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Home My WebLink AboutWPO202000039 Plan - VSMP 2021-06-03 (3)CROZET ELEMENTARY RENOVATION AND S] WpO/VSMp SITE DATA: TAX MAP PARCEL: 05600-00-00-064EO COUNTY OF ALBEMARLE SCHOOL BOARD DB. 1044, PG. 498 DB. 1098, PG. 703 PARCEL AREA: 21.16 AC IMITS OF DISTURBANCE: 6.60 AC IMPERVIOUS AREA: 2.79 AC ZONING: RURAL AREAS (RA) STEEP SLOPES (MANAGED) OVERLAY MAGISTERIAL DISTRICT: WHITE HALL SOURCE OF BOUNDARY AND TOPOGRAPHY: TIMMONS GROUP 28 IMPERIAL DRIVE STAUNTON, VA 24401 TELEPHONE: 540-885-0920 CONTACT:JOE MEDLEY JOE. MEDLEY@Tl MMONS.COM SURVEY CONDUCTED: MARCH 2O20 DATUM: HORIZONTAL: NAD83(NA2011) VIRGINIA STATE GRID SOUTH VERTICAL: NAVD88 VIA GPS RTK OBSERVATIONS REQUIRED BUILDING SETBACKS: FRONT 75 FT MINIMUM (EXISTING PUBLIC ROAD) FRONT 25 FT MINIMUM (INTERNAL PUBLIC/PRIVATE ROAD) SIDE 25 FT MINIMUM REAR 35 FT MINIMUM MAXIMUM BUILDING HEIGHT: 35 FT PROPOSED BUILDING HEIGHT: KITCHEN ADDITION 16 FT CLASSROOM + MOVEMENT ADDITION 28 FT (AVERAGE) LOWER LEVEL VESTIBULE 10 FT PROPOSED BUILDING SQUARE FOOTAGE: KITCHEN ADDITION 2,180 GSF (1 STORY) CLASSROOM + MOVEMENT ADDITION 31,753 GSF (3 STORIES) LOWER LEVEL VESTIBULE 982 GSF (1 STORY) TOTAL 34,915 GSF EXISTING USE: ELEMENTARY SCHOOL PROPOSED USE: ELEMENTARY SCHOOL ±34,915 GSF BUILDING ADDITION ±6,175 SF BASKETBALL COURT ADDITION ±33,350 SF PLAYGROUND RENOVATION ±6,250 SF COURTYARD ADDITION WETLAND IMPACTS: NO WETLANDS ARE IMPACTED AS A PART OF THIS PROJECT WATER SUPPLY: ACSA PUBLIC WATER SANITARY SUPPLY: ACSA PUBLIC SEWER DRAINAGE DISTRICT: RIVANNA NOTES: 1. THERE ARE MANAGED STEEP SLOPES WITHIN THE PROJECT LIMITS. 2. THERE ARE NO CONSTRUCTION ACTIVITIES PROPOSED WITHIN THE 100-YR FLOODPLAIN. 3. THE SITE IS LOCATED IN A WATER SUPPLY PROTECTION DISTRICT. 4. A WPO STREAM BUFFER IS LOCATED ON THE SUBJECT PROPERTY AND WILL BE MANAGED IN ACCORDANCE WITH THE ALBEMARLE COUNTY WATER PROTECTION ORDINANCE. PARKING REQUIRED: THE NUMBER OF REQUIRED SPACES SHALL BE DETERMINED BY ALBEMARLE COUNTY PUBLIC SCHOOLS, DOCUMENTED IN A PARKING STUDY, AND SUBMITTED TO THE ZONING ADMINISTRATOR FOR APPROVAL EXISTING PARKING: 86 SPACES PROPOSED PARKING: 130 STANDARD SPACES 6 ADA SPACES 136 TOTAL EVERYDAY USE SPACES 12 BUS SPACES 41 SPECIAL EVENT SPACES 189 TOTAL SPACES SPECIAL FLOOD HAZARD AREA INFORMATION: SPECIAL FLOOD HAZARD AREA (FLOODPLAIN) YES [ 1 NO [ X 1 TRIP GENERATION LAND USE: ELEMENTARY SCHOOL ITE CODE: 520 AMOUNT: 680 UNITS: NUMBER OF STUDENTS Trio Generation for Crozet Elementary School LAND USE ITE CODE AMOUNT UNITS WEEKDAY AM PEAK HOUR PM PEAK HOUR ADT IN OUT TOTAL IN OUT TOTAL Elementary School 520 680 # of Students 1285 239 203 442 104 127 231 UTILITY DEMANDS WATER FLOW (AVERAGE DAILY DEMAND) AVERAGE FLOW RATES (FROM TABLE A 12VAC5-590-690) ELEMENTARY SCHOOL = 10 GPD/PERSON 10 GPD/PERSON x 770 PERSONS (90 STAFF + 680 STUDENTS) TOTAL = 7,700 GPD AVERAGE HOURLY DEMAND = 7,700 GPD / 24 HOURS = 320.83 GPH MAXIMUM HOURLY DEMAND = 320.83 GPH X 300% = 962.5 GPH PEAK HOURLY DEMAND = 962.5 X 150% = 1,443.75 GPH 1,443.75 GPH / 60 MIN = 24 GPM TOTAL FIXTURE COUNTS WATER CLOSETS = 44 LAVATORIES = 38 DRINKING FOUNTAINS = 12 SERVICE SINKS = 7 SEWER FLOW (AVERAGE DAILY FLOW) ESTIMATED TOTAL = 10 GPD/PERSON x 770 PERSONS = 7,700 GPD SCHOOL ADDITION, IMPROVEMENTS SUBMISSION - WP0202000039 COUNTY OF ALBEMARLE, VIRGINIA WHITE HALL DISTRICT VaQ �d Jae AMENDMENT#1 DESCRIPTION • INCREASE IN DISTURBED AREA TO KEEP SURPLUS DIRT ON SITE AND TURN IT INTO A SMALL REC FIELD IN THE BACK OF THE PROPERTY AT THE END OF THE PROJECT (SEE SHEET C3.11 & C4.2) • UPDATED VRRM FOR ADDITIONAL DISTURBANCE. NO ADDITIONAL TREATMENT NEEDED AS WE WERE OVER THE MINIMUM REQUIREMENT PREVIOUSLY. (SEE SHEETS C6.0 & C6.2) • UPDATED NOTE TO RESERVE THE REMAINING 0.10LB/YR SURPLUS FOR ANOTHER SCHOOL PROJECT THAT QUALIFIES (SEE NOTE ON SHEET C6.3) • UPDATED SWPPP ACCORDINGLY • UPDATED CALC BOOK ACCORDINGLY 5/28/2021 PROJECT LOCATION Crozet Three Wo ch d ad nppolochion Mcuntoins kt,Sh �p �p�e Rrnwnwillp R� VICINITY MAP SCALE: 1" = 2000' OWNER: ALBEMARLE COUNTY SCHOOL BOARD 401 MCINTIRE RD CHARLOTTESVILLE, VA 22902 CONTACT: JOE LETTERI TELEPHONE: (434) 975-9340 FAX: (434) 975-9341 ENGINEER OF RECORD: TIMMONS GROUP 608 PRESTON AVE. CHARLOTTESVILLE, VA 22903 CONTACT: BRYAN CICHOCKI, P.E. TELEPHONE: 434-327-5380 i \f7 Sheet List Table Sheet Number Sheet Title C0.0 COVER C3.11 EROSION & SEDIMENT CONTROL PLAN (GRASS FIELD) C4.2 LAYOUT & GRADING PLAN (GRASS FIELD) I C6.0 STORMWATER MANAGEMENT PLAN C6.2 STORMWATER MANAGEMENT QUALITY C6.3 STORMWATER MANAGEMENT QUALITY SIGNATURE PANEL: DEPARTMENT OF COMMUNITY DEVELOPMENT PLANNING & ZONING ENGINEERING INSPECTIONS DEPARTMENT OF FIRE AND RESCUE ALBEMARLE COUNTY SERVICE AUTHORITY VIRGINIA DEPARTMENT OF TRANSPORTATION TOTAL SHEETS = 6 APPROVAL DATE V M I) 0 VMDO Architects vmdo.com 434.296.5684 200 E Market Street 2000 Pennsylvania Ave NW Ste 7000 Charlottesville, VA 22902 Washington, DC 20006 0 0 09* s 0 •a TIMMONS GROUP YOUR VISION ACHIEVED THROUGH OURS. bemarle County Public Schools ALBEMARLE COUNTY PUBLIC SCHOOLS CROZET ELEMENTARY SCHOOL ADDITION, RENOVATION AND SITE IMPROVEMENTS 1407 Crozet Avenue, Crozet, VA 22932 VDOE Project Number 002-34-00-101 VMDO Project Number 1284 iryan D. Cichocki Z lie. Yo. 53741 Checked By B. CICHOCKI Designed By K. ROESER Drawn By K. ROESER ISSUES AND REVISIONS NO. SUBMITTAL DATE 1 FINAL SITE PLAN & WPO PLAN SUBMISSION 10.AUG.2020 2 FINAL SITE PLAN RESUBMISSION #1 25.NOV.2020 3 WPO PLAN RESUBMISSION #1 02.DEC.2020 4 FINAL SITE PLAN & WPO PLAN SUBMISSION 05.FEB.2021 5 SIGNATURE SET 18.MAR.2021 6 WPOAMENDMENT#1 28.MAY.2021 COVER Como \ \ \ \ \ \ \ i -1927 \ \ — HP BHP`\\O/dP `\ \ F-1927 /1-56�F��OOHP \ — -- E8 t]\/nf OHP jy uo F-1927I1-52 UHP OHP OHP _ ------�------\ ----\ SCALE 1"=20' \ -------------------- ` -- -\ ----- \y----\-----\� ---- \ - \ \\ \\ \\ ------------ ------------------- 0 20' 40' \ \ \ \ \--t----- / 21 NOVEL Hv3ysc ---------------------- \ \ \ \ \ \ \ \ \ PRESUMED LOCAON/WIDTH BF \ \ N, _r — \ I \ \ \ \ \ \ \ \ \ 22V POWER EAS€MENT FOR\ PUBL/lC SERVICE \ \ \ I \ \ \ \ \ \ \ \ COMPANY (ZRACT 2) \ \ \ I \ \ \ \ \ \ \ \ \ \ \ \ \ \ \ \ DB. 206\, PG. 13 \ \ \ \ \ \ \ \ \ \ \ \ \ I I 000 a _ \ /f �SCOREBOARD ' \ \ ` S S F \ \ \ FOUL / ` POLE) LIMITS,OF DISTURBANCE \ \ - - - \ - - - - - - - - \ I \ \ \ \= 6.60AG\ NET POST \ \ , (TYP) r———— —— ---- \ 03 I CHAIN -LINK FENCE FENCE \\ \ \\ \ I I roI I I \ \\ c \ SSF I I I I 1 \ 1 \ I I I \ Now ROOF ROOF I ( \ \ now `"��i�24-� EC OVERHANG I I \ \\ \\\ _ _ _ DucoUT fro I I \ \ \ I—J \ 1 \ (PART OF) IMP 56-64E COUNTY SCHOOL BOARD OF ALBEMARLE COUNTY, VIRGINIA DB. 1044, PG. 498 DB. 1098, PG. 703 ZONED: RA (RURAL AREAS) I \ ROOFOVERHANG DUGOUT 18 ,sD�r��E,C \ DEC \ \\ I \ \ — — CHAIN -LINK I\ 12" DEC 5v1.r' \\ \ I 4 \ , NCE I If \\ ` 18"DEC n \ \\ \ \I \\ `, �— __—==��\ I I I / \ 6" DEC 12" DEC BENCH I I lei l / I I r 1 \\ \ I I 1 r I 1 4 GOAL \ I 1 I (3) TENNIS COURTS (36'x 189LU I GRA LANE x I J l K L�wIN/NG WALLO V AA 1) 0 VMDO Architects vmdo.com 434.296.5684 200 E Market Street 2000 Pennsylvania Ave NW Ste 7000 Charlottesville, VA 22902 Washington, DC 20006 � 00090 • �0 0 TIMMONS GROUP YOUR VISION ACHIEVED THROUGH OURS. • rbemarle County Public Schools ALBEMARLE COUNTY PUBLIC SCHOOLS CROZET ELEMENTARY SCHOOL ADDITION, RENOVATION AND SITE IMPROVEMENTS 1407 Crozet Avenue, Crozet, VA 22932 VDOE Project Number 002-34-00-101 VMDO Project Number 1284 n D. Cichocld Z I.ic. Yo. 53741 IONAL�ti Checked By B. CICHOCKI Designed By K. ROESER Drawn By K. ROESER ISSUES AND REVISIONS NO. SUBMITTAL DATE 1 FINAL SITE PLAN & WPO PLAN SUBMISSION 10.AUG.2020 2 FINAL SITE PLAN RESUBMISSION #1 25.NOV.2020 3 WPO PLAN RESUBMISSION #1 02.DEC.2020 4 FINAL SITE PLAN & WPO PLAN SUBMISSION 05.FEB.2021 5 SIGNATURE SET 18.MAR.2021 6 WPOAMENDMENT#1 28.MAY.2021 EROSION & SEDIMENT CONTROL PLAN (GRASS FIELD) C3mll —�— `\ F-1927 --_— _ 2 P'�H "�OHP ' • OHS— OHP �OHPONP\�. OHP HP ��HP \ \— — — \ \ 4. --- \-------- --------�--- 5. fill— — — — — — — — -----------L---- ---- \——— — — tO \ \\ \ \ \\ \\ \\ \ ------------------ / \ \ — —\— �— \ NOV91 NV38,9£ \ \ � � \ � — N \ \ PRESUMED LOCAYON/WIDTH OF 22 POWER EAS€MENT FOR` \ \ PUBL/5 SERVICE \ \ I \ \ \ \ \ \ \ \ COMPANY (ZRACT 2) \ DB. 20�6\\, PG. 13 \ \ \ \ \ \ \ \ \ \ \ 678.80' \ \ \ \ \ I IRI \ I \ \ \\ LO \ � \ `SCOREBOARD \ \ cro \ \ FOUL POLE \ \ \ co \ \ \ \ \ \ \ NET POST 1 I co A A V A V (TYP) \ I \ \ I I 11 I / LCHAIN-LINK FENCE I 00 6 \ co I200' 180' \ 6�, \ \ \ I II \ \ \ ccP I I \A \ \\ 120' I` \ SOCCER FIELD STRIPING HbV\I�J I I \ FOR ILLUSTRATIVE PURPOSES \ ONLY — ACPS STAFF TO/ r DETERMINE FINAL STRIPING \BASED ON PROPOSED USES OF \ MULTIPURPOSE FIELD. \ I \ MULflPURPOSE RECREATION \ \ FIELD (BkZE OF U10 YOUTH \ \ \ \ \ \ I \ SOCCER FKLD) \ \ I 681.80' \ \ \ \ \\ ROOF I / " }� OVERHANG \ \\ I 684.80' -J I11 \ I I I \ ROOF OVERHANG k- DUGOUT X I I \\ \\ 18"DEC\\� \\\ \ I \ \__ \\ \\ 12" DEC 4V ' DEC \ \ \ I b \ CHAIN -LINK I \ I \ — NCF£ E 18" DEC VJ\ \ \ \ \ \ \ 6"DEC 5^ I — �I 12"DEC BENCHsns 11 \I— II \ _ _ =GOAL \\ 1 \\ I I I I (3) TENNIS COURTS (36' x 18) W t I i I GRAIL LANE I I I ? I I \ 1 11 I I T I I \ \ 1 1 1 I I I I I ` II I 11 11 x I I \ 11 I CONO EXtSTING IIII 1\ II I I I I 1 I I II 11 11 IGRAVEL LANE II V \ 11 1\\ I\ J 1 II I 11 II SCALE V=20' 0 20' 40' (PART OF) TMP 56-64E COUNTY SCHOOL BOARD OF ALBEMARLE COUNTY, VIRGINIA DB. 1044, PG. 498 DB. 1098, PG. 703 ZONED: RA (RURAL AREAS) V M 1) 0 VMDO Architects vmdo.com 434.296.5684 200 E Market Street 2000 Pennsylvania Ave NW Ste 7000 Charlottesville, VA 22902 Washington, DC 20006 � 00090 s �0 0 TIMMONS GROUP YOUR VISION ACHIEVED THROUGH OURS. • bemarle County Public Schools ALBEMARLE COUNTY PUBLIC SCHOOLS CROZET ELEMENTARY SCHOOL ADDITION, RENOVATION AND SITE IMPROVEMENTS 1407 Crozet Avenue, Crozet, VA 22932 VDOE Project Number 002-34-00-101 VMDO Project Number 1284 15 ITryan D. Cichocki Z U Lie. yo. 53741 y 1��SSIONAL�\ Checked By B. CICHOCKI Designed By K. ROESER Drawn By K. ROESER ISSUES AND REVISIONS NO. SUBMITTAL DATE 1 FINAL SITE PLAN & WPO PLAN SUBMISSION 10.AUG.2020 2 FINAL SITE PLAN RESUBMISSION #1 25.NOV.2020 3 WPO PLAN RESUBMISSION #1 02.DEC.2020 4 FINAL SITE PLAN & WPO PLAN SUBMISSION 05.FEB.2021 5 SIGNATURE SET 18.MAR.2021 6 WPOAMENDMENT#1 28.MAY.2021 LAYOUT & GRADING PLAN (GRASS FIELD) 4m2 \ ? ` ) / \\ \\ \\ \ \ \\ \ \ \ \ \ \ \\ \\ \ \ \ \ / / / / / \ > \ \ \ \ \ \ / / / / / I / \ \ ! \ ) / \ \ \ \ \ \ \ \ \ \ ,' \ \ \ \ \ \ \ \ \ ` ` l l / l l / / , I \ \ 2 ) / \ \ \ \ \ \ \ , , \ \ \ \ \ \ \ \ \ \ \ \ \ \ \ \ \ \ \ \ \ \ ` l / i i ' / \\ \ 1 \ / / \ \ \ \ -\-`T_ .^ \ \ \ \ - - £8 Ob ` \ \ \ ` \ ` \ \ \ \ \ \ �� \ / / / , / , _ _ _ _ I / / \ \ ! \ \ \ \ \ \ / / \ \ £8 4VN ` -\-`T_ .r \ \ \ ` \ . \ \ \ - - \ \ \ ` - - - I l / / / / / / / / / \ \ \ \ \ \ \ \ \ \ \ \ \ \ \ - \ - r - - - - - ----------- I / , / / /' y ---------------------- \ `\ \ \ \ \ \\ \ `\ \ - \ \ \ - -- \ \ � -� � -� � -\ r-t-'- --------- \-� 1 ---------- t/ y ' \ \ \ \ \ \ \\ \ \\ \ \ \ \\ \ \ \ -�- ` ` \ \ \ \ \ \ \ \ \ \ \ \ \ \ \-1 1, "- - \\ ' \ \ \ \ \ \ \ \ \ \\ \\`\\ `\ \\ \ \ \ �\ \ \ - - \\ \� \\ / / / / 1 \ \\\\ \ ` \ �\ \ \ # \ \ \ \ \ \ \ \ \ \ \ \ \ / / -I- /,;�, Lk \ \ \ \ \ \ \ \ \ \\ \ \ \ \ \ \ \ -I- / , / / / 1 1 \ \ I ' I \ \\\ \ \ \ \ ` \ ` SHEET FLOW \ ` ` /' / / I / \ \ ` I I 1 \ \ \ \ \ \ \ \ ` \ \ \ \ SHEET FLOW \ \ \ \ ` \ / I / I I I I ` I 1 SALE 1 60' I I I I Ct \ \ \ \ \I \ \ \ \ \ \ \ \ \ \ I ` s \ \ \ ` \ \ \ \ \ / / , / , / / / / / / / I I \ \ \I I I \ I \ I S ALE 1 =60' I I I I I Ct \ \ \ \ ` \ \ \ \ \ \ \ \ \ ` ` \ \ \ \ \ / / / , / / / / / / I I I I I I I I 1 \ \ I I \ \ I \ \ \ 1 00 \ \A \ \ \ \\ \ \\ \ \ No \ \ \ \ \ \ \ \ \ \ / / , , / , / , / / , , , , , I I I I I I \ I \ 1 I ` ` \ \ \ \ \ \ \ \ \\ \ \ \ \ \ \ \ \ \ `\ \ / / / , / / / / / / , / / , , I I 11 0' \ \ \ 6Y \ I \ \ \ \ \ \ \ \\ \ 120' \ \ \ \ \ \ \ \ \ \ \ \ \ \ \ \ \ ` \ \ \ \ \ \ \ / \ \ / , / / / / / , 1 \ III � 0' \ 12d 1 \ 6l \ \ \ \ \ \ \ \ \ \\ \ \ \ \ r \ \ \ \ \ \ \ \ \ \ \ 10 \ \ \ \ \ \\ \ / / / / , / , / / \ \ \ \ \\ \ \ \ \ -\ \ 1 1 I \ \ ` \ I 1 \\ `\ _- --- --- � \ / \ \ \ - \ 1 \ \ \\ -_- - -- -I- \ \ \ \ \ \ \ \ \ ` \ , , , , , \ \ \ `\ �\ \ I I I \ \ \ l\ , ._ \ -- ----_--�` -'-- / , / , \ \ \ \ \ \ \ \ \ ` \ \ \ \ � � EX 5.10N ONSITE ,( \ ` -\ l r \ / I---1 / / / , / \ \ \ \ � \ \ \ \ \ \ `\ \\ \ I \ PRS. 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I ■ • r II I I / II _ \ ``\ 1 1 I \ I \ ` 1 '1 \ \ 'I \\ I `\ \ 'I 'I 11 I / , \ I r / \ I l l / III / ' / ' //'' \ I I / I // / I / i / / , ' '/ / / , / // ,/'_/% / /I // // / / / /t / // - / // / 1 / / / , 1 1 I Il I , I I / l , / ' I l ' l I I / I / / / /\ \ 1 1 III \ \ 1 I // , / / / / p N 11 III\ \ \ I I I I I / /' /' / ' /' , n ,l I III \ I I I 1 1 , ,/ / / / I G I I / , I /, / / / I I / / / / / / I III / I /, / , // / // / I / / l l // // l ' /' / / / 11 1 1 1 / / � / ' ` / / / / / / / / I , 1 / / / / / / \ / / 1 I ' / / / / , 1 I / I ' ' / ' I / I l l l / / I / l / / / / , / / i I \ I 1 I I I I I I \ I \ 1 I 1 I III \\ 1 I I I I \ I I I / I / IIII I / / I I /' 1 / / I I I / I 1 1 / I I/ / ,/ , , , / /,, / / / / ,/ / , ,/I f' // '/ / / / / / / / / / / , . // / / I 1 / / / / I I , I , / / / / I I / / , / / , 1 / / / / / I III \ \ 1 1 I \ I / I 1 I / , , ,\ l l 1 / / / I SHE TFLOW 1 / / / , \ I 1 1 I , / , / , \ I I I ' I EX 4. ION SITE) \ 1 1 I I I / (/ I / % / / / / / / / , / / / / / / / I I I 1 / I I ,/ / �/ / / III' / / 11/,. / / / / // / / b , / / / / / 1 11 I / / /, / / , I / / / , / / II \I / {/ / / I , / / / I/ / / / / / / I , I / / , ' / / / / / / / ' ^ / ' , \ / / , , / / / 1 ! / , , / , , , \ ,' I I 1 I ■ I TTT 1 I t I \ \ 1 1 1 I GRASS CHANNEL TO I SHE TFLOW 1 1 I 1 BIORETENTION #3A 1 I• I \ 1 I / ! / / 1 I I / / I I ' / / 4 1 II / / I I II \1 / / / / / / / / f �/ / / / / / / / ,l / / / / / / �/I / / / / / / /I/ / , / / / / , / / , / // / / / ' I I / / / / / I / / I I l I l / / / / / / I I \ 1 I / / / \ I 11 I t SHEET FLOW / ' r I 1 \ I I I I 1 y, //' / / / / / / / ' I ' I I ' \ I 1 �d' / / /' /' I / / I / � / / / / I I , I / ! / ./ / / / ' / \ / /' / / I I / / / / / / /I \ 11 r II 1 I I \ \ I I I 1 1 I I 1 I I / \ / 1 I I / J ;// / / / , / / I �d// / / / / / / / / I I / / , , AREA = 0.84 AC \ 1 I I 1 AREA I // / I I I \ I / / \ / / I I I / / / � / / \ 1 I I I I \ I I I \ \I \- / I / / / \ " / / ' ' II II ' U =0. 4 it 111 , \ II\�II / / \ \ / /'/' ' /' / I I , / / / / / / /' / / ,' _ _ _' \ I I I I 1 I I I I � / / / / I I , / / / / / ' / / / / , ' / / � .. 1 1 1 1111 \ � ' I / I/ ) / / / / / ' l / / l / / , / _ ` - \ 11 I / I1 1 I 1 1 / / / I / / / / / / / \ 1 \ I MANAGED TURF = 0.59 AC \ , / / l l I 1 / / _- I II I I ` I / / //// - I I , / / // // /' /' ' , I 1 / 1 / / / / / / / , ' / J .. '' / / / / / /' _ / , , , ' _e I 1 / / ` T ` - • I I I I \ 1 I I I I t I 'IIIII 4)I ,� \ i \ 11 1111 \ ` 11 / \ III \ I 1 II I\)I /� e \/ / , / , / / \ // / , / / \ fi r I I ) / / / / / / / / l l I 1 I 1 1 / / / / / / / / / / / / , / , , / I I I / / / / , ' / / / / /_ �� / \ i 1 1 I I I I I /, , i I I l / / \ 1 I I I / / / / r / _ \ 1 I 1 1 I / I I /l,, 11 \ \ 1 \ 1 1111 ' I - - \' I / / ' / / / / / , / / / , \ - - / / , I / 11 III 1 I l 1 / // / l 1 1 , 11 , t \ \ 1 / / / / / / / , / ) IIIII III //, 1 / / , / / , / , , / / / , /_ �� I I 1 / / / / I r / i I I I I 1 , l I , , / / / / - / I r //// \ " h \ I �� ' \ \ 1 I SWM BOUNDARY \ 1 1 I I 111, \ \ 1 I II I / \ 111 - _ \ I , / / / / , , / / I I I I I / // / r l I 1 111 ' - - I / / ' / I / \ 1 11 I I , ` \ � ' / , / / , ' / / , ' 1 IIn1 //, , / I I I I / I II, / / r I I I \ , / \ II II \ \ / / I / / / / ( / / / -l'I I I I 1 / ' I r I I I \ I 1 l II II \ \ II \ 11/ / / � / / I / / / / ! / / / I I I I l I /// // / / I I I I I l / // / / / / II 1 I l ////'///// / r I I , - I / SWM BOUNDARY / I Iy _ , , 1 l / I 1 1 I I \ \ I / / / / 1 _ \ IIIII \ I I I/, f---I--�- ' \ I I � I I I \ IIIII\ \\ \ I I 1 I I I 1 / l / / / /' / r I I I 11 I l I//, // / �.-.-�,-,-,- i I I ! l ///'l// / l y I I r l - \ 1 1 PR4.10N (ONSITE) 1 II SHEETFLOW 1 1 \- \ r_ \ I 111 \ I I II\ 1 \ III \ \ I/ / / / , / I / / / / / t 1 / I I / /- I 11 f 1 I I I I l I, // I l l l/ l/// //, l // / // / /''-�..-�,-,-,- 1 \ I \ 11 i I , / I I _ I I I I I L \ III / / / I / I I \ 11It \1k .I / I I I I I I SHEET F OW \ I I 11 // J I / II I I I I I I I I / I // / IIII/l/// ///, ''- " 1, , / / I 1 // / 1I JI I I I AREA = 0.49 AC I I \ \ \ I I I I \ 'I \\ \1ILII/// / IIIlt1 \ \ I / / 1 I I ) 1I I I 1 I 1 ++ I I I I I I I , I / I I l 11 / / / / ,� ___ I IIII I l 1 I \ �I , / / 1 I I \ 1 1 I 1 , , , l // / / /____ I / / / / I \ IMPERVIOUS=0.09AC \ / I \ 1�11 / , 1 ! I I I 1 / I / , I I I 1 / / l / / / / / / / / / I / / / / / / / / I / / I l / / / / / / / / _ _ _ _ / / _ - _ 1 \ \ I { / / ' \ 1 / �---------_-- _ I I EX3.10NONSlTE / _ _ _ - _ _ \ \ .L I I ( ) \ I I I \ I I1I \ \ \ \ I, , / / 1 I 1 I I 1 I I \ \ / , I I I I \ I ! I I t \ \�\ I I I I / / I / 1 1 / / / / , / / / / / / / _ - - - I \ / / / / / / / / , .- / l II / / / ----- ---- _ / / / / / / / / / / / I MANAGED TURF = 0.40 AC IIII I r I \ IIII \ ` \ 1111tt \ \ `\ 1 \ 11 / 1 I / I 1 I \11'+ / , I 1 I 1 I I I 1 I I I I I I / / / / / / / / / / / / , / / / / / / / l " _ _ - - _ / / \ I I I \ AREA = 1.27AC / _ L i - / 1 I ` - -i - \ I I \ \ \ 1 I I I \ \ \ \ \ 1 \ I I I I I I 111I \ 11, / / / / , , BIORETENTION FACILITY #3A _ / / / / / / / / / /, , / / , / LEVEL 2 / PR3.10N ONSITE \ ( ) \ AREA = 1.35AC \ I I \ \ I \ \ III I ` \ _ \ J - I I I \ 1 ` I , - - I I I I I / , / / - - - \_ I I I - IMPERVIOUS = 0.61 AC / / / / / / / / / / ' / / , / / / , " - - - - - _ _ _ \ I\ I I / / / / ' - � � 1 / I I MANAGED TURF = 0.66 AC ) \ / I I / I I I SITE OUTFALL 3 1 / I I I 1 I 1 \' 11 I I / / / / - / ' ' '' / / / / / / / / / ' / / / - - - c\ I \ \ 1 IMPERVIOUS = 0.72 AC J I / I I I SITE OUTFALL 3 1 \ 1 , I I 1 1 \ / I I I I I I \' 1 / /, / / / / / / / / / / /, / / / / /, / / , , / / \ , / / / \ l 1 I I I I / , I / _ \ / I I 1 I I I TOTAL AR 1. AC ,II , I I I I/////// n� . / / /' / /// /', /'' / / / / , / / / / / SWM #2 100 LF OF / \ 1 �t o' 1 MANAGED TURF = , , 1 111 I TOTAL AR 1.4 AC , I I I 1 I \I�I I 1 / I I I I / / / / / / / \ \ / / / - ` '-'I 1 / / , \ \ 1 t , I I I 1 / - - _ _ _ _ 1�� - y q \ I as as \ I / / /\ /// / , / / / , / / 48" CMP DETENTION - _ / / / , \ \ 0 It - 1 \ \ s 4 1 , I I I I \ 1 \ I I � \� \\ 1 I I I I I I I /// // / // /' / / / ' / / / / , / / , -_ I" . T# I 1 / , / _ _ \ \ , ■ IV \ - - ` I\ I -I I I \ \ \�\ 1 I I I - - - - - - _ _ ` \ \ I I I I 1 I I / /// // / // /' / / / / . / / // / / / , / ' - - - - - -- J ' - - - I I \ \ \� 1 I I I - - - - \ , I I I I I 1 / / // / / , // / / / //'////'//' // // /I , _ _ - \ - - ' / / \ \ / - - �� 11 I b /� - -- \I\ 1 - - - _ \ \ \ , 1 \ `\ \ I I I I - \ \ I \ I 1 / / / _ , ; / ' / / / // / '/ /, /, / , - _ / // // //' // / \ \ 1 -- \ \\ I / \ \ __- _ _ \ - - - \ \ -\`4 \\ 1 \ I \ \ \ I I I I \ / ' / / // // , //, ' / / / / / / / , // /' _ / o ___--_--_ ,' /' __� _-_ \ I ' I E / ` I / / , EX3. IOFF OFFSITE - - \ 1 II b \ \ \ ) 1 I Ir/ I \\ ' \ \b � � \ kl;�V \ \ '\ � I I 1 \ \\\\ ` \ 1 \ I I I I \ 1 I \ \\ ` \ \ 1 , \ I I I 1 \ 1_� J I I J , \ / / / / / -_ -__ / / / / / (OFFSITE - - EX3.ARE ) / // / // ` \I I 1 111 �rJ I -\_B8 �✓ �,- , i I 1 _ -/ \ I \ I 4 \ \ \ \ \I \ I I'I t\ \1 \ I'/ ` 1( \ \ 1\II I I I I 1 I 1 \ /, / //AREA=0.42AC � 7 / , ` _ 111\1 // / / / / IMPERVIOUS (GRAVEL) = 0.05 AC - , I 1 I y ` , \ I , \ \ `\\ 1 , I \ \ I I I ,� I I \ \ \ \ \ \\\ 1 I , I \I I // / / / / AREA = 0.42 AC � / . � / // / / / / (GRAVEL) - IMPERVIOUS GRAVEL - 0.05 AC 7 I I - I 1 I y I ) I I \ , \ %/ 1 I \ \ -f---t �\ I 1 \ \ H \ \ \ \1 1 I I I I \ FLOW \ \\ � 1 ' I I / - / , / - I \ f - I / / �' / / FOREST= 0.21 AC - - _ - _ I / I \ / / / / / I \ // / / // MANAGED TURF=0.16AC_ - -- 11/I l \\\ _-- \ \ \. L J I - / 1 \ \ \\ /- ' I \ . \ \ \ 1 I I , ( \ \` ` \ \ Jx/ / I / , / / _ - / / 1 / / FOREST= 0.21 AC - - / / / / / / _ _ 1 I , / / / // MANAGED TURF = 0.16 AC , 11 // - , I \ \ I 6 _ 8 6 \ 1 _ I - I L , I I \ \ \ \ . \ \.\\\ / I I I I < \ \ \ \ l I I I I \ \ \ �� l '//,, / / // ;, / , / , / - - _ - \ l / \ \ - - - 1 Itl 1 - - - - 4 - - - \ \ - HEFT FLO / / I '1 / / / - _ - - \ / // / / ' / "' , ' / I 'y, ` \ -� \ \ \ 1 I \ \ \ / / / / / / / / / / / / / / / , / / / , / - - \ I /1/ / _ ' / � _ - - \ I/, b \ \\ / / - - - - - -- ' - - - / I\ ^ --=�\ \ -- - \ \ \ \ I I ) \\ , I � \ \ \ 1 / / / _ \ \ 1 I / , / , / _ _ _ _ _ \ / % / / , / / / - - - - - - \ // / / / / / // / N 11 IIII _ 6 9 \ / _ \ - 8 ' 1 0 � 8$\\ \ \ 1 \ \ \\ 1 / / / ' //// / / / / / l / / / -�- l / I / IIII - / -- l 1 Il l 11 d 1 I ` \ \\\ + 1 \ \ \ \ \\ \ \ / I \ t \ `\ ' \ \ \ I / / / ! / / // , / / / / / / , I / l , I l/ III \ �- \ , / A� \ \ \\\ 1 a° \ t \ `` oop f / \ \ \ \ /' / / , / I 1 I l / , I I 1 / , 1 / l / /_ - I I I �� 1111'I �' -. _ _ ^�/ / / / 11l I �� {`\/ / I l I 1 I+ ) \\ \ `\\\�\`�\ V \ \ `� \;X I I \\ / \ `\ ` \\\ ♦ \ \ \ \ ` \ I \ \ \ \ \ \ \\\� I / , // ! BIORETENTIONFACILITY#2C_ l \ l / LEVEL 2 r 1 ' / I l / I l I , 11 lI / / I „ Ilil II J� _ 6� �� / 9 A \\ \ \ \ \ \ \ \ - \ ` \ \ \; \ \ \ \ \ \ \ l `\\ \ \\ \\ \\.\\\ / _ 1 1 \ \ \\\ I \ l 1 ' l l l I 1 I I I I l / / - Y I 1 111 / i ,,- ) I I , 11 III � J/ /-- \\ \! I I \`. \` � � \ \ \ I ; \ \ `\ `\\\ \ \ \�\\,\, l I l l / / I \ I I I l / I I I I /'- I 1/ l II 1 / . \ ` ` ` \ > \ \\ \`. \`. 6 -.\\ 8 \ \\ \ / -I 1 \ \\\ I I \ \\�\1 1 I I / 1 , 4 I I l / I ( I i , ICl/II I I I , I I91 l / I I / \ / I . , , , / I I I III I,I� 1 , \\, - \`f \ I I 1 BOUNDARY \� \ \ \ \ \ \ I \ \ \ \ \\ \\ I I . W \ I \ \ , \ \ \ \, t I I \ I / / I I I }/ / 1 , I / / / \ I ) l / ( J / I I I I I 1 / . � , % I I I 'I III 11 I 11 J I I / \ / , BOUNDARY \ O` . 4, \ 1 \ \ \ ` ` \ \ I II I \ \ `\ I \ \ 1 I \ \ ` \\ -I'\ \`11 1 I \ \ \ `\ II I I I I I / \\ \ 1 I ' ' r _1' ` / / // / / �r T �. I , Q�� 1� / q V ' t . 11 I 14 j / ' ' I I \ \l\ \\ \ I� 1 \ \ ®\ \ \ \ \ \\ \ \ I III III I \ I 1I \ I \ \ I 11 I \ \ 1 \ It \ 1 I / / \ I I / / \ 1 ; I I / / \ \ I ' I / / I \ I / / , I \ 1 I I / / I I I / , 1 T \ \ \ \ \ \ ` 11/ \ \ \ II1 I \ \ 1 \ \ 1 I' III \ \ \ ' \ \ I I I \ I 1 \ \ I I I J 1 I J \ \ \ I I I I III 1 1 I , I I I I I /' / I \ I � I J \ \ (, Illy / / I I J I I ,- \\ \ \ \ I\ l\\ \\ II I 11 b b \ \ \\\ \ I \\\\ \ \ l `/ / / / I 1 I I I 1 I I ' 0 0 \ \ U 1 / /`i, /' ,' / ., / I I I 1 I I I Il 11 I .' - o o \ \ \ \ \\ \ \ I \\ \ `\ 1 1 j I/ - - - \ \\\\ \ \ 1 / \ \ 1 I I I ( / / I , III I\ \ I I I I ' / /' / l l 1 , \ 1 \I 1 ' ' 1 I J I I I 1 / /' /' , PR2.50FF( FFSITE) I I I 1 I f I l, l I I II I 6gS E C --- lOklS�1.9 q 0 �- - URF- r...��_. - 111 \ \ \ \ 11 1\ \ 1 I \ \\\\ \ \ \ \ \ \ 1 \ \ \ , I \NVI \ \\ 1 I "` ` \ I I , , 1 1 1 1 " 1 1 1 I ' I 1 I 1 I 1 I I I ' / / , I 1 ' ' I J I , I , / (OFFSITE) I Y I EX25OFF OFFSITE I I. 1 1 /' .AREA - 1.24 AC I I , /�� I \ I / EX2 /ON ONSITE I IMPERVIOUS = a 90 AC _ 1 /� - _ • TO SITE OUTFACE 2 I % \ ,\ \ , \ `1 _ ; \ \ \ \1 4 ___- \\ \\ \ 1 1'L \ _ ') \ \ \ \ \ _ , \ N \ I 1 1 \ \ - 7 \ I 1 1 I I \ I I \ F \\� 11 \ \ I t , I . , 1 I 1 I 1 AREA =1.1 AC I I I I I I I I 1 1 I I / I 1 / IMPERViO S - .78 AC I I I I I l l 1 I 1 I I I I , I 1 1 , I J TURF = 0.34 AC I I I I , I I I 'I \ I I \ °' I - (�' II n _ ( \ 0.72 AC TO SWM I ' -- OUTSIDE SWM - - - 1 \ V `. 1 1 , \ \ - \ \ 1 I_`\ \ \ \ ar \ I I , \ \r ` \ \Sl E TFi \ I I 1 I I I I, I I I I 1 I I rI , I I 1 I I 1 / + MANAGED TURF = 0.34 AC I ' = AREA = 3.01 AC III I I ` \ 1 _ " I I I J) / 1 \ \ \\ _ I ` \ - , , ' , I / / ' 1 �' ' / / IMPERVIOUS = 0.96 AC , , \ 1 \FALL 2 \ /, - / MANAGED TURF=2.05AC 1 1 1 ' \ \ \\ rdX � 1295AC / � v,l. I 1 , I I I I 1 \ \ I I J _ , % � / I I I 1 I / I I J I l 1 I I I 1 - / , / / / I / / / / , r ) 1 I I / " ) / , I I I / I / / I r ' / / I / 1 I i J / I ' 1 I -sr`-- 4 LlOVE CARRIED ` 11 OVER TO DA C x d \ \ OT L REA 1 .77AC I \ ` \ \ "\ I \ I t \ \ I ` \ \ I 11 \ 1 \ C�. I \' 1 ` I \, 1 11 // , 1 , I ) / /� I l 1 / / / I / I - t n / EX2.30FF OFFSITE � / ( ) s �, i / / / MILL &OVERLAY I 1 I I 1 T -- -- - -I II , I I 1 \ 1\\. 1\\ \ I , I I I I I I 1 1 \ \ \�C 111 , I \ \ 1 \\\\ \ ` \ I I I I , �+ / EX I / I ' 230FF(OFFSITE / , / (' / / 1 / / ' / MILL &OVERLAY I l _ I I I (I I _ _ r ti I I \\ `\I\ 1 111 II \ \ \ I \Ilk \ \ \ / / I 1 / / / / --- - - ' / 1 I ' ` _ ) I I I I \ \ -\ I ` ' / ' 1''/ / / f / " I ` o \ \ \ I , / I , ////, / , r / / / ' ' ' / r ( /' AREA=0.55AC 1 _ \ , , _ , I I 1 l �•_-==1jJ�� p , __� ^} _ _ , IMPERVIOUS = 0.50 AC I I ' ' l J \- I---� „► ,I // \\" .\III \ \ \ 1 �- \\ / I I 1111\ \ _ ` - \ \ i - -` \\ \\\ \ //, 1 I I / / / , ,' AREA I / / I / I I / ' ' / ' / , r IMPERVIOUS = 0.50 AC / I / 1 ► I I I I I I; _ I _ . . -- -_ �I \IIII \ 110 11'll\ \ \ 1 I \ \ I / / / / / / / / / / r 1 / / / / / / / ,' / MANAGEDTURF=0.05AC I' 1 / I 1 ! I �' �( I I I// / --,"-' I - \ IIj1 l__ � / -_ - - - `\ \ , ' I, \ \ \ \ \ / \ - \ \I\\\ \ \`��\\\ / I 11 \ \ I \ \\ \, I I / I \ \ I I / / MANAGED TURF = 0.05AC , / / / / / / / I I 1 _ _ , //// / / ,' ,' // / /� �" / / I I Y I 1 I 1 1 I I II \ J I -_ -- _ �� \\\\\\ ` 1\\\\j\\ \ 1 \ \ I\ \ \ I / \, \\ \ 1 / ,, / , , / / / r I I \ \/ ��_ EX220FF (OFFSITE) I/ ' \\\\\( / / \'\\\ 1 \ L -\\\ \\ I \ \ \\\\\\ I / /„ , / / / , / / \ EX2.20FF (OFFSITE) I \ \ I I- - �\-\\\ \. `\ �\\\\\i l ///// , / ' / i / I \ '' - - . . :..- _ AREA = 3.42AC I l I / / / _�. ��.. AREA �• i r _ \\ \ \ �/ q w \\\\\a \ \ \ \ \ \ ` \ \ `\ \\ `\\\\\ \ ' ` ` ` \"\" ' , , / / / / ' ,' / AREA = 3.42AC / ' ' �l I l \ 1 / / __ _ :� J �- q t \; ` \ SWM #1 STORMTECH ` / / / = 0.22AC `I �/ ' / ' /' r I IMPERVIOUS GRAVEL = 0. 11 AC I I _.. _. . _- �� I �// / , / (GRAVEL) I I F r9� / / MANAGED TURF = 229 AC I 1 I i \ \\ \ \ \ \ \ \J I I \ \ \\ \\ \ ` \ \ \ \ \\ \ \ \ \\ \ 1 j 4 \ \ ` \ \ \ \ \ ! \ \ \ , \ \ \ \ \ �\ \ , \ A V A \ v V v ` \ v ` ` \\ \ \ \\ 1 / / / ' / IMPERVIOUS = 0.22AC / / / / , / / / / I L IMPERVIOUS (GRAVEL) = 0.11 AC ' / / / / � MANAGED TURF= 229AC � ° I I/ I I I , I (f I I I \ ` I 1 - "1 x� . - -- / Nr iT �. - I�--� - - �� - I \ DETENTION SYSTEM \ WITH ISOLATOR ROW \ � rn DA=2.76 ACRES , , / / / / / / / //// / / / PERVIOUS (FOREST) = 0.80 AC I \ II J ' / _ -\ ( 1 1-- I \, I I - II I / / `_ I \ \ \ \ SWM I t \ \ \ ` ` ` ` \ \` \ � \ \ \ \ `'� 1 I ' 1 ` ` \ `\ \\ \ �\ \ \ ` \ BOUNDARY 1\ 1 I 111 1 \ \ `\ 1 \ \\11\ 'y� I I 1 1 \ \ \ ` I �\ / / / / / 1 PERVIOUS (FOREST) = 0.80 AC / / //// I I - ' / / I I II _ I I II I \ II � � 7AC ----- � � SWM I' BOUNDARY 1 \ s / \ o\ \ \ \•\ ` � \ \ \ \ X\ \ `\ \ 1\ ; \\ \ \\ \ \\ \ \ 1 \\ ` \ / / / / / ^ ' - _ I / , 1 I -It - 1 '_ �� L a I - I I \ \ J / / I I I 11 II 1 \ \ � \ \ \ /r / / I - - / ,\ !' l , I - - \ - - - I I ] '(' �1 11\ . -L. �. >J� dI . ;' - \ \ \ \\ , \ \ \` \\ `\ \�r \ \ \ / / / \ �� r / y\ \ EX240FF (OFFSITE) \ `- \ -IT /1 - � - MILL &OVERLAY - - _ y ^ / - 1 Uv t /// �/I' I 1 1 \ \ \ \ \ \ c l t \ \ _\ \ \ \ \ 11 / / ' I� I I 1 \ `\ \ `\ \ `\\� \\ \ ` \ ',' / / \ \ \ EX2.40FF (OFFSITE) \ - ` - r/ ` \ MILL &OVERLAY - - - =11 / 1 0 \ 1 / I ) ! \ 1\ \ \ , `\ `\\� \\ \ ` \ / / I+\ \ AREA = 0.07 AC - - _ - - \ I _ , , # / l r I MANAGED IOUS=O.00AC _ I ' - _ _ _ = �� / / / 1' 1 \\ / / , , I 1 \ \ \\ \ / /' ��/ / / 1 1 \ \\ \\ \ \ \ \ \ �`\_ \�\; �I 1 ♦ I \ \ \ / \ \ / AREA = a IO AC - - . '/' I -1 I % 1wiPERVIOUS URF=0.10AC _ - - MAN ED TURF - O.00 AC - - - " " fi _ `I�� ^� IIIIIIIIIIIIIIIII \ \ \ \\ \ ` ` `68 \ \ �� \�`; I \ \ \� - t _ _ / / / ' l l I r w - _ �_ � I �I� 1 , _ /' ,' _ I' / / 1 _ / / / , l \I 1 j/ r w __--- 11 - I / , I I 1 1 1 I - -• If - \ q �y I r' � ' SWM BOUNDARY "- -- I l / / l ,.-�:-='� i - _- __ -- ' ' ' = "_ - - - - - - l _ '-� --'I - - \- `- - ` f , I ' l I _I 1. I I / I I I SWM BOUNDARY I I I ' I I I ' / , I -1 '` '�10 4 I � ` / ' ' i _, ' - _ -- ' ' ' - "_� \ \ / --'- -- - - -i I 1 I\1 I I , I I I EX2/OFF(OFFSITE) / _- /, � UFO - ► / / ' I \ / _ /, /I 1 AREA =0.13 AC \ \'/ \ ,,�� . � - \' \ \ \ I - \ \ \ \ \ \ I I I , I I 1 I 1 I \// `It OF / / i'�I ♦ \ �f --- \ ` - \ ` \ \ \ / I \ \ \ 1 1 I \ \ I I l \ \I IMPERVIOUS=0.0AC /\ P / �� r '•�_ \MANAGED TURF = 0.13 AC / \ \ - �� - - \ \I \ I \ ` - �: �'- - - - - \ , \ \ \ \ - 1 ) I / / L 1 yr \ \ I I I \ ` I \ 1 \ PR210FF(OFFSITE) / \ \ \ f�f - - ' - \ \ '• �'- - - - - \ \ \ \ - - - 1 , / - , ' W \ I \ _ \ ` r I r _ _ - - \ ` \ / \ - / l / / TOTAL AREA=1.09AC \ AREA = 0.15 AC ` \ \ \ �\ r _ - ` / / / / \ / / 04 \ 1 \ \ ot I t I \ \ I �� I/ _ _ _ - - I? , _ _ I- \ \ / c , / �' , \ \ ) , / / / / ' , \ -� �� / // / I r='_ 1 I \ \ I \i IMPERVIOUS = O.O AC i I \ I I \� MANAGEDT R5-? AC , y �- , _ 04T0 / / r �� / �/ / / / / / / / / --'- SITE OUTFALL I / }) \ \ \ / - ' , / ` - _-..r-"\ / , , I / - - - - - - - ) \ _ ma , , r / s \ �, �}' ` �' _ _ / _ - 1- / , - ____ f _ / 1 / TOTAL AREA=0.89AC �� /,/ `� __� / 1 I r l t /./J el 1 I / / l / ! f \ 1 I,/',r' / I 1 1 l / __ -j - -- - \ f dA/ l' -' f \ ---`-�wi.§!! `�� -_ on3-_.� \\ _ _ _ _ \ f _ �_ _ _ - _ _ __ _ - - \ \ \ i _ - _ - \ \ _ ' '/ --- -- _� - --: _ _ --- I- l - \\\`\ _ - 1/ '- �r+?>` % I I / / //'/// I - 1' I I EX1. fON ONSITE ( ) I I , TO SiEOUTFALL1 l , 1 AREA=0.29AC I l l I / - -jam' - _-/ \ -�� maw f f 1� / IM/ -,` �i ---' _-- / I" I � _ _� - _- - _ - �_ ��_____`\\/ -- - - = �� _ _ � ` _ _ _ - - � _� \ \ \ - _ ' \ _ - _� - \\ \ \ .-'_ - ' rr� `\ I 1 /'///// 1�, I / I/ r/ // r / r I PR1.ION ONSITE / l 1 1 1 AREA =0.12 AC l I I ; I BIORETENTION I FACILITY #2A LEVEL 2 / _ I \ q / ' / / ! I / _ ( \ ' - , J / /'/ / / r q I l IMPERVIOUS = O.00 AC ! I I / ' ` � / I ` \ _ / / I I, ' I ' ' / ' / PERVIOUS MANAGED TURF = 0.29AC I I I l / / ,' 1 ♦ \ ) / / , \' r - - I / ' , 1 / '; ` ' / 1 ` \ ' _ / � '/' /' 1 ' I / I / IMPERVIOUS = 0.03 AC / I I /V / / / / PERVIOUS (MANAGED TURF) = 0.09AC I , 1 / / / / , , / ' / - ` 1 / / ' / ' / / - l ' / PR1.10FF(OFFSITE) / / / _ / / / ' EX20OFF OFFSIT / I I ( I I \ I ' ' ` I / EXI. TOFF (OFFSITE) I I I / /, / ' ' _� / / EX200FF OFFSIT i ( I ' �` ' \ / 1 I I I I 1 ` I I I AREA = a77AC / I / /, / / ' / \ /, \ / - - \ / ` - 1- AREA = 4.53 AC / \ ' / , , \ , - / / / , _ - IMPERVIOUS - O 1 AC l \ , l ' MANAGED TUR=3.92AC TO SITE OUTFALL I / / / l ' ' , , I I I I , i/ / / , / IMPERVIOUS 8 0.40 AC I / / / / AREA = 4.53 AC / \ l/ \ / / - - - - \ - IMPERVIOUS = O 1 AC �\ - ' - MANAGED TURF ' ' , / / \ , l I I 1 I I , 1 I \ PERVIOUS I IMPERVIOUS = 0.38 AC I I (MANAGED TURF) = 0.39AC / / , I / / I I, i/ I I , ' ' , /// , , , `- - - - _ / / I \ ` / / , i - ` - ' / / / /' I I I •i44� PERVIOUS , , ( ) I 1 II I / / / ,� , / / / MANAGED TURF = 0.40AC \ � / / /' /' ' - \ - - _ - \ ` - , \- - ' ' / ' / /' / / , /I I �/ \ \ 1 ) \ 1 , I / I / , 11 1 l l l I ' I I I 1 11 I I i , ,','/� , __ - - - --j / / I I I l l �'/''//.10 / -I`. l l 'I I1 I I I I I I I -- - , --/ / I` I I I l l - llll I I I I I I I __ / / /, / '/ / / - - - -_ -/- // , /,///, .11 - - -/" - / / ,'� l - - / / / ** I 1 / / / / /r' / ' I I 1 ' // _ - //',' / / / I I I I - _ - _ - / / / / ' / / / I I II/ � I - /' /' / � - - - / rr/i•' / /'� / � l I / I I I , / l I 11 I I I II I / I I - \ - - - / / ' / / / / -.' // i', �/ ,e - I 1 I / I I I / / / / / - / � I I / 1 I I _ / /// � / / -- , r . I � I / / ' /- y I ' / /__' / ' / - ,�' / , / --- / r /�� ' � I 1 I / / I I I 1 / � 1 / I I I I I I I 1 - �/`/ /,// / / / / - / ' / • � / ' / / / - / * I �� SHEET , , rI I I I I /', /"__-/ "'1 // /l1 / , 1 i I I r_I , FLOW / / / / ,,, 1 I 1 I I I I 1 , /,, /, /-/� , / , / , / / , 1 1 1 I I I 'I / ' / ' / //' // / / / / ' // - /___-/ ,-�' , / / / / , / , I �� 'tI , I I I I //, '-w ...,,,��---FFF�� I• / / . � I I I / I I I / SHEET FLOW I S E I,, I I 1 1 I I I , I l , I I I I I , / I 1 I / / / / / / , /,, /, / /� / / / / / , / / /' / / / / // / / /// , / / ' �1 I I I I I l I / /� / \ � I * I I I I I 1 I I / / , / / I 1 I I I I I I / / , / / / // / / / / '// I I / / / / / / / / / I /' //'' , / ' ^ ` , ■ , �I 11 I 1 / / / I I 1 I I I I I / ( I I 1 I I I I I I / /' //// / ////// / // '/' / / / / , / / / / , / I / 1L 9 / \ , 1 ` _1 I l I I EX ` / / /�1///A At I I I I AREA=0.25AC II / / 6. ION (ONSITE) / / / / l 1 I � � / / /, 'I / / l/ , J l lI I I I /' //' \ \ / / / 4t `I I I 1 I I I I I I 11 III*,I PR6.10N ONSITE AREA=0.25AC ) ( I , , /' / / / I / /' / /'/ /', l/ l I I lI I I I � I I I I I I / 4f \ I MANAGED TURF = 0.25 AC / / / / / J I I // //" // J* \ 1 I I MANAGED TURF = 0.25 AC / / / r l 1 1 / / I , - / / \ I I 'I ) / / i i I I I / / - I i \\ 1 I I I I ; / / / I i % _ / / / / ,\' `\ \ I I I I 1 I I I I Il .1 \ \ \ ( ' / /' / // // , _ /, /, / ^ \ / \ \ , I I \ / / // /'/ ,' / I PRE -DEVELOPMENT CONDITION POST -DEVELOPMENT CONDITION VAA D O VMDO Architects vmdo.com 434.296.5684 200 E Market Street 2000 Pennsylvania Ave NW Ste 7000 Charlottesville, VA 22902 Washington, DC 20006 000090 0 �0 s TIMMONS GROUP YOUR VISION ACHIEVED THROUGH OURS. ounty Public Schools ALBEMARLE COUNTY PUBLIC SCHOOLS CROZET ELEMENTARY SCHOOL ADDITION, RENOVATION AND SITE IMPROVEMENTS 1407 Crozet Avenue, Crozet, VA 22932 VDOE Project Number 002-34-00-101 VMDO Project Number 1284 r � Fyan D. Cichocld Z lic./Yo. 53741 � °-/ 08114 ,�{J y -PON Checked By B. CICHOCKI Designed By K. ROESER Drawn By K. ROESER ISSUES AND REVISIONS NO. SUBMITTAL DATE 1 FINAL SITE PLAN & WPO PLAN SUBMISSION 10.AUG.2020 2 FINAL SITE PLAN RESUBMISSION #1 25.NOV.2020 3 WPO PLAN RESUBMISSION #1 02.DEC.2020 4 FINAL SITE PLAN & WPO PLAN SUBMISSION 05.FEB.2021 5 SIGNATURE SET 18.MAR.2021 6 WPOAMENDMENT#1 28.MAY.2021 STORMWATER MANAGEMENT PLAN C6.0 VA DCR SPECIFICATION NO. 9 SOIL MEDIA SPECIFICATIONS VA DCR STORMWATER DESIGN SPECIFICATION NO. 9 BIORETENTION Table 9.7. Bioretention Material Snecifications DEQ Virginia Runoff Reduction Method Re -Development Compliance Spreadsheet - Version 3.0 O 2011 BMP Standards and Specifications O 2013 Draft BMP Standards and Specifications Project Name: Date: Site Information Crozet Elementary School 4/29/2021 Linear Development Project? No Post -Development Proje^* /T"^�+.,.^^+ /.,Irr•,.., ^,� 1 ^ „��► Pre-ReDevelopment Land Cover (a Forest/Open Space (acres) -- undisturbed forest/open space Managed Turf (acres) -- disturbed, graded for yards or other turf to be Impervious Cover (acres) Post -Development Land Cover (act Forest/Open Space (acres) -- undisturbed, protected forest/open space or reforested Managed Turf (acres) -- disturbed, graded for yards or other turf to be Impervious Cover (acres) Area Check Constants Annual Rainfall (inches) ) 43 Target Rainfall Event (inches) 1.00 Total Phosphorus (TP) EMC (mg/L) 0.26 Total Nitrogen (TN) EMC (mg/L) 1.86 Target TP Load (Ib/acre/yr) 0.41 Pj (unitless correction factor) 0.90 Check: BMP Design Specifications List: 2013 Draft Stds & Specs Linearproject? No Land cover areas entered correctly? Total disturbed area entered? V Runoff Coefficients (Rv) A Soils B Soils C Soils I D Soils Forest/Open Space 0.02 0.03 0.04 1 0.05 Managed Turf 0.15 0.20 0.22 1 0.25 Impervious Cover 0.95 0.95 0.95 1 0.95 • ,. .. •. Land Cover Summary -Pre Pre-ReDevelopment Listed Adjusted' Forest/Open Space Cover(acres) 0.01 0.00 Weighted Rv(forest) 0.03 0.00 Forest 0% 0% Managed Turf Cover (acres) 4.78 3.81 Weighted Rv(turf) 0.20 0.20 %Managed Turf 72% 68% Impervious Cover (acres) 1.81 1.81 Rv(impervious) 0.95 0.95 %Impervious 27% 32% Total Site Area (acres) 6.60 5.62 Site Rv 0.41 0.44 Treatment Volume and Nutrient Load Pre-ReDevelopment Treatment Volume (acre-ft) 0.2230 0.2068 Pre-ReDevelopment Treatment Volume (cubic feet) 9,713 9,008 Pre-ReDevelopment TP Load (lb/yr) 6.10 5.66 Pre-ReDevelopment TP Load per acre (I b/a cre/yr) 0.92 1.01 Baseline TP Load (I b/yr) (0A11bs/acre/yr applied to pre -redevelopment area excluding pervious land proposed for new impervious cover) 2.30 'Adjusted Land Cover Summary: Pre ReDevelopment land coverminus pervious land cover (forest/open space or managed turf) acreage proposed fornew impervious cover. Adjusted total acreage is consistent with Post-ReDevelopment acreage (minus acreage of new impervious cover). Column I shows load reduction requniementfor new impervious cover (based on new development load limit, 0.41 lbs/acre/year). Pre-ReDevelopment TN Load (lb/yr) 43.66 Land Cover Summary -Post (Final) Land Cover Summary -Post Post ReDev. & New Impervious Post-ReDevelopment Forest/Open Space Forest/Open Space 0.00 0.00 (acres) Cover (acres) Weighted Rv(forest) 0.00 % Forest 0% Managed Turf Cover -Cover Weighted Rv(forest) 0.00 Forest 0% Managed Turf Cover 3 81 3.81 (acres) (acres) Weighted Rv (turf) 0.20 %Managed Turf 68% ReDev. Impervious Weighted Rv (turf) 0.20 %Managed Turf 58% Impervious Cover 279 1.$1 (acres) Cover (acres) Rv(impervious) 0.95 %Impervious 32% Total ReDev. Site Area Rv(impervious) 0.95 %Impervious 42% Final Site Area (acres) 6.60 5.62 (acres) Final Post Dev Site Rv 0.52 ReDevSite Rv 0.44 Treatment Volume and Nutrient Load Final Post - Post-ReDevelopment Development 0.2844 Treatment Volume 0.2068 Treatment Volume (acre-ft) (acre-ft) Final Post - Post-ReDevelopment Development 12,387 Treatment Volume 9,008 Treatment Volume (cubic feet) (cubic feet) Final Post - Post-ReDevelopment Development TP 7.78 Load (TP) 5.66 Load (Ib/yr)* (Ib/Yr) Post-ReDevelopment TP Final Post -Development TP Load per acre 1.18 Load per acre 1.01 (Ib/acre/yr) (Ib/acre/yr) Max. Reduction Required (Below Pre- 20% ReDevelopment Load) TP Load Reduction Required for 1.13 Redeveloped Area (lb/yr) Nitrogen Loads (Informational Purposes Only) Final Post -Development TN Load (Post-ReDevelopment&New 55.68 Impervious) (Ib/yr) Land Cover Summary -Post Post -Development New Impervious New Impervious Cover (acres) Rv(impervious) Post -Development Treatment Volume (acre-ft) Post -Development Treatment Volume (cubic feet) Post -Development TP Load (Ib/yr) 0.98 0.95 0.0776 3,380 2.12 TP Load Reduction Required for New 1.72 Impervious Area (lb/yr) Material Specification Notes Filter Media to contain: The volume ofilter media based on 110% Filter Media 80% - 90% sand of the plan volume, to account for settling Composition • 10%-20% soil fines or compaction. p • 3%-5% organic matter Available P between L+ and M per Filter Media DCR 2005 Nutrient Management The media should be certified by the Testing Criteria. supplier. Mulch Layer Use aged, shredded hardwood bark Lay a 2 to 3 inch layer on the surface of the mulch or stable coarse compost. filter bed. Alternative Use river stone or pea gravel, coir and Lay a 2 to 3 inch layer of to suppress weed Surface Cover jute matting, or turf cover. growth. Loamy sand or sandy loam texture, Top Soil with less than 5% clay content, pH 3 inch surface depth. For Turf Cover corrected to between 6 and 7, and an organic matter content of at least 2%. Use a non -woven geotextile fabric with Apply only to the sides and directly above Geotextile/Liner a flow rate of > 110 gal./min./sq. ft.the underdrain. For hotspots and certain (e.g., Geotex 351 or equivalent) karst sites only, use an appropriate liner on bottom. Choking Layer Lay a 2 to 4 inch layer of sand over a 2 inch layer of choker stone (typically #8 or #89 washed gravel), which is laid over the underdrain stone. Stone Jacket for Ua 1 inch stone should be double -washed 12 inches for the underdrain; and//oror Storage and clean and free of all fines (e.g., 12 to 18 inches for the stone storage layer, Layer VDOT #57 stone). if needed Use 6 inch rigid schedule 40 PVC pipe Lay the perforated pipe under the length of Underdrains, (or equivalent corrugated HDPE for the bioretention cell, and install non- Cleanouts, and micro-bioretention), with 3/8-inch perforated pipe as needed to connect with Observation perforations at 6 inches on center; the storm drain system. Install T's and Y's Wells position each underdrain on a 1% or as needed, depending on the underdrain 2% slope located nor more than 20 feet configuration. Extend cleanout pipes to the from the next pipe. surface with vented caps at the Ts and Ys. Plant one tree per 250 square feet (15 Establish plant materials as specified in the feet on -center, minimum 1 inch landscaping plan and the recommended caliper). plant list. Shrubs a minimum of 30 inches high In general, plant spacing must be sufficient planted a minimum of 10 feet on- to ensure the plant material achieves 80% Plant Materials center. cover in the proposed planting areas within Plant ground cover plugs at 12 to 18 a 3-year period. If seed mixes are used, they should be from inches on -center; Plant container- a qualified supplier, should be appropriate grown plants at 18 to 24 inches on- for stormwater basin applications, and center, depending on the initial plant should consist of native species (unless the size and how large it will grow. seeding is to establish maintained turf). CLEANOUT Soil porosity is the fraction of a volume of soil material that is not solid, also referred to as the void space. As the volume of fines, defined as either clay particles (less than 2 microns, or 0.002 min) or silt particles (between 2 and 50 microns, or 0.002 and 0.05 min) within a given soil mix is increased, there is a possibility that those fines may be flushed or migrate downward through the soil mix with each runoff event and eventually fill or otherwise clog the void space randomly throughout the mix and create preferential flow paths. In the short term this can lead to short circuiting and reduced volume reduction and pollutant removal, and in the long term may clog the soil layer. This tendency is offset by addition and maintenance of appropriate amounts of soil organic matter which binds soil fines into larger non -mobile aggregates. 3" HARDWOOD BARK MULCH • General Filter Media Physical Composition. The mineral soil texture of the bioretention soil BOTTOM ELEV 680.25 mix should be loamy coarse sand with no more than 10% clay, no more than 20% silt + clay 36" BIOFILTER MIX and at least 75% of the sand fraction should be coarse or very coarse sand. BOTTOM ELEV 677.25 3" NO. 8 STONE • To allow for appropriate Cation Exchange Capacity (CEC) and nutrient removal, the mix TOP ELEV 677.00 should contain at least 10% soil fines (silt + clay) while meeting the overall texture 15" NO. 57 STONE specification above. The particle size analysis must be conducted on the mineral fraction only or following appropriate treatments to remove organic matter before particle size analysis. • The Filter Media should contain 3%to5%or organic conventionalWalkle -Black soil SEE HEANOUT S y y DETAIL SHEET C1.1 organic matter determination method or similar analysis. Soil organic matter is expressed on a dry weight basis and does not include coarse particulate (visible) components. a" PERFORATED Version 2.0, January 1, 2013 Page 25 of 62 1%\°Zd:�3f•]:7diP�'/_�1�:\a7�.9[•]�691xdIyP7_�t[•]�C[•]E' 7[•T7��3�Yi[•P • The overall particle size distribution of the mix will vary since the sand fraction may contain some finer sizes as will native topsoils if utilized. As stated previously, the goal of the mixture is to achieve the desired constant head permeability. Therefore, the filter media composition noted above serves as the target recipe for the three ingredients, while the ultimate performance goal is to achieve a verified soil permeability or hydraulic conductivity (Ksat) of 1 to 2 inches per hour (or 30 to 60 cm/day). • The following is the recommended composition of the three media ingredients: o Sand shall consist of silica based coarse aggregate, angular or round in shape and meet the mixture grain size distribution below. No substitutions of alternate materials such as diabase, calcium carbonate, rock dust or dolomitic sands are accepted. In particular, mica can make up no more than 5% of the total sand fraction. The sand fraction may also contain a limited amount of particles > 2.0 min and < 9.5 mm per the table below, but the overall sand fraction must meet the specification of >75% being coarse or very coarse sand. ..... \ 1 , t Component Trash Rack width Frame Angle Iron Bottom Flat Steel Woven/Welded Wire Mesh Steel Rod for Grate up to 36" 1�FX142"Xh/4" lWxt/4" y4 between 36"-60" 2"X2"X1'4" 2"x3'4" 60" and larger 3"X3"X%" 3"X%" Min. Mesh Opening Size Low Flow -See BMP-See 6-1604.10B, Be 6-1601 8C 4" 1" Trash Rack General Notes: Additional Notes - 3' minimum trash rack width is required where available. Trash Racks 60" and wider: - Trash rack/mounting components to be - Large trash racks may be painted with Hot -dip galvanized. dark anti -corrosive paint, in lieu of - All mounting hardware to be stainless steel galvanizing. and threads to be coated in anti-sieze. - Additional structural reinforcements to be - Minimum yz " x 3 " mounting bolts to be added to trash rack frame as deemed used for trash rack. necessary to support all anticipated loads. - Trash racks to be mounted using top hinge or - A 3' x 3' (min) access door with locking side pin connection as per details shown in Plate mechanism to be installed on front face. 45B-6. All hinged/pinned trash racks to have locking mechanism. Mechanism to be installed Trash Racks mounted on Headwalls: on the upper half to minimize potential to - In case of space restrictions at headwalls, become inaccessible due to submergence under water/sediment. use 2' min width of trash rack. - Mesh opening size to be Y2 of the -Add wire mesh the back of trash rack diameter/width of orifice being protected, but ea to the top of headwall as shown in Plate not smaller than minimum mesh opening size 45B-6. provided in table above. LOW FLOW ORIFICE DEBRIS CAGE DETAIL NO SCALE Sieve Size % Passing 3/8 in 9.50 nun too No. 4 4.75 min 95 to 100 No. 8 2.36 min 80 to 100 No. 16 1.18 min 45 to 85 No. 30 0.6 min 15 to 60 No. 50 0.3 min 3 to 15 No. 100 0.15 mm 0 to 4 Effective Particle size (D10)> 0.3min Uniformity Coefficient (D60/D 10)<4.0 o Topsoil is generally defined as the combination of the other ingredients referenced in the bioretention soil media: sand, fines (silt and clay), and any associated soil organic matter. Since the objective of the specification is to carefully establish the proper blend of these ingredients, the designer (or contractor or materials supplier) must carefully select the topsoil source material in order to not exceed the amount of any one ingredient. Generally, the use of a topsoil defined as a loamy sand, sandy loam, or loam (per the USDA Textural Triangle) will be an acceptable ingredient and in combination with the other ingredients meet the overall performance goal of the soil media. o Organic matter materials used in the soil media mix should consist of well - decomposed natural C-containing organic materials such as peat moss, humus, compost (consistent with the material specifications folmd in Design Specification #4 Compost Soil Amendments), pine bark fines or other organic soil conditioning material. However, per above, the combined soil mix should contain 3% to 5% soil organic matter on dry weight basis (grams organic matter per 100 grams dry soil) by the Walkley-Black method or other similar analytical technique. BMP PRACTICE DOCUMENTATION NOTE: Extend mesh from the top Apron General Notes: of the headwall to top of • 6" - 21a compacted to a minimum 95% rack of standard proctor (ASTM-618) with filter fabric to be placed under the leadwall rate removed for clarity. apron. (See details on Plate • Extend apron to wing -walls, in cases 45A-6) where wing -walls are part of the design. • Apron to be tied in to the riser/headwall mo and wing -walla with rebar. OC #6 Reber • Concrete to be Class A-4. 1'6"� / each way • All reinforcing steel to meet the current / requirements of ASTM Spec. A-615. r 6" thick concrete apron extending oncrete apron entire width of the (see notes) structure 5' (min) Trash Rack on Headwall Plate bolted to Pipe welded t min i/8 clearance around at, Pipe welded to trash min ys clearance around steel plate bolted to Pipe welded to trash re min clearance arot steel rod Min steel rod Mounting hole for V " bolt SIDE PINT DETAIL lounting hole for bolt Min steel rod `Pipe welded to trash rack Pipe welded to plate 3" min 1/s " clearance around steel rod min Ye " clearance around steel rod TOP HINGE DETAIL DEBRIS CAGE MOUNTING DETAILS NO SCALE CONTRACTOR SHALL NOTIFY THE TIMMONS GROUP PRIOR TO COMMENCEMENT OF CONSTRUCTION OF BMP PRACTICES INCLUDING THE THREE BIORETENTION FILTERS AND THE STORMTECH DETENTION SYSTEM WITH ISOLATOR ROW. A SPECIFIC PRECONSTRUCTION MEETING BETWEEN THE CONTRACTOR, ENGINEER, INSPECTOR, AND MANUFACTURER IS HIGHLY RECOMMENDED PRIOR TO INSTALLATION OF THESE PRACTICES TO ENSURE THESE PRACTICES ARE NOT ONLY INSTALLED CORRECTLY BUT ALSO DOCUMENTED THROUGHOUT CONSTRUCTION. IT IS THE CONTRACTORS SOLE RESPONSIBILITY TO DOCUMENT THE INSTALLATION OF THESE PRACTICES AND IF THEY PROCEED WITH DOING SO IT IS DONE AT THEIR OWN RISK. CONTRACTOR SHALL TAKE NOTES, PICTURES, AND MEASUREMENTS OF ALL STRATA LAYERS WITHIN THE BIORETENTION FACILITIES DURING CONSTRUCTION. IT IS HIGHLY RECOMMENDED TO TAKE PICTURES OF EACH MEASUREMENT OF EACH STRATA LAYER OF EACH FACILITY. WITHOUT DOCUMENTING TO THIS LEVEL OF DETAIL THE CONTRACTOR RUNS THE RISK OF DIGGING THE FACILITIES BACK UP TO PROVE THE CORRECT SECTIONS WERE INSTALLED. 106 24" NYLOPLAST BASIN WITH DOME GRATE TOP = 681.00 RAMP SOIL TO LIP OF OVERFLOW STRUCTURE MIN SLOPE 31 BOTTOM OF BIORETENTION BASIN 680.50 ELEV.675.75 SCHEDULE40 MIRAFI 140N FILTER PVC UNDERDRAIN FABRIC OR EQUIVALENT. DAYLIGHTED ON SITE TO BE 2' WIDE SEE SHEET C5.0 CENTERED ON UNDERDRAIN NOTES 1. 36" BIOFILTER MEDIA DEPTH SHALL BE THE MINIMUM DEPTH AFTER A SETTLING PERIOD OF THREE DAYS. BIORETENTION FILTER 2A DETAIL (LEVEL 2) NO SCALE 24" NYLOPLAST BASIN CLEANOUT WITH DOME GRATE TOP = 685.75 RAMP SOIL TO LIP OF OVERFLOW STRUCTURE MIN SLOPE 31 "j BOTTOM OF BIORETENTION BASIN 685.25 3" HARDWOOD BARK MULCH BOTTOM ELEV 685.00 36" BIOFILTER MIX BOTTOM ELEV 682.00 3" NO. 8 STONE BOTTOM ELEV 681.75 15" NO. 57 STONE 15" 5 HDP E V. OUT = 681 ELEV.680.75 SEE CLEANOUT DETAIL SHEET CIA 4"PERFORATED SCHEDULE40 PVC UNDERDRAIN TO BE 2' WIDE CENTERED ON UNDERDRAIN NOTES 1. 36" BIOFILTER MEDIA DEPTH SHALL BE THE MINIMUM DEPTH AFTER A SETTLING PERIOD OF THREE DAYS. BIORETENTION FILTER 2C DETAIL (LEVEL 2) NO SCALE CLEANOUT 3" HARDWOOD BARK MULCH BOTTOM ELEV 683.25 36" BIOFILTER MIX BOTTOM ELEV 680.25 3" NO. 8 STONE BOTTOM ELEV 680.00 15" NO. 57 STONE 310 24" NYLOPLAST BASIN WITH DOME GRATE TOP = 684.00 RAMP SOIL TO LIP OF OVERFLOW STRUCTURE MIN SLOPE 31 BOTTOM OF BIORETENTION BASIN 683.50 ELEV.678.75 SEE CLEANOUT DETAIL SHEET C1.1 4" PERFORATED SCHEDULE40 PVC UNDERDRAIN MIRAFI 140N FILTER FABRIC OR EQUIVALENT. TO BE 2' WIDE CENTERED ON UNDERDRAIN NOTES 1. 36" BIOFILTER MEDIA DEPTH SHALL BE THE MINIMUM DEPTH AFTER A SETTLING PERIOD OF THREE DAYS. BIORETENTION FILTER 3A DETAIL (LEVEL 2) NO SCALE OR APPROVED EQUAL i Overflow Orifices C 31A inch Holes Aluminum l Fkd Washer A • (6 Places) �! B 1.75 in x 25 in /r Skinless Steel Screw Outlet • �. _ "'��/// / [6 Places) Pipe • • 11111 1 / A DlArnerER < 15" _ 18" < 24" ''0 Plastic W011 g HEIGHT 24" 30" 36" Anchor (6 Places) ®� C WIDTH 23" 28" 34" 3/8 inch Holes AEF STANDARD DETAIL FOR TRASHGUARD FLAT BOTTOM CATCH BASINS 1-800-448-3636 PRETREATMENT DEVICE BIOFILTER 2C - INSTALL IN STR 238 OVER EXITING PIPE 237 NO SCALE V M 1) 0 VMDO Architects vmdo.com 434.296.5684 200 E Market Street 2000 Pennsylvania Ave NW Ste 7000 Charlottesville, VA 22902 Washington, DC 20006 0 00090 0 0 �0 TIMMONS GROUP YOUR VISION ACHIEVED THROUGH OURS. • bemarle County Public Schools ALBEMARLE COUNTY PUBLIC SCHOOLS CROZET ELEMENTARY SCHOOL ADDITION, RENOVATION AND SITE IMPROVEMENTS 1407 Crozet Avenue, Crozet, VA 22932 VDOE Project Number 002-34-00-101 VMDO Project Number 1284 Bryan D. Cichocki Z U lac. o. 53741 ( /64 . y7��SSIONALO1 Checked By Designed By Drawn By B. CICHOCKI K. ROESER K. ROESER ISSUES AND REVISIONS NO. SUBMITTAL DATE 1 FINAL SITE PLAN & WPO PLAN SUBMISSION 10.AUG.2020 2 FINAL SITE PLAN RESUBMISSION #1 25.NOV.2020 3 WPO PLAN RESUBMISSION #1 02.DEC.2020 4 FINAL SITE PLAN & WPO PLAN SUBMISSION 05.FEB.2021 5 SIGNATURE SET 18.MAR.2021 6 WPOAMENDMENT#1 28.MAY.2021 STORMWATER MANAGEMENT QUALITY C6m2 Drainage Area A Drainage Area A Land Cover (acres) A Soils B Soils C Soils D Soils Totals Land Cover Rv Forest/Open Space (acres) 0.00 0.00 Managed Turf (acres) 0.09 0.09 0.20 Impervious Cover (acres) 0.03 0.03 0.95 Total 0.12 Drainage Area B Drainage Area A Land Cover (acres) A Soils B Soils C Soils D Soils Totals Land Cover Rv Forest/Open Space (acres) 0.00 0.00 Managed Turf (acres) 1.50 1.50 0.20 Impervious Cover (acres) 1.95 1.95 0.95 Total 7 3.45 Total Phosphorus Available for Removal in D.A. A (lb/yr) 0.11 Post Development Treatment Volume in D.A. A (ft3) 169 'otal Phosphorus Available for Removal in D.A. B (lb/yr) 4.91 Post Development Treatment Volume in D.A. B (ft) 7,814 6.a. Bioretention #1 or Micro-Bioretention #1 40 0 0 0 0 25 0.00 0.00 0.00 0.00 or Urban Bioretention (Spec #9) 6.b. Bioretention #2 or Micro-Bioretention #2 (Spec #9) 80 0.43 0.33 1,379 2,264 566 2,830 50 0.52 0.91 1.29 0.14 14.a. Manufactured Treatment Device 0 0 0 0 0 20 0.00 0.00 0.00 0.00 Hydrodynamic 14.b. Manufactured Treatment Device -Filtering 0 0.40 0 1 0 1,379 1,379 40 1 0.00 1 0.87 1 0.35 0.52 14.c. Manufactured Treatment Device -Generic 0 0.61 1.22 0 0 4,650 4,650 40 1 0.00 2.92 1.17 1.75 Drainage Area C Drainage Area A Land Cover (acres) A Soils B Soils C Soils D Soils Totals Land Cover Rv Forest/Open Space (acres) 0.00 0.00 Managed Turf (acres) 0.63 0.63 0.20 Impervious Cover (acres) 0.72 0.72 0.95 Total 1.35 Fotal Phosphorus Available for Removal in D.A. C (lb/yr) 1.85 Post Development Treatment Volume in D.A. C (ft3) 2,940 TOTAL IMPERVIOUS COVER TREATED (ac) 0.00 AREA CHECK: OK. TOTAL MANAGED TURF AREA TREATED (ac) 0.00 AREA CHECK: OK. TOTAL RUNOFF REDUCTION IN D.A. A (ft3) 0 TOTAL PHOSPHORUS AVAILABLE FOR REMOVAL IN D.A. A (lb/yr) 0.11 TOTAL PHOSPHORUS REMOVED WITH RUNOFF REDUCTION PRACTICES IN D.A. A (lb/yr) 0.00 TOTAL PHOSPHORUS REMAINING AFTER APPLYING RUNOFF REDUCTION PRACTICES IN D.A. A (lb/yr) 0.11 SEE WATER QUALITY COMPLIANCE TAB FOR SITE COMPLIANCE CALCULATIONS TOTAL IMPERVIOUS COVER TREATED (ac) 1.95 AREA CHECK: OK. TOTAL MANAGED TURF AREA TREATED (ac) 1.04 AREA CHECK: OK. TOTAL PHOSPHORUS REMOVAL REQUIRED ON SITE (lb/yr) 2.74 TOTAL PHOSPHORUS AVAILABLE FOR REMOVAL IN D.A. B (lb/yr) TOTAL PHOSPHORUS REMOVED WITHOUT RUNOFF REDUCTION PRACTICES IN D.A. B (lb/yr) TOTAL PHOSPHORUS REMOVED WITH RUNOFF REDUCTION PRACTICES IN D.A. B (lb/yr) TOTAL PHOSPHORUS LOAD REDUCTION ACHIEVED IN D.A. B (lb/yr) TOTAL PHOSPHORUS REMAINING AFTER APPLYING BMP LOAD REDUCTIONS IN D.A. B (lb/yr) 6.b. Bioretention #2 SEE WATER QUALITY COMPLIANCE TAB FOR SITE COMPLIANCE CALCULATIONS NITROGEN REMOVED WITH RUNOFF REDUCTION PRACTICES IN D.A. B (lb/yr) 11.69 NITROGEN REMOVED WITHOUT RUNOFF REDUCTION PRACTICES IN D.A. B (lb/yr) 0.00 TOTAL NITROGEN REMOVED IN D.A. B (lb/yr) 11.69 4.a. Grass Channel A/B Soils (Spec #3) 20 0.13 0.14 0 115 462 577 15 0.00 0.36 0.12 0.25 6.b. Bioretention #2 TOTAL IMPERVIOUS COVER TREATED (ac) k__1.67 AREA CHECK: OK. TOTAL MANAGED TURF AREA TREATED (ac) 0.13 AREA CHECK: OK. 4.b. Grass Channel C/D Soils (Spec #3) 10 0 0 0 0 15 0.00 0.00 0.00 0.00 4.c. Grass Channel with Compost Amended 20 0 0 0 0 15 0.00 0.00 0.00 0.00 TOTAL PHOSPHORUS REMOVAL REQUIRED ON SITE (lb/yr) 2.74 Soils as per specs (see Spec #4) TOTAL PHOSPHORUS AVAILABLE FOR REMOVAL IN D.A. C (lb/yr) 1.85 6.a. Bioretention #1 or Micro-Bioretention #1 TOTAL PHOSPHORUS REMOVED WITHOUT RUNOFF REDUCTION PRACTICES IN D.A. C (lb/yr) 0.46 40 0 0 0 0 25 0.00 0.00 0.00 1 0.00 or Urban Bioretention (Spec #9) TOTAL PHOSPHORUS REMOVED WITH RUNOFF REDUCTION PRACTICES IN D.A. C (lb/yr) 0.34 6.b. Bioretention #2 or Micro-Bioretention #2 80 462 369 92 462 50 0.25 0.00 0.22 0.02 TOTAL PHOSPHORUS LOAD REDUCTION ACHIEVED IN D.A. C (lb/yr) 0.80 (Spec #9) TOTAL PHOSPHORUS REMAINING AFTER APPLYING BMP LOAD REDUCTIONS IN D.A. C (lb/yr) 1.05 14. Manufactured Treatment D. , . 14.a. Manufactured Treatment Device- 0 0 0 0 0 20 0.00 0.00 0.00 0.00 SEE WATER QUALITY COMPLIANCE TAB FOR SITE COMPLIANCE CALCULATIONS Hydrodynamic 14.b. Manufactured Treatment Device- Filtering 0 0 0 0 0 20 0.00 0.00 0.00 0.00 14.c. Manufactured Treatment Device -Generic 0 0.53 0 0 1,828 1,828 40 0.00 1.15 0.46 0.69 Drainage Area D TOTAL IMPERVIOUS COVER TREATED (ac) 0.00 AREA CHECK: OK. •. • TOTAL MANAGED TURF AREA TREATED (ac) 0.00 AREA CHECK: OK. . �. Drainage Area A Land Cover (acres) ............................................. TOTAL RUNOFF REDUCTION IN D.A. D (ft3) 0 A Soils B Soils C Soils D Soils Totals Land Cover Rv TOTAL PHOSPHORUS AVAILABLE FOR REMOVAL IN D.A. D (lb/yr) 0.38 Forest/Open Space (acres) 0.00 0.00 1 TOTAL PHOSPHORUS REMOVED WITH RUNOFF REDUCTION PRACTICES IN D.A. D (lb/yr) 0.00 Managed Turf (acres) 0.40 0.40 0.20 TAIL PHOSPHORUS REMAINING AFTER APPLYING RUNOFF REDUCTION PRACTICES IN D.A. D (lb/yr) 0.38 Impervious Cover (acres) 0.09 0.09 0.95 'otal Phosphorus Available for Removal in D.A. D (lb/yr) 0.38 Total 0.49 Post Development Treatment Volume in D.A. D (ft3) 601 SEE WATER QUALITY COMPLIANCE TAB FOR SITE COMPLIANCE CALCULATIONS Site Results (Water Quality Compliance) Area Checks FOREST/OPEN SPACE (ac) IMPERVIOUS COVER (ac) IMPERVIOUS COVER TREATED (ac) MANAGED TURF AREA (ac) MANAGED TURF AREA TREATED (ac) AREA CHECK D.A. A D.A. B D.A. C D.A. D D.A. E AREA CHECK 0.00 0.00 0.00 0.00 0.00 O K. 0.03 1.95 0.72 0.09 0.00 OK. 0.00 1.95 0.67 0.00 0.00 OK. 0.09 1.50 0.63 0.40 0.00 OK. 0.00 1.04 0.13 0.00 0.00 O K. Site Treatment Volume (ft3) 12,387 Runoff Reduction Volume and TP By Drainage Area RUNOFF REDUCTION VOLUME ACHIEVED (ft3) TP LOAD AVAILABLE FOR REMOVAL (lb/yr) TP LOAD REDUCTION ACHIEVED (lb/yr) TP LOAD REMAINING (lb/yr) 0 2,264 485 0 0 2,748 0.11 4.91 1.85 0.38 0.00 7.24 0.00 2.80 0.80 0.00 0.00 3.60 0.11 2.11 1.05 0.38 0.00 3.64 NITROGEN LOAD REDUCTION ACHIEVED (Ib/yr) 0.00 11.69 2.46 0.00 0.00 14.15 Total Phosphorus NOTE: Y FINAL POST -DEVELOPMENT TP LOAD (lb/yr) 7.78 SITE PROVIDES TREATMENT BEYOND THE REQUIRED Y TP LOAD REDUCTION REQUIRED (lb/yr) 2.85 LOAD REDUCTION TO ACCOUNT FOR THE REMOVAL OF Y TP LOAD REDUCTION ACHIEVED (lb/yr) 3.60 AN EXISTING BIORETENTION TREATING PARKING AREA. Y TP LOAD REMAINING (lb/yr): 4.19 THE REMOVAL OF THE EXISTING BIORETENTION „ REMAINING TP LOAD REDUCTION REQUIRED (lb/yr): 0.00 ** REQUIRES AN ADDITIONAL 0.64 LB/YR LOAD ** TARGET TP REDUCTION EXCEEDED BY 0.74 LB/YEAR ** REDUCTION THUS 0.74 LB/YR OVER THE REQUIREMENT IS PROVIDED. SEE CALC. BOOK FOR FURTHER DETAILS. Total Nitrogen (For Information Purposes) THE OWNER RESERVES THE RIGHT TO APPLY THE Y POST -DEVELOPMENT LOAD (lb/yr) 55.68 Y SURPLUS TREATMENT OF 0.10 LB/YR TO OTHER NITROGEN LOAD REDUCTION ACHIEVED (lb/yr) 14.15 r PROPERTIES WITHIN THE SAME HUC AND UNDER THE REMAINING POST -DEVELOPMENT NITROGEN LOAD (lb/yr) 41.53 r SAME OWNERSHIP PER 9VAC25-870-69-A.5 Bioretention Filter "2A" Design Level 2 Soil Type B Drainage Area Rv Impervious= 0.4 0.95 Managed Turf Bio= 0.26 0.20 Forest= 0 0.03 Total Drainage Area= 0.66 Rv= 0.65 Impervious/pervious ratio 61% Water Quality Volume= 1960 CF (1.25*(Rv)(A))/12 1.25 Tv From Upstream Practice= 512 CF Total Required Volume Tv=1 2472 CF Storage Depth (ft) Void Ratios Ponding Depth= 0.5 1 Depth of Media Filter= 3 0.25 Stone Sump Depth 1.25 0.4 Total Storage Depth= 1.75 FT Surface Area Minimum Req= 1413 SF Providedl 14741 SF Total Volume Provided I2580 CF Forebay Volume Required Forebay Volume: 371 CF Forebay Dimensions: 18'x21' Provided Forebay Volume: 385 CF BIORETENTION SIZING COMPUTATIONS Bioretention Filter "2C" Design Level 2 Soil Type B Drainage Area Rv Impervious= 0.33 0.95 Managed Turf Bio= 0.17 0.20 Forest= 0 0.03 Total Drainage Area= 0.5 Rv= 0.70 Impervious/pervious ratio 66% Water Quality Volume= 1577 CF (1.25*(Rv) (A) )/ 12 1.25 Tv From Upstream Practice= 0 CF Total Required Volume Tv= 1577 CF Storage Depth (ft) Void Ratios Ponding Depth= 0.5 1 Depth of Media Filter= 3 0.25 Stone Sump Depth 1.25 0.4 Total Storage Depth= 1.75 FT Surface Area Minimum Req=J 901 SF Providedl 9801 SF Total Volume Provided 1 1715 CF Forebay Volume Required Forebay Volume: I 237 CF Forebay Dimensions: I n/a, circular Provided ForebayVolume:1 266 CF Bioretention Filter "3A" Design Level 2 Soil Type B Drainage Area Rv Impervious= 0.14 0.95 Managed Turf Bio= 0.13 0.20 Forest= 0 0.03 Total Drainage Area= 0.27 Rv= 0.59 Impervious/pervious ratio 52% Water Quality Volume= 721 CF (1.25*(Rv)(A))/12 1.25 Tv From Upstream Practice= -117 CF Total Required Volume Tv= 6041 CF Storage Depth (ft) Void Ratios Pending Depth= 0.5 1 Depth of Media Filter= 3 0.25 Stone Sump Depth 1.25 0.4 Total Storage Depth= 1.75 FT Surface Area Minimum Req=J 3451 SF Providedl 350 SF Total Volume Provided I613 CF Forebay Volume Required Forebay Volume: 91 CF Forebay Dimensions: n/a Provided Forebay Volume: 92 CF V AA I VMDO Architects vmdo.com 434.296.5684 200 E Market Street 2000 Pennsylvania Ave NW Ste 7000 Charlottesville, VA 22902 Washington, DC 20006 TIMMONS GROUP YOUR VISION ACHIEVED THROUGH OURS. bemarle County Public Schools ALBEMARLE COUNTY PUBLIC SCHOOLS CROZET ELEMENTARY SCHOOL ADDITION, RENOVATION AND SITE IMPROVEMENTS 1407 Crozet Avenue, Crozet, VA 22932 VDOE Project Number 002-34-00-101 VMDO Project Number 1284 ITryan D. Cichocki Z U Lie. Yo. 53741 y 7�� IONAL Gti Checked By B. CICHOCKI Designed By K. ROESER Drawn By K. ROESER ISSUES AND REVISIONS NO. SUBMITTAL DATE 1 FINAL SITE PLAN & WPO PLAN SUBMISSION 10.AUG.2020 2 FINAL SITE PLAN RESUBMISSION #1 25.NOV.2020 3 WPO PLAN RESUBMISSION #1 02.DEC.2020 4 FINAL SITE PLAN & WPO PLAN SUBMISSION 05.FEB.2021 5 SIGNATURE SET 18.MAR.2021 6 WPOAMENDMENT#1 28.MAY.2021 STORMWATER MANAGEMENT QUALITY BIORETENTION FILTER 2A NOTES: BIORETENTION FILTER 2C NOTES: BIORETENTION FILTER 3A NOTES: TWO FORMS OF PRETREATMENT PROVIDED TWO FORMS OF PRETREATMENT PROVIDED TWO FORMS OF PRETREATMENT PROVIDED BY GRAVEL FLOW SPREADER AND UPSTREAM BY GRAVEL FLOW SPREADER AND UPSTREAM BY GRAVEL FLOW SPREADER AND UPSTREAM BY ISOLATOR ROW OF STORMTECH BY AN ACF TRASH GUARD CATCH BASIN BY A GRASS SWALE DIRECTING THE DETENTION SYSTEM. FILTER. DRAINAGE AREA TO THE PRACTICE. C63