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SW7070323_APPROVED PLANS_20070709
STORMWATER DIVISION CODING SHEET POST -CONSTRUCTION PERMITS PERMIT NO, SW DOC TYPE ❑ CURRENT PERMIT APPROVED PLANS ❑ HISTORICAL FILE ❑ COMPLIANCE EVALUATION INSPECTION DOC DATE 20� YYYYMMD6 I I i I� ' - T LIMIT OF CONSERVATION EASEMENT LINE TABLE BEARING DISTANCE LINE BEARING DISTANCE LINE BEARING DISTANCE S 79'03'04" E 408.47' L38 N 36'40'12" W 90.24' L75 N 64'55 26 E 167.23 S 63'00'41" E 253.05' L39 N 05'16'21"E 31.14' L76 N 02*00'15" W 56.40' S 6T01'55 E 996.81' L40 N35'24'10" E 104.49' L77 N 59*25'13" W 168.44' F S 61'58'45 E 220.46' L41 N 53'01'47" E 87.78' L78 S 69'18'31" W 123.36' S 37'22'37" E 1124.81' L42 S 68'37'06" E 46.29 L79 N 58'59'06" W 86,65' S 49'46'51"W 113.38' L43 N 33'04'22" E 101.58' L80 N 8T22 01" W 92.50' S 28'13'30" W 38.98' L44 N 19'48'23" W 41.25' L81 N 48,19" 1"W18.05' S 03'33S2" E 130.89' L45 N 45*11'39" E 90.28' L82 N 41'40 34" E 225.56' S 62*29'10" W 68.07' L46 N 14'51'59" E 105.77' L83 N 53*16'01" E 50.81' C83 Cg2 ' C' L10 N 02*28*03" E 122.49' L47 N 79'12'00" W 27.00' L11 N 41'01'23" W 430.34' L48 N 48'22'48" W 102.47' Cgs L12 N 29'16'22" W 205.82' L49 S 44'13 57" W 61.71 LC80 L13 N 57'38'53" W 191.92 L50 N 09'14'48" E 147.55 L14 S 12'19'33" W 577.92' L51 S 22600'03" W 102.96' Cjg• C? L15 S 78'10'23" W 166.95' L52 S 42'31'00" W 189.27' /78 .4� C>, L16 N 7925 26 W 398.01 L53 S 63'37 45 W 57.10 �., L17 N 40'54'05" E 398.78' L54 S 73'50'16" W 129.02' L18 S 4756'48" E 84.81' L55 S 05'47'35" E 103.30' Ike, L19 N 45'10'49" E 92.09' L56 S 13'41'11" W 178.73' L20 N -TO; E 136.50' L57 N 74'06 57 W 141 .05 - L21 N 35'01'40 E 54.83' L58 N 10'31'52" W 147.08' GRAPHIC SCALE L22 N 07'08'20" W 73.05' L59 N 52'53'08" W 153.45 f 476 00 o so mo zoo L23 N 67'53'24" W 89.23' L60 N 39' 17'39" E 451.72' t L24 N 74'21'22" W 59.21' L61 N 15*57'15" W 67.75' fir m C3 , L25 N 06'45'44" E 42.61' L62 N 50'21'26" W 78.77' L26 N 55'48'00" E 72.12' L63 N 01017'41" W 50.11'`" G>S C>1 (IN FEET ) L27 N 33'0708" E 74.00' L64 S 76'06'21" E 55.58' 1 inch = 100 ft. L28 N 1719'25" W 32.88' L65 N 39'37'40" E 73.62' L29 N 75'01'46" W 48.13' L66 N 70'07'05" E 87.21 C>2 ' L30 S 53*11'03" W 139.45' L67 N 40'01'09" E 33.80' <>4 /469 L31 N 4851'52" W 78.21' L68 N 16'41'34" W 55.24' L32 S 71'14'27" W 325.34' L69 N 41'57'33" W 75.37' L33 S 41'49'29" W 241.56' L70 N 37*54'17" W 49.25' C>3 L34 N 3917'10" W 67.80L71 S 76'03 38" W 56.15 L35 S 48'47'01"W 92.62' L72 S 35*52'11" W 197.06'1L CAL L36 S 1005'34 W 40.50' L73 S 85'35'31" W 53.3T Y L37 S 69-18'28" W 65.09' L74 N 18'12'55" W 141.22' y C6,5 4 65 19 �0 ACR S E °A C 2 e J Cosy * 448 S' / 4 ❑ /✓ J / jIjCN �. T0W2y E °A, SSE Eh' CS,,r 6° .44�.S 4 PARCE � � L B r' r 4 _ 1.54 ACRES G s 4C430 37C e CS 42 N . Csq CS4 42� 440 \ C33 4,26 . CS 09 C G34 '� C2S P �2 C38 tea" (23 fl CS8 r� � ..,3 :. � 2 C2 1.73 CS6 ^NC F ACR�.S 1Y T„ r (7 pAp °°° SF 2, W �Cj 19, °1 -0 AC RES C20 I t , ,4 >L RCS z RES �Lif (1� �� 0 ACRES - -- SF., h A 416 CAS 4 ("? 0o 4 g s Cr Ar � AARC�L (12 °00 ° ACLD 1 z SF' 8 p- 1'50 1 (8,000S 8, °00 SF CRES BZDG•) Q �WN z 0-�d 0 OOa � co CQLo H U� aoo � co 0 z m Lo W E I � Lo W ii z O N w CL U) z N Y Y Z O O N Y O Q 2 O p g I 2, z Z Y o V) ¢ w 0 o v o C 74 O �j Q cn � () z LU W F- F- o LLZI of z a Q Z �w g Ld W z cn FA LJJ > 3: o w 0] LL,Lp 0 F. � o SEP Q000 Z> LLI ��Y z 0 LL WVO� o0 Z Z Op� V) U2F-0 w PROJECT NO.: 206023.02 SHEET: G-4 LIMIT OF CONSERVATION EASEMENT LINE TABLE LINE BEARING DISTANCE LINE BEARING DISTANCE LINE BEARING DISTANCE L1 S 79'03'04" E 408.47' L38 N 36*40'12" W 90.24' L75 N 6455'26' E 167.23' L2 S 63'00'41" E 253.05' L39 N 05'16'21" E 31.14' L76 N 02*00'15" W 56.40' L3 S 67'01'55" E 996.81' L40 N 3524'10" E 104.49' L77 N 59*25'13" W 168.44' L4 S 61'58'45" E 220.46' L41 N 53'01'47" E 87.78' L78 S 69018'31" W 123.36' L5 S 37'22'37" E 1124.81' L42 S 68*37'06" E 46.29' L79 N 58'59'06" W 86.65' L6 S 49'46 51 W 113.38 L43 N 33'04 22 E 101.58 L80 N 82'22 01 " W 92.50' L7 S 28' 13'30" W 38.98' L44 N 19'48'23" W 41.25' L81 N 48' 19' 11 " W 18 05' L8 S 03'33'52" E 130.89' L45 I N 4T11'39" E 90.28' L10 N 02'28.03" E 122.49' L47 I N 79' 12'00" W 27.00' L11 N 41'01'23" W 430.34' L48 N 48'22'48" W 102.47' L12 N 29'16'22" W 205.82' L49 S 44'13'57" W 61.71' L13 N 5T38'53" W 191.92' L50 N 09'14'48" E 147.55' L14 S 12'19'33" W 577.92' L51 S 22'00'03" W 102.96' L15 S 78"0'23" W 166.95' L52 S 42'31'00" W 189.27' L16 N 79'25'26" W 398.01' L53 S 63'37'45" W 57.10' L17 N 40'54'05" E 398.78' L54 S 73*50'16" W 129.02' L18 S 47'56'48" E 84.81' L55 S 05047'35" E 103.30' L19 N 45'10'49" E 92.09' L56 S 13.41" 1" W 178.73' L20 N 10'48'00" E 336.50' L57 N 74'O6'57" W 141.05' L21 N 35'01'40" E 54.83' L58 N 10'31'52" W 147.08' L22 N 07'08'20" W 73.05' L59 N 52'53'08" W 153.45' L23 N 67'53'24" W 89.23' L60 N 39'17'39" E 451.72' L24 N 74'21'22" W 59.21' L61 N 1T57'15" W 67.75' L25 N 06'45'44" E 42.61' L62 N 50'21'26" W 78.77' L26 N 55'48'00" E 72.12' L63 N 01'17'41" W 50.11' L27 N 33'01'08" E 74.00' L64 S 76'06'21" E 55.58' L28 N 17'19'25" W 32.88' L65 N 39437'40" E 73.62' L29 N 75'01'46" W 48.13' L66 N 70'07'05" E 87.21' L30 S 53-11'03" W 139.45' L67 N 40'01'09" E 33.80' L31 N 48'51'52" W 78.21' L68 N 16-41'34" W 55.24' I L82 N 41'40'34" E 225.56' 467 <so �6S �64 463 462 461 tog � �48 ZS0 c C4 a 1� I L82 N 41'40'34" E 225.56' 467 <so �6S �64 463 462 461 tog � �48 ZS0 c C4 a 1� y . ?0 GRAPHIC SCALE 100 200 ( IN FEET ) 1 inch = 100 ft. Z Q: s�"r°' Lu r'ys"aM l�oP�'A Z O H 5 w V) Z Cf, ,l- Y Z O Y O _ O I Q = 0 0 1 uj ro z Z w O lz Q v~i w Iw- Z J O Z m Q V cn o W W = Q U (- w I- o W W W Z zV) W } mw > Cl = �o tQZOV w O i oof 0Ln W LL V z Z o �00 o(-) C F- O-0 ♦� V Cn X PROJECT NO.: 206023.02 SHEET: G-5 J ' I v PRE -DEVELOPED :a.EA FOR BMP #4 = 4.28 A ----TC 3 I OPED AREA = 16.16 ac. / J ( IN FEET ) 1 inch = 100 ft. w�J�ae`OtLQ•L.:� `• 4�r !lfiltt.�.. z O uj w Z N Y Z O Y O O Q o z o 3 PROJECT NO.: 206023.02 SHEET: S 7W35'24•s E 408.48 S 54, 3,0 253.06, e ZONED ACRICULTU ?�♦� S 58'34 13„ E Rai 'RoWZAND CCh,EE x„ LIMITS OF �6= CONSERVATION EASEMENT �Ar 2.31 ACWETLANDS . H OFFSET DRAINAGE BUFFER WETLANDS AREA ADDED 53'310b., e, 220.4>• '.. E9G� 0� .SSCZpS N 3 —I 8 S3'w I I 1 I I \ t 3 r�i n M O co e m No h I I I I TOPS III CONSS OF ERVATION �t/saRn uwE \ \ ► 54 St+Po"s ; \ _ �� � EASEMENT... I I — �' TP� \ \�:1 ih�`�• v'°" '�s\ :. i ... _-,_ .,..:." ..-8— -p= ,.... g.�._ � _— � — � w -�.w °°_—� g=.—.m—a—` a� `es..—�- a—T \ ✓.- YA °u GR.%SS AREA = is, auIs BuT, TVA, R' SNGR /TG .F'-=sY= EGRESS EASEMENT _.- .-.. :SS E v.A h_ n_ n— T n AT _ n .� n n C6W1VAL SU ACD W W _ �. - M M V V V P V :WATIE�R,V V37Mm-- v..,. -' F.H.FA F i oar r' gTACk, Q I I J T-DEVEL °s eurERrLrva� 1.5 ACR ,e• euR�ERnr vAL _ .�. -r.. n, 44 SPACES — POS ..OPED AREA (5,0., SF LD am nR TEE ^A =E; _ FOR BMP #4 = 7.27 ac. ^ ° REC' o0o sF a `'�� _ AR EL F PARCEL G PARCEL H POST -DEVELOPED AREA ^ ^ 2.00 ORES 2.00 ACRES 2.00 ACRES FOR BMP #6 = 2.75 ac. n 4 a 10,000 SF BLDG. \ �PNPRM r N of (10,000 F BLDG.) (10,000 SF BLDG.) ( ) �` lg� Fgs1.50 Q 8700 SF OFFICE/ WAREHOUSE 55�°�sPARCELD PARCEL E " 1.521 ACRISS 2.07 ACRES a ITCH FLOW FLOW N 71'51'26" W --- N 74'07'44" W N 66'O5'05" W N 70'44'07" W 1596.89' Y� ,:87.25' —t 293.46' 40 23 "PORTION OF FIRST TRACT" WALTER PUYNER HEIRS EXISTING OUTFALL DITCH \ Et$1j1Np D. B. 257, P. 592 ALL DEBRIS TO BE REMOVED ypC. ZONED AGRICULTURAL & DITCH REGRADED TO DRAIN PPPR�XWATER 11NE 70'08'03' W 158.14' F LIMITS OF Fey CONSERVATION o pF�rSFR� EASEMENT 4- R-1/,yS04, OS 6' F SFA C0 ANT ♦ ♦ / N 70 '57' W CENTER OF DITCH 376, ' N 70'50'57" W N 70'06'03" W 229.68' 395.19' GRAPHIC SCALE ( IN FEET ) 1 inch = 100 ft. WQ � a oz C�2 co O W �Lo z 4 +j Ca rrU^^ I O %Z W W E- Lo 0 Z O H 5 w Inc 0 z C Y Y Z O ON O 2 O Q = 0 Q w Z � ao I l9 Y Z O Q Z LV = 12 w a LZ C.)Q 0 O W Z LLJ j � � a Y Z W a O V Z =Of < o I.. O O Q Z O U � U W00 C00 .) a- a- C Z 0 Q PROJECT NO.: 206023.02 SHEET: G-7 z H N H LU W ly Z U) O O N _ 0 1 Q = N � Q � Q Co z Z W V 4 W F- Q Q Q li LL J ~ I— ° C LLJ o Z Q LLI LLJ Of > � Y Q LLJ p O O � Q QZOU Y 0 CD w O O H Z F- U Z zi O w _ � o�o�a U 2 H U U PROJECT NO.: 206023.02 SHEET: C-1 i � I S 70•3524" E 408.48' (v - oh 2S3.0 33•62y e ZONED AGRIC RA LT T ?o^yam S 98.34'73" e UAL ny f ; 4 Ol v �Q & c, ¢ , ` 2.31 AC. WETLANDS 3 5 5 3 65' DITCH OFFSET Q ti� 4' v I e..� DRAINAGE BUFFER WETLANDS AREA ADDED Ili r , 'ROWLgND CREEK„ 996.82, F,Ni 5' y 5 P ST-DEVEL PED ARE 5 e +.t410,164fw� 1501 FOR BMP #5 16 = .58 ac. r AC S 5 9 E 5 "•E,.J t POST -DEVELOPED AREA Z pj� �(l �/ f >:.. �j S y FOR BMP #1 = 7.35 ac. I E ;i � s r + S OF y f {{JET �'/��J T {rJ� .�E1 L . 1 I E C r \ ��✓ , �_`•" - f P/ ,.. _.._, r DESELOYMhNF 3/ �'+� E W VM1�E ..,. `` e _ ... µ1 \ •.. `. �. r ,,� ,} F ._... -..- i 'S � C"` y,., � - r+IET - 5 - 01 5.1 `# w,t1. � i f POST -DEVELOPED AREA i , '. f �:`. s, 5 'H. q 5 5, + tTOPSPIL �VURAGE A V, `� \ FOR BMP #3 = 7.16 ac. k < s5, g �` �� ., ; �I 1V HIGH PILE a I _ I 3 1 S S F 'ia,_:. -� .. \ ,,. _.... 's • `." ..3 i.. -_._. L �/y .: 1€.:.. ;_.i` a �.:., :;I - s AV..f .:H L0'E L 777) i LIMITS OF --i- �`o � \ T 5 CONSERVATION + a8 ;Lsn µ„u y pCE �ASEMENT , .. N pap aro3 w f a — � GRASS AR 1NobP13vir. g A 16^ eGTiERFLr vAL : f •"` �yGeE 4 a"t'GiN� �C. 1eNY- :\ .o R N 1584° z k 16- BUTTERFLY 3fi' NGFtESSIE 55� _ _. 5 ifi^ PV MENT G W EASEMENT(GMVEL :_ 5 = SURFACE C WAIEtj, I1NE` r.. > P -- -- [ W f".r=W• .-"W G,.- W W -W..-W 3 M _. _ _�' i., { _µ __. ___�_ _ I .. 6 -! F.H. 5 5 r fi ,x F.H. c 5' 7 y 5 y f E -PARCEL I� �._._. _.,_..._ '12 BUTTERRY VALVE - '.. 1 •+. ,. k 5' 1.50 ACRES f 5 PACES POST -DEVELOPED AREA 11 Lu 5 (5f000 SF BLDG.) - 5 FOR BMP #4 = 7.27 ac... {, 5 $ r t _ PARCE G PAR�U 1-I M - 6 n. P ST-DEVELOPED-AREA 5 ` f 5 B _ bs ffi f AR EL _ z.oD ACRES FOR BMP #6 = 2 75 ac. 2.00 ACRES Z M y .00 ACRES 5 I' �G 5 s * s a 4 FUTURG • ) � 10,040 SF BLDG. 6 e � . (10,000 SF BLDG.) � ;y ° (10,000 F BLDt. y ( ) f 5 g 0 �F OFF�CE� 5 i F * a 5 y 5 f N 70°50'57" w g i 4RL10USE5. a 5 fi I �y k{_ 5 9"" s CENTER OF DITCH 376.57' E � '� 1+ i ". � y B ' ; � : • 5 ty y ".. rt I REELS D . ` ]'ANCEI, I L5 ACRES 2.67 ACRES R OF DITCH i' 3 r . _ - - - - } 5 5- FLAW. - FLOW = ` N 71'51'26" W 7 22 Q" W - N 70.44'07" W 1596.89' S 293.46' ° N 0 06 03" W 395.19, "PORTION OF FIRST TRACT" TPALTER PlOYNER NEII? ' EXISTING ObTFALL DITCH 5 D. B. 257, P. 592 ALL DEBRIS TO BE REMOVED ZONED AGRICULTURAA ?e- DITCgH REGRADER TO DRAIN [ 6 ` { 5 GRAPHIC SCALE 100 G 50 100 ( IN FEET ) 1 inch = 100 ft. 300 • WQ � �a z a� 0 O � N o� 5CO �� o � � x W 40w 4 0z ~' W 0 Cn 0�zE0 �i LO W � LO I �LO W C6 Z O W ix z V, 0O ri_Y O= O N Q = N W �, Z Z w W ty S 4 0 o v o Z .j li. U Q W Z Cr c w Cr 0 � a c� z Q 0 W Z LLJ (-DW Q W o� O V Z oo0 QZ0 U 0 2 V 0 0 0 0 W V Z 0 0 PROJECT NO.: 206023.02 SHEET: C-2 .+ 4 OF EXISTINPi" W—rCH .i`g� I j' 'i'' + .ate •+ +i * --- + ' I. � v / I ALL ALL PIPE / + ❑ TELEPHONE PEDESTAL STORM PIPE *- �+ + �. INE G ROUND ABO SEE 52 POWER POLE �;PI w WATERLINE Toe ,. '� ' ' + w / GUY WIRE I - ; _INV �s ess' CD /+� + O ss —s — SANITARY SEWER ® IRON PIN o BOREHOLE CONSERVATION EASEMENT '� ; 0�wL�'',;��' + x FIRE HYDRANT —X —X SILT FENCE /LIMITS OF DISTURBANCETee / +\+ ® WATER METER PROPOSED TOP OF BANK 'Ai i+ WATER VALVE _ PROPOSED CENTERLINEwv r of ----- { - I -xMii +CONTOUR — IfDEX ♦aINFILL AREA + / + ---------- CONTOUR — INT��MEDIATE �.'� I �+ _ "4 i . I 0;CD + / —1 1 + off E ELECTRIC — OVERHEAD � � I I I / RIP RAP CLASS Alo �J� EXISTING EDGE OF ASPHALT � *Thp �+/ C+� PROPOSED EDGE OF ASPHALT I + -. ABBREVIATION EP - EDGE OF PAVEMENT TOB - TOP OF BANK NC - NORTH CAROLINA DOT -DEPARTMENT OF TRANSPORTATION INV - INVERT MON - MONUMENT REP - REINFORCED CONCRETE PIPE TW - TOP OF RETAINING WALL IPF - IRON PIPE FOUND CL - CENTER FINE ELEV - ELEVATION SWMP - STORMWATER MANAGEMENT FACILITY MIN - MINIMUM MAX - MAXIMUM R - RADIUS AC -ACRES NWS - NORMAL WATER SURFACE ELEVATION SQ-SQUARE FT - FEET CF - CUBIC FEET E&S SYMBOLS CE CONSTRUCTION ENTRANCE SF SILT FENCE CIP CULVERT INLET PROTECTION COP CULVERT OUTLET PROTECTION TS TEMPORARY SEEDING PS PERMANENT SEEDING OP OUTLET PROTECTION CD CHECK DAM 1 0 z O H H W Cn z Co O a w Y O p _ N _ p Q = N � � I z Z w Q uHi w Fw-' 0 o n v a z J Z W W W U Q 0— V _ w0 w W Z >- O Z W O O 2 z Q Z L1. 0 o 0 Z Z � O V w p o U F— Y Q = 0 00 H C� ,ee 200 �. PROJECT NO.: P A \ N 206023.02 X ( IN FEET ) 1 inch = 50 ft. SHEET: \ C-3 EXISTING SYMBOLS ❑ TELEPHONE PEDESTAL STORM PIPE POWER POLE W W WATERLINE GUY WIRE ® IRON PIN —ss —s — SANITARY SEWER O BOREHOLE CONSERVATION EASEMENT FIRE HYDRANT —% —% SILT FENCE / LIMITS OF DISTURBANCE ® WATER METER — — — PROPOSED TOP OF BANK wvD4 WATER VALVE PROPOSED CENTERLINE - - - - - CONTOUR - HN{3EX '' FILL AREA ---------- CONTOUR - INT-EiRMEDIATE off E ELECTRIC - OVERHEAD RIP RAP CLASS Al �- o a EXISTING EDGE OF ASPHALT —77- PROPOSED EDGE OF ASPHALT ABBREVIATION EP - EDGE OF PAVEMENT TOB - TOP OF BANK NC - NORTH CAROLINA DOT -DEPARTMENT OF TRANSPORTATION INV - INVERT MON - MONUMENT REP - REINFORCED CONCRETE PIPE TW - TOP OF RETAINING WALL IPF - IRON PIPE FOUND CL - CENTER FINE ELEV - ELEVATION SWMP - STORMWATER MANAGEMENT FACILITY MIN - MINIMUM MAX - MAXIMUM R - RADIUS AC -ACRES NWS - NORMAL WATER SURFACE ELEVATION E&S SYMBOLS CE CONSTRUCTION ENTRANCE SF SILT FENCE CIP CULVERT INLET PROTECTION COP CULVERT OUTLET PROTECTION TS TEMPORARY SEEDING PS PERMANENT SEEDING OP OUTLET PROTECTION CD CHECK DAM SVYMP 1 SERVES PARCELS A, STORAGE CAPACIT` CF NWS ELEV = BOTTOM OF P FTpp OF 49 4 po,�N2f L 2e DEEP CLASS J4,537RIP RAP ON FILTER FABRIC 11 INSTALL GUTFA IPPE." FINE GRADE H \-) 7.50 SEED GROUN PIPE /- m K. P ✓� /A N1 �y TO MATCH INVEfJ.- ��j✓1� ' OF E%ISTINGtWTCH 4. P I ti L 1C f f b i 1� 1 , ' I , I I a I ; I 1, I I t'� LINE PROPOSED GRAS$m OIECH O ODES min —1X maa— SIDE SLOPE RANGE 29 AWX — 4:1 MIN .72 AC AREA -2 y f1�r AC w PROPOSED GRASSED SWALE lq O D.1X min elope - v SIDE SLOPE 3:1 MA% =osED Glussm O 0.1% min elope ' 513E APE IAC X AP TOR .7 s*0 ___ m -__ __ -6_)0_ - - -- ---� 6�D - CID -- -- --S CD 0 -- j $ a U J.op v `Jm �EP 6-W s a2s I .. Ilrl m I _ m H6 / 1 ALL ALL PIPE NE G DE, MULCH, d SEE OUND ABOVE' PI X, i o .m ,N + CLI 0 a) W Z + A pp'� 9L \ W o � /+ + Aso s 9�F o \+ \ x 1►� U I DO + + vPROPOSE ITCH TO �. MATCH E%IS NO DITCH �, / + \ Lo ORS WAR OUTLET + \+ + W E STRUCTURE +\ + � - �h �H U7 / \ \+ V T � BEGIN NEW DITCH + " SIDE SLOPES TO BE 31 +\ 00, 9y� \ \ + ?o. 99 �` \ `\ems •a�.�,rr 1w 24'-18" - CMP + + + a` -j r .v 1 0 .2% _ • 4 ~ yn 'moo o 0 ( \ \ �TF � / �o ' J0O / { / + \ / (� + + 4 + + / { + s < 3jOB 0P l \ Y' / `/' X CD + / + + 41 \ + 0y \ + O S�9/ O \+\+ s /+ \+\+ o� + +°� 9� + + + v o EGIN NEW DITCH - _ IDE SLOPES TO BE 41+� 009 +�� PH,4SEILIMTS _ OFDISTURBRNCE M N s. CRASS l .. SWMP 3 \ / 0.98 AC SERVES + +� STORMWATER PART OF PARCEL D & - 5F x OUTLET FUTURE DEVELOPMENT �x STRUCTURE STORAGE CAPACITY , EL. 1-4 = 107,833 , x CF NWS ELEV = 1.00 OPT BOTTOM OF POND ELEV = 6.50 G PG 4� Op'�, GRAPHIC SCALE t /50 0 25 so 100 20 MAIN POOL } ( IN FEET ) FOREBAY 13 L_F. LEVEL SPREADER 1 inch = 50 ft. t S'wmF #3 k SEE DETAIL SHEET D-2 � Z O W U) Z U Y Z O Y O '2 O _ O 1 Q LI) = C\I � I W Z Z w 3 v iu a o v a Z 0 Lu It W H V a W V Y U = o W 0 H v� w > 0 Z \ �0L� QZ0Z Q 0 Z m \ WOOD o V H Q � = U 0 H 2 � PROJECT NO.: 206023.02 5HEET: C-4 -82PC 55 PV 103 ST 79 Pv. lGO'P9A,y \' I ) I ssT ) I C / I / I , -.. 23 T Q8 73 PV93 PC BN.(TYP) 1 I I 1 1 I II I 1 1 I tt 1 , \ \ i \ \ +I, Ila , GRASS AREA 206 K1� C R=500' -' - -- - ---'- - - - -- ---. --- _ ----- _.. - -- - - - - - - - - ------------ - - - - - - - - / \_ PHASE I LIMTS OF DISTURBANCE TEAfPORARY CUL-DE-SACMIN. 35' TURNING RADILS GRAVEL TURN AROUND F' PRUNE CODOMINANT LEADERS PRUNE BROKEN. RUBBING OR CROSSING BRANCHES "RUBBER HOSE REMOVE TAGS AND L48EL5. CUT AWAY ALL BAWNG ROPES—� REMOVE TOP OF VARE BASKET tmAMEMDE9 BAQ6W1 SOL PARRALLY BACKFlLL, WATER TO SETTLE SOIL. nNISH BACKFILETNG —� DO NOT PRUNE TERMINAL LEADER OR BRANCH TIPS /— PRUNE NARROW CROTCH �i ANGLES & WATER SPOUTS 2" X Y STAKE INSERTED /-12" - Is' INTO SOLID SDII DO NOT STAKE OR WRAP TRUNK LNILESS NECESSARY. PRUNE SUCKERS 2"- 3" MULCH KEPT AWAY FROM TRUNK —SOIL WELL TO CONTAIN WATER !Awl AREA FOR WATER DRAINAGE MEN AND SCORE HOLE WALL A A /\ / • �% (PIPE OR TILE COULD DE ,C 4C .�� /. �� i .G.� /� W Auiv) REMOVE CONTAINER AND CUT CIRCLING ROOTS W CONTA6ER-GROWN. OR AS MUCH LEAVE SOLID SOIL PEDESTAL. BURLAP AS POSME F FIELD -GROWN 00 NOT DIG DEEPER THAN 9ALL DfPR{. TREE PLANTING DETAIL NTS LEGEND QUANTITY SPECIES 943 (PC) PONTEDERIA CORDATA (PICKERELWEED) 1032 (PV) PELTANDRA VIRGNICA (ARROW ARUM) 936 (ST) SCHOENOPLECTUS TABERNAEMONANI (SOFTSTEM BULRUSH) 15 (BN) BETULA NIGRA (RIVER BIRCH) PLANTING NOTES ' vv avvevvvv 1. LOCATE PLANTS AND AND PLANTING BEDS BY USING SCALED DIMENSIONS FROM STREET, PROPERTY LINES, ETC. 2. ALL PLANTS SHALL MEET OR EXCEED THE MINIMUM STANDARDS SET BY THE U.S.D.A. STANDARD FOR NURSERY STOCK SPONSORED BY THE AMERICAN ASSOCIATION OF NURSERYMEN, INC., WASHINGTON, D.C. 3. WETLAND HERBACEOUS PLANTS SHALL BE INSTALLED BETWEEN 4 / 1 AND 7 / 15 AT A SPACING OF NO MORE THAN 18" O.C. 4. APPLY SLOW RELEASE FERTILIZER TO EACH PLANT AS INSTALLED. 5. APPLY 5 GRAM AgSAFE AQUATIC TABS 20-10-5, 90 DAY CONTINOUS FEEDING OR APPROVED EQUAL FOR HERBACEOUS PLANT SPECIES. 6. APPLY AGRIFORM 20-10-5 PLUS MINORS PLANTING TABLETS, 2 YEAR SLOW RELEASE FOR TREES AND SHRUBS OR APPROVED EQUAL. 7. ALL WETLAND PLANTS SHALL BE GROWN IN CONTAINERS OF ATLEAST 4.5 CUBIC INCHES WITH TOPS 6" IN LENGTH AND SPACE 2' O.C. AND SUPPLIED FROM REPUTABLE NURSERY SUCH AS COASTAL PLAIN CONSERVATION NURSERY INC. 8. CONTRACTOR SHALL PROVIDE A WARRANTY FOR (2) TWO YEARS ON ALL BMP PLANTINGS. CONTRACTOR SHALL INSPECT AND REPLACE ANY NON -LIVING PLANTS AT THE END OF EACH YEAR WITHIN THE TWO YEAR WARRANTY PERIOD. GRAPHIC SCALE 40 0 20 40 80 ( IN FEET ) 1 inch = 40 ft. C6 Z O H Lu Of Z � 0O D_ Y O N = O 1 Q = [V Lu a CD� Z w Q V)) w Fw-, a o v a a z _J Z W it W Z a U d LLJ 0 U = JO w 0 ft z W Z >- 0 Q z W Q 0 z O azOZ LL I- 0z:3 CD w00V V F- V 0 ~ = IIr 160 D 0 PROJECT NO.: 206023.02 ? js� O N 29016, 2211 W �9s�05'g21 •g, 701 _..._ _.. l0? ,? 3?4 1.49 372 0 i'sg a .,.. MATCH SHEET —4 36, R 4, 4.e 348 3.t � h^ _,�/ o o h . (� R 3s. \ / s.10 A.gis <4.1s 1.7� 3g �R3 1. .68 4.61 *.1 V ? 30 X;,6 00X / / MATCH SHEET 50 C-5 GRAPHIC SCALE ( IN FEET ) 1 inch = 50 ft. z N 29016, 2211 W �9s�05'g21 •g, 701 _..._ _.. l0? ,? 3?4 1.49 372 0 i'sg a .,.. MATCH SHEET —4 36, R 4, 4.e 348 3.t � h^ _,�/ o o h . (� R 3s. \ / s.10 A.gis <4.1s 1.7� 3g �R3 1. .68 4.61 *.1 V ? 30 X;,6 00X / / MATCH SHEET 50 C-5 GRAPHIC SCALE ( IN FEET ) 1 inch = 50 ft. z 0 H 5 W V) Z (n Y Y N Z O OCV O O = O p W Z � I O l9 V) Q Y W F- W a V 0 Z �O/�/ LV ~ Q W W C) n- a O Q z _W W j w 1-- W U Z OZO O M 0 C) Q V O 2 0LL z � 2 o00 PROJECT NO.; 206023.02 SHEET; MATCH SHEET C-8 1 �e ° ✓ e le °e00 C6 z O H Lo W d' U) Z V Y Y Z O O O= N Q p W Z :i w o v~i ¢ w � 0 o v o Q Z J O a Z W = Q W a O Z 0 O W w z W Z V Of o O Z I— O z ZOC.) Q V � � V � W W O O V Z O O C� = F- C� PROJECT NO.: 206023.02 SHEET: _ C-7 .Q TO,o � 00 • O 169 R, GRAPHIC SCALE ti 0 25 50 200 '. ( IN FEET) 1 inch = 50 ft. •FT r EnnA MATCH SHEET .-2 4q0 � a N � az ' O CODc o Co 2� �z q� o �z W� W E Lro- W r��A1:4111l1���� LU 0 z 0 H V7 H ui W of z_ to Y Z p O C Y O _ o I • o � p I z o 0 t� 3 Y (.L� N Q W I— Z Z 0 Q 0 z WI Z w a LLJ U z 0 W z LLJ j o 'LLJ Y G C) 0 z Qp0V V� LL W �VZ�F- li 0 0 = PROJECT NO,: 206023.02 SHEET: C-8 \� WETLAND LINE "U" WERAIJD LINE 1Y" W E Y WETLAND LINE "A" WEMND LINE 'Z" To qR AC - s�• C R SAC ToRq .q ROE � V N .. a G ` W ��JC' oil-�� NHS 4 Cqp� C ,T Bo TT E�• , , 346 9g3 Y % N E� O�,j 0 <, S 1 ��'�' E O/C po CF NO 6Su r 0 \42 N , m ; LI CON ,0 5�/ ch ---- ��Y' �N\' A /\'v /m �_ N �3 b� 28 Vti : W N N w \ y A of w �,1N C eq V N N' m SCR �F< �� o _ N ze W� W mN mW m Q6 m In U a �^ az o46 CQ 0 0� Coco O W �0 ~' P z n moo° V) Ui q)� p 0 m -00 WN I �LQ w V✓ Y � �� %'s• �b V ��°' kia w C , w 0 38 O N r m � v C 3A,- �•;� Y V �� N G Q / i VVV � O a� ciyol V CJ �A 1000, V tb Lo All V) 1,9 m \ m 7 ui UJ/ m m N V < !',' 0v .. A - W �.. '..... .... ✓ .., .. .`� O, ... A � m t,(O ? W p •5' � O Lu l W \ .�(1� , � ���� A N � W \ � L' V • 1 s2 A V V� kA`N y H � v W u w a = Q s A ,i• t to i n :5 -/ -t Y"� 4w \ �� ti•i 'p m. v Aa J� r j('(� V n zi m� o TIN G EDGE DF EXISm d m m Om W W o WETLNDs N a w o z_ .A(. cti� v ` O Z w uj Q w v tg w o iY g A Q CD w 410, _ U. ACY - _ - W 4 N � W F�R6IN m�� C77� W `� W J / . w �. C S e. S LA m z A m u43 1, W f o y /_� V T � L,C m i. m v A ? m m , �PH� ALE �Cti o + ♦ m ,° " _. �� N ..': m - 0p m .-ar. p 50 0 25N 5 C S w W N PROJECT NO.: w M T CH S H� N � E 6 SSE VA'� 206023.02 A SHEET: P W C-10 SHEET C— 0 ASP �„ •PVj'�0� LU �vP I•.•A ', �e j' �`V A W N vv � U LU ., ,./ °' •� a sw � - -� N ti SER Q V w w o S T w W y 1.50 o / O G� 0 Y z o Q w V w W m AO A (8 QQQ 41 C� q RC�C o o W - R C 0 G Q 78,1 N W W Q CCF Z Z W o w F /. w W ro N \ O w Cl% LU 6. Ij p " G \ A A W N A a �1. W is N � N W w N>2, l LW a W 293 , , ✓ _ A A vJ W Z a - A S Z 3 0g �03 ` � � �\ � � 3 6 � V � ` O U Z z w 9S• 19 ��� N N � w w / U Lu z �m o (,� W Z / a o O Z N W A \\ J O Q A N c U Q Q. V / U 2 29 m'/ WC ��' rn A IS O 8g GUZ� GRAPHI,C SCALE 50 0 25 50 ppp �Q• � � O N Y ( IN FEET ) t inch = 50 ft, nC PROJECT NO.: V 206023.02 SHEET: - C-11 o AQ- 40 ENS Q 4J ° 0.34 2��7 � 7.55 •+s Gc)SERA N N,.98 h PRRPN F��� u ?06 ?,,6 7.30 p 0.64 .79 9°1 61�� 3, b351 2, J 1.08 i O ?18 1.2 O�1 1.41 LY Uqq z•?9 !� ,g7 � '8�743 /J " z60 358.. LT 3.36 !^\ cp � n ?„ •y �� '� ° GY ry°.9 .82 05�6j �'2?5 JBB J48 1.01 rl� J.zs,,((�T� /> 3 S9 ' • 4,1j '4, �VV (� ? ,`103 .?g�.., s( ?� P A s 7 Q` 373 322 7 7 ^ 310 \� ..451 q3� ,J48 C N\ P� �� 3> •'�31 46 Co Q 474 %�� 2„ 8. 3 O �C 4'2S.`! JS �j y ..3,gJ O 'C �"�J 3 384 4y "1.82 38 _4.35 JBO V �` 388 4 8 1 \ 4 4.49 .3.81:4'J? rn O O (•n '. /n\64 ?.>, Qg5 --ZS7 J,gO ��'�-4'8B 34 ?,? ✓ gg \�/�' /�1 Y �i/1/ F q 4.J� •� ( 355 3j0 �}58 t g> .. q y '�J 4.3p vJ.Z5 321 h y .40 i 7.28 26j 510 4. J 1 2g 1.00 J J LL- , 4g 3,? O ?,254.29 -, 4•34 1.9j 2gJ 6189 4_09 � o T :..?0g ,.2?8 \ .. ,2.3JL (1 4.33 4.80 3.34 .. ?1J... 2jS 0 1.08 ?4, '... n 34g _ 2.68 - 1 4p Z2 35A HATCH SHEET C 10 O 38J 397 5,0? 3,88 Cj 395 \ y 00 4.1? �A 3a8 4-56 ' \O \� / ' 6 � V 384 4'66 (y ) /: 5, 10 •� s0o � / / 4.1$ 4.00 4'38 1•. / .79 g� 4.43 : 4.51 / 487 \ rp '.4,81 ' C-1 I GRAPHIC SCALE ( IN FEET ) 1 inch = 50 ft. a N�^ az 50 Co o `° ~0 QCO ° z LO-D W Fgo 0 �r W N z V) W al V) z C Y O Y Z Y O O _ O_ � � O LU z w O w w Ix Z NO/y 1� W Z = z Z c- a. U z Ld 0 0 LLJ Q W Z Q W U Z o Q O O Q O O U�: LLVw c� LL on �UZF- oao U 2 F- U PROJECT NO.: 206023.02 SHEET: MATCH SHEET m D p �/ w C 14 9� b9 �fi A °� _ r� �CG ���y� O a lT A m 4 w �.p s L1 •%A A o ,+ A/ w 4+00 MOu rc/ ° SO RX 77 SPACES F TOWNS >� r LAIDS TAD A ` 0. 9 Z �'O ab, v� CFO mow. IC ( �Q i 1 SjGgITUPA SOILD WHITElip`4C T IC LINE w— 1 n ��� °�� O �OS TRAFF � V ° -- w - { ��9� A �T rv� 11rs� F Z 13+00 u AS R v wap �UASHED g I I S 'py V� P o TRAFFIC 17 � I a r V � N CD-1 . Dco'-SOILD'(ELLO J " AID p S TRAFFIC LINE OFrz 12+00 If`r'jS�D "YEL�C�; 0 ' —� m - °°F �S w t S�`yt1 O n RAFFIC�S LINEI I I F 2 A AA o� I 5 4 ACES G CO \ 9 7 —I ie I II 11+00 A m -.-�--` T 00 A W � N c w G ,SO C1 \'� O ♦ FUTURE Y ry u Ma A � % + NP A A I I V �' IJ� GRASS AREA a � } Cti Q' p g Yo o O v 7�q L I . � �� v u o m e I GRASS AREA ° 5 V RIVING LANE + s �G m w m k r DF�IvMG LANE °�� Q w N Y oO v ,, Q00 a Wq� �a �^ az o � Q Occ oCro- o y� �+ Q U" �' 01~ 00 Vj 11 Co 0 nzCo W i E Z Lo W 5 8 �•J o m ' 40PE 1iANGE r �1h hy^ e V r'J CLS A ^.... .r N , N 'f //�� r cnA M•AX 4:1 MIN / A p ^�\J 6 V A 4j C. V •A ��I� w A �.iV �� Z '' .. � � � m '. �. ..._ a ����q-•,�G H g Ow L/ m 10 S b� �� Ai •vT �1I w w ^'000 � �.. �N o' w; �fi ��. a -- � u*�t, ` � ?� < ✓ .: AIV LU HARMACY m A = PN " to ' N w � w .. '' � � �ry}y� � m \ / :_ A � �O - N / V' / �� V u� � p Q,• c * H- A N ` S/1� %%�( 0.?x �\\ °' _ * 4j m e T\ C I ¢ '* `- w N - �• C`J aw/ \ N �9J O �/ Z (n I� V N'� OM 9 0 o Y Y z R ,I. fA w A e� I o�1Q o — / u w (cN � RES /VG + O O S° fb m .. ~• w N / -.� CV Om V • fa . g O �• �/. ` ' N Y IO WQSPACES '���'`5 O � VI �n QW /-� a bgj l✓ ^ u As 01 4 N " c Y r An. / m ` N - �l �'`♦) Fn , OOp]], A p w r/ y G v w �« 888 A y�' 3 y 4 /714' »$SA u r 1 T w A = a ��RReS I��RESs p Z Q w ,•tO. A A C O N A IJN' �[(y}, Q N 6g°OS) Z O b 666 �(l' w A � � M v tF J S \� W �,•, _ 3,� m LLA O LLJ z V A � A F— Gi : q A m(6 j z w A f = LV N V op�- �• Lj `� m- N A Y Z o w C ti CR� o (� oaC)0 Z L`o o s t v 000 sSR�m z w otypIo C� O �R O A A INS �V 0� • 'Y A • 0 ■ U 50 0 z� GRAPHIC SCALE A j,s� wA/ D T w Q 1 inch = 50 ft. A • %� JN �S PROJECT NO.; ED ' P. s of 206023.02 1�jCTTf n,, c9� A /�C� SHEET: ^ A n z. �vO 61, SE O 97 4C 1 R VES �, • S TO pq o- �8,3 b' �0 ER VAS S4 m` S roR pq R T OF f o� �� clp , 1 /yC ' oS 6 c�Ty E�EV 2��� J 0 ��V OM OF, 7 01 �0 CF ti .u. T. 6• S0 a 8 M Y W n S >n° ��5 2 � e ►C �� Rq c RCe n SF / ms9ti�9 ��� ��' F C LS pO p r �- a0 A/WS �ZE 704 CI11, TY B SF �� �� z EZ T U EUAI((�lF p 7 CF • OO �el , A 6 SNo - / �� �l� l�T �iA �� N T' C'a' �/ A v ' ,���j0/�..L + � 5� w O,/ Cnfj W 9�F Q TOp N S ��IO�G� a N ` ��: c W N E� OF� \ �4 �� N �, 69 o �`� 4 N/t �� ©p sT N o 00 w !� a �' JpT-- �/ / V P C 1 AY'`'�,, 6� CC v C l �y -61 ,. ,. �v W •(y .<li4 C m � 6 j 63 V W S •w ` 6 0��+��, T �N .,�w GRAPHIC SCALE \ S 50 0 25 50 200 ' t w P��IN ET) i4+ 0 Q/ p 1 inch ��50 ft. v�•q = �\ �T w w - V ¢ AlpAC MATCH CHEST C 13 FL � y az p� 0o00 O QM., �Lo � �Z Lo p >��. mZ o ~, W 0 p Q�z � H v r7r �i ZLo � W z O W Cn Z Y O Y Z Y O N _ Q o_ O LU z Z L w O Q V Z O LE Q a ~' W ZLLI F- O U O U O W Z z J Z Ld LU O w C O = 0 Zo O U Q U o ��LLL) LLJ0O F- O � U Z � 000� PROJECT NO.: 206023.02 SHEET: _ C-14 ... ;..,. .. ...... .... .... :. ... .:. .... :_._,:.rib' .:i.� .y.. lip -IJ -Atli Nl 000,,�17 0 8;> V))S AC ,fir Op 0/c- '14 CO1. ZZ 0 cl�lW. yy .,W C , +• / A C C ACT. w w � � �-�5' O �1 NDS r A _ .-, .. ; i -er to op p Yio S � n (1 W S w 0 �0 .rAN � � W N Pops SSFV m A LDG - W ' N $ •� a l w +' v; W ���/// • m aa W w 0 qq d 710 b x > v W G �• 00 W W N o v v ACR PO0 w 1 A m S N .. � -`'- ": `-,-`{+/ r' _ �. w �•/ ^ './f g A w ,k � � . ' iWi w �. w N W J' r G LU 0 ry co A o m A O N m _ i R c V ' F� AA sFBL o cv Try�E � °781yu cF w 3 w p N �F p� x ti� w Q w a �' Q 4ob 6 S o a a w O A O W 0 t w. o ru N ' 47�' 1`` ?s V �0 ZW o A.p m VV / 0 03 / A W Z 3 gs J 9, %/ �\ W z w Y — A W O U z w V y IM ,^ q JQZC(J a 29U W W V o z of 2 68��" rn 5 T GRAPHIC SCALE 0 +� 50 0 25 50 200 ��,% I / ♦ O ( IN FEET) a ®7 \� / 1 iron = 50 ftt. �� PROJECT NO.: 206023.02 SHEET: C-17 12� BZ 0� 8 40 CO \ P� 1. 1 0 0 ,. 1.,g o 1 �R� P \ S SE Cj 4, 3 � �p1-41 ooN4 ?.s> J ` PR�PN F\��0 4 p.6j,r � \� • g ?3p 1.B/1.,�J'' 2B0 O.g , 4l S O 16 .>g J. 351 '3Jg �` 4 28 cl7 4.?> V • iz -pge 82 0.6> fj• \, � o�� 2.>, ?•?5 gigs ,J,$ � � \� \ �� /Y 1.01 . �- r aoo c .J J>J J?? 7 J48 4.8.2 4.81 VJ Qj 346 0.9,g .::Jg_. yY BJ t , 'i48\ \ .�/. O78? s! •J •, .. .. 380 .3�' V� � Q �/ � ^48 0gul.,� 3g0 � \ ,. /, y .; 4.eg 7 O / '.3 i ',.` 3J4 D� D�4.4 4. , 88 5.1 �4z- '•dsg 3.10 J ° Y _ J- J 27 / 4 ^may/ � 1 A ,.p ., 1? � 8, J 3j J4. 1.00 C ,.oj J °js ,h0 lb, (/40 Q J ;q Ja �I. 00 4zg ,.r4J4 ,.Jg4 ,n 9 t-- 4.09 1.8? �� .p p ` �`$p0 J >?pg :;:$?g ' 2� L 4.J3 4?> 4po "4Jg (''J�bJ� ('� l(1 .1 Js V _ V JJ4g0 J� \O 4.06 , 3R8 \ 3gg 'J4,g8 Div' \ y LL 4 45 P <0 l.Y �2.94 so Y. 1 ^ J� MATCH SHEET C-16 MATCH SHEET C-17 GRAPHIC SCALE ( IN FEET ) 1 inch = 50 ft. z 0 V) W Ix V) Z V `1 O Y V Z Y O O _ Q O �I O uj Z w �o 2 Q 0 � o v o Z O Z F— V a_ ~ W I-- Z aCZ o 0 W Z i- J W w � � 3 Y Q o o = o ao0� Q C U = Oz �V'- 0 Z �: W o o� U 2 H V PROJECT NO.: 206023.02 SHEET: C-18 70' MI FILTER / CLOTH 6" MIN. SIDE ELEVATION EXISTING GROUND WASH RACK \ (OPTIONAL) B / B / I POSITIVE DRAINAGE V.D.O.T. #1 TO SEDIMENT COURSE AGGREGATE TRAPPING DEVICE *MUST EXTEND FULL WIDTH PLAN VIEW OF INGRESS & EGRESS 1 12'-0" MIN.* FILTER CLOTH SECTION A -A 6'-7" EXISTING PAVEMENT MIN. EXISTING PAVEMENT o_ z \ 3" MIN. 3 MIN. CONCRETE """111 SECTION B-B SPACE cE CONSTRUCTION ENTRANCE W/ WASH RACK N.T.S. • C� i • ill I •s���\� �iiiii� ��t�t�r�01 1111 * VOOT #57 SILT HIGH SOURCE: ADAPTED from VDOT Standard Sheets and Va. OSWC EXTEND FILTER FABRIC & WIRE 8" INTO 4"x4" TRENCH AND BACKFILL sF SILT FENCE (WITH WIRE SUPPORT) N.T.S. f, vio,nrv�.� io � "niv,m�n1 IF FLOW IS TOWARD EMBANKMENT FLOW OPTIONAL STONE COMBINATION 1.0' 1.5' 2.5' CLASS I RIPRAP PLATE. 3.08-1 cIP SILT FENCE CULVERT INLET PROTECTION Practice Standards and Specifications Weir lath and depth -Keep ilm spillway weir at least 4 ft long and sized to pass the peak discharge of the 14yr storm (Figure 6.60a). A maximum flow depth of 1 fit, a mimmmn fteebomd of OS.$ and maximum side slopes of 2:1 am recommended. Weir ledigth may be selected from Table 6.60a shown for most site locations in North Carolina. Table 6Xft Design of Spillways Dralnage Aron Weir length' (acres) (h) 1 4.0 2 8.0 3 8.0 4 10.0 5 lZo 'Dimensions shown are minimum Cross section Flier fabric Design 21. settled min �� Overfill 5' top t , for sedimment I I1a 1111i 4ftmin n_1 =1111J 1.5 tt 4 5 ft I R2:/ sideax Emergency pass max n1 Filter 1:1 side slopeslope '� 61 below fabric dsettled top max Natural of dam ground 311 min Figure O.Wa Temporary sedimenttrap. Stone section c0 TEMPORARY SEDIMENT TRAP N.T.S. Pine Outlet to Flat Area - r,an Pipe Outlet to Well-defined Channel Filter blanket Figure 6.41c Romp outlet protecdm (modlRed from Va MCC). 6.41A 6.6V Notes 1. La is the length of the riprap apron. 2. d =1.5 times the maximum stone diameter but not less _ than 6". 3. Ina well-defined channel ex- tend the apron up the channel banks to an elevation of 6" above the maximum tailwater depth or to the top of the bank, whichever is less. 4. A filter blanket or filter fabric should be installed between the riprap and soil foundation. oP PIPE OUTLET PROTECTION N.T.S. The purpose of the project is to master plan for a 41.61 acre commercial development located approximately 13 miles north from the intersection of NC Hwy 158 and Rte 168 in Currituck County, NC. Phase I of the High Cotton Towne Center project consist of the clearing and grubbing of this entire phase of the construction. This phase of the project requires building and maintaining limited roadways with ditches along the roadways. Stormwater management is also included in this phase of construction BMP's will be designed and built to specifications. To ensure proper drainage, gravel ditches are placed through out the length of the roadways. Water quality will be maintained with adequate best management practices (BMP'S) for all phases of this project. Approximately 7.49 AC in Phase I respectfully will be disturbed during this construction period. EXISTING SITE CONDITIONS The existing conditons reflect the following, the western part of the property has approximately 10-15 acres of agricultural land and is slightly wooded. The northern portion of the site is bounded by Rowland creek throughout the length of the property. The eastern portion of the site has approximately 6.5 acres of open space. There is also a large wetlands area running along the northern portion of the property where the site ties into rowland creek. SOILS The soil in this area is mapped as Roanoke fine sandy loam. Topography is nearly level and considered to be poorly draining soil on broad flats and in slight depressions along drainage ways. Typically, the surface layer is dark grayish brown fine sandy loam 8 inches thick.The subsoil extends to a depth of 45 inches. The upper part is gray silty clay loam that is mottled dark grayish brown and dark gray. Permeability is slow and the shrink -swell potential is moderate The subsoil is very strongly acid or strongly acid. The seasonal high water table is at or near the surface. Most of the acreage of this soil is used for cultivated crops.The rest is mainly pasture and woodland. STORMWATER SEE HYDROLOGY SHEET G-6 AND G-7 ADJACENT PROPERTY High Cotton Towne Center is bound to the West by Caratoke Hwy. (Rt. 168). To East High Cotton Towne Center is bound by General Business / Agricultural properties. To the South High Cotton Towne Center is bound by Walter Poyner Heirs Agricultural properties. To the North High Cotton Towne Center is bound by Rowland creek and Agricultural properties. MANAGEMENT STRATEGIES Erosion and sediment control should be discussed between the grading contractor and the owner prior to any excavation so that limits of construction and erosion control methods are clearly understood by both parties. Construction will be sequenced so that grading operations can begin and end as quickly as possible. There is to be no tracking of mud or dirt by construction equipment onto any paved drives or roads. Sediment trapping measures will be installed as a first step in grading and will be seeded and mulched immediately following installation. Seeding or other stabilization will follow immediately after grading. Areas, which are not to be disturbed, will be clearly marked by flags, signs, etc. After achieving adequate stabilization, the temporary E&S controls will be cleaned up and removed. EROSION AND SEDIMENTATION CONTROL PRACTICES CONSTRUCTION ENTRANCE PRACTICE 6.06 SILT FENCE PRACTICE 6.62 TEMPORARY SEEDING PRACTICE 6.10 & 6.10A PERMANENT SEEDING PRACTICE 6.11 CHECK DAM PRACTICE 6.68.2 DUST CONTROL IS NOT EXPECTED TO BE A PROBLEM DUE TO THE SMALL AREA OF EXPOSURE. SHOULD EXCESSIVE DUST BE GENERATED, IT WILL BE CONTROLLED BY SPRINKLER PERMANENT STABILIZATION All areas disturbed by construction shall be stabilized with permanent seeding immediately following finish grading. Mulch (straw or fiber) will be used on relatively flat areas. In all seeding operations, seed, fertilizer will be applied prior to mulching. CONSTRUCTION SEQUENCE Contractor shall ensure all construction debris shall deposited in an approved location. Contractor shall ensure that there will be minimum traffic over the area designated as existing sanitary drain field. Contractor shall ensure all permits are in place prior to being demolition, instalation of E&S measures and new construction. 1. Install construction entrance and clean as necessary to avoid tracking soil onto roadway. 2. Install all silt fence barriers around site perimeter as shown on the plans. 3. Install inlet protection devices as shown on plans. 4. Install culverts and culvert propection measures. 5. Remove utlities as noted on the plans. 6. Reattach all uttilities to phase I structure. 7. Install all sediment raping devices prior to grading. 8. Grade site as noted on plans. 9. Cut gravel ditch in as noted on plans 10. Temporary seeding and mulching to be placed on all disturbed areas 11. Fine grade and permanent seed site. 12. After final grade and permanent stabilization has been achieved, Contractor shall clean and remove all erosion & sediment control measures within 30 days of site stabilization. EROSION AND SEDIMENT CONTROL 1. Permanent or temporary soil stabilization shall be applied to denoted areas within seven (7) days after final grade is reached on any portion of the site. 2. Temporary soil stabilization shall be applied within seven (7) days to denoted areas that may not be at final grade but will remain dormant for longer than thirty (30) days. 3. During construction of the project, soil stock piles shall be stabilized or protected with sediment trapping measures. 4. Stabilization measures shall be applied to earthen structures such as dams, dikes, and diversions immediately after installation. 5. Erosion and sediment control devices shall be constructed and installed as a first step in any land disturbing activity and shall be made functional before upslope land disturbance takes place. 6. A permanent vegetative cover shall be established on denoted areas not otherwise permanently stabilized. Permanent vegetation shall not be considered established until ground cover is achieved that, in the opinion of the county engineer or his designated agent, is uniform, mature enough to survive and will inhibit erosion. 7. 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) Restabilization shall be in accordance with the above notes. 8. All applicable Federal, State and local regulations pertaining to working in or crossing a live watercourse shall be met. 9. Where construction vehicle access routes intersect paved public roads, provisions shall be made to minimize the transport of sediment by tracking onto the paved surface. Where sediment is transported onto a public road surface, the road 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 disposal area. 10. It shall be the owner's responsibility to inspect erosion control devices periodically and after every erodible rainfall. Any necessary repairs or clean up to maintain the effectiveness of the erosion control devices shall be made immediately. 1 1. Additional erosion control devices may be required by the county engineer or his designated agent if deemed necessary. 12. All erosion control devices shall be in place and functional at all times and if removed for construction progress, shall be replaced by the close of each workday. 13. Final removal of erosion control devices shall not occur until the county engineer or his designated agent deems the site stabilized. 14. Permanent seeding is to be in accordance with the accompanying seeding schedule. 15. All erosion and sediment control items shall be in accordance with the latest edition of the Erosion and Sediment Control Planning and Design Manual by the North Carolina Department of Environmental, Health and Natural Resources. 16. It shall be the developer's responsibility to inspect all erosion control devices periodically and after every erodible rainfall. Any necessary repairs or cleanup to maintain the effectiveness of the erosion control devices shall be made immediately. 17. No disturbed area will be denoted for more than 30 calendar days. 18. All erosion and siltation measures are to be placed prior to or as the first step in grading. 19. All storm and sanitary sewer lines not in streets are to be mulched and seeded within 15 days after backfill. No more than 500 feet are to be open at one time. 20. Electric power, telephone, and gas supply trenches are to be compacted, seeded and mulched within 15 days after backfill. 21, All temporary earth berms, diversions and silt dams are to be mulched and seeded for vegetative cover within 10 days after grading. Straw or hay mulched is required. The same applies to all soil stockpiles. 22. During construction, all storm sewer inlets will be protected by silt traps, maintained and modified as required by construction progress. TS TEMPORARY SEEDING PS PERMANENT SEEDING Seeding mixture Seeding mixture Speciesl Rate(lb/acre) Species Rate(lb/acre) Tall fescue 60 Rye (grain) 120 Kentucky bluegrass 10 Annual lespedeza (Kobe in Sericea lespedeza 15 Piedmont and Coastal Plain, Korean lespedeza 10 Korean in Mountains) 50 Seeding notes Omit annual lespedeza when duration of temporary cover is not to extend beyond June. 1. After Aug. 15, use unscarified sericea seed. 2. Where appearance is a consideration, omit sericea lespedeza and Seeding dates increase Korean lespedeza to 40 lb/acre. Mountains - Above 2500 ft: Feb. 15 - May 15 Below 2500 ft: Feb. 1 - May 1 Nurse plants Between May 1 and Aug. 15, add 10 lb/acre German millet or Piedmont - Jan. l -May 1 15 lb/acre Sudangrass. Prior to May 1 or after Aug. 15, Coastal Plain - Dec. I -Apr. 15 add 40 lb/acre rye (grain). Soil amendments Seeding dates Follow recommendations of soil tests or apply 2,0001b/acre Best Possible ground agricultural limestone and 750 lb/acre 10-10-10 fertilizer. Below 2500 ft: Aug. 15 - Sept I July 25 - Sept. 15 Mulch Mar. 1 - Apr. I Mar. l -May 10 Apply 4,000 lb/acre straw. Anchor straw by tacking with asphalt, Above 2500 ft. July 25 - Aug. 15 July 15 - Aug. 30 netting, or a mulch anchoring tool. A disk with blades set nearly Mar. 20 - Apr. 20 Mar. 5 - May 15 straight can be used as a mulch anchoring tool. Soil amendments Maintenance Apply lime and fertilizer according to soil tests, or apply 4,000 lb/acre Refertilize if growth is not fully adequate. Reseed, refertilize and mulch. ground agricultural limestone and 1,000 lb/acre 10-10-t0 fertilizer. immediately following erosion or other damage. Mulch NORTH NA EROSION AND SEDIMENT CONTROL Apply 4,000 lb/acre grain straw. Anchor straw by tacking with asphalt, REGULATIONS IONS MINIMUM STANDARD1 netting, or roving or by crimping with a mulch anchoring tool. A disk with blades set nearly straight can be used as a mulch anchoring tool. PERMANENT OR TEMPORARY SOIL STABILIZATION SHALL BE Maintenance APPLIED TO DENUDED AREAS WITHIN 7 DAYS AFTER FINAL GRADE Refertilize in the second year unless growth is fully adequate. IS REACHED ON ANY PORTION OF THE SITE. TEMPORARY SOIL May be mowed once or twice per year, but mowing is not necessary. STABILIZATION SHALL BE APPLIED WITHIN SEVEN DAYS TO DENUDED Reseed, fertilize, and mulch damaged areas immediately. AREAS THAT MAY NOT BE AT FINAL GRADE BUT WILL REMAIN DORMANT (UNDISTURBED) FOR LONGER THAN 30 DAYS. PERMANENT STABILIZATION SHALL BE APPLIED TO AREAS THAT ARE TO BE LEFT DORMANT FOR MORE THAN ONE YEAR. -V�C'n Z O H H > W ix Z (n TL Z r` O a- Y O W a_ CD N = O = rV � � I Z co Z ul U) 1C LU F- ]n W O Z Cc Z Q FW- Z w 0 Q O V V Z o w Z >- Q o > �: O Z Z 02 w 2� _ -ZGI�LL00 O aoZYQ -Z U w O p H W 2 0 1n 2_ o V = V o PROJECT NO.: 206023.02 SHEET: • N hec TRASH RACK �-- 2.5' #4 BARS 5" O.C. MAX. 2.9 q D. TOP VIEW NOT TO SCALE 4•-0" TOP RISER ELEV.. == 3.0 i QDIA. VARIES INV. = SEE TABLE THIS SHEET WATER QUALITY VOLUME DIA. VARIES LOW FLOW 0'-8" ORIFICE ELEV. = 1.0 } 0,$" FRONT ELEVATION N.T.S. OUTLET STRUCTURE DETAIL N.T.S. OUTLET CONTROL STRUCTURE LOW FLOW ORIFICE 10 YR. STORM ORIFICE OUTLET CONDUIT BMP # INV. DIA. (in) NO. INV. DIA. (in) NO. DIAMETER 1 1.0 2.5" 1 1.53 12" 2 24" 2 1.0 2.5" 2 1.29 12" 1 24" 3 1.0 2.5" 1 1.49 12" 2 30" 4 1.0 3.0" 1 1.33 12" 1 24" 5 1.0 3.0" 1 1.35 12" 2 30" 6 1.0 l 1.25" 1 1 i 1.60 T 8" 3 24" VARIES TO BMP 8" VEGETATED SHELF SEDIMENT FOREBAY # 57 STONE 3" THICK AT FACE OF LEVEL SPREADER OUTLET CONDUIT FLOW _ 6" MAX. 12" 3'-0" FILTER 311:1V / FABRIC MAXIMUM SLOPE a G. ° 3000 PSI 24" 12" CONCRETE GRASSED SWALE > ENTIRE LENGTH OF _ LEVEL SPREADER 2" - as #5 REBAR a : KEV AT 18"O.C. ° "e 16" COMPACTED SUBGRADE LEVEL SPREADER DETAIL NOT TO SCALE ,_ 10 YR STORM ELEV. = SEE TABLE THIS SHEET _ 7 WQ VOLUME N.W.S. ELEV. = SEE TABLE ELEV =1.0 THIS SHEET PERMANENT POOL 3 r SECTION A -A, B-B, C-C, D-D, E-E, F-F NOT TO SCALE POND ELEVATIONS BMP # N.W.S. ELEVATION WATER QUALITY VOLUME ELEVATION 10 YEAR STORM ELEVATION _ 1 1.0 1.55 2.98 2 1.0 1.29 2.47 3 1.0 1.49 3.04 4 1.0 1.33 2.59 5 1.0 1.35 2.76 6 1.0 1.60 3.01 RISER STRUCTURE TOP = 3.0 EMERGENCY SPILLWAY 10 ELEV.= 3.38 TOP OF DAM EMERGENCY ELEV.= 4.0 SPILLWAY DESIGN HIGH WATER= 2.38 -(10-YR. STORM ELEV.) MIN. 1.0' MIN. 0.5' 7370 C.F./ AC.rn (3600 REQ'D) ---- T " DRY " STORAGE l 3711 C.F./ AC. (3600 REQ'D) " WET " STORAGE TOE OF SLOPE ELEV.= -6.5 _ - _ -- SEDIMENT CLEANOUT POINT ELEV.= -6.20 4"%4" CONCRETE RISE 6" X 6" CONCRETE FOUNDATION _RISER CREST ELEV.= 3.0 ELEV.= 2.00 ORIFICE DIA.= 4" .. TUBING DIA.= 6" DEWATERING DEVICE 56 L.F. OF 24" CMP JOINT BETWEEN PVC RISER & PVC BARREL TO BE WATERTIGHT SEDIMENT BASIN (SB) General Notes ANTI -SEEP COLLAR EMBANKMENT TO BE STABILIZED WITH VEGETATION 1. All construction methods and materials shall conform to the current NC Department of Transportation Road and Bridge Standards and Road and Bridge Specifications, except where otherwise noted. 2. Materials, methods and procedures for "on -site" (as defined in note 6 below) sewer and water facilities shall be as per the National Plumbing Code of the Building Officials and Code Administrators (BOCA). Materials, methods and procedures for "on -site" (as defined in note 6 below) firefighting and fire suppression water facilities shall be as per the BOCA National Fire Prevention Code and the standards incorporated by reference in its Appendix A, and the Fire Protection Handbook of the National Fire Protection Association. 3. Measurement and payment for work shall be as provided for in the proposal and/or contract between the Owner/Developer and the Contractor. 4. These plans, upon which these notes appear, are a communication by the Owner or Developer, prepared by Resource Intl., describing to prospective bidders and, ultimately, to the Contractor, the location, nature and extent of work to be performed to construct the project. Copies of the approved plans, and of the current editions of the references in note 1 above, must be kept on the site at all times during construction. 5. Except where specifically otherwise noted in the contract between Owner and Contractor, Contractor shall, at his expense, obtain all permits and bonds, pay all fees and charges, and provide all labor, equipment, materials and supplies so as to accomplish the work described by these plans. 6. "On -site" work shall mean work not lying within the street right-of-way, or within any drainage or utility easement, of the County of Currituck. Except as expressly noted in other general notes or on the plans of which this sheet is part, on -site work shall be performed using the some materials and procedures, and to the some standards as work in public right-of-way o- easement, including the requirements for pressure and hydrostatic testing of water and sewer mains, respectively. In any case where a provision of the "design criteria" call for a determination concerning the work to be made by "the Engineer", or County or its authorized representative, or similar term, that term shall be replaced with "the Owner or his designated representative" in the case of on -site work where the County does not exercise jurisdiction. 7. "A Land Disturbing Permit" is required. Prior to construction within the right-of-way, the Contractor shall obtain a right-of-way permit from the NCDOT Department of Transportation. A traffic control plan shall be provided for review and approval. The Owner/Developer or their representatives shall provide an itemized cost of the work within the right-of-way. 8. Currituck County has strict provisions which require certifications by registered professionals. Unless the Contractor has expressly verified with the Owner that the Owner is arranging for these certifications to be made, the Contractor shall make arrangements with a Professional Engineer to perform such inspections and tests to be able to make the certifications. Resource Intl. will not make such certifications unless we have been retained in advance to do so and have made the necessary inspections. 9. The Contractor shall be responsible for replacing with matching materials any pavement, driveways, walks, curbs, etc. that must be cut or that are damaged during construction. 10. The information shown on these plans does not constitute any guarantee as to the existence, non-existence, size, type, location, alignment or depth of any or all underground utilities or other facilities. Where surface features (manholes, catch basins, valves, etc.) are unavailable or inconclusive, information shown may be from utility owner's records and/or electronic line tracing, the reliability of which is uncertain. The Contractor shall perform whatever test excavation or other investigation is necessary to verify tie-in inverts, locations and clearances, and shall report immediately any discrepancies to Resource Intl. at (757) 873-7711. Utility companies shall be notified 48 hours in advance of any excavation in the proximity of their utilities. The Contractor shall be responsible for repairing ct his expense any existing utilities damaged during construction. 11, Elevations as shown hereon are in feet and are based on National Geodetic Vertical Datum unless otherwise noted. The Developer shall be responsible for the correction and/or resolution of all conflicts between in -place utilities and all improvements called for by this site plan, both on the site and in all County and or state rights -of -way to the front, side and/or rear of the site. 12. The Contractor shall be required to excavate below plan grade any materials which are unsuitable for foundations, subgrades, or other roadway purposes and backfill these areas with an approved material. The extent of undercutting and backfilling shall be determined by a County Inspector and/or a Geotechnical Engineer employed by the Owner. 13. Clearing and grubbing shall be performed to limits shown on these plans; Where no clearing limit is shown, clear to 10' outside of limits of roadway/pavement construction, pipe trenches, and similar site improvements, and 20' outside limits of building constriction not to exceed the property line. Existing trees that are to be retained after construction shall be protected during construction. 14. Traffic and lane markings for on -site work shall be traffic paint ("Type A Markings") as set forth in NCDOT Road and Bridge Specifications; Colors shall be blue for handicapped parking; Yellow to delineate drive aisles and fire lanes on curbs and pavements, and white elsewhere. Parking space lines and other lines if not otherwise noted, shall be 4" wide white lane striping. 15. In the absence of slope or grade information, the following minimum standards shall apply: On -site sanitary sewers, 4" and 6' 1.04%, 8", 0.527 Sanitary sewers in easement or right-of-way. 4", 1,07, 6", 0.63 7, 8", 0.4% Curb & gutter or valley gutter, 0.25%. Asphalt concrete pavement, 0.5% longitudinally in swales: 1.0% cross -slope. Portland cement concrete pavement, 0.3% longitudinally in swales: 0.5% cross -slope. Storm sewers, less than 24", 0.25% 24" and over, 0.15% 16. In the absence of slope or grade information, the following maximum standards shall apply: Vehicular pavement, 2.0% longitudinally or cross -slope. Pedestrian areas (sidewalks): 2% longitudinally, 2.0% cross -slope, or compliance with Americans with Disabilities Act, whichever is flatter. 17. All drainage structures inverts shall be shaped per North carolina Department of Transportation standards. 18. Storm sewer pipes as shown on the plan view ore measured from the centerline of each structure. Invert elevations are established based on this centerline distance. Length callouts for pipes with flared end sections will be measured to the joint. Contractors shall locate all end sections to match the bank with lengths adjusted as necessary and the pipe slope shall remain as per the plan. 19. All storm sewer pipes shall be reinforced concrete tongue and groove conforming to ASTM C-76. Concrete pipes subject to traffic load and all pipes within street right-of-way shall be Class III. Concrete pipe joints shall be sealed with a ring of mastic -type material such as RAM-NEK, RUBR-NEK or BUTYL-T1TE, installed per manufacturer's recommendations, and conforming to ASTM C-76. Clearance of 12" between storm and other utilities is required unless otherwise noted. 20. Curb & gutters shall be constructed in sections of uniform lengths, approximately 10 feet, as necessary to form closures. Expansion joints shall be formed ct intervals of approximately 120 feet using 5/8" premolded bituminous fiber joint filler. 21. On -site exterior concrete is to be a minimum of 3000 P.S.I. with five to seven percent air entrainment. 22. Unless the plans specify another material, all sanitary sewer gravity lines shall be DI Pipe, Max. SDR of 26, ASTM D-3034 or ABS composite pipe with solvent cemented joints. PVC joints shall conform to ASTM D-3212-73-T, "Joints for Drain & Sewer Plastic Pipes ising Flexible Elastomeric Seals." 23. Sub -surface utility warning tape as manufactured by the Griffolyn Company or equal shall be placed at an elevation not less than 6-inches nor more than 12-inches below the proposed finished grade above non-conductive sewer, water and sewer force mains in public rights -of -way or easements. The tape shall be of a durable, metalized, plastic film similar to "Terra Tape D" for identification by Electronic Pipe Locating Device as well as visual identification. The tape for sewer force main line shall be bright green with the following imprinted legend "Caution - Sewer Line Below." The tape for waterlines shall be bright blue with the following imprinted legend "Caution - Water Line Below." 24. For water, storm & sanitary lines laid on curves, deflections shall not exceed manufacturer's recommendations. 25. A minimum vertical separation of 18" shall be maintained between sanitary sewer & water lines and a full joint of water line pipe shall be centered on crossing where water line crosses over sanitary sewer. Where clearance is less than 18" but greater than 12", sanitary sewer shall be pressure tested ductile iron pipe 10' from watermain. When water line crosses under sanitary sewer, 18" minimum clearance must be maintained, and sanitary sewer shall be pressure tested ductile iron pipe 10' from watermain. 26. All water & force mains shall be ductile iron, all fdtings and cast or ductile iron pipe shall be cement lined cast or ductile iron class 150/22 and manufactured in accordance with AWWA C106 (pipe) and ANSI 21.10 (fittings) except where otherwise noted. Water and sewer force mains shall be laid with a minimum cover of 36 inches. 27. All utilities to serve this site shall be placed underground. 28. Private and public utility relocations shall be performed by the Owner's Contractor, under County inspection, at the Owners expense. 29. The property Owner is responsible for the maintenance of all site improvements (other than those expressly noted as to be conveyed to the County), including landscaping, as shown on the approved site plan. 30. The Contractor shall be responsible for installing or replacing all required pavement markings within the right-of-way, as noted on these plans. 6 Z H H LU W Ix In Z (n O U Y O 0 _ N S O I W CO Z W NZ N Q W E- a o v a Z NJ li U W = H W Z a V 0 W Z W Z LLJ Y Z 0 O O O J Z p U V LL. W C) O V Z 2 O p U2I_U PROJECT NO.: 206023.02 cljLCT. W f- O z J Q W Z LLJ C� Z Q (n J Q W 0 W Q O D-2 VARIES DEPENDING ON DEPTH IF 0 U 1 < 114' PER FOOT CHIP & SEAL SURFACE < 114" PER FOOT CHIP & SEAL SURFACE z w a 0 w ww w z J w r z w U 100' RIGHT OF WAY 80'PAVEMENT - 36• V MEDIAN PAVED SURFACE I < 1/4" PER FOOT 12"-18"AGGREGATE BA I'MIN. EDGE OF BASE 36' PAVED SUR 2"(MIN) TYPE SF 9.5A ASPHALT 1/4'> PER FOOT CHIP & SEAL SURFACE EXISTING J GRADE APPROXIMATE LOCATION OF PROPOSED WATERLINE TYPICAL STREET CROSS - SECTION A MAIN ENTRANCE OFF RT 168 SCALE:NTS r z w a J a ¢ LL O wz w o w U 70' RIGHT OF WAY 48'PAVEMENT 24 DRIVABLE SURFACE < 1/4" PER 12"-18" AGGRI BASE V MIN. EDGE OF BASE 24' DRIVABLE SL 2'(MIN) TYPE SF 9.5A ASPHALT TYPICAL STREET CROSS - SECTION B SCALE: NTS 35' — W a z Cx7r yz J O r w W r wa z w U 1.5 MIN., 9'PAVEMENT 24'PAVEMENT m w 0 0 O < 1/4" PER FOOT GRAVEL PAVEMENT ELEV = 7.0 12" GRAVEL BASE g,h S1-�E 24" SUITABLE FILL i' MIN. MATERIAL (CBR 15) X X X— = 4.0 ELEV GEO MAT FABRIC 12"-18" VDOT TYPE 1 #21 BAGGREGATE WATER TOWER ACCESS ROAD DEATIL SCALE:NTS Q 3 0 w > S S w _z d J > 2 K 10 ¢ O F o LLo W r LL O o o 7 O W O K J U = Vj 0 W U O W 2 fq WIDTH VARIES 6 100' RIGHT OF WAY 6 DEPENDING I SHOULDER 7Y PAVEMENT SHOULDER ON DEPTH 25' 20' MEDIAN 26 DRIVABLE SURFACE DRIVABLE SURFACE UI r < 114" 2" (MIN) V4"> -' PER FOOT TYPE SF PER FOOT O CHIP & SEAL 9.5A ASPHALT CHIP & 3'1 SCOP SURFACE < 1 /4" PER FOOT SURFACE F g_h SLOPE 31`SCOpF 3 1 S OPE CppF 315� 1 -- AGGREGATE BASE I'MIN. I EDGE OF BASE TYPICAL STREET CROSS - SECTION C SCALE: NTS Q �i z z O g 2 F x Q 3 w w a z w > 0 o O O U o LL a 0 J U r = r j O O w z 0 w K U fxq W O O w OS O 1r 100' RIGHT OF WAY it cunsn nco 70'PAVEMENT IT 6 12' DRIVABLE 1/4"> SURFACE PER FOOT CHIP & SEAL PER FOOT SURFACE 3 I CHIP & SEAL < 114" PER FOOT ff 1'S/ q h St' SURFACE W a 0Z LL W O o> wa 1.5 9' PAVEMENT MIN. W 0 J 7 C] V) LEV = 7.0 3.1 SC�F V MIN. X X- ELEV = 4.0 BASE I'MIN. EDGE OF BASE 25' .,.,..�..�. DRIVABLE SURFACE 2' (MIN) TYPE SF PER F OT 9.5A ASPHALT CHIP g EAL SURFACE TYPICAL STREET CROSS - SECTION C SCALE:NTS it 3: 7 N Z H N LU U7 Z_ In Y Z 0 O � Y O O LW N = O � = N w Z Z w Q Lu W iIC a z J H 0 W �' Q SW L d Z LLI Z V V = o Wz >- 0 c, F— u U O Z M O < O U Q � C2TVF-Y c = UN 0 m li U PROJECT NO.: 206023.02 SHEET: D-3 �! 1 r 1p I��• : '', I '1 , v. �. I ti� ,. .. e . t"1 Ir � �I11i ��li ..I : Ir� .. 1 0 S K 0 0 _U' It 1.5 ELEV = 4.0 12' 12' z w w ° 0 O a N W w z J K z W U 100' RIGHT OF WAY - 80' PAVEMENT 8' MEDIAN 36' DRIVIABLE SL < 114' 2" (MIN) PER FOOT TYPE SF CHIP & SEAL < 1/4" PER FOOT 9.5A ASPHALT SURFACE 12"-18"AGGREGATE 1' MIN. EDGE OF BASE TYPICAL STREET CROSS - SECTION A MAIN ENTRANCE OFF RT 168 SCALE: NTS z W w W a z J w 0 w O z w rn w U 70' RIGHT OF WAY 61 SHOULDER 48'PAVEMENT 24' 24' DRIVIABLE SURFACE DRIVIABLE SL PERFOOT A TYPE SF & SEAL 9.5A ASPHALT CHIP < 1/4" PER FOOT 12"-18" AGGRE BASE V MIN. EDGE OF BASE TYPICAL STREET CROSS - SECTIONB SCALE: NTS 35' — J QW KILI o Z J g w Ww F wa w U 9'PAVEMENT 24'PAVEMENT w O x ELEV = 7.0 < 1/4" PER FOOT GRAVEL PAVEMENT 12" GRAVEL BASE 3.1 SVOP@ 24" SUITABLE FILL 1' MIN'. MATERIAL (CBR 15) X X X— GEO MAT FABRIC 12"-18" VDOT TYPE 1 #21 B AGGREGATE WATER TOWER ACCESS ROAD DEATIL SCALE:NTS 1/4" > PER FOOT CHIP & SEAL SURFACE R & 9'PAVEMENT LEV = 7.0 3;7 S�oFt -I 1' MIN. 12' 1.5 ELEV = 4.0 0 0 F 0 a , = 3 x w L7 O F K F- O ° O � U y 12' z Lu Z Q K Q w x 0 0 j Z wO w U w N U 100' RIGHT OF WAY SHOULDER 70'PAVEMENT SHOULDER 12 25' 20' MEDIAN 25' DRIVIABLE SURFACE DRIVIABLE SURFACE < 1/4" 2" (MIN) PER FOOT TYPE SF CH PFOOT CHIP & SEAL 9.5A ASPHALT & SEAL SURFACE < 1/4" PER FOOT SURFACE AGGREGATE BASE I'MIN. EDGE OF BASE TYPICAL STREET CROSS - SECTION C SCALE: NTS w Q 3 K 0 �_ 0 0 x C7 ° O w K U w 8 12' DRIVIABLE SURFACE < 1/4" PER FOOT CHIP & SEAL < 1/4" PER FOOT SURFACE — 12"-1E! AGGF BASE 1' MIN. EDGE OF BASE z W w w It a w x zW 0Lu 0 O U w vi U 100' RIGHT OF WAY - 70' PAVEMENT 8' 12' 25' DRIVIABLE SURFACE _.....,_.,_.. 2" (MIN) TYPE SF PER F 9.SA ASPHALT CHIP SEAL SURFACE 3� TYPICAL STREET CROSS - SECTION C SCALE: NTS z W w x w na ° 0 0 0 U y w - VARIES 4 SHOULDER 24' DRIVIABLE SURFACE < V4" PER FOOT CHIP & SEAL < 1/4" PER f00T ZIM/ SURFACE i/OF S o" 4 M — — 12.18" _ = AGGREGATE — — BASE 1' MIN. EDGE OF B1SE PHASE I ROADWAY DESIGN SCALE: NTS 114 �^ a z o � CO LD z ~sr- 0 ti+ V) I O z co t` Lo W EF .�. ���`y1:1iIliD97?j9 9 4 e A Lf1 z 0 H W 0' U7 Z V) Y d Z Y O O O = W w a- O c4 I _ • 0 O p Zro Z � Lu w I 0 FW- 0 0 � INC Q Z J F- O W ~ Z Q LLI Y C,) cl) JOWQI- W Z >- L) L S (n LLJC) Z cn tL 0 of U V C Z M O < o W U p Y 0 V''RR = 1.� U PROJECT NO.: 206023.02 SHEET: