2yr 6.2 Length of Barrel in Saturated Zone (Ls) 0 w ** USE SEASONAL NURSE CROP IN ACCORDANCE WITH SEEDING DATES 125yr 6.85 Q 25yr 11.5 Number Collars Required 0 AS STATED BELOW: Dimension of Collars N/A MARCH, APRIL THROUGH MAY 15TH .............................. ANNUAL RYE Principle Spillway: MAY 16TH THROUGH AUGUST 15TH......................... FOXTAIL MILLET AUGUST 16TH THROUGH SEPTEMBER, OCTOBER...... ANNUAL RYE Available Head (ft) 3.1 Emergency Spillway: No Diameter Riser (in) 36 Bottom Width (ft) 0 O NOVEMBER THROUGH FEBRUARY................................. WINTER RYE Diameter Trash Rack (in) 48 Slope of Exit Channel (ft/100ft) 0 Barrel Length (ft) 86.78 Length of Exit Channel (ft) 0 *** IF FLATPEA IS USED, INCREASE TO 30 LBS./ACRE. ALL LEGUME SEED Diameter of Barrel (in) 18 Crest of Spillway (ft) 0 MUST BE PROPERLY INOCULATED. WEEPING LOVEGRASS MAY ALSO BE Barrel Inv. In Elevation (ft) 400.94 - INCLUDED IN ANY SLOPE OR LOW -MAINTENANCE MIXTURE DURING Barrel Inv. Out Elevation (ft) 39920 WARMER SEEDING PERIODS; ADD 10-20 LBS./ACRE IN MIXES. JOB NO. PS 3.32 ST 3.14 47039 PERMANENT SEEDING MIX FOR PIEDMONT AREA SEDIMENT BASIN 1 SHEET No. C3.02 No Scale No Scale L / / \ 000 _ o °/ / n��(( '- T _ - - - - - _` 0 ° ° o \ \ \ \ _ ,11N11111j1 0.31 all /\_ \/ \/I -�\ /I'�y* /`/ �\' `/\�o' ��\\ a \ \♦� \/q //\/� ' \/'/ 1/ \ ,\// /\/ /�'` 0/ �' \\, 1\' \\\I,\� /�4/ \`51/\ \'1\ // ` \1 ,\_ \1I ��\`\\,\ \\ /4\/_\/` 10� I\I�I \ S'te_ /2<\ T1/ / I \/ / /_/\�1 ,1/ \`\�1 \I - I �/ I _m\IC-\ 1 \o'--'\ 1\_1 \ " I - IQ' \'_ --/1 i\_ \ _/-1\1a/ I-/ I _/�` /— - \_ -\/-/ ' \r /o,/_- ' —// � — /'_ \ //,'' - — / I-,— '�/-'' ,'/ -°'— ,'// 0_ _ ' / _- /'' /_ '/♦ / �_/_ //'�- / '_ \ // —/--_ ''/ / - o0 /00 _ t-'' / t/ - /_ ' /t _ --� —/ _ `-_ _ — -\• `--i / - '//_ ' 83o0° loomI� 0/ \/ Oo l\� \ / / \/ \ / •►'v� v�0} G,� -/o .�1 vOwd0�G� � �vOwa0�sw�zCt,QscOwd0 ; i LINT W. S io o/°. -- ° �° F LET > 0 0 000 SCALE 1"=30' ° ° Lic. N 1360 4' to 00000 0 gA10/13/2022 �o'— 0 3060 o oBT4 laI ° 01 �OVAL ° 14 ° _\ oo ------------ ----- - / °0-10 C ``E F0'`v °° OODWAV° 0IY woo/PRESERVED' ° y \O_LLo&fEEP gL0 OpRE / OM2C5o E/ WFNSPq/VO21-03-0029P0029P S.� (riPIC$0 ° SP/\Q �VZ o ° -oo00000000 0 0 0 0 q Ww O 0000 o �° /o a---- -- ------ o REAMBUF�EZ -mass ` LIMITS OF o 0 0 ?o o'o ° f =x u ° ° wD400 / 0 4.88AC.------------06 000 �v 0)In- )In- In- cOwa0 In- 0 - -Q x ry o o- / W�z 2222 o ¢O w w w w4 _ 00 EFFECTIVEo / TP -4 UUUU 100-VR 1,6-- 00 SF TIPPER IfOMA, CASE N�415— � 21-0-0020 SF o W W W W TD 3D ct� ct� ct� vo zTS — — , / DATEW _ S - - -- TOP=46/F9DRAWN BY--/-- - - - ------------ TSyotEN OBSERVE) i ,V1 P�C (S / J. FOX 3Y7. I NV IV CE DESIGNED BaZI- YVC (N dT ' 12"PVF, VAC. SHIFFLETT TING 20' CHECKED BY SAN°\.o ASEGENT \ I ------- /----------------—-- ' ------------------ \°I C. SHIFFLETT _ _ _ - - - - - - _----- ---- ---+--- S SCALE SAN -a SAN --_----- - - -- --— 1"=30' -------/-------f-------r------ - 1611 - - - - - - - - - - -- - - - - - - - - - \0\ _ - - - - - - - - - - - - - -------- -- -- -- ------ - - -Lu - - - -- SF J LL '^ / 11011, 0 LU J QO0 i° \BAFFLES o TS 2:O� wI EROSION CONTROL LEGEND co U Lu rLIMITS OF CLEARING AND GRADING ' `LL 2! SOIL TYPE BOUNDARY ' LL CONSTRUCTION ENTRANCE 3.02 \ w c X SILT FENCE 3.05 , /49% INLET PROTECTION 3.07 \ SEDIMENT TRAP 3.13 G// /// /ySEDIMENT BASIN 3.14 (S(NEDaV OUTLET PROTECTION 3.18 Lu ZE TEMPORARY SEEDING 3.31 PERMANENT SEEDING 3.32 \ _AdSF MULCHING 3.35 / + BLANKET MATTING 3.369° _\ //,p I / \ '' •� I \�` '•, ---`� \\ `` � TP TREE PROTECTION 3.38 JOB NO. 47039 DC DUST CONTROL 3.39 SHEET NO. * "VIRGINIA EROSION AND SEDIMENT CONTROL HANDBOOK" SPECIFICATION NUMBER03 L 0�° lo °0.31 f(jFo o 0i °'\ OOooi, oo g� ga\O� CUNT W. 0,\ `__------- °p.° uS F LET O0BM SCALEI"=30' -----�00 %o0°°o00 ° °°00 �i • \ OZD[ \/�1.`//__\ /`,/ O/\�—1 �TCSBI�\ S�P_'FEM \ 1\ \/\'_ iv //�6/1 I/I,�\ /;l/_/_/i� \/ // / / '/ 0_ /_/ / //i_ // _I/f \ // / I •I_ '// ./w - l/I1I1I,/ / , / /_ l\/\\ //� \ �\// / �',il//, /\ \\//i X�, \ \\// / �\\/iIIi/ ,\ —\\/I// \ I /l/ \lI —///\i,\41 /1�I /\ 1\ 9—\/ 1I/ //1E I /_ \/// E// I/ /i\//,_ ` // / /// I/ / // // / _/ //\// /I/I/ _//// /// /' l '/ / ///I'— I / / '¢//0J'\6//� 1/\ \/\\ I /�� \\\\//\//\ /\-.,\ / / I\\ �1 / /✓ / \ I I 1/ I ///1 / \\\// I�,I / /, \ I//\ /\\`\\I // / /\ I /\/Il\ 1 I \ \Ip\\ \// / ///\t\o/1\/ /1o\ J\f1 \/ /\ \ \C1IN1 /\ /�\ \ \ E \1// /\\\\/ \/\\\ \//�1_\\ \\\ \/T° , / \ \� \/ \PI \o,\oo \ \\ \\ \\0\\�\�\ f\/10 °�\ \ 0\\ \ O\/\'g \n\/\ I\\\ 'P\ \ /\L\1� \ //\\j/\/ �0\ I/ /\1P\ / \ / / \\i/ I 1\ a\\// iy 1I\1 A // j\�I\ 'A/\,\\/1I� I// \ � \S\te\ / /I \ />r/1\i/ F / �\// \ \—\� �// \�\\ /�� \' / � \�1�/ � \o/ \\�'\ \\/ r I/,/ \/O\ /\ \ /1P/ ` /`a\\2/ /1/\\// //r\\\/ 0 ' _ \\/1 \I\r\\ \/ ,/ \\_ ///\ \ `\ , I I1\ \ g' \\ \\ \'\\^`' \ h+\ I\\o\ � —\ \�O— \'\ \/�<\\/ \/\ \ \\\ ,' \\�\S\ 'P/I \\ q B�\ \ M \1 1 '\-�° Ite4\IQ ,\I\ +'a� ,\1\� 1 \I \\ — /\\/\1— \1\ I � \/�/ I\ \ I\\ '�— \\\ /\\\ �-\'1'/ I3\ \g\ \Q1�8\ \ \/ ��\ \ R\II \ �\4/_ \ �/ ( /\ Ii \e�\DyI I / � /T�\ I\' \\// _P, `\ — \IIy i \1 / �=_—p\!' ;I_L /�P — _\�\ _�—_ 1--� '_ '/ _ _vI\ 1 --/' _v vO/ \ ' —_ aPry /�1 ,—_ /a— M/Q ' \ \ \ I •¢Z=•fO02� •>oo L° irvvwcc3,. 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Lu 0- fill °oO ° 0 1 ` EROSION CONTROL LEGEND Lu LIMITS OF CLEARING AND GRADING SOIL TYPE BOUNDARY ON IP W � W CONSTRUCTION ENTRANCE 3.02 0 BM SF ULc SILT FENCE 3.05 \ INLET PROTECTION 3.07 SEDIMENT TRAP 3.13 °�'j SEDIMENT BASIN 3.14 (SVD(/ 10 OUTLET PROTECTION 3.18Lu a Ps TEMPORARY SEEDING 3.31 4 PERMANENT SEEDING 3.32 BM MULCHING 3.35 TP T BLANKET MATTING 3.36 I 00 TP TP TREE PROTECTION 3.38 / / I \�\ , , `� \ \ \ \ qN� \\ \\// JOB NO. 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THE TRAIL AMENITY PROFFERS WILL NEED TO BE COMPLETED PRIOR TO BUILD -OUTS OF ' o ° ° ° o o ° l� `\ \\� J /uGT PHASE 1, WITH THE TRAIL NETWORK COMPLETED PRIOR TO THE ISSUANCE OF THE / o o ° 100TH BUILDING PERMIT IN BLOCKS 3-8 AND THE PEDESTRIAN CONNECTION TO THE I OPEN SPACE / p ° o o ° ° I o� \ ;I \\ EXISTING SOUTHWOOD NEIGHBORHOOD CONSTRUCTED PRIOR TO THE ISSUANCE OF — O O y��0 11 / 0 0 o p ° ° + I \ Fja� o ° O THE 300TH CERTIFICATE OF OCCUPANCY IN PHASE 1. GREEN SPACE oe No. / o o ° + + \�\ \ \ 0 ��; — 2. OPEN SPACE SHOWN IN BLOCK 1 BEHIND HOUSES WAS PROTECTED BY A TREE / p ° 1 1 1 �\ xp p PRESERVATION EASEMENT AS PART OF THE SOUTHWOOD REDEVELOPMENT - VILLAGE 1 47039 / 0 0 ° + ` I 1 %�\�\ ,° / (SDP202100019, WP0201900062). RECREATIONAUAMENITY / 0 •� \ �` SPACE SHEET No. + \ \ \ \ L o --__-----_\—_\ 00 `� ° /'/ °9�i 0004p9? 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Sr LO S' ' — / OPEN SPACE PROPOSED / / / / r /' / / ;'' ' 1 / o • ; o AS PART OF THIS PLAN /, OPEN SPACE PROPOSED AS PARTIN OF SOUTHWOOD VILLAGE 1 � o � $•7'j ' bS) /. j ✓ j o — — — — _ SDP202100019, WP0201900062 CLASSBTYPEI•---.—_. _ � ) \ ✓ o ' � PRIMITIVE TRAIL •EFFE LIMITS OF DISTURBANCE t[T t F1 n ---- ---- E -- — — — —_ t t -- I I \ I \ , I 14+42.55 0 13+ 0 13+00 -12+50 —12+b0 _11t50—_ 11+00 10+50 �I � \ 1. I • TRAIL PEDESTRIAN . / \ \ _ L-- / / CONNECTION ;\.`i \ __\ -- +— I — \ \ 11 I j TH CLINT W. S F LET Lic. N 4380 10113/ 2022 y;S,o'VAL G• M E 0 O1 0 N Vi N C > E v E w w w 3 Q LL o 3 p LL w0 -i V oMo z w —u O rn C7w rv� w f z v a � 3 o V) d� a j LL p Q = w p v i ��>> O wwww =rn iiii w M 0 0 0 0 a-1 O O O O 0 0 = W ti W ti W ti W ti 0 W W W W ~ N N O F w F rq\co rN Q z N V\p0\O\ O DATE in 0 07108121 Y ---------- CL . ��• �\.; • ' ' .\ \• \ «\ \\ \ \ \ \\ \ \ 1 '1 I / / " \ , r/ I /1 I —I,/ / I— I'�I '� �I—} _ 1-1 � I � , I I --- --�/ ^^'� � � � \ \\I,11•I I� \, •\\ \\\ \�\\. �\ .\ f .I I 1 1 .J�' .I I I � i � r /' � /' r � � � � � � ���� � .�' � � /' /' ,,. --- --- I--- --- \\_ --- _ '' / '/.' .i , /. ' 'I�I,I � I.t, .I. ,\ .\\• ' \\.O ,I' ,I 1' ,I I � I I 1 / r /�\ // / `' � / I— ,' � i'� , \ I 1' ' I .I I ' ` \ '\ . \ \ 1. I •1 . 1 . 1 I I I I / / /'\ �' / / / / . F v / � _ _ \ _ \ ' / � � / 0 Wu 20. �g o \ \\\'. .� ��'` \ •\.\° I,\' •\ ;\.\, CI SOUTHWOOD VILLAGE2 0 \ 1\` ♦ _ •\ \ \'1 ' { \ •1. LIMITS OF DISTURBANCE / / /' /' 12�"i• -�-� I / ' / / . \ \ \ \ \ \ \ \ \ / / 0 I \ \\�� \' \.\' '/• �+ I. \' '1• °/ I _— — `• �,` �\ \• .\ ' . \ \ •1' \•• ' 1 1• '1' 1 1 I \ I I 1 I 1 / I / / / / / / PARK _ \12+boI --I�-�-1�1+ /T1/1*A0T0// ' - -�-- _10\+ 0\ i0\+00 0 \ /0 / \ \ ; \ . ' C . 1 o I. \ \ I. .� ' ' 1. • ; , \ \ \. \ 1 1 1 1 1 1 I I , — ) / / \ \ \ I I I I \.8 \ V \. .\ t \�. \ .\\. •\. \ / / / / / / / \ \ / / / / / / ° LEGEND X / / / OPEN SPACE PROPOSED / ' � \\ _ • —_ _ _ _ � y ` / , , / y / 0 \ / , / \ \ \+ - . � _ � ., AS PART OF THIS PLAN \• \ \ \' �' • )8' ' � �'� ' /• � /� / ' / / \\\�' �.�_`�,� '•\`,��. �\ ��\•\�_ - - —_ �\\ �. ' 1' �I. / I• I'L l (a•/// / / / / / // / r' OPEN SPACE \ � I \� �' ���,, ,;�' \ � �\ �' \\. c;__ _ '"c'•_ \. L�' 1 �i•1 1.1 l ` ' / GREEN SPACE \ ,O \ \ I 0 / / / I \�\\,\ •�'� �\ ��r \ \; \' �� \+o`;O;a _ _ '� \ >` . \ .t�, 1 I . 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N 136• (4' X(VARgY T RBfN0/13/2022 TE0 30 60 o117ONAL`° G��,V•� 611• 4"41 /o ¢�6 / � / l J / / 1 1 / / / / 4090 _ !\ - - � �� � ' ' / � ` _ - - - -I - - - / � � / S 0 _ -o 0 0 0_ 0- _,_,_0 � � > E 06 1 '/////l �/ I I 1 1 // / /' EFFECTIVE / 1 \� i _`_' �`''� ---------------- J i' / o S° ct _�� a y 0 o c _ / , , / ; / / I / J 1 / / / , FLOODWAV \ 'E-VFEECTNE WQ� R _ - - - _ - - _ / _ - ' RESERV D" 0 o J / , / / / / 1 t� / / Fp S PER LOMA FLOaDP� ALN PER _ - _ - _ - \ ` ' / ' 0 0 0 ' / - - _ - ' - - Q LL , 3 Op R ST CASE NO. — — — — — — — — F _ _ - ' _ _ - ' / o / &7EEP SLOPES`/ oLL pq 21-03-0029P / / / 0 0 0 o OM21 0 0029P O FNSTq - _ _ _ - - ` ''o of / /' / iTiPICjL� / - _ - a W v o°'o z y .00 0000 'o000000°° ,_ °oo pqL / VD 0/ / n o�— / o00- ------ - - - - -- __ I -'00 / /SfREAMBUFi�EfZ' / ' ' ' ' V' w W M 000 � � 0 —� / / / / / / 30V)Q LU VI ' °/ —� °°°o---- o �� ' /' / �">> O wwww ? 0- / _ - 10' PRIVATE DRAINAGE EASEMENT ° o 0 EFFELU CTIVE / ,00 � -a?' 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SHIFFLETT .A, 134 ^� N -/ F r �r i p 4 D Ift — ?O_ pW� • — N I \ \ '� \� \ \ \\ \ \ d w v 7 .� W r cS rn / I \ \ ' \ / \ CHECKED BY C. SHIFFLETT `\ + � ' / / / I /' I \ I `. � - - - • SCALE 3 _ _ .. r .... _ - - - \ \ \ \ \ \ \ 1 "=30' \ \ \ \ p _ .:'.'I'.'.'.' 132 (1 RAlNiASAG /� L i _ \ \ • , V r I / I / I / TORMWATER \ \ \^ \ 2 P�{BLIC 131 -- r- -- / / /, -- / --�- - - - - - -- / ACCESS \ \ \ �VV 409.42' \ PRAINI4GE 1 113 / / / /' / J / TW 32.54' - - - - (Ln \ EASEMENT \ \ \I \ \ \ EPSEMdrNT / 115 / / i / 6W 27.1-3r - - - - - - - _ _ r Y V ,\0 kTE__j_ _ I 29''ACS / / RAINA TW ,132.94 EASEMEN / SE NIT 426.50' / ' 20' Pf21VATE I \ DRAINi�GE& _--------. \ ACCESS \I\\; - - \ \ EASEMENT \ \\ o 1 \\0 \ TW418.01 1 1 1 I 1 I VARIPBLE IDTH�WM FACILI \ i o MAIN ENANCE\EASEMENT \ Sq \ - z �1 LL - O m I LU I I O 11 / Q LLI o I o\Yy' I1a .. \.. a .. a \ \ \ > 0 \ ` 1 1 1 \ ` I / .,.....••�... a ` \ \ \ V 0LLJ - \ .q °o \ \\ \\\\ ` \ - -\ �\ \ \ \\ \ \\ \o I\\ I I ` \I \ \ 1 1 . 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L o° , /,/i.// I I/ �1a,6 °o�pO / °p°O0O —� /— J °=0-00/i /// I /,�/ °° /� �' I�-- -- -- - coo- o , '// ///// / // °off / '/ '/ NMI / o _ P __�''//// //l 1///// / /-/ // /' / �'' /l j" --_—--------------- -- / / — — — — — �° NMI WE 83 SCALE 1"=50' : 1 1 11 II{�% maL ii, - / I I /P f, ` / / — — —------------- ---- I — —'———————— — — — — —— — —— / /oV\`\✓ b/`�/I'/i/,I////// / / I�I�'�`\\IIII,` II :� ��j SI\;/�� 1I II--t—/—//./L.i/ �' — — —— o� loll \ / /-%— Ov"'%�'�i�1la��i �•4 1 I / o ° //'� \ — — ` \\ \ \ \\ \\ \\ \ \ \\ 1\ 1 ; / / / // / / , ,' / — — — — — — — — — — — — — \\ 0Xlk PRE -DEVELOPED AREA TOTAL AREA = 4.44 AC epi \1 r II 1 1 I i I II I I IMPERVIOUS 3C o TURF =0.1AC ,'-i _ _-� - -- - - II o WOODED=4.14AC ° ` 0 0— o71 \ 1 O?40 \ 00 'o \ \ Io I 1` o� �4p \ \\ \�\� \_ \/ \ ���� �1'\\ \\I \ o \ \ /\ �� \��C� _ \ \ 777 / / \ v. 0 POINT OF zz 00 ° / / / \ -z, `` PRE -DEVELOPED DRAINAGE AREAS �, �. r JC •�•� • o 0III I. ■ ■ �I owl �`•i11"IiCllEjllE� � , "`-'ii i. • / '•�,• , III I�1.1� Iii1 •I-� I -I I-11i111= II�Is71 �-=,�� ' ® '\.,Y IAR v .,�'�� III I� liil 1 nn Iln ■Ilr ..n ..,^ ;� "� �� ���►_. G� III III III j iiii iiii a� :� o-r' ��'� ' 7 •r • �,y'''•t� h/,illi �► 7�M► �a��l► �'l ►—� �! ► �►� as ��i �'s�■, �1� "� ` \. ��� �' �;/• 0 ,•zs, S'SCALE V=50' 1 pp sm.1 i . EVE 11 ■�. C07107100N!'I Illltlltlp� Opp_ Ylllllllq IIA�OIIt■` kllltl. 10..6■':A Y k11tl11011■ Ilk HI989� / . ► �� \ MR '�IrJb®1 ■W-V 119id9 IEQi�gg1611 ilt_Ps i_\•!_i_� � MMM1I t7 I ils �S�i � P�1 � ��ill ---� •,� il�f� ■La ` f' � "� �tJ gooI _ mm -Q_II� MR I trr�: m, ml.w,err•e��rsa�•�ar��11��9erm�r�1�11��mree�wi�lilr�ll�e�l� _ '' I� gllai +"' IIW■� wvs wwc-"ia.r aSl�— - col;d� �' ■il -. _� - ._ ��• err :1V" 1 N' � .- l Fill 611. OR �,A ,err• , AA ■ • , •• � ...�°\���/� �� "���-- • ism I 1 �11,1�1.�-' / ��i PEI VM MA rill �� � �.�I\� � � s���l Flat�p �� ewe �I ii■I �i1 �'• 1�� , •• w �, � ��, �� ��' ��� ,�R� ��l�:ewr !1_ll9i�s_ ��flln���' WIWI look `'1 1 ►��/ ./� ` ee _ 11 � • J � _ ��,r,.-��� �M,r ��,.a� �� lop �� // mil►, ISO WATER QUANTITY ANALYSIS POINT 1 DRAINAGE AREA ANALYSIS (PRE -DEVELOPED) PRE AREA 1 (ONSITE) AREA = 4.44 ACRES IMPERVIOUS = 0.00 AC. MANAGED TURF = 0.31 AC. WOODED = 4.14 AC. TC = 6.0 MIN. Q (CFS) V (AC -FT) 1 YEAR 1.93 0.111 10 YEAR 12.57 DRAINAGE AREA ANALYSIS (POST -DEVELOPED) POST AREA 1A TO SWM A (ONSITE, DETAINED) AREA = 4.44 ACRES IMPERVIOUS = 2.41 AC. MANAGED TURF = 2.03 AC. WOODED = 0.00 AC. TC = 6.0 MIN. Q (CFS) V (AC -FT) 1 YEAR 10.36 0.458 10 YEAR 26.28 FLOW ROUTED THROUGH SWM A Q (CFS) 1 YEAR 0.32 10 YEAR 20.42 CHANNEL PROTECTION (ENERGY BALANCE): /� `"DEVELOPED < 0.80'(`WRE-DEVELOPED*RVPRE-DEVELOPED)/RVDEVELOPED QMAX (1-VR) < 0.80`(1.93. 0.111 AC -FT) / (0.482 AC -FT) = 0.36 CFS Qo-YR) POST -DEVELOPED = 0.33 CFS OK STORMWATER NARRATIVE THIS PROJECT INCLUDES THE CONSTRUCTION OF TWO (2) ROADWAYS, A RESIDENTIAL COMMUNITY, AND ASSOCIATED UTILITIES AND LANDSCAPING. ENERGY BALANCE REQUIREMENTS WILL BE MET THROUGH THE USE OF A WET POND. FLOOD PROTECTION REQUIREMENTS FOR THE 10-YEAR STORM WILL BE MET BY RELEASING THE STORMWATER INTO THE MAPPED FLOODPLAIN, IN ACCORDANCE WITH 9VAC25-870-66, SECTION C.3.C. STORMWATER QUALITY WILL BE ADDRESSED THROUGH THE INSTALLATION OF A WET POND AND THE PURCHASE OF OFFSITE NUTRIENT CREDITS. DOWNSPOUT SPLASHBLOCKS SHALL BE USED FOR ALL ROOF DRAINS. LEGEND • FOR FA U ■ • J fj ,. r �i BMP PLANT SCHEDULE BOTANICAL NAME COMMON NAME MIN. INSTALLED SIZE ROOT SPACING ELTANDRA VIRGINICA ARROWARUM 6"POT PLUG 12"o.c. ZONE VMPHAEA ODORATA =RAGRANT WATER LILY 6" POT PLUG 24" o.c. ONTEDERIA CORDATA'BLUE LUE PICKEREL WEED 6" POT PLUG 18" o C OLYGONUM PUNCTATUM SMARTWEED 6"POT PLUG 12"00. AREX STRICTA TUSSOCK SEDGE 6" POT PLUG 12" o C. RIS LOUISIANA MARGARET HUNTER 3LUE SWAMP IRIS 6" POT PLUG 12" o o. ZONE PINCUS EFFUSUS OFT RUSH 6"POT PLUG 12"oC. OBELIA CARDINALIS ARDINAL FLOWER 6" POT PLUG 18" o.6. SCIRPUS VALIDUS IPLUG 12" o.c. ■•!�pLTH �j�•,1 , CLINT W. S F LET Lic. N 4380 10/ 13/ 2022 y;Slo 1 pL 6%. M E 0 o N � N C > E w a E Q p U. wO `mom V oMo Z —n O w4 rn o . ry � a fn W w 3: >C U) w oQ =v O i C ry Z ��>> O ww ww ~ 0 rn w M � 0 0 0 0 a v O O O O 0 O O O O W W W W = ti ti ti ti > LU LU LU 0 W W W W F N ~rN ILL N N O w F �\�M z co Q N 7 0 Z 0 DATE 0 07108121 } DRAWN BY J. FOX • DESIGNED BY • C. SHIFFLETT • CHECKED BY • C. SHIFFLETT SCALE 1"=30' N W V 0 Q 11 � z ' a J z � ce LLJ Q Lu z >z L Lu a(D 0�z �mLL IJ10 \u / O I..L 0 O W "z 0� C� G 0 Q O 0 0 2 0 U) JOB NO. 47039 SHEET No. C6.00 L Project Name: SouttMrood Village2 KHc I 3/31/2022 asi, De i a SPccric RAPA On, 2013 Drag stds & Specs Site Information Post -Development Project (Treatment Volume and Loads) Land Cancer fanesl A Soils 1Sotls CScils DSons TNals rann/ce-span laces)-unem.ibcd. poreaee lads[/own scare nrelrienee FDA Maa],.Flaaes)-mswrom, Naeee fa7sorod er mr/mbe ].38 z.3a L,peMmiCwttlaes) 0 250 Aaa Constants Rullbff Coefficients (Rv) Annual Ralnfa (.c.c.l I.3 Targe[Ranfau Event llnaesl LDD rota) N,mq,nrus(TP1 EMCImpJD 0.26 Total Nitrogen(Tx) EMC bn6/0 386 .,It TP Wan (IN-1NI M1 C,(-el- canwaan laaa) M90 ForeVo,c, Space Coace, lances) 0.00 wagArRy(ka-t) o.00 %Grest 0% Mamaed TurtGAMsr(acel z.3a wegleed m(wr) 0.20 %Managed Turf AM bnauvu,S Gn erla.rel zs0 Ra Dnpema s) Dei %RryawmS 51% srn Aa®lancesl Aee Slfe Rv 0.SR nwl,nml vDla,ne )amen) 0.z3]s T-111nl-lu me lnu bin I-) 10,309 EP Loae IIb/yQ 650 rn loan Ob/cal Aasz Site Results (Water Quality Compliance) Area Checks FOREST/OPEN SPACE (az MPERNOO OCARER(ac MPERNOIR COVER TRFgTFD (ac MANgciD TUN ABED (x MANAGED TURF AREA TREATED (ac AREA NECK exa mP,geu on4anlvalues wmulrtbn u9ls FLA. A D.A. 0 DA.0 D.A. D D.A. E AREA CHEM 0.00 0.00 Doo ow moo Doo P.M Site Treatmem Volume (ft) 10.3R9 Runoff Reduction Volume and TP By Drainage Area RUNOFF REDUCTION wLUME ACx1EVE0 (Ra TP LOAD AVAl1ABLE fOR REMOVAL (Ib/yr TP WAD RNVrnox ACMEVED (ro/yr TP LOAD REMAINING (Ib/yr D.A.A D.A.9 DA.0 D.A.D D.A.E MO.! 0.00 POP OOP3.03 W 0. Doo 0.000.DO NITROGEN LOAD REDUC110NACNIEVED Hb/wJ 13.11F 0.00 0.00 POP O.OJ 13.18 Total Phosphorus ENALPOST-D=U0PMENWTPIOAO (Ib/yr 6.50 TP LOAD flFOUCrpN flFOUflFO (lb/yr 0.50 TP LOAD REDUCTION ACNIEVEO(H/yr 3.0] TP LOAD REMAINING (Ib/yrl 3A3 REMMNINGTPLOADREDU IONREOUNEOob/yr): 1.43 Total Nitrogen (For Information Purposes) POST -0EVELOPMEM;.=(Ib'- i6.52 NITROGEN mAO R EOVCTION ACMEVEV (Ib1, ]3.]H REMAINING POST-0E ELOPMEm NITROGEN LOAD(Ib/w / tea# ay / / - o�----- ------ - -- ' o O_ �00 / 1091-- QUALITY CALCULATIONS: TV = 10,171 CU. FT. VOLUME REQUIRED = 1.0 * TV = 1.0 * 9,785 = 9,785 CU. FT. VOLUME PROVIDED AT WSE (404.00) = 10,794 CU. FT. VOLUME PROVIDED AT RISER CREST (406.75) = 14,259 CU. FT. TOP OF DAM = 409.00 6' 1.13' FREEBOARD 100-YR ELEV. 407.87 CREST ELEV. 406.75 2.5" X 2.5 ORIFICE W/ TRASH RACK WSE ELEV. 404.00 INV = 404.00 48" RCP RISER W/ ANTI -VORTEX DEVICE INV OUT 400.94 (18" HDPE) 86.78' - 18" HDPE @ 2.0% POND BOTTOM 400.00 8' DIA. X 1.5' POND BOTTOM TO BE CONC. BASE COMPACTED CLAY LINERS EMBED 6" IN CONCRETE NOTES: 1. TRASH RACK TO BE INSTALLED ON ORIFICES AS SHOWN ON DETAIL ON THIS SHEET OR APPROVED EQUAL. 2. IMPERVIOUS CORE AND CUTOFF TRENCH SHOWN FOR INFORMATIONAL PURPOSES ONLY. FINAL DESIGN TO BE PROVIDED BY GEOTECHNICAL ENGINEER. 3. A QUALIFIED GEOTECHNICAL ENGINEER SHALL BE ONSITE DURING CONSTRUCTION OF THE POND TO ENSURE ALL RELATED REQUIREMENTS ARE SATISFIED SWM A, WET POND (LEVEL 1) DETAIL No Scale SOUTHWOOD REDEVELOPMENT OVERALL WATER QUALITY ANALYSIS 1-YR ELEV = 406.49 10-YR ELEV = 407.50 100-YR ELEV = 407.87 EMERGENCY SPILLWAY, 45' WIDE INV. 407.50 IMPERVIOUS CORE AND CUTOFF TRENCH INV 399.20� WATER BALANCE CALCULATION (DEQ BMP SPECIFICATION NO. 14 SECTION 6.2) DIP >ET+INF+RES-MB 48„ > (8„) + (7.2") + (24") - (011) 48" > 39.2" Plan Number VRRM Total Area Phosphorus Reduction Required Phosphorus Reduction Provided Credits Purchased % Phosphorus Treated onsite WP0201900062 21.58 9.77 8.52 1.25 87.21% WP0202100004* 7.49 8.52 6.67 1.22 78.29% Offsite WP0202100004 2.91 0.18 0.63 0 350.00% PHA Block 11 1.27 1.5 0.66 0.84 44.00% PHA Block 12 2.84 3.48 2.7 0.79 77.59% Village 2 4.88 4.5 3.07 1.43 68.22% Total 40.97 27.95 22.25 4.1 79.61% s rA•rR= ��'� logo ,_� w0.'i G■11 Bell, all) n■ nn iiii °° i Ym �11� ��V''. �M a� �Mf�1�! Wvee l as SA .rrt` ffff O " Ly. --- ---- -- - �l�mmummmommoiLl M 0 o Q NAO 83 SCALE 1"=50' 1 1 11 1es -•-• a f� alp I • �I/,��►�� ^gin\-.� • I�I� pjgggs gATI INV lymn�r4q i �-- 1�� IN 4 do . %< \�`�Vim_ - G11 ��\�Imol IIti►�1�I:11UIL�` NX n\ � A �1 O���� II ' Alown i ■ V. %a1ii�...^ g�� �� a �� � � ���•V. � r1i�� AIt� -�� ' '' 1 �r '� lam' f� �/C/i/.1JA/L/L� �cw\ 1r1Ii nA AMI Wen A • , _ • • 1-�.7� ��� I� fJ` F I • . V FOREBAY AT OUTLET 100 VOLUME PROVIDED: CONTRIBUTING IMPERVIOUS AREA: 0.1" RAINFALL VOLUME: FOREBAY AT OUTLET 200 VOLUME PROVIDED: CONTRIBUTING IMPERVIOUS AREA: 0.1" RAINFALL VOLUME: TOTAL FOREBAY VOLUME VOLUME PROVIDED: TOTAL POND TREATMENT VOLUME: 15% OF TREATMENT VOLUME: FOREBAY SIZING DETAIL No Scale OUTLET 100 23.48' 1,151 CF 2.11 AC 766 CF <_ 1,151 CF OK 1,052 CF 0.13 AC 47 CF <_ 1,052 CF OK 1,151 CF + 1,052 CF = 2,203 CF 9,785 CF 1,468 CF <_ 2,203 CF OK 24" TW ELEV. 405.00 WSE ELEV. 404.00 BASKET EDGE p 60" U LONG EPDXY - COATED #4 REBAR BW ELEV. 400.00 RIPRAP-LINED PRE-TREATMENT CELL 1 Al STONE FILL GABION BASKET FOREBAY WALL No Scale • 0 0 0 p o 0000oO ° O°°°O OO°O o° OOo o° °Oo °oo °oo ° °°°Oo°Oo°O o °° a°o°moo°0o° o° o° 00 ° ° ° p Bit ° °o Isometr is 1/4" HDPE plate P1Pe bolted to structure. culvert HDPE structural plastic 1/4" plate and grating 1 with 1" holes and a min. of 30% of opening area 1 manufactured by Plastic Solutions Inc. or equal. O�°"O.O O • shown with optional plate CODE. apron HDPE structural plastic 1/4" plate and grating SeCt1011 with 1" holes and a min. of 30% of opening area manuPectur Edby Plastic 3„ f Solutions Inc. or equal 0 0 00°000� o ° 0 + 0 single LIMP Elevation orifice TRASH RACK DETAIL No Scale WATER QUALITY ANALYSIS SITE DATA POST -DEVELOPED PROJECT AREA FOREST/OPEN SPACE = 0.00 AC MANAGED TURF = 2.38 ACRES IMPERVIOUS COVER = 2.50 ACRES POST DEVELOPMENT LOAD (TP) (LB/YR) = 4.50 MAXIMUM PERCENT REDUCTION REQUIRED FOR REDEVELOPMENT = 20% TOTAL LOAD REDUCTION REQUIRED (LB/YR) = 4.50 LB/YR TOTAL LOAD REDUCTION ACHIEVED (LB/YR) = 3.07 LB/YR REMAINING TP LOAD REDUCTION REQUIRED = 1.43 LB/YR* *REMAINING TP LOAD REDUCTION TO ADDRESSED WITH THE PURCHASE OF NUTRIENT CREDITS. VA DEQ STORMWATER DESIGN SPECIFICATION NO. 14 9.3. INSPECTIONS AND ONGOING MAINTENANCE TASKS MAINTENANCE OF A WET POND IS DRIVEN BY ANNUAL INSPECTIONS THAT EVALUATE THE CONDITION AND PERFORMANCE OF THE POND, INCLUDING THE FOLLOWING: • MEASURE SEDIMENT ACCUMULATION LEVELS IN THE FOREBAY. • MONITOR THE GROWTH OF WETLAND PLANTS, TREES AND SHRUBS PLANTED. RECORD THE SPECIES AND THEIR APPROXIMATE COVERAGE, AND NOTE THE PRESENCE OF ANY INVASIVE PLANT SPECIES. • INSPECT THE CONDITION OF STORMWATER INLETS TO THE POND FOR MATERIAL DAMAGE, EROSION OR UNDERCUTTING. • INSPECT THE BANKS OF UPSTREAM AND DOWNSTREAM CHANNELS FOR EVIDENCE OF SLOUGHING, ANIMAL BURROWS, BOGGY AREAS, WOODY GROWTH, OR GULLY EROSION THAT MAY UNDERMINE EMBANKMENT INTEGRITY. • INSPECT THE POND OUTFALL CHANNEL FOR EROSION, UNDERCUTTING, RIP -RAP DISPLACEMENT, WOODY GROWTH, ETC. • INSPECT THE CONDITION OF THE PRINCIPAL SPILLWAY AND RISER FOR EVIDENCE OF SPALLING, JOINT FAILURE, LEAKAGE, CORROSION, ETC. • INSPECT THE CONDITION OF ALL TRASH RACKS, REVERSE -SLOPED PIPES, OR FLASHBOARD RISERS FOR EVIDENCE OF CLOGGING, LEAKAGE, DEBRIS ACCUMULATION, ETC. • INSPECT MAINTENANCE ACCESS TO ENSURE IT IS FREE OF WOODY VEGETATION, AND CHECK TO SEE WHETHER VALVES, MANHOLES AND LOCKS CAN BE OPENED AND OPERATED. • INSPECT INTERNAL AND EXTERNAL SIDE SLOPES OF THE POND FOR EVIDENCE OF SPARSE VEGETATIVE COVER, EROSION, OR SLUMPING, AND MAKE NEEDED REPAIRS IMMEDIATELY. BASED ON INSPECTION RESULTS, SPECIFIC MAINTENANCE TASKS WILL BE TRIGGERED. EXAMPLE MAINTENANCE INSPECTION CHECKLISTS FOR WET PONDS CAN BE ACCESSED IN APPENDIX C OF CHAPTER 9 OF THE VIRGINIA STORMWATER MANAGEMENT HANDBOOK (2010) OR AT THE CWP WEBSITE AT: HTTP://VWWV.CWP.ORG/RESOURCE_ LIBRARY/CONTROLLING_ RUNOFF_ AND DISCHARGES/SMATM (SCROLL TO TOOL& PLAN REVIEW, BMP CONSTRUCTION, AND MAINTENANCE CHECKLISTS) FOR A MORE DETAILED MAINTENANCE INSPECTION CHECKLIST, SEE APPENDIX B IN CWP STORMWATER POND AND WETLAND MAINTENANCE GUIDEBOOK (2004). , CLINT W. S F LET F Lit. N 43611111 10/ 13/ 2022 Oct E O � O N � N C > E w a E . w w 3 Q LL o 3 p LL 0 wO `m^ � V oMo z a _J O 5: P rn C7 Lu rv� a lu 3 O ) >< U) w i ry z >> O LU LU LU LU C C) - G G G G W INLU 00_J O W 2 2 2 2 o ff Z) Z) Z) Z) 8888 M O W W W W O O O O = ti ti ti ti > > > > 0 W LULU LU N ~ N N IN O Lu LU �\�M U O \ \ a c Q z l O in DATE 0 07108121 } DRAWN BY 1. FOX • DESIGNED BY • C. SHIFFLE7T • CHECKED BY • C. SHIFFLETT SCALE 1 FF=30' N IL(w1-''J� V I -I 0 I a LU a / I- I-1 a J J �a OLD J co oa W < Ii LL LU W z Q Q0 O LU" p 0 O O 2 O JOB NO. 47039 SHEET NO. C6e 01 0 m 0 3 D 90 ox _0z 20 oac am a w c rn m a� 0 IY N (D 3 z„ 0 � a o r �3 n dm 2 Y 8N x = N O ED= D = Ea `o E M 0m 06 a c �a 10 a 0 M o N, m a c m m c M o c ° m nE c E F_ L TH \\F/O/\\/ i1\\\aE\ � \/\ -I\\\\/CI\\ \/ \\\'\ \\T\ \\ \/1\I\/\I\\\' / \\V/\\`o \/\\E\ /°\\\\ _O/ //\\\1\ '/ /\ �\\_�/\\\\ )'r \o _ ° ��\�/ /�_�\\■ �r/\\/�/ /\ -� �o■/ j\ \21 -\,/ \■\ (I?■ / O1\ /1 //' \Y /ir4 \ \ / •/�/ , A.\Il/ I•I/d / I //'/ \ /'N��/,J4� 0a\ %/ `./ /\` \/\ / I`///�/\\// �/ �\/\\ .I\\ /// 1/ /\ `1 I 1/��// ■\/~ 20I� 'l / ■ 1�OO\O 1 1 IR/F 1 ,I Ir10 1 11 1 / 1-1 I -1I Q/ 1�11 I I 'II'III�/1 OI 'II'/ I II///'1c1PI3I I /6/II 1 , •' \ 3 /\ \III I i./ ■ / 1 ,/ / rni �I/\-//'1l 3r°■\7 �/5 �/ \ 1 � 10\2_3��ti6/1\ / 1 _ /o P /N/� \ \1/�/2/ /a2- - /- 1r1f/0 _--/, / vry --� _/�-.1/ 1-'-•/-/-' II \�Nr// - - i /- 1-II _2-' -', - _ -/ 4' I I2cp- '- _ 1y --- 1I-�IL ,1f -i--/61- �■4 -- 3-I'�18■ �2/ 1/ -'' 14 -I 7A/- -�-'_- � 1/ -_ //- 6 -I r- 1-/2�'- .7 -y- __s /•_�'n_Y._�-/�N 1-°/_-1�O-h-1/-2 s 6II°p/�- I_ o/ / //�_ r °- 1///-1 -,3- •0- �I --/ W-- •/- \- 1/ -2-'-1 9 /S ,/_1_om- J- _■_II __ - _i _ -� T//"/- - . '��/-- I /1-2- I61�_I W /_ 1'-\ 1t--7-1■n/2o-II W ■ I8 - c/ o 6II - �-o •I c_-owo ■-_- �- -■-'/ - _',-' ' --' ■ JA`�i' ■--■__ _\_-_■\ II- -_ ■ __-- - - \-- -■------ - _` -\ ■-_/__ --_/' I-' - ■- -�_---/'\',/ / I�I II / �_ I' r ' '/ - '�•' 8//// `-3 o/-- °0 09f , r ° ' ° / S/\-/�'_ `\rC\// _\A<-'/L/-E / 1\" =\/ \/30'/'\ oOoo°OO o c p=OO7/ Oo ppe OVARTg�°R,U7- 0 30' HS / o/ o-/6_ / 0/ C - ' 0.oo ° _ ° \ o- _ - - O_ _ 0 y - - - - - - - - - - - - ° _\'OZ ---- - - - - 0 4061 409p `-g ° 0_ o- CTIVE �o So477 ,, / ° \EEEECTNE O�Y-R _ ° PERLOMA --DPL-41N PER_-_ ° ° c2 FLOO - _ - - - - - - %7EEP, SLOPES / q'M OM- °ry OVq (TiPICj��021-03-2104-0029P , 0119 °0Oa0000000000000 O pB .0°o- aO_°o-----------Sq / fREMrBUoo' ////// ,%//// ----- p------ ° O°oOOOO - O O O o 0 0 _0 o000000 - - - - 00 / o ImoO OO /o/ O. ° PER40MA CASE N O° 21-0-002?P//o 40 ■■■% - -- - - - ■■ ■■ III III fiW ■■ ■■■2O8 . _ • 206 2813 TOP=419' (,VEN OBSERVE) 4 2" -�398.18"�VC((NV.,W /JAIJT=3 761'12"PV Awl 3, �■ ■A IN ■■■ �_ ■ i ■■■ ■■S�\\ E [STING 20' �a _ r EASEMENT ----- T 39 -_ 124 12 '4---_ 1- " I I6 NOW tWE III ■ 1I 40? 115 ■2O2 - , 424 To426427 \ Iw o SA EFF \@o\b 112 °E CID 0a 0 _ / \ / - O \ \ \\I t `. \ \/ \ \ I \\\ ° �j, \ \\ , �,\�\ \ I \q \ O 1 / / / / , /a p ■ / / / / o \ \ I I OO I \\\ \\\\` �" �\\ \ \ o \,/ I \ 11 >QO cO \ \302` \ �ry�? 00 1 /' / / / a '■ N • '� ■-�� ■�// W441 °O�\������. .\\ \ \ \o /\\ \ I 1 1d1 1 1 I \I / / / _ 108 ' -O R 1oa 104 108 + o I \ \ \ \� \ \ \ \\ \ \ \ \ \ ■ / r r , / 1 v VAA vVA \vv V A V A A A V �■ / // v / , o 1 O \0;, �\ \ \\\\ \ b \ \ \.\ \ ��Z \ ` 28 \ \ \ / / / 43 1 0 \ TOP=40t6q' 1 ° \ 1NV 1N=395.55' 12" PVC (SVD _ _ - - - ' = F9 ,yy 1 0 \ 1 OUT=394.48' 12" PVC (NE) ' t a , a a \ : \ ... _ _ - _ - _ �\ \ \ \ \ \ \ \ \ , / / O /0 / \ o C - - I / 20 \ O` I\�, ice' \��\ \ \\'9N `\ \ \ \\ �� 4\ \�vm_i \ ° \\ 1 / / / Inlet# Total (Ac) c 104 0.12 0.73 106 0.08 0.69 108 0.18 0.73 110 0.20 0.81 112 0.23 0.67 114 0.07 0.72 116 0.26 0.40 118 0.27 0.55 122 0.10 0.56 124 0.17 0.73 126 0.34 0.69 128 0.18 0.81 132 0.07 0.73 134 0.05 0.84 136 0.09 0.76 138 0.25 0.81 140 0.46 0.72 202 0.03 0.70 204 0.03 0.44 206 0.03 0.44 208 0.04 0.41 210 0.05 0.42 z1z o.os o.4a 214 0.08 0.47 216 0.04 0.58 CLINT W. S F LET Lic. N 4380 10/ 13/ 2022 Lm Z O a u V In LU o �K-1 K-1 K-1 O W W W W W u u u u � U U U U 2 2 2 2 O O O O wwww aaaa wwww > > > > W W W W N N Q M \ \oJ � � DATE 07108121 DRAWN BY J. FOX DESIGNED BY C. SHIFFLETT CHECKED BY C. SHIFFLETT SCALE w (W V Q 1\ a z � W w � Q 0 IJ I J w `7 Q WJ az 0 I --I LL W z o 0 W"LU J Q z 0 0 2 0 JOB NO. 47039 SHEET NO. C6. 02 L INLET � do o � � w 9 �; �' a o'� vl �vJ a W H mti o A p � b � g a a m � a•? O wx d a a� a °� � z � �� Sag Inlets Only < x � a� °ti 'D °x .o W � ¢H 104 DI-2B 10 0.120 0.73 0.0876 O.000TtIGHT 0.088 4 0.352 0 0.352 0.0390 0.0208 1.515 2.000 1.32013 0.0833 4.00481 1.000 3.50 0.1458 0.1666 5.325 6.000 1.878 1.000 0.352 0.000 1.514 106 DI-3B 6.000 0.080 0.69 0.0552 O'RIGHT 0.055 4 0.22 0.047 0.267 0.0450 0.0208 1.330 2.000 1.50376 0.0833 4.00481 1.000 3.50 0.1458 0.1666 4.949 6.000 1.212 1.000 0.267 0.000 1.329 108 DI-2B 10 0.180 0.73 0.1314 O'RIGHT 0.131 4 0.524 0 0.524 0.0430 0.0208 1.726 2.000 1.15875 0.0833 4.00481 1.000 3.50 0.1458 0.1666 6.480 6.000 1.543 1.000 0.524 0.000 1.725 110 DI-3B 6.000 0.200 0.80 0.16 O'RIGHT 0.16 4 0.64 0 0.640 0.0450 0.0208 1.845 2.000 1.08401 0.0833 4.00481 1.000 3.50 0.1458 0.1666 7.145 6.000 0.840 0.963 0.616 0.024 1.844 112 DI-2B 10 0.230 0.67 0.1541 O'RIGHT 0.154 4 0.616 0 0.616 0.0350 0.0208 1.906 2.000 1.04932 0.0833 4.00481 1.000 3.50 0.1458 0.1666 6.521 6.000 1.534 1.000 0.616 0.000 1.905 114 DI-3B 6.000 0.070 0.72 0.0504 O'RIGHT 0.05 4 0.2 0 0.200 0.0477 0.0208 1.180 2.000 1.69492 0.0833 4.00481 1.000 3.50 0.1458 0.1666 4.461 6.000 1.345 1.000 0.200 0.000 1.180 116 DI-1 2.000 0.270 0.42 0.1134 Back/Lt. O.000T2IGHT 0.113 4 0.452 0 Back/Lt. 0 4 0 0 Ahead/Rt. 0.452 0.001 2.000 2 0.452 1.4fi7 T > 4.0 ft 118 DI-1 1.500 0.270 056 0.7512 O.000RIGHT 0.151 4 0.604 0 0.604 0.0314 1.500 1.500 1.000 0.604 0.000 0.12183 BHt.�.103' 122 DI-3C 6.000 0.090 0.58 0.0522 Back/Lz. O.000RIGEiT 0.052 4 0.208 0 0.0050 0.0208 1.827 2.000 1.09469 0.0833 4.00481 3.50 Back/Lz. 0 4 0 0 Ahead/Rt. 0.208 0.0050 6 0.208 0.534 0.166 0.333 0.498498 2.534 2.141 Wev Flow 124 DI-2B 10 0.170 0.72 0.1224 O'RIGEiT 0.122 4 0.488 0 0.488 0.0270 0.0208 1.834 2.000 1.09051 0.0833 4.00481 1.000 3.50 0.1458 0.1666 5.470 6.000 1.828 1.000 0.488 0.000 1.833 126 DI-2B 10 0.340 0.64 0.2176 O'RIGEiT 0.218 4 0.872 0 0.872 0.0270 0.0208 3.083 2.000 0.64872 0.0833 4.00481 0.986 3.50 0.1458 0.1647 7.030 6.000 1.422 1.000 0.872 0.000 2.270 128 DI-3B 6.000 0.090 0.80 0.072 O'RIGEiT 0.072 4 0.288 0 0.288 0.0409 0.0208 1.393 2.000 1.43575 0.0833 4.00481 1.000 3.50 0.1458 0.1666 4.965 6.000 1.208 1.000 0.288 0.000 1.392 132 DI-3B 6.000 0.070 0.73 0.0511 O'RIGHT 0.051 4 0.204 0 0.204 0.0350 0.0208 1.260 2.000 1.5873 0.0833 4.00481 1.000 3.50 0.1458 0.1666 4.099 6.000 1.464 1.000 0.204 0.000 1.260 134 DI-3B 6.000 0.050 0.84 0.042 O'RIGHT 0.042 4 0.168 0 0.168 0.0270 0.0208 1.230 2.000 1.62602 0.0833 4.00481 1.000 3.50 0.1458 0.1666 3.495 6.000 1.717 1.000 0.168 0.000 1.230 136 DI-2B 10 0.090 0.75 0.0675 O'RIGHT 0.068 4 0.272 0 0.272 0.0270 0.0208 1.473 2.000 1.35777 0.0833 4.00481 1.000 3.50 0.1458 0.1666 4.279 6.000 2.337 1.000 0272 0.000 1.473 138 DI-2B 10 0.290 0.80 0.232 O.000T3IGHT 0.232 4 0.928 0 0.928 0.0100 0.0208 4.896 2.000 0.4085 0.0833 4.00481 0.893 3.50 0.1458 0.1511 5.641 6.000 1.773 1.000 0.928 0.000 2.722 140 DI-3A 6.000 0.460 0.72 0.3312 Back/Lt. O.000T2I(;fff 0.331 4 1.324 0 0.001 0.0208 ]0.836 2.000 0.18457 0.0833 4.00481 3.50 Back/Lt. 0 4 0 0 Ahead/Rt. 1.324 0.00] 6 1.324 1.837 0.166 0.333 0.498498 3.837 7.358 T > 8.0 ft 202 DI-1 1.000 0.030 0.70 0.021 O'RIGHT 0.021 4 0.084 0 0.084 0.0600 0.0600 0.817 2.000 2.44798 0.0833 1.38833 1.000 256 0.1066 0.1666 3.320 1.000 0.301 1.000 0.084 0.000 0.817 204 DI-1 1.000 0.030 0.44 0.0132 O'RIGHT 0.013 4 0.052 0 0.052 0.0500 0.0500 0.706 2.000 2.83286 0.0833 L666 1.000 280 0.1166 0.1666 2.570 1.000 0.389 1.000 0.052 0.000 0.706 206 DI-1 1.000 0.030 0.44 0.0132 O'RIGHT 0.013 4 0.052 0 0.052 0.0500 0.0500 0.706 2.000 2.83286 0.0833 L666 1.000 280 0.1166 0.1666 2.570 1.000 0.389 1.000 0.052 0.000 0.706 208 DI-1 1.000 0.040 0.41 0.0164 O'RIGHT 0.016 4 0.064 0 0.064 0.0500 0.0500 0.764 2.000 2.6178 0.0833 L666 1.000 2.80 0.1166 0.1666 2.804 1.000 0.357 1.000 0.064 0.000 0.763 210 DI-1 1.000 0.050 0.42 0.021 Back/Lt. o.000TUGHT o.on a o.osa o Back/Lt. 0 4 0 0 Ahead/Rt. 0.084 0.001 1.000 1 0.084 0.819 T > 8.0 ft 212 DI-1 1.000 0.080 0.44 0.0352 O'RIGHT 0.035 4 0.14 0 0140 0.0300 1.000 1.000 L000 0.140 0.000 0.1315 BHt.�.051' 214 DI-1 1.000 0.080 0.47 0.0376 O.000TtIGHT 0.038 4 0.152 0 0152 0.0200 0.0300 1.253 2.000 1.59617 0.0833 2.77667 1.000 3.28 0.1366 0.1666 3.063 1.000 0.326 1.000 0.152 0.000 1.253 216 DI-1 1.000 0.040 0.58 0.0232 LICOO O'RIGHT 0.023 4 0.092 0 0.092 0.0127 0.0550 1.131 2.000 1.76835 0.0833 1.51455 1.000 2.68 0.1116 0.1666 2.165 1.000 0.462 0.092 0.000 1.130 ROUTE PROJECT SouthwoodVillage2 DESIGNER: MJD DATE 8/10/2022 47039-STRM 100 PROJECT: Southwood Village 2 Designed by: 646404#40' CHECKED: UNITS:NGLISH STORM SEWER DESIGN COMPUTATIONS LOCATION: f�+�NLTH UF��� COUNTY: Albemarle Checked by:�� STORM FREQUENCY 10 j'� CLINT W. 2: UNITS ENGLISH V S F LET >� �� Lic. N 43 is r 0/ 13/ 2022 �V IL ~�N'O A i� �G,, ^� E 0 0 u N N C > E w a E w w 3 Q LL o 3 p LL 0 wO `mom V oMo Z a -ui O w rn vi C7 LU rv� a w 30'>< U) w Qv 17 i 0 ry Z x >>M O wwww ~ C rn w M Lu 0 0 0 0 a o w 2 2 2 2 H O O O O U U U 47039-STRM 200 PROJECT: Southwood Village 2 Designed by: � a a a a STORM SEWER DESIGN COMPUTATIONS LOCATION: O W W W W _ COUNTY: Albemarle Checked by: W W W W STORM FREQUENCY 10 UNITS ENGLISH H- N ~ N N O w F �\M U 7 \ \ Q co z O in DATE � 07108121 O } DRAWN BY J. FOX • DESIGNED BY • C. SHIFFLE7T • CHECKED BY C. SHIFFLETT 47039STRM 100 PROJECT: Southwood Village 2 DESIGNED BY: • • HYDRAULIC GRADE LINE ANALYSIS SCALE Checked: N/A INCIDENCE PROBABILITY 10 Year • N W V J H� 0 z 106 422.36 15 0.34 29.83 0.00% 0 2.96 0.03 0 0 0 0 0 0 0 0.03 0.04 TRUE 0.02 422.38 427.77 OK -5.39 ce W k- Q Q J ^ w O < U Q J �a J co 140 410.84 18 2.95 86.6 0.07% 0.06 5.42 0.11 0 0 0 0 0 0 0 0.11 0.15 TRUE 0.13 410.97 416.3 OK -5.33 m U WQ \ U / O LU U) wiz 47039STRM 200 PROJECT: Southwood Village 2 DESIGNED BY: Q p F-I HYDRAULIC GRADE LINE ANALYSIS W U o6 Checked: INCIDENCE PROBABILITY 10 Year � d I--1 a O O `2 1 ,O V 1 JOB NO. 47039 SHEET No. C6.03 PIPE NO FROM POINT TO POINT DRAIN. AREA "A" Acre (3) RUNOFF COEFF. "C" (4) CA TOTAL INLET TIME Minutes (7) RAIN FALL In/Hr (8) RUNOFF Q CFS (9) INVERT ELEVATIONS LENGTH of Pipe Ft. (12) SLOPE Ft./Ft. (13) SIZE (Dia. Or Span/Rise) In. (14) SHAPE Capacity CFS (15) Friction Slope Ft./Ft. VEL Vn Ft/Sec (16) FLOW TIME Min. (17) RIMARKS (18) INCRE-ACCUM- MINT (5) ULATED (6) ADDTL CA UPPER END (10) LOWER END (11) REFERENCE (1) STA. REFERENCE (2) STA. 129 128 126 0.090 0.800 0.072 0.072 0.000 6.000 6.230 0.449 419.738 419.090 32.377 0.020 15.000 Circular 9.894 0.000 4.090 0.132 127 126 124 0.340 0.640 0.218 0.290 0.000 6.132 6.191 1.793 418.994 416.360 175.610 0.015 15.000 Circular 8.568 0.001 5.533 0.529 123 124 122 0.170 0.720 0.122 0.412 0.000 6.661 6.042 2.489 416.156 415.816 34.007 0.010 15.000 Circular 6.996 0.001 5.230 0.108 121 122 114 0.090 0.580 0.052 0.464 0.000 6.769 6.013 2.791 415.620 414.491 56.457 0.020 15.000 Circular 9.894 0.002 6.944 0.135 117 118 116 0.270 0.560 0.151 0.151 0.000 0.000 8.901 1.346 420.187 417.640 101.893 0.025 15.000 Circular 11.062 0.000 6.115 0.278 115 116 114 0.270 0.420 0.113 0.265 0.000 0.278 8.717 2.307 417.437 416.850 58.717 0.010 15.000 Circular 6.996 0.001 5.124 0.191 113 114 112 0.070 0.720 0.050 0.779 0.000 6.905 5.976 4.657 411.743 411.141 30.110 0.020 18.000 Circular 16.090 0.002 7.898 0.064 137 138 136 0.340 0.800 0.272 0.272 0.000 6.000 6.230 1.695 415.989 414.220 70.779 0.025 15.000 Circular 11.062 0.001 6.536 0.180 135 136 134 0.090 0.760 0.068 0.340 0.000 6.180 6.177 2.103 411.046 410.450 29.806 0.020 15.000 Circular 9.894 0.001 6.418 0.077 139 140 134 0.460 0.720 0.331 0.331 0.000 0.000 8.901 2.948 409.486 408.620 86.601 0.010 18.000 Circular 11.377 0.001 5.417 0.266 133 134 132 0.050 0.840 0.042 0.714 0.000 6.258 6.155 4.392 408.420 408.086 33.373 0.010 18.000 Circular 11.377 0.001 6.036 0.092 131 132 112 0.070 0.730 0.051 0.765 0.000 6.350 6.129 4.687 407.886 407.253 63.360 0.010 18.000 Circular 11.377 0.002 6.140 0.172 111 112 102 0.230 0.670 0.154 1.698 0.000 6.968 5.959 10.119 407.050 406.628 42.038 0.010 18.000 Circular 11.397 0.008 7.304 0.096 109 110 108 0.200 0.800 0.160 0.160 0.000 6.000 6.230 0.997 425.359 423.990 30.431 0.045 15.000 Circular 14.841 0.000 6.894 0.074 107 108 104 0.180 0.730 0.131 0.291 0.000 6.074 6.209 1.809 423.791 422.100 84.547 0.020 15.000 Circular 9.894 0.001 6.150 0.229 105 106 104 0.080 0.690 0.055 0.055 0.000 6.000 6.230 0.344 421.657 421.359 29.827 0.010 15.000 Circular 6.996 0.000 2.962 0.168 103 104 102 0.120 0.730 0.088 0.434 0.000 6.303 6.142 2.667 421.148 419.189 97.933 0.020 15.000 Circular 9.894 0.001 6.858 0.238 1OlA 102 100A 0.000 0.000 0.000 2.132 0.000 7.064 5.934 12.652 406.458 404.920 76.896 0.020 24.000 Circular 34.655 0.003 10.189 0.126 101 100A 100 0.000 0.000 0.000 2.132 0.000 7.190 5.901 12.582 404.824 404.000 41.209 0.020 24.000 Circular 34.655 0.003 10.174 0.068 PIPE NO FROM POINT TO POINT DRAIN. AREA "A" Acre (3) RUNOFF COEFF. "C" (4) CA TOTAL INLET TIME Minutes (7) RAIN FALL In/Hr (8) RUNOFF Q CFS (9) INVERT ELEVATIONS LENGTH of Pipe Ft. (12) SLOPE Ft./Ft. (13) SIZE (Dia. Or Span/Rise) In. (14) SHAPE Capacity CFS (15) Friction Slope Ft./Ft. VEL Vn Ft/Sec (1� FLOW TIME Min. (17) REMARKS (18) INCRE- MENT (5) ACCUM- ULATED (6) ADDTL CA UPPER END (10) LOWER END (11) REFERENCE (1) STA. REFERENCE (2) STA. 215 216 214 0.040 0.580 0.023 0.023 0.000 5.000 6.542 0.152 411.158 408.850 92.311 0.025 12.000 Circular 7.321 0.000 3.739 0.411 213 214 212 0.080 0.470 0.038 0.061 0.000 5.all 6.409 0.390 408.754 408.190 56.429 0.010 12.000 Circular 4.630 0.000 3.592 0.262 211 212 210 0.080 0.440 0.035 0.096 0.000 5.673 6.328 0.608 408.093 407.450 64.324 0.010 12.000 Circular 4.630 0.000 4.088 0.262 209 210 208 0.050 0.420 0.021 0.117 0.000 5.936 6.249 0.731 407.353 407.000 35.324 0.010 12.000 Circular 4.630 0.000 4.312 0.137 207 208 206 0.040 0.410 0.016 0.133 0.000 6.072 6.209 0.828 406.905 406.460 44.479 0.010 12.000 Circular 4.630 0.000 4.469 0.166 205 206 204 0.030 0.440 0.013 0.147 0.000 6.238 6.161 0.903 406.356 405.780 57.639 0.010 12.000 Circular 4.630 0.000 4.580 0.210 203 204 202 0.030 0.440 0.013 0.160 0.000 6.448 6.101 0.975 405.680 404.730 94.974 0.010 12.000 Circular 4.630 0.000 4.680 0.338 201 202 200 0.030 0.700 0.021 0.181 0.000 6.786 6.008 1.086 404.625 404.000 62.512 0.010 12.000 Circular 4.630 0.001 4.825 0.216 INLET OR JUNCTION INLET STATION OUTLET WATER SURFACE ELEV. DIA. PIPE Do (In) DESIGN DISCH. Qo (CFS) LENGTH FlF£ Lo (Ft) FRICTION SLOPE Sfo (Fr/FT) FRICTION LOSS HF (Ft) JUNCTION LOSS FINAL H (Ft) Inlet Water Surface Bevation Rim Bev Comments Vo Ho (Ft) Qi Vi QiVi Vi'2/2g Hi Angle Fir1 Ht 1.3 HI 0.5 Ht 100A 407.55 24 12.58 41.21 0.26% 0.11 10.17 0.4 12.65 10.19 128.91 1.61 0.56 26.8 0.48 1.45 0 TRUE 0.83 408.38 424.44 OK -16.06 102 408.38 24 12.65 76.9 0.27% 0.2 10.19 0.4 10.12 7.3 73.91 0.83 0.29 76.68 0.55 1.24 0 TRUE 0.82 409.21 424.24 OK -15.03 112 409.21 18 10.12 42.04 0.79% 0.33 7.3 0.21 4.66 7.9 36.78 0.97 0.34 80.61 0.64 1.19 0 TRUE 0.93 410.13 422.68 OK -12.55 114 412.34 18 4.66 30.11 0.17% 0.05 7.9 0.24 2.79 6.94 19.38 0.75 0.26 93.84 0.52 1.03 0 TRUE 0.56 412.91 422.87 OK -9.97 122 415.49 15 2.79 56.46 0.16% 0.09 6.94 0.19 2.49 5.23 13.02 0.42 0.15 61.44 0.24 0.57 0 TRUE 0.38 415.87 420.55 OK -q3: 124 416.82 15 2.49 34.01 0.13% 0.04 5.23 0.11 1.79 5.53 9.92 0.48 0.17 43.54 0.2 0.48 0.62 FALSE 0.66 417.48 420.87 OK - 126 417.48 15 1.79 175.61 0.07% 0.12 5.53 0.12 0.45 4.09 1.83 0.26 0.09 66.95 0.16 0.37 0.48 TRUE 0.35 417.83 426.42 OK 128 420.09 15 0.45 32.38 0.00% 0 4.09 0.06 0 0 0 0 0- 104 420.19 15 2.67 97.93 0.15% 0.14 6.86 0.18 1.81 6.15 11.13 0.59 0.21 20.24 0.15 0.53 0.7 TRUE 0.49 420.68 427.74 OK -7.06 108 423.1 15 1.81 84.55 0.07% 0.06 6.15 0.15 1 6.89 6.87 0.74 0.26 78.77 0.49 0.89 1.16 TRUE 0.64 423.74 431.14 OK -7.4 110 424.99 15 1 30.43 0.02% 0.01 6.89 0.18 0 0 0 0 0 0 0 0.18 0.24 TRUE 0.13 425.12 431.44 OK -6.33 132 410.13 18 4.69 63.36 0.17% 0.11 6.14 0.15 4.39 6.04 26.51 0.57 0.2 25.14 0.17 0.51 0 TRUE 0.36 410.5 420.41 OK -9.92 134 410.5 18 4.39 33.37 0.15% 0.05 6.04 0.14 2.95 5.42 15.97 0.46 0.16 41.98 0.28 0.58 0 TRUE 0.34 410.84 419.14 OK -8.3 136 411.45 15 2.1 29.81 0.09% 0.03 6.42 0.16 1.69 6.54 11.08 0.66 0.23 90 0.46 0.86 1.11 TRUE 0.58 412.03 418.72 OK -6.69 138 415.22 15 1.69 70.78 0.06% 0.04 6.54 0.17 0 0 0 0 0 0 0 0.17 0.22 TRUE 0.15 415.37 420.64 OK -5.27 116 417.85 15 2.31 58.72 0.11% 0.06 5.12 0.1 1.35 6.12 8.23 0.58 0.2 26.58 0.17 0.48 0.62 TRUE 0.38 418.23 421.87 OK -3.64 118 418.64 15 1.35 101.89 0.04% 0.04 6.12 0.15 0 0 0 0 0 0 0 0.15 0.19 TRUE 0.13 418.77 424.94 OK -A 17 INLET OR JUNCTION INLET STATION OUTLET WATER SURFACE ELEV. DIA. PIPE Do (In) DESIGN DISCH. Oo (CFS) LENGTH PIPE Lo (Ft) FRICTION SLOPE, Sfo (FT/FT) FRICTION LOSS HF (Ft) JUNCTION LOSS FINAL H (Ft) Inlet Water Surface 9evation Rim Bev Comments Vo Ho (Ft) Qi Vi QiVi Vi`2/2g Hi Angle Fi0 Ht 1.3 Ht 0.5 Ht 202 407.55 12 1.09 62.51 0.06% 0.03 4.82 0.09 0.97 4.68 4.56 0.34 0.12 38.32 0.15 0.36 0 TRUE 0.21 407.76 410.21 OK -2.45 204 407.76 12 0.97 94.97 0.04% 0.04 4.68 0.09 0.9 4.58 4.14 0.33 0.11 32.52 0.11 0.31 0 TRUE 0.2 407.96 408.11 OK -0.15 206 407.96 12 0.9 57.64 0.04% 0.02 4.58 0.08 0.83 4.47 3.7 0.31 0.11 29.5 0.11 0.3 0 TRUE 0.17 408.13 410.78 OK -2.65 208 408.13 12 0.83 44.48 0.03% 0.01 4.47 0.08 0.73 4.31 3.15 0.29 0.1 14.39 0.05 0.23 0 TRUE 0.13 408.26 409.83 OK -1.57 210 408.26 12 0.73 35.32 0.02% 0.01 4.31 0.07 0.61 4.09 2.48 0.26 0.09 41.98 0.11 0.27 0 TRUE 0.15 408.41 409.48 OK -1.07 212 408.41 12 0.61 64.32 0.02% 0.01 4.09 0.06 0.39 3.59 1.4 0.2 0.07 29.91 0.07 0.21 0.27 TRUE 0.14 408.55 410.59 OK -2.04 214 408.99 12 0.39 56.43 0.01% 0 3.59 0.05 0.15 3.74 0.57 0.22 0.08 8.06 0.03 0.15 0.2 TRUE 0.1 409.09 413.84 OK -4.74 216 409.65 12 0.15 92.31 0.00% 0 3.74 0.05 0 0 0 0 0 0 0 0.05 0.07 FALSE 0.07 409.72 415.19 OK -5.46 L 0 0 3 10 ° 0 /00 SCALE 1"=100'- J — 1 0 100' 200' - - - - -I---- ----- — - o 7L_ —- ----------110.02' R/W_____ OLD LVNCHBURG R 1 —STATE ROUTE 6341 -\------- o \ \ o \ \\ / — — - - - - - --------- _ _ _ _ - - - _ _ _------ - - 0 00 I o \ \ \ I ° o °O / / \\\\ / / i P OHP— \ ° C,0 ° ° / o / I °o \ o ° / o ° <VDOT-SIGHT d .-..o. � -� \ ' R h 0 If o \ \ ° ° � DISTANCE \ \ ° _ EASEMENT \ r/° °% I 00 \ \ \ \ I °O ° ° - I 11 I \ \ \ o ° / O / ' - 0 If O ° I ° \ \ / j0 ° - — ------------------------- ---- �9147' rvm I wig r • is .411 0 10 1/6 /� /\F,J ` o o \ o °° o / / / \ X�� �T —-8/TTERL6N� — — — — — — J IV OHP�— �HP°/ �' �/-- —r ��I II I' `O�\\'.� \ Gfn•,�� `�; �\ /�/G/'T/I r/\\\ �° °— 100, o/ I0 '°hO o .Q— F— °1� ° 0 o o ° 0 o0 o /G"/`�vDJ II7 ©I�I / 1 Li ` �117 .10 ° ° ° °° 0 ° °°° lo, ° ° o 0 0 00 0 0 0 .o� a I ° ° / o ° I ,� l ` PARCEL 090AI-00-00-001DO SP oi D—uGP=— ��/� \ \ SOUTHWOOD CHARLOTTESVILLE LLC ° / f /• ) - ° N�RfV� w— R2 RESIDENTIAL / ° /oo ° I 0 / \/ li / — — - y� — I DB. 3375 PG. 063 o I o�, I I� 0° PAR 0 0 I I S THW LL I I �� v \ � U O Gc!/,'/ I / o ° I IGHB LI C — — — I \\ ,i °. ° ° 1 I ° \ G \ / I 10 ° ° 0 0 Q °,^\n \\c \\\\\ o o \ jJ/� 0°\ o \0 ^\ Z \I o °° '�, — -- - SAN-���o � 0 °° i ,\ ���` / r "' i \\ �i jam / C=� ° v �k\\\ \ / �� n 0 l / © " °o o —� BUFF -���� o: ° ! UGLQ \ �� 1 �j/�\ n OIII, l °°U°G 0o DooO0 000OC J1 //�� v,•. \ C— ���< y \\-/ /! ° o o ° uo �NzT—_ °00000 000 0 :-_ --- G i' 00 00 UGT \ S° ° \ \ \° o I \ J O O / ///JI `�'1� �L LEGEND 0 0 \ o \ J / — / I / / SOUTHWOOD VILLAGE 1 (SDP202000048) I O�^ DEDICATED FOREST SPACE ° ° \\°° 00 0 ° 1 \ �)o , U I G \ BUFFER DISTURBED AREA o I 1 1 \ / o o I JI W \\ / ®v v v v PROPOSED MITIGATION AREA (FOREST SPACE TO BE DEDICATED) TED)°/000 o ° / °° \O ° // I - /�� �\ �\ \\� \�O\ 0O v �� \�> �—+L uG NOTES: / GC 7 � MITIGATION CALCULATIONS TOTAL DISTURBED AREA 6,775 SF (0.16 AC) MITIGATION AREA REQUIRED (2X DISTURBED) 13,550 SF (0.32 AC) PROPOSED MITIGATION AREA (FOREST SPACE TO BE DEDICATED) 13,600 SF (0.32 AC) / ° I / Y / � \ ' I I \\ N/ V \ 71 , 1. MITIGATION AREA SHALL BE PROTECTED FROM ANY FUTURE DEVELOPMENT AND CAPTURED 0 0 of I �� ° ` ��/ � / \\ 0 uGT / WITHIN A PROPOSED EASEMENT. THIS AREA SHALL BE DELINEATED WITH SIGNS TO PREVENT / ° ° o ° � ° I o / / C / / <\\ \\ u� — — —UGT� VEGETATION REMOVAL. SIGNS TO BE PROVIDED BY THE COUNTY. 0 0 0 ° �� �\ \ �i / 2. PROPOSED MITIGATION AREA SHALL BE VEGETATED AND UNDISTURBED AT BOND RELEASE. 0 ° TH CLINT W. S F LET Lic. N 4360 10/ 13/ 2022 z O a_ V Q W W W W W 0 0 0 0 o' UUUU 2 2 2 2 O O O O W W W W »» WWWW N N a M\NW d �ti DATE 07108121 DRAWN BY J. FOX DESIGNED BY C. SHIFFLETT CHECKED BY C. SHIFFLETT SCALE 1"=100' N (Wu V 1� � z Q z o W aQ� O� _ J m 2 W o LL W w z >> LL ° m Q C O U) O O JOB NO. 47039 SHEET NO. C6.04 ° ° 3 a 9X o dZ .2O o� c E w E o a c m o- Oc X N O 3 z„ O 22 oim �3 n d m 2 Y J N m o dh 12 m � d `o E 06 a c 2c 10 a 0 0.2 m a c m N 0 n o c ° nE L F E L STORM STRUCTURE TABLE STRUCTURE # TOP STRUCTURE HEIGHT DESCRIPTION 100 406.17 3.75' ES-1 for 24 inch Pipe 100A 424.44 19.79' MH-1 102 424.24 17.95' MH-1 104 427.74 6.72' DI-2B 6 ft Throat 106 427.77 6.24' DI-3B 6 ft Throat 108 431.14 7.35' DI-2B 6 ft Throat 110 431.44 6.21' DI-3B 6 ft Throat 112 422.68 15.63' DI-2B 6 ft Throat 114 422.87 11.30' DI-3B 6 ft Throat 116 421.87 4.55' 24" Basin -Circular Grate 118 424.94 4.88' 18" Basin -Circular Grate 122 420.55 5.05' DI-3C 6 ft Throat 124 420.87 4.71' DI-2B 6 ft Throat 126 426.42 7.55' DI-2B 6 ft Throat 128 427.06 7.45' DI-3B 6 ft Throat 132 420.41 12.69' DI-3B 6 ft Throat 134 419.14 10.89' DI-3B 6 ft Throat 136 418.72 7.80' DI-2B 6 ft Throat 138 420.64 4.78' DI-2B 6 ft Throat 140 416.30 6.98' DI-3A f�+'NUTH U�•00 �. ?�� CLtNT W. z: �S F LET >� Lic. N 1360 1011012022 ^� E 0 0 rn U N � N C > E w a E H_ w w 3 Q LL o 3 p LL - wO `mom � V oMo Z o -u O w P rn C7 LU rv� o w 30'x U) w Q v O i 0 ry Z �> owwww ~ rn w M 0000 2 M^ o cn r°ii ow ZZZZ ce)LO L M V H 102: MH-1 4 v v u-) o ~ " 0 134: DI-3B 6 ft Throat v U U U U STA 10+00.00 (° N m v m L o o STA 11+38.77 . o o vi W W W W TOP424.24 In 0 m000 F TOP419.14 �N�H � � � � INV IN 406.63 (111) p�vZZ0 p��ZO INV IN 408.62 (139) p�a0 O W W W W INV IN 419.19 (103) iiFpzzz ce) 0>> INV IN410.45(135) v�0 > INV OUT 406.46 (101A) � O F - - - � u) H_ INV OUT 408.42 (133) � O F ? W W W W 134: DI-3B 6 ft Throat 0 430 430 STA 10+00.00 136: DI-2B 6 ft Throat TOP 419.14 STA 10+29.81 138: DI-2B 6 ft Throat 0 ry ry ry ry STA 11+00.58 > o ry o INV IN 408.62 (139) TOP 418.72 w C) ry INV IN 410.45 (135) INV IN 414.22 (137) TOP 420.64 = a M M INV OUT 408.42 (133) INV OUT 411.05 (135) INV OUT 415.99 (137) ¢ O ry o 430 430 z O in DATE 07108121 O } DRAWN BY J. FOX • DESIGNED BY • C. SHIFFLEIT • CHECKED BY • C. SHIFFLE7T SCALE AS SHOWN • N (�I� V J H� I 0 w/ z LU 9+50 10+00 11+00 12+00 13+00 9+50 10+00 11+00 12+00 li > w STR 102 - STR 140 STR 134 - STR 138 a J HORIZ SCALE: 1"=50' HORIZ SCALE: 1"=50' Q LL VERT SCALE: 1 "=5 VERT SCALE: 1 "=5 0 0 J m WJ Q O W z 0 Q W o U) z 0� 5 0 00 0 0 50 PROFILE SCALE ,0 V 1 JOB NO. 47039 SHEET No. C7.00 425 425 PROPOSED 420 \ GRADE 420 EXISTING � GRAD 415 415 EXISTING SANITARY O PIPE 410 410 139 133 86.60' OF 131 33.37' OF 18" HDPE 111 g3.36' OF 18" HDPE � 1.00°/ 405 4' OF pE o 405 18" HDPE � 1.00% 1.00% 400 400 395 395 425 425 EXISTING PROPOSE GRADE GRADE 420 � 420 i � 3' MIN 415 415 137 4" WATER 2' ?0.?a OF LINE 1� 2DPOE 0 410 410 29.8HppE 1� Q.00% 405 405 400 400 STORM PIPE TABLE PIPE # DIA FROM -TO UPSTREAM INVERT DOWNSTREAM INVERT SLOPE LENGTH DESCRIPTION 101 24" 100A - 100 404.82 404.00 2.00% 41.21 LF 24" HDPE 101A 24" 102-100A 406.46 404.92 2.00% 76.90 LF 24" HDPE 103 15" 104 - 102 421.15 419.19 2.00% 97.93 LF 15" HDPE 105 15" 106 - 104 421.66 421.36 1.00% 29.83 LF 15" HDPE 107 15" 108 - 104 423.79 422.10 2.00% 84.55 LF 15" HDPE 109 15" 110 - 108 425.36 423.99 4.50°k 30.43 LF 15" HDPE 111 18" 112 - 102 407.05 406.63 1.00% 42.04 LF 18" HDPE 113 18" 114 - 112 411.74 411.14 2.00% 30.11 LF 18" HDPE 115 15" 116 - 114 417.44 416.85 1.00% 58.72 LF 15" HDPE 117 15" 118 - 116 420.19 417.64 2.50% 101.89 LF 15" HDPE 121 15" 122 - 114 415.62 414.49 2.00% 56.46 LF 15" HDPE 123 15" 124 - 122 416.16 415.82 1.00% 34.01 LF 15" HDPE 127 15" 126 - 124 418.99 416.36 1.50% 175.61 LF 15" HDPE 129 15" 128 - 126 419.74 419.09 2.00% 32.38 LF 18" HDPE 131 18" 132 - 112 407.89 407.25 1.00% 63.36 LF 15" HDPE 133 18" 134 - 132 408.42 408.09 1.00% 33.37 LF 15" HDPE 135 15" 136-134 411.05 410.45 2.00% 29.81 LF 18" HDPE 137 15" 138 - 136 415.99 414.22 2.50% 70.78 LF 18" HDPE 139 18" 140 - 134 409.49 408.62 1.00% 86.60 LF 15" HDPE L m �_ 664U� pLTH 0�� V 112: DI-2B 6 it Throat 4 uo m C'Z STA 10+00.00 m M a0 to't� o CLINTW. (DR V: 116: 24" Basin - Circular Grate �' S t TOP 422.68 M + N a H STA 10+88.83 118: 18" Basin -Circular Grate c�nS F LET >• INV IN 411.14 (113) F0 It z_ z_ 0 TOP 421.87 STA 11+90.72 INV IN 407.25 (131) 0 > > > INV IN 417.64 (117) TOP 424.94 Lic. N 136• ,((�� INV OUT 407.05 (111) � � � Z � Z INV OUT 417.44 (115) INV OUT 420.19 (117) 0/ 13/ 2022 �V; P m 2 rn - � 114: DI-3B 6 ft Throat o M , rn E STA 10+00.00 m v, r, 00 ' 124: DI-2B 6 ft Throat m 0i N q CD °D N TOP 422.87 M 0 ` ' F STA 10+90.32 m cli m °' F 128: DI-3B 6 ft Throat INV IN 416.85 (115) 0 o v Z TOP 420.87 0 � v Z STA 12+98.31 a E INV IN 414.49 (121) Q o _ O INV IN 416.36 (127) Q a _ O TOP 427.06 = INV OUT 411.74 (113) � U) FO z z INV OUT 416.16 (123) � U) f- ? ? INV OUT 419.74 (129) v w 3 430 430 o a 0 wO m ¢_j U000 Z ° - ui O .. P rn C7 LU �� a w 30 =x cva w o.0 =v O i c ry Z ��"> owwww ~ c rn w M 0 0 0 000 H > > > > 0000 0 0; o; o; a a a a O O O O O W W W W = ti ti ti ti > > > > W W W W o 0 0 0 N ~ N N O w F �\�M U O \ \ a c o z O in DATE 07/08/21 0 } DRAWN BY J. FOX • DESIGNED BY • C. SHIFFLETT • CHECKED BY C. SHIFFLETT 9+50 10+00 11+00 12+00 12+50 9+50 10+00 11+00 12+00 13+00 13+50 • SCALE STR 112 - STR 118 STR 114 - STR 128 AS SHOWN HORIZ SCALE: 1"=50' HORIZ SCALE: 1"=50' VERT SCALE: 1"=5 VERT SCALE: 1"=5 � N U..� u, ca 0 C9 (9 212: 12" Basin - Circular Grate �+ a m _ m m m STA 13+62.07 L c2i o � 0 2 o � C) TOP 410.59 o U o U o Cli U o U o C14 INV IN 408.19 (213) ry c M �0 c (O c �n (0 c M °' INV OUT 408.09 (211) J O CO M ca M r O .N " O N C � °D 4 O v q: M O 210: 12" Basin - Circular Grate 214: 12" Basin - Circular Grate o o 00 0 0"t ? °° + 0 v F °° + o v F m + oOi v F STA 12+97.75 STA 14+18.50 216: 12" Basin -Circular Grate \ c O � � O TOP 409.48 TOP 413.84 STA 15+10.81 / w Paz «az O «�z O az O az O INV IN 215 oQa- Naa» a(L �aa» �aa» INV IN407.45(211) ( ) TOP415.19 C140 � � z N � 0 z z g y 0 z z N � O z z N6 a- z INV OUT 407.35 (209) INV OUT 408.75 (213) INV OUT 411.16 (215) 420 420 w/ z li w< > LU a _j J J I -I Y LL- OzO J m WJ Q > O W 0 0 I-- W/0U) I..L 5 0 0 O 0 0 50 PROFILE SCALE ,0 V / 9+50 10+00 11+00 12+00 13+00 14+00 15+00 15+50 JOB NO. STM 200 - STR 216 47039 HORIZ SCALE: 1"=50' VERT SCALE: 1"=5 SHEET NO. C7.01 435 435 EXISTING GRADE / 430 / 430 PRO OSED 425 425 8" WATER 3' MIN. LINE 420 420 117 g9 OF 101 15" N pE ®2 0°b 415 415 58.72' OF 15" HDPE @ 1.00% 113 410 ANITARY 410 ' IPE 2-1 NDpE 1� 2 00% 405 405 400 400 EXISTING GRADE PROPOSED 425 GRADE _ 425 \ 8" WATER LINE 1.5' 420 420 3' IN. 12g 32?8 O 127 15" HDP 175.61' OF � 2 00 ° 415 "HDPE 415 121 L 1' .01' OF � 1.50 P 15" HDPE 56A6� PE MIN. EXIS ING 410 SANI ARY 410 PIPE 405 405 400 400 EXISTING 415 GRADE � 415 PROPOSED GRADE i a10 - a10 215 OF \ 213 g12 pVC 211 56 43' F 2.50°b � I 207 209 OF g4.32' OF 12.. p C 405 205 8, F 35.32' 12" pVC 1.0 % 405 201 20 4.97' OF 57.64 12„ p 12„ P o @ 1.00% /o � (� 1.0 62.51'O 12"PVC @1.0 12" PVC (� 1.00°k @ 1.00° 400 400 EXISTING SANITARY 395 PIPE 395 390 390 STORM STRUCTURE TABLE STRUCTURE # TOP STRUCTURE HEIGHT DESCRIPTION 100 406.17 3.75' ES-1 for 24 inch Pipe 100A 424.44 19.79' MH-1 102 424.24 17.95' MH-1 104 427.74 6.72' DI-2B 6 ft Throat 106 427.77 6.24' DI-3B 6 ft Throat 108 431.14 7.35' DI-2B 6 ft Throat 110 431.44 6.21' DI-3B 6 ft Throat 112 422.68 15.63' DI-2B 6 ft Throat 114 422.87 11.30' DI-3B 6 ft Throat 116 421.87 4.55' 24" Basin -Circular Grate 118 424.94 4.88' 18" Basin -Circular Grate 122 420.55 5.05' DI-3C 6 ft Throat 124 420.87 4.71' DI-2B 6 ft Throat 126 426.42 7.55' DI-2B 6 ft Throat 128 427.06 7.45' DI-3B 6 ft Throat 132 420.41 12.69' DI-3B 6 ft Throat 134 419.14 10.89' DI-3B 6 ft Throat 136 418.72 7.80' DI-2B 6 ft Throat 138 420.64 4.78' DI-2B 6 ft Throat 140 416.30 6.98' DI-3A STORM PIPE TABLE PIPE # DIA FROM -TO UPSTREAM INVERT DOWNSTREAM INVERT SLOPE LENGTH DESCRIPTION 101 24" 100A - 100 404.82 404.00 2.00% 41.21 LF 24" HDPE 101A 24" 102 - 100A 406.46 404.92 2.00% 76.90 LF 24" HDPE 103 15" 104 - 102 421.15 419.19 2.00% 97.93 LF 15" HDPE 105 15" 106 - 104 421.66 421.36 1.00% 29.83 LF 15" HDPE 107 15" 108 - 104 423.79 422.10 2.00% 84.55 LF 15" HDPE 109 15" 110 - 108 425.36 423.99 4.50°k 30.43 LF 15" HDPE 111 18" 112-102 407.05 406.63 1.00% 42.04 LF 18" HDPE 113 18" 114-112 411.74 411.14 2.00% 30.11 LF 18" HDPE 115 15" 116 - 114 417.44 416.85 1.00% 58.72 LF 15" HDPE 117 15" 118 - 116 420.19 417.64 2.50% 101.89 LF 15" HDPE 121 15" 122 - 114 415.62 414.49 2.00% 56.46 LF 15" HDPE 123 15" 124 - 122 416.16 415.82 1.00% 34.01 LF 15" HDPE 127 15" 126 - 124 418.99 416.36 1.50% 175.61 LF 15" HDPE 129 15" 128 - 126 419.74 419.09 2.00% 32.38 LF 18" HDPE 131 18" 132 - 112 407.89 407.25 1.00% 63.36 LF 15" HDPE 133 18" 134 - 132 408.42 408.09 1.00% 33.37 LF 15" HDPE 135 15" 136 - 134 411.05 410.45 2.00% 29.81 LF 18" HDPE 137 15" 138 - 136 415.99 414.22 2.50% 70.78 LF 18" HDPE 139 18" 140 - 134 409.49 408.62 1.00% 86.60 LF 15" HDPE STORM STRUCTURE TABLE STRUCTURE # TOP STRUCTURE HEIGHT DESCRIPTION 200 405.03 404.57' ES-1 for 12 inch Pipe 202 410.21 5.61' 12" Basin -Circular Grate 204 408.11 2.46' 12" Basin -Circular Grate 206 410.78 4.45' 12" Basin -Circular Grate 208 409.83 2.96' 12" Basin -Circular Grate 210 409.48 2.16' 12" Basin -Circular Grate 212 410.59 2.53' 12" Basin -Circular Grate 214 413.84 5.11' 12" Basin -Circular Grate 216 415.19 4.03' 12" Basin -Circular Grate STORM PIPE TABLE PIPE # DIA FROM -TO TO UPSTREAM INVERT DOWNSTREAM INVERT SLOPE LENGTH DESCRIPTION 201 12" 202 - 200 404.63 404.00 1.00% 62.51 LF 12" PVC 203 12" 204 - 202 405.68 404.73 1.00% 94.97 LF 12" PVC 205 12" 206 - 204 406.36 405.78 1.00% 57.64 LF 12" PVC 207 12" 208 - 206 406.90 406.46 1.00% 44.48 LF 12" PVC 209 12" 210 - 208 407.35 407.00 1.00% 35.32 LF 12" PVC 211 12" 212 - 210 408.09 407.45 1.00% 64.32 LF 12" PVC 213 12" 214 - 212 408.75 408.19 1.00% 56.43 LF 12" PVC 215 12" 216-214 411.16 408.85 2.50% 92.31 LF 12" PVC L STORM PIPE TABLE PIPE # DIA FROM - TO UPSTREAM INVERT DOWNSTREAM INVERT SLOPE LENGTH DESCRIPTION 101 24" 100A- 100 404.82 404.00 2.00% 41.21 LF 24" HDPE 101A 24" 102 - 100A 406.46 404.92 2.00% 76.90 LF 24" HDPE 103 15" 104 - 102 421.15 419.19 2.00% 97.93 LF 15" HDPE 105 15" 106-104 421.66 421.36 1.00% 29.83 LF 15" HDPE 107 15" 108 - 104 423.79 422.10 2.00% 84.55 LF 15" HDPE 109 15" 110 - 108 425.36 423.99 4.50% 30.43 LF 15" HDPE 111 18" 112 - 102 407.05 406.63 1.00% 42.04 LF 18" HDPE 113 18" 114 - 112 411.74 411.14 2.00% 30.11 LF 18" HDPE 115 15" 116 - 114 417.44 416.85 1.00% 58.72 LF 15" HDPE 117 15" 118 - 116 420.19 417.64 2.50% 101.89 LF 15" HDPE 121 15" 122 - 114 415.62 414.49 2.00% 56.46 LF 15" HDPE 123 15" 124 - 122 416.16 415.82 1.00% 34.01 LF 15" HDPE 127 15" 126 - 124 418.99 416.36 1.50% 175.61 LF 15" HDPE 129 15" 128 - 126 419.74 419.09 2.00% 32.38 LF 18" HDPE 131 18" 132 - 112 407.89 407.25 1.00% 63.36 LF 15" HDPE 133 18" 134 - 132 408.42 408.09 1.00% 33.37 LF 15" HDPE 135 15" 136 - 134 411.05 410.45 2.00% 29.81 LF 18" HDPE 137 15" 138 - 136 415.99 414.22 2.50% 70.78 LF 18" HDPE 139 18" 140 - 134 409.49 408.62 1.00% 86.60 LF 15" HDPE STORM STRUCTURE TABLE STRUCTURE # TOP STRUCTURE HEIGHT DESCRIPTION 100 406.17 3.75' ES-1 for 24 inch Pipe 100A 424.44 19.79' MH-1 102 424.24 17.95' MH-1 104 427.74 6.72' DI-2B 6 ft Throat 106 427.77 6.24' DI-3B 6 ft Throat 108 431.14 7.35' DI-2B 6 ft Throat 110 431.44 6.21' DI-3B 6 ft Throat 112 422.68 15.63' DI-2B 6 ft Throat 114 422.87 11.30' DI-3B 6 ft Throat 116 421.87 4.55' 24" Basin -Circular Grate 118 424.94 4.88' 18" Basin -Circular Grate 122 420.55 5.05' DI-3C 6 ft Throat 124 420.87 4.71' DI-2B 6 ft Throat 126 426.42 7.55' DI-2B 6 ft Throat 128 427.06 7.45' DI-3B 6 ft Throat 132 420.41 12.69' DI-3B 6 ft Throat 134 419.14 10.89' DI-3B 6 ft Throat 136 418.72 DI-2B 6 ft Throat 138 420.64 4.78' DI-2B 6 ft Throat 140 416.30 6.98' DI-3A f�*�pLTH UF"I �� �� ?'1 CLINT W. 2: 0S F LET >O Lic. N 436• ,((�r, 0/ 13/ 2022 �V; M E 0 0 rn U N N C > E w a E H_ w w 3 Q LL o 3 p LL 0 wO `mom ¢_j U0M0 z a -ui O .. P rn C7(A � a LU w v 30 )x cva w d Q v 0 Qo 0 o nuia 0 LU LU LU LU 2 0) ~yarn � z z z z E o o oC'j t o o t o E N > 0 0 0 0 N O O _ N aO M QI v O (O ,= O p� M LO Lu w M U V U V N O V O M O O O N M (O n O N w r �co v MN(O QI 0]°�nN , m] O W Z Z Z Z O = u� O M p M N N N N 110: DI-3B 6 ft Throat + + 7 7~ _ T v v~ N+^ v ~ i+ M v H l0 H Z) Z) Z) Z) (n O O O N 7 N Z N N M Z) STA 13+48.227.80O O O O w�vz �vz0 2�vzz0 o�vzz0 0� z0 00 �O> 0�0> > 0�0» > o�p» > 0�0> > TOP431.44 U)H-z �OPz z �OFz z z ��F? z z �U) z INV OUT425.36(109) a a a a 445 445 O W W W W = ti ti ti ti O > > > > 0 W W W W 0 x F ry ~ N N O w F �\�M Q O N 7 0 z O in DATE 07108121 a O 0_ } DRAWN BY v O con J. FOX 104: DI-2B 6 ft Throat o o � N W °o • DESIGNED BY STA 9+99.93 o co CD o 0 106: DI-3B 6 ft Throat v� o o M w v • C. SHIFFLETT TOP 427.74 w v Z + 0 INV IN 422.10 (107) STA 10+29.75 o Q o j a°i o v 0 • CHECKED BY INV IN 421.36 (105) TOP 427.77 M U) OF o 0 > INV OUT 421.15 (103) INV OUT 421.64 (0 °� O : • C. SHIFFLETT -11 440 440 415 415 010 SCALE AS SHOWN 55, N 15" HDPE (�I� V\t J I --I I 0 w/ z li LU U) > LU a LL; J J I -I LL_ 00 J m WJ Q LL > O W z 0 0 I-- w OU U) 9+50 ,O+Oo „+oo STR 1002+0STR 110 13+00 14+00 14+50 9+50 10+00 STR 104 -STR 106 11+00 9+50 STR 300 -STR 302 „+50 � HORIZ SCALE: 1"=50' HORIZ SCALE: 1"=50' HORIZ SCALE: 1"=50' Q VERT SCALE: 1"=5 VERT SCALE: 1"=5 VERT SCALE: 1"=5 5 0 00 0 0 50 PROFILE SCALE ,0 V 1 JOB NO. 47039 SHEET NO. C7.0Z 440 440 435 435 EXISTING / GRADE / PR POSED / GRADE 430 / 430 / 8" WATER / LINE 425 / 425 / 3' IN. 107 O OF �� HpPo 09 420 420 � 5" HDPE / 4.50% / 103 97.93' OF 415 415 2.00% 410 410 405 405 ' OF 101 76. ppE 41.21� F 24 00°k 24„ N PE @2� OPA, Ok 400 400 395 395 STORM PIPE TABLE PIPE # DIA FROM -TO UPSTREAM DOWNSTREAM SLOPE LENGTH DESCRIPTION INVERT INVERT 301 24" 302-300 401.01 399.20 2.09% 86.78 LF 24" HDPE EXISTING GRADE 435 435 PROPOSED 430 GRADE 430 8" ATER 425 425 1' MIN. 420 105 29.83' 420 OF 15" H PE C� 1.0 °k 415 415 410 410 STORM STRUCTURE TABLE STRUCTURE # TOP STRUCTURE HEIGHT DESCRIPTION 300 401.37 5.25' ES-1 for 24 inch Pipe 302 409.10 8.34' 30" Basin -Circular Grate EXISTING 410 GRADE 410 ROPOSED RADE / 405 405 400 400 OF pPE 24„ .09% 395 395 EXISTING SANITARY PIPE 390 390 385 385 L LANDSCAPE CALCULATIONS QTY. Southwood Plant Schedule SCIENTIFIC NAME COMMON NAME SIZE ROOT O.C. COMMENTS TREES 15 15 Ginkgo biloba `Autumn Gold' Liquidambar styraciflua 'Ward' Ginkgo Cherokee Sweetgum 2" Cal. 2" Cal. B&B B&B See plan See plan Single Straight Leader, Specimen, No Tight Branch Angles Single Straight Leader, Specimen, No Tight Branch Angles SHRUBS/HEDGE 34 Viburnum nudum 'Winterthur' *1 RRI GATI ON BY OTHERS, COORDI NATE W/ L.A. Smooth Witherod 3 Gal. B&B 48" O.C. Tighly planted to form hedge EFFECTIVE 100-YR FLOODPLAIN PER CASEE NO. NO. � 21-03-0029P (209i, EFFECTIVE 500-YR 000 FLOODPLAIN PER LOMA '' ji/ 208 CASENO. LOT V2-1 21-03-0029P 207 3523 SF ASSEMBLY \ 12" NYLOPLAST / LOT V2-17 ASIN - _1PVC b 5246 SF PIPE, TYP. 140 204 - q / r \ D \ Y \ \ 203 20' TORMWATER cn LOT V2-18 ACCESS z 6069 SF EASEMENT 202 S MIN. SIDE SETBACK APPROX. LOCATIO OF PRIMITIVE TRAIL. ROUTE TO BE FI LD LOCATED TO ACHIEVE RECOMMEN ED SLOPES \ 201 AND TO AVOID EXI TING TREES LARGER THA 8" CALIPER. 20' PRIVATE sD DRAINAGE & Z ACCESS i EASEMENT VARIABLE IDTH SWIM FACILITY MAIN ENANCE EASEMENT N 3-BOARD > """SATY FENCE 7- Tree Canopy Requirement: 15% of Total Site Area -<_ Total Site Area 425,894 Square feet Gross Site Area 416,620 Square feet (-) Rec. Areas 605 Square feet (-) Pond Area 0 Square feet (-J Wetland Area 8,669 Square feet Required: 63,884 Square feet Provided: 244,886 Square feet o 0 (+) Tree Save 240,198 Square feet N (+) Canopy Bonus 0 Square feet (+) Proposed Trees 4,688 Square feet A.au W v Trees U @ 3 APPROX. LOCATION OF PRIMITIVE c� 0 - ¢ L,g 3 '� -- _ ,,,`e *Requirement: 1 Large Shade Tree (1 1 /2" cal.) per50 Linear Feet of Frontages c c t M 5' TRAIL. ROUTE TO BE FIELD LOCATED ¢ m u m z I'llHIEVE RECOMMENDED SLOPES 413 '" 415. w - p 414 * "`4 '� _ _ _ Street Frontage: 1,892 Linear Feet a > o N 212 LARGER THAN 8" CALIPER. 415 — Required: 38 Large Shade Trees W v 10' PRIVA EMENT $.,w., r * z U 6 — Provided: 32 Large Shade Trees � c m x N — \ — a w OPEN SPACE B M CE -417 416 a v 0 1 1 382125 SF EA Inferior Parking Lot Trees = >> o w w Requirement: 1 Large Shade Tree per 10 Parking Spaces C ON w OO R 214 41 M Parking Lot # 1 v � � U U Parking Spaces: 215„r * f ; 9,p s Required: 1 Large Shade Trees D ~ > > TmM,e LOT -15 2�6 a qaS 417 Provided: 0 Lar e Shade Trees LOT V2-14 LOT Parking Lot #2 w W 4012 SF LOT LOT V2-11 LOT V2-9 TIE TO Parkin Spaces: 0 p O O _ 2506 SF LOT 680 SF LOT V2-3 LOT V2-2 LOT V2-1 S MIN. FRONT V2-13 V2-12 LOT V2-8 LOT V2-7 LOT V2-6 LOT V2-5 LOT V2-4 2231 SF WATERLINE Required: 0 Large Shade Trees = UJ LU 6"X8" 25991SF 3' MIN. 2183 SF 2088 SF 1979 SF 1969 SF 1969 SF 1528 SF 1537 SF Provided: 0 Large Shade Trees H1 /: STUB -OUT 0 Lu UJ ETBACK 3738 SF 2615 SF E, 6" GV, SIDE AND FHA SETBACK = � - Inferior Parking Lot Landscaping Area o N A�q ®° o Requirement: 5% of Paved Parking and Vehicular Circulation Area shall be > w N N 8"X8" 5' M M 136 RED 8" ER TEE 138 71F�18 FRO 128 Landscaped with Trees and Shrubs U o El + ° Parkin Lot # 1 0 0 5° Parkin a Area: 4,023 ISquare feet u, DATE R30' y^�� > �- Required: 201 Square feet s 0410112022 5° Provided: 672 S uare feet 0 2 3EN - -- - " O RK114G" HORIZ R AD 5' IN 129 8' X CG-9 PARKING" Parking Lot #2 >_ DRAWN BY rli -� F SI R7-1R) 14+ .55 0 13+ 12 13+p IGN 7-11R) 712+50l1IV 12+00 11 50 D 11+0 (T +50 9, Parking Area: 0 Square feet ;;,j; R 5' 134 R25' G 6 CK P w- Required: 0 Square feet 123 I Provided: 0 Square feet DESIGNED BY 139 \ SIN 1 5° 1 4 5' N 433 Screening Oil t�N 133 0 127 } 126 Requirement: Parking ares consisting of fourspaces ormore shall be • CHECKED BY (6) GB - I (3) LS screened from adjacent residential or rural districts. • MID. oI - Provided: Parking lot is screened by hedgerow of 21 Viburnum from • • 132h 122 SETA 20'BLi I I I ' I I � I � adjacent ro ert and b 13 Viburnum from the street SCALE (3) L$ iDRAINAGgi „NOiPARKING"i 2434 1 P p Y Y S T A IEASEMENii SI N R71R) 20 PUBLIC I NAM \ 8 1 -- -LOT 6 SF LOT V2-43 LOT V2-42 LOT V2-40 LOT V2-39 LOT V2-37 LOT V2-36 LOT V2-35 LOT V2-34 5' MI / O LOT V2 45 1616 SF DDMWE 1617 SF /LOT 11 SF 2081 SF 1617 SF 1628 SF 3538 SF DRAINAGE 1617 SF 1980 SF ,i� 1617 SF EASEMENT PARKI G" SIGN (R7-1R) 113 114 1994 SF 115 EASEMEN SET LOT V2-19 a ®.; OT 4357 SF L5324 SF 0 W v' 5324 SF I a ARA E � ° ,i (6) GB SETBACK S_EME ` 4 � 2s1 LOT .' I — ;'/' -' ' ''•®: � n= 112 �11 A2 V2-28 LOT LOT LOT LOT LOT 43, ry X�p 108 SF V2-29 V2-30 V2-31 V2-32 V2-33 T J 102 r D FHA 11 ING WAL 2108 SF 1811 SF 1420 SF 1420 SF 2444 SF z d [ (6) L$ FI 117 3' N SID SPEEU Sic;N (MUTCD SETBA + ® \ LOT V2-21W1-2A � 3 h ,� PEED SIG 5' IN. + °438 'I ` � Ir 4063SF °M W1_ 110 SETB K ' 18' / ? SO 4' G r� r (13) VN +00 BE > AUL. -� 440 P + 100, 1.25" ATE © N N 1 > Q (21) VIN LINE S11 IGN R 7INR) / a 50 ��_ I R200 w a t +p 0 _ _ A ADIS LAN 4 101 R150' S 109 0 11 5+ 0 3' PUB /VV 1�1F+ n�� + 0 - - - 10 00 M � c LOT V2-22� - „1 A a'�s "'6i I O LU n 9465 SF - / 4-UNIT V2-23 104) �' I' \ w Q V o // 2900 F ' CONDO 18' + u" (n PUBL � E M ON CAN 18' I RKI G' IE O % RK ACCE ETBACK 1 44 SF WATERLINE® 1� 3 ' . �� w Z 0 EA MEN LOT V2-24 STUB -OUT 447 Q c� 5 4ao 3301 SF 5' MIN. FRONT NO (3) LS TYP E STOP 0 pp J o SETBACK PARKING" �S 5/8" F SIGN 448 0 o� + W M TENA E r'q I SAFETY LOT V2-25 SIGN (R7-1R) ( 444 ti TF �� m w 300 EA MEN RAILING 4010 SF LOT V2-26 LO 4V - " 'I ® \ i AA9 h� ^ v c m s 4220 SF a P P`ryy^� 0- 0 i 0 it \ RE ING LL V �� ✓-70 ai RMWR \ Aa r � 2 \ STRE BUFi -B 447 �° b 4--) a) ° d m ----- sq� V1 - o > 1 = V ® O /�1 U STEEP £ 2 \ \ SLOPES `8 � @q _ YU ON c \ � C! \ V ®3 +� v g449 - M o co . v STFEa RI�F� p u v a �OqZ) 45� h._ \ ` ,. ,� y a JOB NO. 2 �� \ 47039 5 \ \ \ - 1 ® 6 L \ `Q Z: W m SHEET N0. .2 o LI.00