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SW8160306_Approved Plans_20200707
LOCATION MAP MATCHLINE THIS SHEET NOT TO SCALE PLANNED EROSION AND SEDIMENT CONTROL PRACTICES - CE I. TEMPORARY GRAVEL CONSIRUC71ON ENTRANCE Practice 6.06 SHALL BE INSTALLED AT THE ENTRANCES TO THE PROJECT FROM AN EXISTING ROADWAY. DRAINAGE SHOULD BE AWAY FROM THE ROAD AND EROSION WILL BE CONTROLLED W11H DOWNSTREAM PRACTICES DURING WET WEATHER IT MAY BE NECESSARY 10 WASH TRUCK TIRES AT THESE LOCATIONS. 2 LAND GRADING Practice 6.02 GRADING SHOULD BE LIMITED TO AREAS AS SHOWN ON THE PLANS CUT AND FILL SLOPES SHALL BE 3:1 OR FLATTER EXCEPT WHERE SPECIFICALLY INDICATED. CARE SHALL BE TAKEN DURING LAND GRADING ACTIVITIES NOT TO DAMAGE EXISTING TREES THAT ARE IDENTIFIED AS 'TO BE PRESERVED' SF J. SEDIMENT FENCE Practice 6.62 SEDIMENT FENCING SHOULD BE INSTALLED AS SHOWN ON THE PLAN, TO DELINEATE AND PROTECT WETLANDS AND SPECIFIED AREAS, AND AROUND ANY TEMPORARY STOCKPILE AREAS AS NECESSARY TO PREVENT ANY GRADED INTERIOR AREAS FROM ERODING ONTO ADJACENT LANDS OR ROADWAY, OR INTO INLETS OR AS DIRECTED BY ENGINEER OR NEW HANOVER COUNTY ER09ON CONTROL PERSONNEL GC 4. GRASS -LINED CHANNELS PRACTICE 6.30 ALL OVERFLOW SWALES TO BE CRADED TO DESIGN CONFTGURA110N,LINED WITH CENTIPEDE SOD, TO COLLECT AND CONVEY SIZE WATER AS SHOWN ON PLAN. AFTER FINAL PROJECT STABILIZATION, SWALES TO BE RE -GRADED, CLEANED OF SILTATION AND LINED WITH CENTIPEDE SOD TO ESTABLISH ORIGINAL DESIGN CONTOURS FOR STORMWATER CONVEYANCE 5. CONSTRUCTION ROAD STABILIZATION PRACTICE 6.80 UPON REACHING FINAL GRADE AND AFTER U71LI71ES HAVE BEEN INSTALLED, ROADWAYIPARKING AREAS ARE TO BE STABILIZED BY PLACING SUB -BASE AS SHOWN IN THE TYPICAL STREET CROSS-SEC110N DETAIL ON THE PLAN, TO REDUCE EROSION AND DUST DURING THE REMAINDER OF BUILDING CONSTRUCTION. SB 6. SEDIMENT BASIN PRACTICE 6.61 THE SEDIMENT BASIN IS TO BE CONSTRUCTED FIRST (SEE COIVSIRUC71ON SCHEDULE) AND IS THE PRIMARY PRACTICE TO PREVENT SEDIMENT FROM LEAVING 114E SITE DETAILED DESIGN AND SPILLWAY CONFIGURATIONS ARE SPECIFIED IN THE DETAIL SHEET. SK 7. SKIMMER PRACTICE 6.64 A SEDIMENTATION BASIN DEWAIERING CONTROL DEVICE THAT WITHDRAWS WATER FROM THE BASINS WATER SURFACE, THUS REMOVING THE HIGHEST QUALITY WATER FOR DELIVERY TO THE UNCONTROLLED ENVIRONMENT. TD 8. TEMPORARY DIVERSIONS PRACTICE 6.20 A TEMPORARY RIDGE OR EXCAVATED CHANNEL OR COMBINATION RIDGE AND CHANNEL CONSTRUCTED ACROSS SLOPING LAND ON A PRE- DETERMINED GRADE TO PROTECT WORK AREAS FROM UPSLOPE RUNOFF AND TO DIVERT SEDIMENT -LADEN WATER TO APPROPRIATE TRAPS OR STABLE OUTLETS. B F 9. BAFFLE PRACTICE 6.65 A POROUR BARRIER INSTALLED INSIDE A TEMPORARY SEDIMENT TRAP, SKIMMER BASIN OR SEDIMENT BASIN TO REDUCE THE VELOCITY AND TURBULENCE OF WATER FLOWING THROUGH THE MEASURE AND TO FACILITATE THE SETTLING OF SEDIMENT FROM WATER BEFORE DISCHARGE. OP 10. OU71ET STABILIZATION PRACTICE 6.41 RIPRAP APRONS WILL BE LOCATED AT THE DOWNSTREAM END OF ALL DISCHARGE PIPES TO PREVENT SCOUR TP 11. TREE PROTECTION PRACTICE 6.05 RESTRICT ACCESS TO TPZ WITH TALL BRIGHT PROTECTIVE FENCING ON AREAS INDICATED ON PLAN. LEGEND - - EXISTING BOUNDARY PHASE LINE J r / , NO WETLANDS DETERMINA TION -- EXISTING CULVERT GE CONSTRUCTION ENTRANCE SF X X SILT FENCE PROPOSED CUL VER T TD 1D-1 �► TEMPORARY DIVERSION BF BAFFLES OP OUTLET PROTECTION NOTE WELL: 1. SOIL STABILIZATION TIMEFRAMES SITE AREA DESCRIPTION STABILIZATION 71MEFRAME EXCEPTIONS PERIMETER DIKESSWALES 7 DAYS NONE DITCHES AND SLOPES HIGH QUALITY ZONES HQW 7 DAYS NONE SLOPES STEEPER THAN 3.•1 7 DAYS IF SLOPES ARE 10 FT OR LESS IN LENGTH AND ARE ARE NOT STEEPER THAN 21, 14 DAYS ARE ALLOWED SLOPES 3.'1 OR FLATTER 14 DAYS 7 DAYS FOR SLOPES GREATER THAN 50 FT 1N LENGTH ALL OTHER AREAS WITH SLOPES 14 DAIS NONE, EXCEPT FOR PERIMETER AND FLATTER THAN 4.1 HQW ZONES 2. DENUDED AREAS MUST BE STABILIZED WITHIN FIFTEEN (15) WORKING DAYS OF CEASE OF ANY PHASE OF ACTIVITY. ALL SLOPES MUST BE STABILIZED WITHIN TWENTY-ONE (21) CALENDAR DAYS OF CEASE OF ANY PHASE OF ACTIVITY. THIS INCLUDES SLOPES, SWALES, CHANNELS AND STOCKPILES 3. THIS PLAN TO BE UTILIZED AND REVIEWED ONLY IN CONJUNCIION WITH THE WRITTEN NARRATIVE; WHICH IS AN INTEGRAL PART OF THIS EROSION AND SEDIMENT CONTROL PLAN. 4. ALL SLOPES SHALL BE 3:1 OR FLATTER. 5. 2.42 ACRES OF WETLANDS ON SITE 6. BOUNDARY SURVEY PERFORMED BY SOUIHWIND SURVEYING 7. TOPOGRAPHIC SURVEY PERFORMED BY CAROLINA RESOURCES MAPPING WITH SUPPLEMENTARY TOPOGRAPHIC INFORMATION PERFORMED BY BASELINE SURVEYING 8. ELEVATION DATUM. NAVD 88 9. ALL SWALES TO BE LINED WITH EXCELSIOR MATTING OR EQUAL 10. ALL EXISTING CULVERTS TO BE REMOVED EXCEPT FOR SHl-SH3. It. LOTS 154-196 WILL ONLY BE FAR ROUGH GRADING NO FINAL ROAD DESIGN HAS BEEN COMPLETED. ONCE DESIGN IS FINALIZED A REVISION TO THE EROSION CONTROL PERMIT WILL BE SUBMITTED FOR APPROVAL 12 DEVELOPER/HOA ARE RESPONSIBLE FOR MAINTENANCE OF THE STORMWAIER SYSTEM. MANASSAS DRiv PROPERTY OWNER CERTIFICATION: "I HEREBY CERTIFY THAT AM THE CURRENT OWNER OF THE PROPERTY AND THAT UPON RECEIPT OF "AUTHORIZATION -TO-CONSTRUCT"ANY CLEARING, GRADING, CONSTRUCTION OR DEVELOPMENT, WILL BE PERFORMED IN ACCORDANCE WITH THIS PLAN AND THAT THE APPLICABLE ORDINANCES AND RULES OF NEW HANOVER COUNTY, THE STATE OF NORTH CAROLINA AND THE FEDERAL GOVERNMENT AND ITS AGENCIES WHICH ARE HEREBY MADE PART OF THIS PLAN. AS THE OWNER, I ACCEPT FULL RESPONSIBILITY FOR THE CONSTRUCTION AND OPERATION AND MAINTENANCE OF THE PROPOSED FACILITIES. I WILL NOT ATTEMPT TO TRANSFER THIS RESPONSIBILITY WITHOUT THE WRITTEN AUTHORIZATION OF NEW HANOVER COUNTY. SIGNATURE: PRINTED NAME AND TITLE: DATE: DESIGNER'S PLAN CERTIFICATION: "I HEREBY CERTIFY THAT THIS PLAN HAS BEEN PREPARED IN ACCORDANCE WITH THE LATEST NEW HANOVER COUNTY ORDINANCES AND STORMWATER DESIGN MANUAL." SIGNATURE: PRINTED NAME AND TITLE: DATE: REGISTRATION NUMBER: CONSTRUCTION SCHEDULE - I. OBTAIN APPROVAL OF PLAN AND ANY NECESSARY PERMITS AND HOLD A PRE -CONSTRUCTION CONFERENCE PRIOR TO COMMENCING ANY WORK. 2. FLAG WORK LIMITS AND STAKE -OUT ROW, TEMPORARY DIVERSIONS AND SED. BASINS FOR PRELIMINARY GRADING. 3 INSTALL GRAVEL CONSTRUCTION ENTRANCES 4. INSTALL SILT FENCING PRIOR TO ROUGH GRADING THE REMAINING SITE AND ANY STOCKPILING OF MATERIAL AND TOPSOIL NECESSARY. 5 CONSTRUCT SWALES GRASS LINED CHANNELS, SEDIMENT BASINS AND ANY OTHER SEDIMENT CONTROL PRACTICES SHOWN, PRIOR TO ROUGH GRADING ROADWAYS AND SITE, S70CKPIUNG TOPSOIL AS NECESSARY. 6. UNDER CUT ROW FOR SWEETGUM DRIVE AND CANOPY WAY SO LOIS WILL DRAIN TO ROW AND SWALES 7. ESTABLISH ROUGH ROAD GRADES AND STABILIZE ROAD WITH TEMPORARY OR PERMANENT SEEDING 8. ALL EROSION AND SEDIMENT CONTROL PRACTICES ARE TO BE INSPECTED WEEKLY AND AFTER ANY RAINFALL, AND REPAIRED AS NECESSARY. 9. SUBMITTAL AND APPROVAL OF A FINAL DESIGN PLAN IS REQUIRED BEFORE ANY IMPERVIOUS MATERIAL CAN BE INSTALLED. MAINTENANCE PLAN - (GENERAL NOTES, NOT ALL ITEMS ARE APPLICABLE TO THIS PROECT) I. ALL EROSION AND SEDIMENT CONTROL MEASURES WILL BE CHECKED FOR STABILITY AND OPERATION FOLLOW►NG EVERY RUNOFF -PRODUCING RAINFALL, BUT IN NO CASE, LESS THAN ONCE EVERY WEEK AND WANING 24 HOURS OF EVERY 0.5' RAINFALL. 2. ALL POINTS OF EGRESS WILL HAVE CONSTRUCTION ENTRANCES THAT WILL PERIODICALLY TOP -DRESS WITH AND ADDITIONAL 2 INCHES OF 14 STONE 10 MAINTAIN PROPER DEPTH THEY WILL BE MAINTAINED IN A CONDITION TO PREVENT MUD OR SEDIMENT FROM LEAVING THE SITE IMMEDIATELY REMOVE OBJECTIONABLE MATERIAL SPILLED, WASHED OR TRACKED ONTO THE CONSTRUCTION ENTRANCE OR ROADWAYS J. SEDIMENT WILL BE REMOVED FROM HARDWARE CLOTH AND GRAVEL INLET PROTECTION, BLOCK AND GRAVEL INLET PROTECTION, ROCK DOUGHNUT INLET PROTECTION AND ROCK PIPE INLET PROTECTION WHEN THE DESIGNED STORAGE CAPACITY HAS BEEN HALF FILLED WITH SEDIMENT. ROCK W►LL BE CLEANED OR REPLACED WHEN THE SEDIMENT POOL NO LONGER DRAINS AS DESIGNED. DEBRIS WILL BE REMOVED THE ROCK AND HARDWARE CLOTH TO ALLOW PROPER DRAINAGE. SILT SACKS WILL BE EMPTIED ONCE A REEK AND AFTER EVERY RAIN EVENT. SEDIMENT WILL BE REMOVED FROM AROUND WATTLES BEAVER DAMS DANDY SACKS AND SOCKS ONCE A WEEK AND AFTER RAIN EVENT. 4. DIVERSION DITCHES WILL BE CLEANED OUT IMMEDIATELY TO REMOVE SEDIMENT OR OBSTRUCTIONS FROM THE FLOW AREA. THE DIVERSION RIDGES WILL ALSO BE REPAIRED. SWALES MUST BE TEMPORARILY STABILIZED WITHIN 21 CALENDAR DAYS OF CEASE OF ANY PHASE OF ACTIVITY ASSOCIATED WITH A SWALE. 5 SEDIMENT WILL BE REMOVED FROM BEHIND THE SEDIMENT FENCE WHEN IT BECOMES HALF FILLED. THE SEDIMENT FENCE WILL BE REPAIRED AS NECESSARY TO MAINTAIN A BARRIER. STAKES MUST BE STEEL. STAKE SPACING WILL BE 6 FEET MAY, WITH THE USE OF EXTRA STRENGTH FABRIC, IMTHOUT WIRE BACKING STAKE SPACING WILL BE 8 FEET MAX, WHEN STANDARD STRENGTH FABRIC AND WIRE BACKING ARE USED. IF ROCK FILTERS ARE DESIGNED AT LOW POINTS IN THE SEDIMENT FENCE THE ROCK WILL BE REPAIRED OR REPLACED IF IT BECOMES HALF FULL OF SEDIMENT, NO LONGER DRAINS AS DESIGNED OR IS DAMAGED. 6. SEDIMENT WILL BE REMOVED FROM SEDIMENT TRAPS WHEN THE DESIGNED STORAGE CAPACITY HAS BEEN HALF FILLED WITH SEDIMENT. 114E ROCK WILL BE CLEANED OR REPLACED WHEN THE SEDIMENT POOL NO LONGER DRAINS OR WHEN THE ROCK IS DISLODGED. BAFFLES WILL BE REPAIRED OR REPLACED IF THE COLLAPSE, TEAR, DECOMPOSE OR BECOME INEFFEC71VE THEY WILL BE REPLACED PROMPTLY. SEDIMENT WILL BE REMOVED WHEN DEPOSITS REACH HALF THE HEIGHT OF THE THE 1ST BAFFLE. 7. SEDIMENT WILL BE REMOVED FROM THE SEDIMENT BASIN WHEN THE DESIGN STORAGE CAPACITY HAS BEEN HALF FILLED WIIH SEDIMENT. ROCK WILL BE CLEANED OR REPLACED WHEN THE SEDIMENT POOL NO LONGER DRAINS OR THE ROCK IS DISLODGED. BAFFLES WILL BE REPAIRED OR REPLACED IF THEY COLLAPSE, TEAR, DECOMPOSE, OR BECOME INEFFECTIVE THEY WILL BE REPLACED PROMPTLY. SEDIMENT WILL BE REMOVED FROM BAFFLES WHEN DEPOSITS REACH HALF THE HEIGHT OF THE THE 1ST BAFFLE. FLOATING SKIMMERS WILL BE INSPECTED WEEKLY AND WILL BE KEPT CLEAN. 8. ALL SEEDED AREAS WILL BE FERTILIZED, RESEEDED AS NECESSARY AND MULCHED ACCORDING TO THE SPECIFICATIONS IN THE VEOETAINE PLAN TO MAINTAIN A VIGOROUS DENSE VEGETATIVE COVER, ALL SLOPES WILL BE STABILIZED WITHIN 21 CALENDAR DAYS ALL OTHER AREAS WILL BE STABILIZED WITH 15 WORKING DAYS 9• FLOCCULANTS WILL BE USED TO ADDRESS TURBIDITY ISSUES THE PUMPS, TANKS, HOSES AND INFECTION SYSTEMS WILL BE CHECKED FOR PROBLEMS OR TURBID DISCHARGES DAILY. 10. ALL SCM'S IMPACTED BY SMMENTA17ON AND EROSION CONTROL DURING THE CONSTRUCTION PHASE SHALL BE CLEANED OUT AND CONVERTED TO ITS APPROVED DESIGN STATE. VEGETATIVE PLAN - 1. PERMANENT VEGETATION TO BE ESTABLISHED IN ACCORDANCE WITH 'NORTH CAROLINA EROSION AND SEDIMENT CONTROL PLANNING AND DESIGN MANUAL, SECTION 6.11, LATEST VERSION DRIPLINE PROTECTIV BARRIETi G TREE 3' MIN. STAKE -HEIGHT ABOVE GRADE y NOTE_• TREES TO BE SAVED WWLL BE CLEARLY MARKED PRIOR TO CONSTRUCTION AND A PROTECTIVE BARRIER IS TO BE INSTALLED AT THE DRIPLINE. DRIP LINE - THE AREA OF SOIL DIRECTLY BENEATH THE TREE EXTENDING OUT TO THE TIPS OF THE OUTERMOST BRANCHES. io SD 15-08 NOT TO SCALE APPROVED N" CMIDI MW EWIRONMENT& MANAGrG11iE T GOMMSION brvz- ?/7/00 0 '5w$ Gov& MAR j LICENSE # C-2710 ENGINEERING LAND PLANNING COMMERCIAL / RESIDEN P.O. BOX 4041 WLMINGTON, NC 28406 (910) 791-4441 Q CL Lu O � Q Z 3 O co rn U � d� J p N C ) co p?Z n LAJ N I pU o W O DA TE.• 12-17-15 HORZ. SCALE. 1' = 200' VERT. SCALE. N/A DRAWN BY- RL W CHECKED BY.• HSR PROJECT NO.: 06-0134 EC1Sw EC12 Sheet No. Of MATCH LNE SEE SHEET EC4 SILT FENCE W1 WfRE BACKING (STAKE SPACING- 3 FT ON CENTER) TEMP EARTHEN BERM 2 FEET MIN TOP AREA 10 3o SETTLEMENT 20 FT MIN WIDTH GENERAL NOTES FOR TEMP. PLUG DETAIL 1. BUILD RIDGE HIGHER THAN DESIGN AND COMPACT WITH KNEELS OF O*STRUCT7ON EQUIPMENT. COMPACTED RIDGE MUST BE AT OR ABOVE DESIGN GRADE AT ALL POINTS. 2, LEAVE SUFFICIENT AREA TO PFRMIT CLEAN OUT AND REGARDING. 3. CONSTRUCT SILT FENCT ON DOWNSTREAM SIDE OF BERM. 4. MIN. PLUG LE14GTH OF 25' TO PREVENT BLOWOUT. 5. imgEDIATELY AVERT WATER AWAY FROM PLUGS TO APPROPRIATE DE'NCES TO PpcVENT PLUG BLOWOUT 6. EX?S71NG DITCH TO BE FILLED IMMEDIATELY N TS LEGEND --- EXISTING BOUNDARY '7-- NO WETLANDS DETERMINATION EXISTING CULVERT 0® CONSTRUCTION ENTRANCE SF X x SILT FENCE PROPOSED CULVERT Tp TEMPORARY DIVERSION BAFFLES ����������� • 22• i LICENSE / C-2710 ENGINEERING LAND PLANNING COMMERCIAL / RESIDEN P.O. BOX 4041 t49LMINGTON, NC 28406 (910) 791-4441 0 ..,I CL U � o�c tU � U OZ o zo O CL F-- W CO.� Z O C) o w � oz ®� 4 SS io `�fe SEAL 025483 " l� a m � g 4 a � w � z O W DA TE. 12-17---15 HORZ. SCALE. 1' = 100' VERT: SCALE. • N/A DRAWN BY- RL W CHECKED B Y HSR PROJECT NO.: 06-0134 50 25 fJ 50 100 150 SCALE 1N FEET. 1'= 50' MAIGn LUX Xt Jflttl tW EC2 EC12 Sheet No. Of i i' `r. i t �j r i 1 i MA TCH VE SEE SHEET EC2 LEGEND ---- EXISTING BOUNDARY PHASE LINE / NO WETLANDS DETERMINATION ✓_'lam EXISTING CULVERT !GE = CONSTRUCTION ENTRANCE SF' X X SILT FENCE PROPOSED CULVERT TOD PD-11--f TEMPORARY DIVERSION BAFFLES OUTLET PROTECRZ Cmo*SD ENGINEERING LICENSE # C-2710 ENGINEERING LAND PLANNING COMMERCIAL / RESIDEN P.O. BOX 4041 WiLMINGTON, NC 28406 (910) 791-4441 Q z 4 _� �U o� �° z Q zz CL w .L Qa o Q �or w (Q) Zo Q tiz � 4 OZ � O p N SOU C ) a?z � cj�rt o Lo o� 0) W O p �/ CL SEAL ; • 025483 DA TE.• 12-17-15 HORZ. SCALE. • 14 = 100' VERT. SCALE. N/A DRAWN BY- RL W CHECKED B K HSR PROJECT NO.: 06-01J4 El 50 25 0 50 100 150 SCALE IN FEET: 1 "= 50' EC3Sw EC�2 Sheet No. Of DISTURBANCE SUMMA R Y 1 " = 1,000, 1,000 500 0 1,000 2, 000 3,000 SCALE IN FEET.- 1 "= 1,000' rUCOLlU MUHU 6" MINIMUM THICKNESS 2"-3" COARSE AGGREGA TE LEGEND — EXISTING BOUNDARY PHASE LINE NO WETLANDS DETERMINATION -- EXISTING CULVERT -E CONSTRUCTION ENTRANCE DX X SILT FENCE PROPOSED CULVERT TD-1 TEMPORARY DIVERSION Dom— BAFFLES DMOUTLET PROTECTION COMPACTED FILL OR GRAVEL, EXTENSION OF FABRIC AND WIRE INTO THE TRENCH FIL TER FABRIC BACKFILL MINIMUM 8" 'lowwww 24 j ��I�.�j�Ol�ij�Olp� !! NOTE IM SEE NARRATIVE FOR MORE DETAIL. ISOMETRIC VIEW EXTENSION Of FABRIC AND HIRE INTO THE TRENCH EX. CULVERTS TO BE REMOVED STEEL POST MATCH LINE SEE SHEET EC2 X LICENSE # C-2710 ENGINEERING LAND PLANNING , MERCIAL / RESIDEN RAL P.O. BOX 4041 WILM/NGTON, NC 28406 (910) 791-4441 O CL /A 0 Z U Z v / 0 W Q Z CL O ZU 3 O� o Z Z Z CL� Q Q j QO O Lc Q 3 Q Oz CAR 04 \���=0�' •� E S S i o• ��' '�',� :Q = SEAL = 025483 • 3/30/2020 ..x s \\\\ M N � N cN� Oqda� Q ►7 0� co N I'll N Q m o� Y � � Q di O Z n N o W DATE.• 12-17-15 HORZ. SCALE. I" = 100' VERT. SCALE.- N/A DRAWN BY- RL W CHECKED B Y.• HSR PROJECT NO.: 06-0134 50 25 0 50 100 150 SCALE IN FEET.• 1 "= 50' MATCH LINE SEE SHEET EC6 seat No. Of EC12 o LEGEND MATCH LINE SEE _WEET EC3 EXISTING BOUNDARY / f/ /� ' l i ►n 1 I 1 PHASE LINE / i ' �' 11'20 j ��� NO WETLANDS DETERMINATION QE 134 LF 24" BLE WALL HOPE DOU %' /% ADS N-12 OR EQUIV. l i STOCKPILE LOCA710N EXISTING CULVERT i / >ci TG P22CB0 Pv �/? 110 CE CONSTRUCTION ENTRANCE i/ S T / INV. OUT 18.50 (E - 24") A IP x �.Y 10 j SF X X SILT FENCE o S ( 25 PROPOSED CULVERT ( j TD FID-1 --►^- TEMPORARY DIVERSION/ _ i j 97 1143 LF 24 DOUBLE WALL HDPE 2 j 2 a BF -X--- X BAFFLES / �� I ADS N-12 OR EQUIV. s 98 j OP OUTLET PROTECTION P2-CB3 20 j 99 ' J ' TG = 23.00 ' INV. IN 17.70 (N - 24") DE: � ' INV. IN 17.70 (W - 24") I I 181 LF 30" DOUBLE WALL HDPE I L, an �' -' S %�% t INV. OUT 17.70 (S - 30") _. ADS N-12 OR EQUIV. `� - TD-4 zs f / T I 25 _ y �2� X �/ -t -Q23 , =--- 2 f '/ ,, P2-CB — 45 z TG = 2250 I P / N INV. IN 1710 (N - 30") x ' i ( p0 \ INV. OUT 17.10 (S - 36") 75 _ f 2 f _ tj $9 ,j 1 h I r� r O 91 — `,_ f �' 158 LF 36" DOUBLE WALL HDPE of I ADS N-12 OR EQUIV. I r; t / i I s 1 j j D93 N ' 76. j 25 I I N 2 P —JB1 i ' � N ( I' - — j _ l 95 I RIM - 23 50 'fit x f� N j ✓n "r t INV. IN 16.60 (N - 36) �' � ' 73 N i - N ' � INV. (SE 48) o l C7236 " WALL HDPADS N-12 OR EQUI-!is_0AD�"`�i's�P2-CB52L,qCN . —INV. OUT 18.00 E - 2 9 ' CKqSy BEN.::�.--, _ ()PH2-OUTFD " 78PR169 LF 24 DOUBLE WALL HDPE oY:.: _ ADS N-12 OR Q I . PH - TF s 32 OU ALL'T T = .40 c 22 'INV. D T 18.50 (S - 2424_1 t'12 /�1 Iss 12IP 12 P2-CB9 TG = 22.30INV. IN 17.10 (N 30") txINV. OUT 17.10 (S - 36")ON46 LF 36" DOUBLE WALL HDPEADS N-12 OR EQUIV.N —j 20� --=j i'�' 12 X P2-JB7 h i I' ' N 1 71 aE. 69 RIM 23.50 '� j 1� S NLE WALL HDPE INV. IN 17.60 (E _ 24 -), INV. IN 16.60 (N 36) I. INV. OUT 16.60 (SW - 48") I x 133 LF 24 DOUBLE WALL HDPE (Y STOCKPILE LOCA71ON I IfI', � IP ;. PH2-OUTFALL 2 j 68 P2-CB8 t: TG = 22.90 I i ( S, N I � j 'INV. OUT 18.00 (W - 24")' '' / 20N25 26 HDPE D. 168 LF 24 DOUBLE WALL ' E _ 25 ADS N-12 OR EQUIV. ' 5 I, 88 1 1 I (� li8 1401 it� a •- 87 86 \ I j �� / : 13 x , f — _ is \ _ O 85 POND 2B �� �, 1 O 1 � 1 2s — � SEDIMENT BASIN 5 I ' 66 83 :` (SEE SHEET ECBA FOR DETAIL) If a- / 'f� I� � N I f�'` X ', ,(' � �� 25 � t, 13 t I PH2-OUTFACE 5 81 r '' rr �, �; � 26 PH2-ou>fAu 4 1 65 171 LF 24" DOUBLE WALL HDPE ADS N-12 OR EQUIV. _ — — 1 ( �S 8 -� r S �'�' j ( POND 2A r r INSTALL ,KITE MATTING s ' N � FOR BANK STABIUZA77ON +' l i SEDIMENT BASIN 5,1 t �(JEREVER EXISTING DITCH ( t � �� - - - p ` ` 13' / WH r r r �' li HAS BEEN DISTURBED �,1 � �Ij y � � r ' (SEE SHEET ECBA FOR DETAIL�'� S ; � � (3) 203 LF 36" DOUBLE WALL HDPE k PH2 oU1FALt 3 � 25 1, SEE DETAIL SHEET EC9 ADS -12 E ' j r I; - - - - r r - - 0 TG 22 30 fl;, A N OR QUIV. P2 CB14 x 64 - IP I It INSTALL SF ALONG TOP OF PIPE INV. OUT 18.00 (W - 24") r r .t fig II _ i1 I / S ® 102 LF 24 DOUBLE WALL HDPE N EX. CULVERT TO BE REMOVED r r r - - - - - -� ADS N-12 OR EQUIV. K7LANDS r INSTALL SF ALONG 70P OF PIPE INSTALL SF ALONG TOP OF PIPET ACOE APPROVAL PENDING P2-JB15 j r j 63 O - - r ,USACE SECTION 404 WETLANDS WERE DEUNEA1m. RIM = 23.00� .S 1 r �% \ _ �' EX CULVERT TO BE REMOVED S 8Y MR. DAVID SgBE1TA, W11H SOUTHERN + - r r \ / - -- - --'' - 59 INV IN 18 00 (S 24") 1" ' '` z INV. OUT 18.00 (N - 24") INSTALL JU7E MATTING ENVIRONMENTAL GROUP,INC ON 11-16-16 - - - — N - ' FOR BANK STABILIZA71ON 25 - WHEREVER EXIS7ING DITCH - SAND VERIFlED BY MR. KYLE DAHL, USACE PROJECT MANAGER- - - r - / 58�I HAS BEEN DISTURBED I — 3 4 ON THAT SAME DATE. i SEE DETAIL SHEET EC9 20 FT I f - - - r r u r r o \ '~I I, f UIlU1Y EASEMENT ' � � � of j 62 _ o >EMP wEnANDs IMPACT PART of 143 LF 24" DOUBLE WALL HDPE _.l\� 1 ,•. \. `... r - ,,, ,,• r r r �� r ,, ACOE APPROVAL - - r _ ', ADS N-12 OR EQUIV. r Iis — 24 / % ...___........_-........—_/ 1 INSTALL JUTE MATTINGis FOR BANK STABIUZA710N ! 13 III j t WHEREVER EXISTING DITCH t - r r r - - ` I ' '` 5T HAS BEEN DISTURBED ; I SWALE 1 TO CONNECT j h i / ' I SEE DETAIL SHEET EC9 N� INI V OUTO 0 I ® / IO S85 UNIiL UPSTREAM AREA r r - r - - r r 16, - ) — 1 N is OF SWALE 1 IS STABIL21ED j S I IP ' �> ' N nIEId SWALE IS 1 IS TO BE CONNECTED TO S r r - - N � I � WF"ETSHRUB C o —� �- L aosnNG DITCH TO THE sou>H wEsr. _ 45 f7? PRlVq - CURT 23 �4_ � s ,� �,. POND 3A \ \ INSTALL JU1E MATTING' . S / S®; - - S 2 Row i , f FOR BANK STA61UZ47ION 4 SEDIMENT BASIN 2 WHEREVER EXISTING DITCH (SEE SHEET EC8B FOR DETAI HAS BEEN DISTURBED MATCH LINE SEE SHEET EC7 / \ SEE DETAIL SHEET EC9 SWALE 1 U71LITY EASEMENT -r POND 3A OU7FALL POND 2 OU7FALL /� \ (2) 24' HDPE (2) 30" HDPE �If \. INV EL = 18.7 INV. EL 18.7 F.E.S W/ 15 CY a II RIP RAP F.E.S. W/ 4 CY aII RIP RAP 50 25 0 50 100 150 VINSTALL F.E.S. IN SIDE SLOPE OF CREEK BANK INSTALL F.E.S. IN SIDE SLOPE OF CREEK BANK DO NOT DISTURB ANY PART OF 7HE FLOW DO NOT DISTURB ANY PART OF 7HE FLOW SCALE IN FEET. 1 LINE IN BASE OF EMS17NG CREEK BED LINE IN BASE OF EXIS7ING CREEK BED "= 50' MATCH LINE SEE SHEET EC6 25 IP P2-CB12TG = 22.80 INV. OUT 18.50 (S - 24") 133 LF 24" DOUBLE WALL HDPEADS N-12 OR EQUIV. STOCKP►LE LOCA7ION 10 20� ti 10 25®P2-C810TG = 23.50INV. IN 17.70 (E - 24') 13J LF 24' DOUBLE WALL HDPE INV. IN 17.70(N-24") ADS N-12 OR EQUIV.INV. OUT17.70 (S - 30")IPc20 � P2-CB13TG = 22.90of INV. OUT 18.50 (W - 24")81 LF 30" DOUBLE WALL HDPEADS N-12 OR EQUIV. 25EAF24Vq23 Cmao4SD ENGINEERING LICENSE # C-2710 ENGINEERING LAND PLANNING COMMERCIAL / RESIDENTIAL P.O. BOX 4041 WILMINGTON, NC 28406 (910) 791-4441 Q Z cl-o � U 3 O Q z0 J � CL a W :Z-.. Q Q p � °r oQ U LAJ U � o zl rn U o y a. 00 J p N DMZ � ozz o �o I N o�� o w 3 0 SEAL .a 025483'— N b CO o W Q Zi Ea 0 o g Q g g O W DATE: 12-17-15 HORZ. SCALE. I" = 100' VERT. SCALE: N/A DRAWN BY- RL W CHECKED BY.- HSR PROJECT NO.: 06-0134 C&w EC12 Sheet No. O w 4' o 000 i o 000000 0REFERENCE EROSION CONTROL 00000 CALCULATIONS FOR SPECIFIC " 0000 DIMENSIONS. OUTLET PIPE DIAMETER 0 0 0 0 0 (Do) d50 = REFERENCE EROSION CONTROL CALCULATIONS dMAX = REFERENCE EROSION CONTROL CALCULATIONS La = REFERENCE EROSION CONTROL CALCULATIONS MIN. APRON THICKNESS = 4.5" NOTE. • GEOTEX NONWOVEN FILTER FABRIC TO BE PLACED UNDER ALL STONE OUTLET PROTECTION. RIP RAP DIMENSIONS STRUCTURE L X W X D CLASS QUAN77TY CULVERT 1 19, X 14, X 1' ll 10 CY CUL VERT 2 19' X 14' X 1' 1I 10 CY CULVERT 3 18' X 12' X 1' ll 8 CY CULVERT 4 15' X 8' X 1' ll 15 CY TEMP CULVERT 5 9' X 6' X 1' 11 12 CY CULVERT SH1 9' X 6' X 1' ll 2 CY CULVERT SH2 9' X 6' X 1' ll 2 CY CULVERT SH3 30' X 14' X 1.2' ll 19 CY OUTFALL 1 19' X 12' X 1' ll 9 CY OUTFALL 2 9' X 6' X 1' ll 2 CY POND 1 OUTFALL 9' X 15' X 1' 11 5 CY SB 5 CONNECTION 11' X 15' X 1' ll 6 CY PIPE PH2 OUTFALL 1 19' X 12' X 1' ll 9 CY PH2 OUTFALL 2 19' X 12' X 1' ll 9 CY PH2 OUTFALL 3 9' X 6' X 1' fl 2 CY PH2 OUTFALL 4 9' X 6' X 1' ll 2 CY PH2 OUTFALL 5 9' X 6' X 1' 11 2 CY PH2 OUTFALL 6 20' X 20' X 1' 11 15 CY POND 2 OUTFALL 12' X 8' X 1' ll 4 CY PH3 - 3B-1 9' X 6' X 1' ll 2 CY PH3 - 3B-2 9' X 6' X 1' ll 2 CY PH3 - 3B-3 9' X 6' X 1' ll 2 CY PH3 - 3B- 4 9' X 6' X 1' ll 2 CY PH3 - 3B-6 9' X 6' X 1' ll 2 CY PH3 - 3B-9 9' X 6' X 1' 11 2 CY PH3 - 3B-10 9' X 6' X 1' 11 2 CY PH3 - 3B-11 9' X 6' X 1' I1 2 CY PH3 - 313-12A 9' X 6' X 1' 11 2 CY POND 3 OUTFALL 30' X 14' X 1' I 11 15 CY WEIR CREST EL. 25. MANHOLE ACCESS COVER � OPEN AREA = INLETS 1 PROPOSED 01 -� STORM PIPE 2 FT SUMP SIDE VIEW SOLID COVER WITH MANHOLE ACCESS OPEN AREA ON ALL FOUR SIDES WEIR CREST EL = 25.0 INLETS 1 PROPOSED STORM PIPE ISOMETRIC VIEW 4 FT x 4 FT PRECAST CONCRETE BOX OR EQUIVALENT TO BE USED FOR EQUALIZATION CULVERT WEIR TYPE AREA INLET N. T. S. 50 25 0 50 100 150 SCALE IN FEET: 1 "= 50' Mimi AM t. p j 74 LF 15" DOUBLE WALL HDPE .�...awADS N-12 OR EQUIV. i. € _ an 31 LF 15" DOUBLE WALL HDPE 139 LF 24" DOUBLE WALL H PH3-CB6 DPE _ 1€ I ADS N-12 OR EQUIV. ADS N 12 OR EQUIV. 1 6 RIM 26.80 r p' E. 000, LEGEND -- EXISTING BOUNDARY PHASE LINE NO WETLANDS DETERMINATION - EXISTING CULVERT CE CONSTRUCTION ENTRANCE SF X — X SILT FENCE PROPOSED CUL VERT TDFD-1 --i TEMPORARY DIVERSION BAFFLES OP OUTLET PROTECTION INV. IN 24.00 (SW - 15 ) _ PH3-CB8 € ' OUT 23.50 (NE - 15 PH3-CB5 ' TG = 32.30 29.30 (E - 15") RIM 22.60 . IP ` ` " — _ 1 INV. OUT 19.00 (N - 24") 1p Se<;��1� n 2 Lot 29 �35 r , Bottle -ion 2 e. t _ STOCKPILE ocn PH3-CB7 RIM 32.30 / rr nonl O�{ INV. IN 29.10 (W - 15")4 ( Lot 28 c�, f` IN V. OUT 25.00 (NE - 15") 1' ! �: c;uon 2 ///o` ! ; STOCKPI� LOCATION 55 �2s 15 � o T 1! 9 x ,ba , ti '• 35 30 ([50 160 -WWI 40 x � -ma 45 16 r N2 Uven�ac ( € „ Q Z CLO 2� V) Q ZU 3 o C) C) Z C) Q cj_ J J a - CZ Q cWo lit o zz Q o Z L_ C) C.)� w Q oz C ARO<�i SEAL 9` 025483 3/30/2020 .'- N N em N 0 N Go o� 00 re 0^ N N Ld Q p V) N Y 3 � Q � cj cj 9 ti O to m (ac�n p� vpp5 GQ{S z Q� � W m w Z cv o LLJ ct DATE: 12-17-15 HORZ. SCALE. 1' = 100' VERT. SCALE. N/A DRAWN BY- RL W CHECKED BY.- HSR PROJECT NO.: 06-0134 EC6 EC12 Sheet No. Of K o COtt CL � co 0 0 oQ U C-3 TYPICAL WEDGE CURBING 7 FT 6" HIGHBACK CURB 2-08-=� 2.0830 — T 1- — 0.1' LOCAL DEPRESSION — _ STD. GRATE & HOOD BOLT BOXES TOGETHER AND CUT OUT OPENING BETWEEN THE TWO BOXES OR PRECAST. `� Q -A 6--- 6. , SECTION VIEW A - TO BE SIZED PER INLET PIPE COMING INTO BOX BOXES TO MEET NCDOT STD 840.02 REQUIREMENTS. TO BE USED AT INLET CBI, CB2 AND CB5 DOUBLE INLET NOT TO SCALE t S7EEL POST '1 1 (114 MESH OPENINGS) NCINCDOT 15 OR 15 WASHED I. \� '�A�fJA�'e✓Ji'OJ�`'p 1JpJ'p�{ �. ��•I��frOJ i'� �Ol�`JiJ'O�l 000100 `�^•,C v °Jeo+'+oo JJeo Jeo 16, minumuuunuuunu STM POST DROP PJ?07EC ���► PRACTICE 6.51 NOT TO SCALE LEGEND EXISTING BOUNDARY PHASE LINE NO WETLANDS DETERMINA TION --- EXISTING CULVERT CE CONSTRUCTION ENTRANCE SF X( X< SILT FENCE PROPOSED CULVERT TD F-1 --► TEMPORARY DIVERSION BF _- BAFFLES pp OUTLET PROTECTION MATCH LINE SEE SHEET EC5 _ 23 ' \ . - _ _ / G � .. s _._-'_ 2� S►NEETSHRUB X wETLANDs _ 45 FT PR/ COURT VATZ- Row E PUMPSTAnON' AREA TO DRAIN TO ACC APPROVAL P0;0WW _ '�}~ ` w CAN Y,�WAY / C8 3 y e. \ 25 v �v \ � 21.81E 0`� \\ \\ \ \ s T srocxPlLE LOCATION Q \ \; 1 24 24 CY CLASS 11 RIP RAP — x 12" 12" SLOPE AWAY FOR SUPERELEVA71ON 6 1x LOCAL DEPRESSION AT FLUME MODIFIED VALLEY CURBING NOT TO SCALE i s ! -7— i — j I �+ 1 D — X eA �, f ' Ex CULVERT TO BE REMovED- ��. \ 2N, 44 ! SX s— — CE 1 45 .! — 46 — ! — I ! 48 I lix ! � 4 , 1 ? ; CIA 51 b, 23 _ _ — I 1i CANOPY wA y 45 FT PR/VA jF R w _ o _ If DOUBLE INLETS EX CULVERT TO BE REMOVED rG = 221 I C84 / E ! 24' DOU WALL JJJ DOUBLE INLE1517 111I I ,� 120RE IV. 24 ' E= 9.9 — i I20 Fr 36 24 24 D.E 142 LF 24' DOUBLE WALL H CO 35 ADS N-12 EQUIV. 39 1 i 25 34 20 °� _ III 0.E d N / _ 103 3s DOUBLE WALL HDPE ! 33 C ° f + ADS1 N-12 OR EQUIV. ' cN 25 ' ' n1620o LF 36` Ob1BE WALL HOPE --- ADS N-12 EQUIV � � 11 r15, 1 J°I N I POND 1 OUTFACE , ,� 0 40 (3) 24- HOPE II II } 1 INV. EL = 18.8 F.E.S. W/ 2 CY a 11 RIP RAP J f t ' 11� jj �� �� 1 12 INSTALL F.E.S. IN SIDE SLOPE OF CREEK BANK DO NOT DISTURB ANY PART OF IHE FLOW LINE IN BASE OF EXISTING CREEK BED I I , ; + 1 2 5 SWALE 8 IM(�l if �i I71 ll�'I ICI J Ifni 'III 4 cV ! C62 DOUBLE INLETS z rt 41 LF 48' DOUBLE WALL HOPE - IE = 19.9 ADS N-12 OR EQUIV. I JBfA RIM -19.05 RIM = 23.5 IE = 18.7 "- XIC ' PIPE IE = 18.5 RIM23.5 OU>FALL 1 IE - 19.6 141 LF 24' DOUBLE WALL HOPE i I P 9 CY CLASS 11 RIP RAP \ 12 OR EQUIV. , I; I SEE DETAIL SHEET EC6 j B 8 500 COY CLASS RIP RAP f SEE EET DETAIL SH B oun=ALL 2 30 j NET BASIN 1 2 CY CL II RIP RAP 1 SEE DETAIL SHEET EC8 SHEET EC6 I ...._ , , �. DETAIL --- i , \ �., SSE' , I I t 1 E = 19.3 i , PIPE I l _ y _ \ t INSTALL JUTE MAT1iNG FOR BANK STABILIZAnON WHEREVER DUSTING DITCH HAS BEEN DISTURBED SEE DETAIL SHEET EC9 1 / — f 1 24 � 1 1 1 1 F 24 DOUBLE WALL HOPE 26 I 1 1 I 20 FT ADS N-12 OR EQUIV. \ ' D.E. C81 25 x 1 21 1 i. 1 DOUBLE JNNLETS • \ >O 1 j 1 1 25-IE=19.!jrI / w. i T GUM DRIB iP 2� 1 1 \ ` N SIN Fj PRIVAE RDW U, 1 1 1 \ N _ 5 0 4 �- 9 FLOW LINE IE = 18.3 PIPE IE = 17.3 - 7 CY CLASS It RIP RAP i CULVERT (2) - 85 LF 54- CLASS M RCPS INSTALL JUIE MATTING }, FOR BANK STABIUZAnON r- WHEREVER EX1S71NG DITCH HAS BEEN DISIURSO 1 FLOW LINE IE = 18.0 \t PIPE IE = 17.0 A 10 CY CLASS II RIP RAP O 2 r 154 �; �: -- f x EXISTING DITCH TO BE RE -GRADED AND LINED WITH EXCELSIOR MATTING / f < / ~ % 1 1 INSTALL JUTE MATTING 1 FOR BANK STABIUZAnON •'"- "=�`'`�f " " 1 5 , 1 WHEREVER DOSHNG DlH - --: CE HAS BEEN DISIURBED 4 1 SEE DETAIL SHEET EC9 - .- -� FLOW LINE IE = 19.0 t PIPE IE = 18.0 _ 6 CY CLASS 11 RIP RAP CULVERT 2 ' 85 LF 'CLASS 1►► RCP's r t BURIED 1 FT �." _ - _ . _ _ . _. - -` _ .. -. FLOW LINE IE 1 18.7 i i PIPE IE = 17.71 ' 10 CY CLASS II RIP RAP, r CSD ENGINEERING LICENSE # C-2710 ENGINEERING LAND PLANNING COMMERCIAL / RESIDENTIAL P.O. BOX 4041 WILMINGTON, NC 28406 (910) 791- 4441 L- J Zz CL. 00 0 U a2 Z Q O o � U � J co JQN C) c" O � I Op o =co3 rn W O �CAIRo'% S7 SEAL , 025453 :o TGtNE �► .� /7 N a N to O h <o 0 3 3� 3 ad m 3 �•' m IN o J ck� w oc 4Z. Z U O to h•— W oc- DATE.- 11-3-16 HORZ. SCALE.- I" = 100' VERT. SCALE.- N/A DRA WN BY MRB CHECKED BY- HSR PROJECT NO.: 06-0134 Sheet NO.EC7 oEC12 10 FT j! 157.5 FT 10. SIDESLOPES 1 �1 SIDE ,-- �i � i BORING B9 f I ECS REPORT DATED 8-13-15 j • EX GROUND ELEV = 23.5 MINIMUMWl \ SHWT DEPTH = 42.0' -'J SHWT ELEV. = 20.0 T. I OF BERII I III EMERGENCY SPILLWAY EL = 22.0 33 CY CL 11 RIPRAP 1.5 FT DEEP PLACE NONWOVEN GE07ECH FILTER FABRIC UNDER RIPRAP SEE DETAIL (THIS SHEET) OUTLET STRUCTURE 10 CY CL B RIPRAP 1.5 FT DEEP PLACE NONWOVEN GE07ECH FILTER FABRIC UNDER RIPRAP SEE DETAIL (THIS SHEET) DOUBLE WALL E 21 I I� I ADS N-12 OR EQUIALEN ' 1� Kv 1//00 INV EL = 18.8, IF.E.S. W/ 6 CY CL 9 RIPRAP BASIN BOTTOM = 14.0 14 CY CLASS 0 RIP RAP SEE DETAC 9CET EC6 L=14.40 ' ALL BUILDING ROOF DRAINS MUST BE DIRECTED INTO THE STORM WATER SWALES INTO THE STREET/PARKING LOT. \` R=11.00 PORTABLE PUMP TO BE USED TO DRAIN POND IN CASE OF EMERGENCY. PUMP TO BE PLACED ON TOP OF BERM WITH SCREEN ATTACHED TO HOSE INLET AND COVERED KITH STONE. HOSE OUTLET TO DRAIN ACROSS STABLE UPLAND AREA SUFFICIENT TO RESTRAIN EROSION. (a `� J. POND SIDESLOPES TO BE PERMANENTLY VEGETATIVELY STABILIZED. 4. BASIN TO BE RECORDED IN A DRAINAGE EASEMENT. PPE f = 1&5 FOREBAY APRON- \ `� FOREBAY BOTTOM = 14.0 150 CY CL ll RIP RAP SEE DETAIL THIS SHEET PIPE IE = 19.3 12 CY CL 11 RIP RAP j SEE DETAIL SHEET EC6 19p 5 FT TEMPORARY POOL ELEVATION = 20.3' SURFACE AREA 0 ELEV. 20.3 = 50,696 SF STORAGE 0 ELEV. 20.3 = 38, 906 CF WET BASIN 1 1 " = 20' TORMWATER COLLECTION SYSTEM NOTE TO CONTRACTORS: )WNER/DEVELOPER HAS OPTION TO INSTALL EITHER FLUMES OR PIPED 'OLLECTION SYSTEM. SEE SHEET EC8 FOR FLUME COLLECTION OPTION. KIES, 1. TEMPORARY SKIMMER TO BE INSTALLED ON PRIMARY OUTLET STRUCTURE BOX AND TO REMAIN IN PLACE UN71L SITE IS PERMANENTLY STABILIZED PER NCDENR/LQS SEDIMENTATION AND EROSION CONTROL PERMIT. SEE SKIMMER DETAILS FOR INSTALLATION. 2. GRADE WILL BE 20:1 ONLY IN FRONT OF OUTLET BOX. REMAINING SHELF SHOULD BE 10.1. PP IS THE CENTER OF THE 10.1 SHELF. J. RIP RAP TO BE PLACED AROUND THE PERIMETER OF OUTLET BOXES 4. (3) 4 FT x 4 FT PRECAST CONCRETE BOXES OR EQUIVALENT HAND -BUILT. 5. SKIMMER = 8.0' SKIMMER WITH 26' ORIFICE DIAMETER. ��...II..I.!la:� WSEL = 19.5 SB 8' PVC SCREW PLUG 8' ORIFICE ASSEMBLY 8' CROSS SKIMMER CONNEC71ON TO BE CAPPED ONCE SKIMMER IS REMOVED 12' 12' 1 / 8' CAP TO REMAIN UNTIL SKIMMER IS REMOVED. THEN DRILL 3.5' HOLE IN CAP POND BOTTOM ELEV= 14 EL= 20.8 TOP OF BOX AT ACK OF BOX EL= 21.5 6.0FTWEIR(2FTEAx3) 4' EL= 20.3 INV = 19.5 INV= 19.0 2 FT SUMP FOR CLEANOUT 0 CL B RIP RAP W/ GE07EX NONWOVEN FILTER FABRIC (TO SURROUND EN71RE 24' HOPE OUTLET STRUCTURE) OUTLET PIPE 12- 09Nc :. OR GROUT < 67BASE EL = 15.5 SECTION v1Ew WET BASIN 1 OUTLET STRUCTURE DETAILS NOT TO SCALE 23.0 TOP OF BERM ,- - 10 FT MINIMUM �DTN TOP OF BERM I 20 10 0 20 40 60 SCALE IN FEET. 1 "= 20' FABRICATED GRATE TOP BARS, ,'""/4NIZED, OR ALENT ALL SLOPES 3.1 MAXIMUM (T)"PICAL AT ALL STORM OUIFALLS TO POND) VARIES 16.5' FOREBAY VOLUME OF REQUIRED WSEL = 19.5 STORAGE, TYPICAL op RIP RAP 1.5 min. 31min. BOTTOM = 14 DITCH OUTLET NON WOVEN FILTER FABRIC UNDER RIP RAP PS 7E PLANS No TERRA7EX N04 OR EQUIVALENT FOREBA Y SECTION D E TA I L NOT TO SCALE WETLANDS PLANTINGS: THE FOLLOWING SPECIES OF WETLANDS WGETA71ON ARE SUITABLE FOR PLANTING ALONG THE 10.1 VEGETATED SHELF - PLANTS SU17ED FOR SHELF THAT'S UNDERWATER - SAGITTARIA LANCIFOUA (BULL TONGUE) - SAGITTARIA LARFOUA (DUCK POTATO) - SAURURUS CERNUUS (UZARDTAIL) PLANTS SUITED FOR SHELF 7HAT'S ABOVE WATER - ASCLEPIAS INCARNATA (SWAMP MILKWEED) - CAREX TENERA (QUILL SEDGE) - CHELONE GLABRA (WHITE TURTLEHEAD) SF OF 10:1 SHELF UNDER WATER = 3,573 SF / 200 = 17.9 X 50 = 895 PLANTS REQUIRED 895 / 3 = 298 PLANTS OF EACH OF THE THREE LISTED ABOVE MUST BE PLANTED SF OF I0:1 SHELF ABOVE WATER = 3,730 SF / 200 = 18.7 X 50 = 935 PLANTS REQUIRED 935 / 3 = 312 PLANTS OF EACH OF THE THREE UUTED ABOVE MUST BE PLANTED IF ONE OR MORE OF THE SUGGESTED SPECIES IS UNAVAILABLE, APPROPRIATE WETLANDS WGETA7ION COMMON TO THE COASTAL NORTH CAROLINA REGION MAY BE SUBSTITUTED. SEE CH 9 OF STATE STORMWAIER BMP MANUAL FOR UST OF OTHER RECOMMENDED WEAANDS PLANTS. C 46.0 FT TOP OF EMBANKMENT 40 _ELEV V. = 22.0 ELEVATION = 23.0 TOP OF RIP CLASS ll RIPRAP 1.5 FT DEEP ON WOVEN FILTER FABRIC TERRA7EX N04 OR EQUIVALENT EMERGENCY SPILL WA Y FRONT VIEW - BASIN 1 NOT TO SCALE 15 0' IF PLAN 4-0' 4-0' 4-0' SEE DETAIL o THIS SHEET FOR TRASH RACK 2 FT WEIR CUT 2 FT WEIR 8' ORIFICE ASSEMBLY 0- 8- CAP W/3.5' HOLE \� °O FT WEIR CUT KNOCK OUT INTERIOR WALLS TO ELEV. 19.0 SO 774AT BOXES FUNCTION AS ONE STRUCTURE (ALL SEAMS TO BE GROUTED) BOX PLAN VIEW WET BASIN 1 OUTLET STRUCTURE DETAILS NOT TO SCALE NOTE COLLAR TO BE POURED AFTER 6' PIPES ARE IN PLACE, REINFORCING AS NECESSARY. 5'. s. s. s. d MIN WET BASIN ANTI -SEEP COLLAR NOT TO SCALE VARIES 10' 6' 31' 16' EMBANKMENT TOP= 23.0 (SETTLED), = 23.25 (CONSTRUCTED) ! EMERGENCY SPILLWAY = 220 �a TOP OF GRATE = 20.8 STATE STORAGE WEIR CUT = 20.3 STATE STORAGE = 38906 CF NORMAL WSEL= 19.5 (MIDDLE OF 10,1 SHELF) ';�7 A(3)) 28 24 HOPE BOTTOM OF 10:1 SHELF EL= 19.0 = 1&8 AN77-SEEP = COLLAR BOTTOM Ei 17.4 BOTTOM SWAT STRUCTURE EL= 15.5 i A1y11_SEEP SEDIMENT CLEAWOUT EL. = 15.0 COLLAR, IE= 19.0/�/� = 14. SEE DETAIL 10' 5' WIDE 10:1 SHELF VARIES 25' EMBANKMENT SECTION NOT TO SCALE CSD ENGINEERING LICENSE j C-2710 ENGINEERING LAND PLANNING COMMERCIAL / RESIDENTIAL P.O. BOX 4041 WILMINGTON, NC 28406 (910) 791- 4441 � J Q Z CL O 2ct (� Q Z U zz v'i O z � QLu O m Z QLd W ZE Q oz z__.'s `� SEAL ' , a 025483 - ti C-) m to � Y �w m m W 2 t o 4 O Z CN DATE: 11-3-16 HORZ. SCALE: 1" = 20' VERT. SCALE. • N/A DRA WN BY. MRB CHECKED BY- HSR PROJECT NO.: 06-0134 LSh..tNo.EC8 0f 24' HOPE Ir - in n I I I ' e z 03' ;.00 0 .ilYc yYc � aiL ,t� i�Yc il9c .�L ,iL y5c AIL AIL. ilL .ilL i A4 AL AL 4 �L �L �L AIL AL �L , L iL ,L .L EMERGENCY SPILLWAY EL = 22.0 60 CY CL II RIPRAP 1.5 FT DEEP PLACE NONWOVEN GE07ECH FILTER FABRIC UNDER RIPRAP SEE DETAIL (THIS SHEET) L=9.75' R=5.00' __-----OUTLET STRUCTURE 10 CY CL B RIPRAP 1.5 FT DEEP PLACE NON40WN GEOTECH FILTER FABRIC UNDER RIPRAP SEE DETAIL (THIS SHEET) L=7.84' R=5.00' (3) 33 LF 36' DOUBLE WALL HOPE ANII-SEEP COLLAR SEE DETAIL THIS SHEET POND 2 OUTFALL IE = 18.7 NOTES- 1. TEMPORARY SKIMMER TO BE INSTALLED ON PRIMARY OUTLET STRUCTURE BOX AND TO REMAIN IN PLACE UNTIL SITE IS PERMANENTLY STABILIZED PER NCDENR/LQS SEDIMENTATION AND EROSION CONTROL PERMIT. SEE SKIMMER DETAILS FOR INSTALLATION. 2. GRADE WILL BE 12.1 ONLY IN FRONT OF OUTLET BOX. REMAINING SHELF SHOULD BE 6:1. PP IS THE CENTER OF THE 6.1 SHELF. J. RIP RAP TO BE PLACED AROUND THE PERIMETER OF OUTLET BOXES 4. (3) 4 FT x 4 FT PRECAST CONCRETE BOXES OR EQUIVALENT HAND -BUILT. 5. SKIMMER = 8.0' SKIMMER WITH 4.2' ORIFICE DIAMETER. TOP OF BOX AT BACK OF BOX FI = FAIRCLOTH SKIMMER WSEL = 19.5 SB 0 3 1� POND B077OM ELEV= 15 6' PVC SCREW PLUG 6' ORIFICE ASSEMBLY 6' CROSS SKIMMER CONNECTION TO BE CAPPED ONCE SKIMMER IS REMOVED 12' 12' 6' CAP TO REMAIN UNTIL SKIMMER IS REMOVED. EL= 20.6 4 7 FT WEIR 4" EL= 20.1 CL B RIP RAP W/ GEOTEX NONWIOVEN FILTER FABRIC 1/ (TO SURROUND ENTIRE (3) 36" HOPE OUTLET STRUCTURE) OUTLET PIPE INV = 19.5 - INV = 19.0 2 FT SUMP FOR CLEANOUT OQ GROUT 618ASE EL = 15.5 SECTION V►EW WET BASIN 2A OUTLET STRUCTURE DETAILS NOT TO SCALE FABRICATED GRATE TOP 4" o.v Vrt�nu MJ 7GMDL I PLAN VIEW WELDED BARS, GALVANIZED, OR EQUIVALENT I (3) 200 LF 36' HDPE yL yLl yL i rt=�.w I E i N'tLUtU FAdhRAItU IKAS71 RACK W/SQUARE OPENINGS UARE OPENINGS < 6' 6' -1 mmmmmmm■ ommommo1 1 " = 30' " HDPE P'HDPE 6" HDPE io 4-0' 4-0' 4-0' SEE DETAIL THIS SHEET FOR TRASH RACK SEE DETAIL THIS SHEET FOR TRASH RACK SEE DETAIL THIS SHEET FOR TRASH RACK 0' CL .5 FT WEIR CUT 2.0 FT WEIR CUT 0 6.0' ORIFICE ASSEMBLY BOX PLAN VIEW WET BASIN 2A OUTLET STRUCTURE DETAILS 48' HOPE ' 25 FT EASEMENT FOR FUTURE CONNEC71 L=23.56' R--15.00' L=23.56' R=15.00' L=23 56' I R=15.00' P=23.56'=15.00' _- J. 1 MnA,MUM (TYPICAL AT ALL STORM OUIFALLS TO PON 10 FT VARIES FOREBAY VOLUME OF REQUIRED STORAGE, TYPICAL O P pIPE ;EL = 19.5 � 'AP 1.5 min. lb- S,1 A5 SEDIMENT CLEANOUT 3min. BOTTOM = B ELEV. = SCE OUTLET NON WOVEN FILTER FABRIC UNDER RIP RAP AS ON PLANS vo FOREBAY 28-1,2,3.• B = 15, SCE = 16 FOREBAY 2A-1 B = 16, SCE = 17 FOREBA Y SECTION DE TA I L 52 FT TOP OF EMBANKMENT T ELEVATION = 23.0 yyON WOVEN FILTER FABRIC CLASS 11 RIPRAP 1.5 FT DEEP IERRATEX N04 OR EQUAL EMERGENCY SPILL WA Y FRONT VIEW - BASIN 2A NOT TO SCALE ' L=LJ.DO R=15.00' L=23.56' R=15.00' tt 1 1 R=20.00' -L=2356' R=15.00' [24- HDPE f TE: COLLAR TO BE POURED AFTER PIPES ARE IN PLACE, REINFORCING AS NECESSARY. WET BASIN ANTI -SEEP COLLAR NOT TO SCALE 2325 (CONSTRUCTED) EMBANKMENT TOP= 23.0 (SETTLED), = ! f EMERGENCY SPILLWAY = 22.0 TOP' OF GRATE = 20.5 STATE STORAGE WEIR CUT = 20.1 STATE STORAGE = 103,146 CF NORMAL WSEL= 19.5 (MIDDLE OF 6.1 SHELF) �7 IE(OUT) = 18.7 (3) 36 HOPE BOT70M OF 6.1 SHELF EL= 19.0 6. ANT) -SEEP COLLAR, BOTTOM EL= 17.3 IE= 19. /�/�/\ BOTTOM SWM STRUCTURE EL= 15.5 ANTI -SEEP //\ SEDIMENT CLEANOUT EL - 16.0 COLLAR, 6 FT WIDE BOTTOM EL= 15.0 ................................................. SEE DETAIL 6:1 SHELF 14 VARIES I 33' EMBANKMENT SECTION NOT TO SCALE J LAJ ` r o� 0_ Q Z C.LO 2� � U Occ � O Zz J CL Lu Q W cf� p cn W O p m O W 3 zo pZ Li p Z Q Z U W r \\ CA�R04 IU�ii����i :Q SEAL 025483 ' 9-15-17 s cx ^ N � 3 3 3 %- m � o � Q w W ct o S S S O z N � w DATE:' 5-10-17 HORZ. SCALE. AS NOTED VERT. SCALE.' N/A DRAWN BY.- RLW CHECKED BY: HSR PROJECT NO.: 06-0134 Sheet aEC8AO��q12 i PERMANENT POOL ELEVATION = 19.5. SURFACE AREA 0 M 19.5 (MAIN BAY 3A,38 ONLY) = 54,102 SF SURFACE AREA 0 ELEV 19.5 (WHOLE POND 3A,38) = 69,648 SF TEMPORARY POOL ELEVATION = 20.5 p SURFACE AREA 0 QEV 20.5 (3A,3B) = 8Z096 SF STORAGE 0 ELEV. 20.5 (3A,3B)= 76,952 CF -- -- - -, -BEAN POND EXPANSION 30 15 0 30 60 90 SCALE IN FEET: 1 "= 30' DUSTING POND SADESLOPE . - - -�- I/- 15" HDPE SIDE$Lgc'ES 18-1 k lE - 17.5 i ;- ; r POND 3B BASIN BOTTOM = 15 _... _ ----- _ ..w... _... .._. . BEGIN POND DFANSION! _ _.... DOSING POND SIDER013E ALL SLOPES 3:1 MAXIMUM (TYPICAL AT ALL STORM OUTFALLS TO POND) 10 FT VARIES FOREBAY VOLUME OF REWIRED STORAG& TYPICAL pE OP WSa = 19.5 1 T RIP RAP 1.5min_- 4,1 SEDIMENT CLEANOUT 3'min. BOTTOM = B M, = SCE -�--- OUTLET PROIEON NON WOVEN FILTER FABRIC UNDER RIP RAP AS ON FLA1yS FOREBAY 3B-1: 8 = 15, SCE = 16 FORERAY 38-2-.i: 8 = 16, SCE = 17 FOREBA Y SECTION DETAIL NOT TO SCALE 1. TEMPORARY WINNER TO BE INSTALLED ON PRIMARY OUTLET STRUCTURE BOX AND TO REMAIN IN PLACE UNTIL SITE IS PERMANENTLY STABILIZED PER NCOENR,40S SEDNENTAAON AND EROSION CONTROL PERMIT. SEE SKIMMER DETAUS FOR INSTALLATION Z GRADE WILL BE 12 1 ONLY IN FRONT OF OUTLET BOX. REMAINING SHELF SHOULD BE 6: 1. PP IS THE CENTER OF THE 6:1 SHELF. J. RIP RAP TO BE PLACED AROUND THE PERIMETER OF OUTLET BOXES. 4. (2) 4 FT x 4 FT PRECAST CONCRETE BOXES OR EQUIVALEIVT HAND -BUILT. 5 SKIMMER = 8.0' SKIMMER WITH 4.2' ORIFICE DIAMETER. TOP OF BOX AT FAIRCLOTH SKIMMER 3 1 POND BOTTOM ELEN= 15 6' PVC SCREW PLUG 6' ORIFICE ASSEMBLY 6' CROSS SKIMMER CONNEC17ON TO BE CAPPED ONCE SKIMMER IS REMOVED r2' 12' 6' CAP TO REMAIN UN71L SKINNER IS REMOVED. THEN DRILL 4' HOLE IN CAP EL= 21.0 NOTE: COLLAR TO BE POURED AFTER 6' PIPES ARE IN PLACE, REINFORCING AS NECESSARY. 6 FT WEIR 4' EL= 20.5._...__ -- / / 171NV = 19.5 INV = 19.0 2 FT SLUMP FOR CLEANOUT 5' • e e a p v c in M!N WET BASIN ANTI -SEEP COLLAR NOT TO SCALE CL B RIP RAP W/ GEOTEX NONWOVEN FILTER FABRIC (10 SURROUND EN77RE (2) 24, HOPE OUTLET STRUCTURE) OUTLET PIPE Off GROUT . • •a 61 1BASE EL = 15.5 T SECTION_ STEW WET BA SIN 3A OUTLET STRUCTURE DETAILS NOT TO SCALE FABRICATED GRATE TOP v.v tu�rrnc naacnro�r FT YYCLVCL 0/i S, GALVANIZED, OR EQUIVALENT PN WET BASIN 3A & 3B 1 " = 30' 73.4 FT TOP OF - - EMBANKMENT ELEVATION = 23.0 65 FT �` ELEU _ 216 TOP OF \\/\/ '\�/\ /�/�• / ON WOVEN FILTER FABRIC CLASS 9 RIPRAP 1.5 FT DEEP TERRA TEX N04 OR EQUAL EMERGENCY SPILL WA Y FRONT VIEW -- BASIN 3A NOT TO SCALE r 1 PONDtEXPANS FOREBAY 38--1 / QREBA Y BOTTOM = 15 / EL Izo JO CY a N RIPRAP 1.5 FT DEEP PLACE NONWOVEN GEOTECH �-- FTL TER FABRIC UNDER RIPRAP (2) 239 LF 24" HOPE LAY FLA T AT ELEV. 17.0 4' HDPE 4" HDPE 4-0' 4-0' SEE DETAIL SEE DETAIL THIS SHEET THIS SHEET FOR FOR TRASH RACK TRASH RACK lJ 6' --1 ( 10'- 0" %.T O FT WEIR CUT (6.0 FT TOTAL) 6.O' ORIFICE ASSEMBLY GATE PLAN VIEW WITH 4' HOLE BOX PLAN VIEW WET BASIN 3A OUTLET STRUCTURE DETAILS NOT TO SCALE 40 to r 24" HOPE IE = 18.0 f / �18' HOPE , �\ bE = 19.0 ' POND 3A ' -a = 17.0 10 CY CL !! RPRAP 1.5 FT DEEP BASIN BOTTOM = 15 PLACE NONWOVEN GEOTECH ROER FABRIC UNDER RIPRAP f' AND 3 OU7FALL OUTLET STRUCTURE 10 CY CL B RIPRAP 1.5 FT DEEP PLACE NONWOVEN GEOTECH FILTER FABRIC UNDER RIPRAP SEE DETAIL ()HIS SHEET) ANTI -SEEP COLLAR SEE DETAIL THIS SHEET (2) 20 LF 24' DOUBLE WALL HDPE ENER(ENCY SPILLWAY 1 ,� EL=21.6 54 cY CL P RIPRAP 1.5 Fr DEEP ' PLACE NONWOVEN GE07ECH RL71W FABRIC UNDER RFRAP - SEE DETAIL (THIS SHEET) PERMANE YT POOL ELEVATON 19.5 i SURFACE AREA 0 ELEV 19.5 (MAIN BAY 3A,3B ONLY) = 54,102 SF / SURFACE AREA 0 ELEV. 195 (WriOLE POND 3A,38) = 69,648 SF MWPORARY POOL ELEV4710N = 20.5 SURFACE AREA 0 ELEV. 205 3A,3B) = 82,098 SF - STORAGE 0 ElEV. 20.5 (,A,3B)= 76,952 CF VARIES 10' 13 15' I 16' k EMBANKMENT 70P= 23.0 (9TTIfD�, = 2325(CONSTRUCTED)= 2325(CONSTRUCTEOI EMERGENCY SPILLWAY = 2L6 6: TOP OF GRATE = 21.0 ST47E STORAQUI WEIR CUT = 20.5 STATE STORAGE = 76,952 CF NORVAL OUSEL= 19.5 (MIDDLE OF 6A SHELF) Q 1E(OLlr) = J& 8 (2) 20 LF 24" HOPE �� BOTTOM OF 6.1 SHELF a= 19.0 �\ AN71-SEEP COLLAR BOTTOM a= 17.3 BOT M M SWAM STRUCTURE EL= 15,5 AN71-SEET' ` 577JOMENr C1fi1NOUr EL - 16.0 COLLAR, 6 F7 WIDE ��//� ELF= 15.0 SEE DETAIL 6:1 SHELF��, 14 VARIES 33' EMBANKMENT SECTION NOT TC SCALE CSD ENGINEERING LICENSE # C-2710 ENGINEERING LAND PLANNING COMMERCIAL / RESIDENTIAL P.O. BOX 4041 WLMINGTON, NC 28406 (910) 791-4441 CA = Ck� SEAL 025483 ell- �� FW- o m Q W t3s O Z w DATE.- 9-15-17 HORZ. SCALE- AS NOTED VERT. SCALE: N/A DRAWN BY.' RL W CHECKED B Y.' HSR PROJECT NO.: 06-0134 Sheet NEC88 a�EC12 VARIES TOP OF VARIES ENIBANKAaT CLASS I RIPRAP 1.5 FT DEEP —WOVEN FILTER FABRIC NOTE SEE TABLE ON SHEET ECff FOR SPILLWAY EEVA71ONS EMERGENCY SPI LL WA Y FRONT VIEW NOT TO SCALE 12" _�� mi w W w `d W w W �• W •d w W w W W w w w W y�t RECP , JUTE MAT INSTALLA T/ON DETAIL NOT TO SCALE 1. PREPARE SOIL WORE INSTALLING ROLLED EROSION CONTROL PRODUCTS (RECPs), INCLUDING ANY NECESSARY APPLICATION APPLICATION OF LGN & FER7U M, AND SEED 2 BEGIN AT 1HE TOP OF THE SLOPE BY ANCHORING THE RECPs IN A S' DEEP BY B' WIDE TRENCH WITH APPROXWAIELY 12' OF RECPS EXIENOED BEM THE' UP --SLOPE PORTION OF THE 1RENCH. ANCHOR 7HE RECPs WITH A ROW OF STAPLES/STAKES APPROXIMATELY 12' APART IN IHE BOTTOM OF THE IREIVCH. BACKRLL AND COACT THE TRENCH ALTER STAPLING. APPLY SEED TO THE COMPACIM SOIL AND FOLD THE REMAINING 12' POR170M OF RECPs BACK OVER' THE SEED AND COMPACTED SOIL SECURE RECPs OVER CaWACIM SOIL NIH A ROW OF STAPLES/ STAKES SPACED APPROXIMAMLY 12' APART ACROSS THE NDIH OF THE RECPs J. ROIL THE RECPs (A) DOWN OR (B) HORIZONTALLY ACROSS THE SLOPE RECPs WILE. UNROLL NIH APPROPRIATE SIDE AGAINST THE SOIL SURFACE ALL RECPs JUST BE SECURELY FASTENED TO SOIL BY PLACING STAPLES/STAKES IN APPROPRIATE LOCA77ONS AS SHOWN IN THE STAPLE PATIERdN GLIDE. 4. THE 6M OF PARALLEL REPS MUST BE STAPLED WITH APPROXIMATELY 2'-5' OVERLAP DEPENDING ON THE RECPs TYPE 5. CONSECUlDf RECPs SPACED DOWN THE SLOPE MUST BE END OVER END (SHINGLE ST)LE) WITH AN APPROXIMAIE 3' OVERLAP. STAPLE THROUGH OWRAPPEO AREA, APPROXIMATELY 12' APART ACROSS ENTIRE RECPs ND1H. lIdnTE IN LOOSE SOIL CONDITKkNS NE USE OF STAPLE OR STAKE LENGINS GREATER THAN 6' MAY BE NECESSARY 70 PROPERLY SECURE THE RECP'S 200 100 0 200 400 600 SCALE IN FEET. 1 "-- 200' \ ,4 ~�� 1 ter f �~"'^• w•"�•'+.. _ t / , .r+'r ___ .v in Ct 1 v� !� 1049 j - _- 51< ter,,,` �''-�---- � .' / 1$� • ,fin' _ A-iOd / f, r:= - ---�_ .- _. _. -------------- _ - _ t Y SEDI MEN T UA SIN 3 I" = 20' LICENSE / C-2710 ENGINEERING LAND PLANNING COMMERCIAL / RESIDEN P.D. BOX 4041 WILMINGTON, NC 28406 (910) 791-4441 r f2 irhI Q 0sera � slit s S $�a is m U O J � J Q �=oU C ) qzzC) oc I Lu o 04 w O %i R o ice ti QQ�•�t�c.g S f'.,`% �ii 0y '- SEALIL • 025453 "F = %jr O Lo N N N O 3 3 rr � IV 3 3t %•_ co Q) C� Q cc Z �.I DA TE•• 12-17-15 HORZ. SCALE.' 1' = 20' VERT. SCALE: N/A DRAWN BY RLW CHECKED BY.• HSR PROJECT NO.: 06-0134 SWEET GUM 9RIVE 10 CY (3) 355 LF 36' HDPE LAY FLAT AT M.. 16.5 r I r I � 11 e � 1 ' 1 MATCHLINE 8--9 -� I l PERMANENT POOL ELEVATION = 19.5 SURFACE AREA A m.. 19.5 (MAIN BAY 24, 2B, 2C ONLY) = 127,658 SF I SURFACE AREA 0 M. 19.5 (WHOLE POND 2A, 219, 2C) = 165,421 SF TEMPORARY POOL EIEVARON = 20.1 SURFACE AREA 0 ELEV. 20.1 ( 2B,2C) = 177,494 SF STORAGE ® ELEV. 20.1 (2A,2B,2C)-- 104146 CF WET BASIN 2C 1 " = 30' IE = 16.5 -' t'VIYU zo 10 CY a B RIP RAP SEE SHEET EC8A SHORT LEAF WAY ---7T1 I (3) 355 LF 36' HDPE LAY FLAT AT DIV. 16.5 (72 I I I WSEL = 19.5 RIP RAP 1.51min. 6L ALL SLOPES & i MAXIMUM (TYPICAL AT ALL STUN OUTFALLS TO POND) 10 FT VARIES FOREBAY FLUME OF REQUIRED T STORAGE, TYPICAL OP 3mh BOTTOM = B ao` NON NVMV FILTER FABRIC UNDER RIP RAP �a FOREBAY 2C-1 do 2C-2 B = 15, SCE = 16.0 ELEV. = SCE OUTLET PROTECRON AS ON PLANS FOREBA Y SECTION DETAIL NOT TO SCALE POND 2B 1 667' CAU J (3) 710 LF 36' HDPE LAY FLAT 16.5 WANKMENT TOP= 2J.0 (aMLED), = 2125 (CONSTRUCTED) EMERGENCY SPILLWAY = 220 (STATE STQRAGE)j WEIR CUT = 20.1 NORMAL WSEL= 115 (MIDDLE OF 6.1 SHELF BOTTOM OF 6.1 SHELF EL= 19.0 SEDIMENT aEANOUT EL OAT7➢H/ 0- to A ....:.................. EMBANKMENT SECTION POND 2C NOT TO SCALE CSD ENGINEERING LICENSE j C-2710 ENGINEERING LAND PLANNING COMMERCIAL / RESIDENTIAL P.O. BOX 4041 WILM/NGTON, NC 28406 (910) 791-4441 L4j O 4 0) (J 0 `j p N O Q a?z CDP c� I � E N p� o rn w O 0� kI 1IIJf//� e�t\.CA A R 2.• O 0 � SEAL ' 025483 IN N ja co �t w �% z DA TE.• 5-10-17 HORZ SCALE, • AS NOTED VERT. SCALE: N/A DRA WN B Y.• RL W CHECKED B Y.• HSR PROJECT NO.: 06-0134 EC1 0sw EC12 Sheet No. Of COIR FIBER BAFFLE MATERIAL PROPERTY REQUIREMENTS MATERIAL 100% COCONUT FIBER THICKNESS 0.30 IN MIN. TENSILE STRENGTH (WET) 900 X 680 LB/FT MIN ELONGATION (*FT) 69% X 34X MAX FLOW VELOCITY 10-12 FT/SEC WEIGHT 20 oz/SY (680 G/M"2) MIN MINIMUM WIDTH 6.5 FT OPEN AREA 50% MAX STEEL POST / EARTHEN EMBANKMENT, �_ //. OUTLET, CLASS II STEEL POST SHOULD BE APPROX 1-3/8' WIDE MEASURED PARALLEL TO FENCE AND HAVE A MIN. WEIGHT OF 1.25 LB/LINEAR FT AND BE EQUIPPED WITH AN ANCHOR PLATE WITH MINIMUM AREA OF 14.0 INA2. STEEL POST SHOULD BE INSTALLED AT MAX 4 FT SPACING AND DRIVEN INTO GROUND MIN. OF 2 FT. r ZONE OF SURFACE AREA BAFFLE (TYPICAL) FIRST CHAMBER 25% OF SURFACE AREA SECOND CHAMBER 25X OF SURFACE AREA OUTLET ZONE 25% OF SURFACE AREA BF TEMPORARY BAFFLES Practice 6.65 NOT TO SCALE M= 3 VARIES n�VgRIES n= 0.03� ��3-1 \ \\/\\��\/\\\ \\ \ LINED WITH REINFORCING MATTING AND SEED PER SPECIFICATIONS OR SOD. SWALES 1-2 EC 3:1 GRASSED CHANNEL N. T. S WATER LEVEL 8.5" END VIE W BASIN ORIFICE SIZED DRILLED IN CAP 1 2.6" 2 3.6 3 2.9" 4 2.3 5 3.6" 6 4.2" SK CUSTOM SKIMMER DETAIL Practice 6.64 NOT TO SCALE 2' 14.0' 3 - - - - - 7 1 _11: iii-iii-till-1 11 l- 18" ' 1 1- 11 1= 1. �11 1 - 3 ' 1- b= 5' SEE EROSION CONTROL CALCULATIONS FOR TD VELOCITY CALCULATIONS. TEMPORARY DIVERSION DETAIL Practice 6.20 NOT TO SCALE 8" HOPE CAP w/ VENT HOLES 1/2" WOODEN DOWEL (RETAINING FLOAT) 2" REPURPOSED STYROFOAM FLOAT 18" SINGLE WALL CORRIGATED HOPE HOPE TEE 8" HDPE CAP (SEE CHART FOR ORIFICE SIZE OF HOLED DRILLED IN CAP) FROM T VIEW - BAFFLES TO BE INSTALLED PER TEMPORARY BAFFLES DETAIL TOP OF TOP OF EMBANKMENT EL _ BERM EMERGENCY SPILLWAY EL AM INSTALL POLE NTH CLEAN OUT DEPTH MARKED. CANNOT BE TOP OF POLE BOTTOM EL. 4 FT CLASS B STONE (4' X 4' X 1' MIN) TEMPORARY SEDIMENT BASIN SUMMARY: SKIMMER (SEE DETAIL THIS SHEET) 1 FT FLEXIBLE RUBBER COUPLING PLAN VIEW SEE DENR STANDARDS & SPECS. FOR COMPLETE DESIGN CRITERIA & MAINTENANCE 91 AREA ELEVATIONS VOLUME SKIMMER CLEANOUT DEPTH (FT) FROM BOTTOM SEDIMENT BASIN / SURFACE AREA (SF) TOP OF EMERGENCY BASIN OUTFALL BERM SPILLWAY BOTTOM INV EL REQUIRED PROVIDED (CF) (CF) PIPE ORIFICE SIZE RADIUS *1 45,405 23 22.0 19.5 18.8 24,930 38,906 8.0 26 1.0 2 69648 23 21.8 19.5 19.0 42,858 76,952 8.0 3.6 1.0 3 22,504 26 25 22.5 224 16,344 47,680 8.0 2.9 1.0 4 17,304 29 28 26 25.9 6,786 31,476 8.0 23 1.0 **5 118,262 24 22.5 15 19.4 57,474 73,791 8.0 3.6 1.0 6 56,286 23 22 19.5 19.4 25,938 103,444 8.0 4.2 1.0 *SEE EC8 FOR BASIN DETAIL AND SKIMMER CONNECTION TO OUTLET BOX. BASIN 1 DOESN'T Ul1LJZE THIS EMBANKMENT CROSS SECTION **SEE EC8A FOR BASIN DETAIL AND SKIMMER CONNECTION TO OUTLET BOX. BASIN 5 DOESN'T UTILIZE THIS EMBANKMENT CROSS SECTION SB TEMPORARY SEDIMENT BASIN EMBANKMENT CROSS SECTION NOT TO SCALE Construction Road Stabilization Specification / 6.80 - Construction Specifications I. Clear roadbed and parking areas of all vegetation, roots and other objectionable material. 2. Ensure that road construction follows the natural contours of the terrain if it is possible. J. Locate parking areas on naturally flat areas if they are available. Keep grades sufficient for drainage but generally not more than 2 to 3% 4. Provide surface drainage, and divert excess runoff to stable areas by using water bars or turnouts (References: Runoff Control Measures). 5. Keep cuts and Oils at 2:1 or flatter for safety and stability and to facilitate establishment of vegetation and maintenance. 6. Spread a 6-inch course of 'ABC' crushed stone evenly over the full width of the road and smooth to avoid depressions. 7. Where seepage areas or seasonally wet areas must be crossed, install subsurface drains or geotextile fabric cloth before placing the crushed stone (Practice 6.81, Subsurface Drain). 8. Vegetate all roadside ditches, cuts fills and other disturbed areas or otherwise appropriately stabilize as soon as grading is complete (References: - Surface Stabilization). 9. Provide appropriate sediment control measures to prevent off -site sedimentation. Maintenance Inspect construction roads and parking areas periodically for condition of surface. Topdress with new gravel as needed. Check road ditches and other seeded areas for erosion and sedimentation after runoff -producing rains. Maintain all vegetation in a healthy, vigorous condition. Sediment -producing areas should be treated immediately. CE Temporary Gravel Construction EntrancelExit Specification / 6.06 - Construction Specifications I. Clear the entrance and exit area of all vegetation, roots and other objectionable material and properly grade it. 2. Place the gravel to the specific grade and dimensions shown on the plans and smooth it. 3. Provide drainage to carry water to a sediment trap or other suitable outlet. 4. Use geotextie fabrics because they improve stability of the foundation in locations subject to seepage or high water table. Maintenance Maintain the gravel pad in a condition to prevent mud or sediment from leaving the construction site. This may require periodic topdressing with 2-inch stone. After each rainfall, inspect any structure used to trap sediment and dean it out as necessary. Immediately remove all objectionable materials spilled, washed, or tracked onto public roadways. ) Temporary Seeding Specification / 6.10 - Specifications Complete grading before preparing seedbeds and install all necessary erosion control practices such as dikes waterways and basins. Minimize steep slopes because they make seedbed preparation difficult and increase the erosion hazard. If soils become compacted during grading, loosen them to a depth of 6-8 inches using a ripper, harrow, or chisel plow. Seedbed Preparation Good seedbed preparation is essential to successful plant establishment. A good seedbed is well -pulverized, loose and uniform. Where hydroseeding methods are used, the surface may be left with a more irregular surface of large clods and stones. Liming - Apply lime according to soil test recommendations. If the pH (acidity) of the soil is not known, an application of ground agricultural limestone at the rate of 1 to 1 1/2 tons/acre on coarse -textured soils and 2-3 tons/acres on fine -textured soils is usually sufficient. Apply limestone uniformly and incorporate into the top 4-6 inches of soil. Soils with a pH of 6 or higher need not be limed. Fertilizer- Base application rates on soil tests. When these are not possible, apply a 10-10-10 grade fertilizer at 700-1,000 lb./acre. Both fertilizer and lime should be incorporated into the top 4-6 inches of soil. if a hydraulic seeder is used, do not mix seed and fertilizer more than 30 minutes before application. Surface roughening- If recent tillage operations hate resulted in a loose surface, additional roughening may not be required except to break up large clods. If rainfall causes the surface to become sealed or crusted, loosen it just prior to seeding by disking, raking, harrowing, or other suitable methods, Groove or furrow slopes steeper than J. I on the contour before seeding (Practice 6.03, Surface Roughening). Plant Selection Select an appropriate species or species mixture from Table 6.10a, for seeding in late winter and early spring, Table 6.10b for summer, and Table 6.10c for fall. Seeding Evenly apply seed using a cyclone seeder (broadcast), drill, cultipac ker seeder, or hydroseeder. Use seeding rates given in Table 6.10a-6.10c. Broadcast seeding and hyroseeding are appropriate for steep slopes where equipment cannot be driven. Hand broadcasting is not recommended because of the difficulty in achieving a uniform distribution. Small grains should be planted no more than 1 inch deep, and grasses and legumes no more than 1/2 inch. Broadcast seed must be covered by raking or chain dragging, and then lightly firmed with a roller or culfipacker. Hydroseeded mixtures should include a wood fiber (cellulose) mulch. Mulching The use of appropriate mulch will help ensure establishment under normal conditions and is essential to seeding success under harsh site condition (Practice 6.14, Mulching). Harsh site conditions include. -seeding in fall for winter cover (wood fiber mulches are not considered adequate for this use), -slopes steeper than J. 1, -excessively hot or dry weather, -adverse soils(shallow, rocky, or high in day or sand), and -areas receiving concentrated flow. If the area to be mulched is subject to concentrated waterflow, as in channels, anchor mulch with netting (Practice 6.14, Mulching). r I � M= 3 VqMEs n= 0.022 r3 _ I \//\//\\1\\\\/\ j\ j \/���� \////\//�\//\\\//\//\//\//\//\//\\ LINED WITH REINFORCING MATTING AND SEED PER SPECIFICATIONS OR SOD. EX SWALES 1-3 NEW SWALES 3-4 GC 3:1 GRASSED CHANNEL N. T. S Sediment Fence (Silt Fence) Specification 6.62 - Construction Specifications MATERIALS i.Use a synthetic filter fabric or a pervious sheet of polypropylene, nylon, polyester, or polyethyfene yam, which is certified by the manufacturer or supplier as conforming to the requirements shown in Table 6.62b. Synthetic filter fabric should contain ultraviolet ray inhibitors and stabilizers to provide a minimum of 6 months of expected usable construction life at a temperature range of 0 to 120 F. 2Ensure that posts for sediment fences are 1.33 Ib/Iinear ft steel with a minimum length of 4 ft. Make sure that steel post have projects to facilitate fastening the fabric 3.For reinforcement of standard strength filter fabric, use wire fence with a minimum 14 gauge and a maximum mesh spacing of 6 inches. Table 6.62b Specifications For Sediment Fence Fabric Physical Property Requirements Fitierkng Efficiency - 85% (min) Tensile Strength at Standard Strength- 30 Ib/lin in (min) Extra Strength- 50 Ib/lin in (mm) Slurry Flow Rate - 0.3 gal/sq ft/min (min) CONSTRUCTION 1.Construct the sediment barrier of standard strength or extra strength synthetic filter fabrics. ZEnsure that the height of the sediment fence does not exceed 18 inches above the ground surface. (Higher fences may impound volumes of water sufficient to cause failure of the structure.) 3.Construct the filter fabric from a continuous roll cut to the length of the barrier to avoid joints. When joints are necessary, securely fasten the filter cloth only at a support post with overlap to the next post. 4.&Wort standard strength filter fabric by wire mesh fastened securely to the up slope side of the posts using heavy duty wire staples at least 1 inch long, or tie wires. Extend the wire mesh support to the bottom of the trench. 5. Men a wire mesh support fence is used, space posts a maximum of 8 ft apart. Support posts should be driven securely into the ground to a minimum of 18 inches. 6.Extra strength titer fabric with 6ft post spacing does not require wire mesh support fence. Staple or wire the filter fabric directly to posts. 7Excovote a trench approximately 4 inches wide and 8 inches deep along the proposed line of posts and upslope from the barrier (figure 6.62a). 8.8adkh7l the trench with compacted soil or gravel placed over the Ill ter fabric. 9.Do not attach filter fabric to existing trees. Maintenance inspect sediment fences at least once a week and after each rainfall. Make any required repairs immediately. Should the fabric of a sediment fence collapse, tear, decompose or become ineffective, replace it promptly. Replace burlap every 60 days. Remove sediment deposits as necessary to provide adequate storage volume for th next rain and to reduce pressure on the fence. Take care to avoid undermining the fence during cleanout. Remove all fencing materials and unstable sediment deposits and bring the area to grade and stabilize it after the contributing drainage area has been properly stabilized. SK Skimmer Sediment Basin Specification 6.64.7 - Construction Specifications 1. Clear grub, and strip the rea under the embankment of all ve etation and root' chat Remove all su acg sal contai in? hi h gm rots of �r�anic mut err an sto le o dispose of rt�roperiy. F7ou allgobiec ienable ma eriol tot e desi_gnat disposal area. rrlac temporary sedimenT control measures below basin as need 2. Ensure that fill material for the bankment is free of rog woody vegetation, organic after, and a er objectionable mat al. Pace the rill in litrs not to exceed ruche , and machine compact it. i vver N the embankment 6 inches to allow or settyement. 3. axe the basin to the fled dimensions. Prevent 1 e skim ing device gettlinq into the trr�i, excavating a shallow pit and�r a skimmer or providing a low support unde>Y the skimmer of stone or timber. 4. Place the bo7gf (t idol 4-ingh Sd�edule 40 PVC �ip� on o fifirm, smooth foundation o imp ou soil uo 1111a use Pervioug a al such as sand gravel, or crushed tone as bac kh7l around the pi e. Pla a the fill material n� the p er rgllw in 4-inch layers o il co il pactirf under am aCround e i e to lestt t same ensi y as e a c e�►b nk pent. are must e taken not f ra' a the pT e fr the firm cohtac with i�s fououndation when compacting undoer lhse pipe l�oun es. Place a minimum d th of p f f of cols acted bac kfil over the pie rllway before crossm� wili cons#rucon egwpient. In no �ase should tie p)e conduit per ins al ed any cutting a trench through the am after the embankment is complete. 5. Assemble the skimmer following the manufacturers instructions, or as designed. 6. Lay the a senbled skimm on the bottom o the bpsin Ivithh he flexble arot at ttsh let of the �arrel ipe. Attach he flexible int o the lgrrel pipe d postitiar rthe skimmer over ghe excavat pit or s�p�°orf. �e TV re to attach ropy f th skimmer ��nd anchorr it to the Nde of thb basin. This will be used o pu 1 �ie imme or e side or maintenance. 7. Earthen spilwa/ys-stall the spillway in undisturbed sal to the greatest extent possible. a gchievement cif planned elevation% gratlee, desi n width, a d en ra ce and exit Bann slopes are criti al to the s cces fulgoperation 9 the spi way. tie ill y 1(1 be lined w'cth larginatek�plasyic or rm a ble eotexti tw�ric. e f bri m s� bbe role qrid Ion en h t oO►perie botom gnat' s des an exyena� ono thgop of the dim ta�nc�orin9 in a trench. a ed es me be s red wit 8-inch staples or pins. 'thhe rabri rust ¢� lon� to el t d down the slope qnd exit ontg stab) ropnd. e wi th o dre ric m s be oneg piece, not rued or spbc oefh�rwise water an et rider fh fabric �tt e len th of he fabriis insufficient f the entire r(engt�n o� the sp►way, mu'ti le sect�ons spanning the cam leye widtgr ma be used )ire Upper section(n should overlap the Tower ection(s) o th�t water cannot flow under the fabric. Secure the upper ea�gp and sues of the fabric in a trench with staples or pins. (Adopted from A Manual for Desigyning, Installing and Mai taining Skimmer Sediment Basins.' February, 1999. J. W. Faircloth &SonI . 8. Inlets-Discha ge w tgr into the basin in a mfnner f fevertt erosion. Ube temporaryslope rams or diversions with outlet proye�tton to divert sediment - laden waer to the upper end of the pool area to improve basin trap efficiency 9. Erosion control- onstruct the structure so that the disturbed area is minimi Di sun ce water a fro Days ar s. Gam lete they am ent be e e area rs a red. �Stabrize the emer�enc spilway embankment an all other distu ed areas above the crest of trhe prinCT al spillway immediately after construction (References: Surface Stabilization 10. After all the si�r ent-produ i areas h ve 5b�m on ttfy stabilizedremove the sfru ure a5nd alfilge unstanNe serPif. ore hthe area to blend with the adjoining areas and stabilize erly References: Surface Stabilization). 1pspect skimmer sediment basins at least weekly and after each significant (ong-half in or reater) rainfall event and air iMmediatel . R eve sediment an rest it bas' to its orgin f ion ion elyi se7menf accumulates to one -hake the al, of t�ne I s b e. Aulhhe skimmer to one side so that the sediment undenTeoth it can ge excavated. Excavate the ��anent from th entire basin, t Vs around the skimmer or the fit cell. Make sure vegetation growing in �Re jubottom of the basin does not hold down the skimmer. If the skimmer is clog ed nth tro and Cher is water 'n the b sin, u ally rm on the r e ma�Ce the immer boa up and a�own ancpdi Quo e dgg¢risand r fgre flow. If this �oes not WT[k, gll the skimm errsrtlae of the gsin and remove t e debris. A so edk the on ce inside the skimmer to see if it is clogged, • if so remove the debris. If the skimmer arm or barrel pipe is clogged, the orifice can be removed and the obstruction cleared with a plumber's snake or by flushing with water. Be sure and replace the orifice before repositioning the skimmer. Check the fabric lined spillway for damage and make any required repairs with fabric that spans the full width of the spillway. Check the embankment, spillways, and outlet for erosion damage, and inspect the embankment for piping and settlement. Make all necessary repairs immediately. Remove all trash and other debris from the skimmer and pool areas. Freezing weather can result in ice forming in the basin. Some special precautions should be taken in the winter to prevent the skimmer from pluggina with ice. Land Grading Specification / 6.02 - Construction Specifications 1.Construct and maintain all erosion and sedimentation control practices and measures in accordance with the approved sedimentation control plan and construction schedule. 2Remove good topsoil from areas to be graded and filled, and preserve it for use in finishing the grading of all critical areas. 3.Scarify areas to be topsoiled to a minimum depth of 2 inches before placing topsoil (Practice 6.04, Topsoiing). 4.Clear and grub areas to be flied to remove trees, vegetation, roots, or other objectionable material that would affect the planned stability of the fill. 5.Ensure that fit/ material is free of brush, rubbish, rocks logs, stumps budding debris and other materials inappropriate for constructing stable fills. 6.Place all All in layers not to exceed 9 inches in thickness and compact the layers as required to reduce erosion, slippage, settlement, or other related problems. 7.Do not incorporate frozen material or soft, mucky, or highly compressible materials into All slopes. &Do not place All on a frozen foundation, due to possible subsidence and slippage. 9.Keep diversions and other water conveyance measures free of sediment during all phases of development. 10.Handle seeps or springs encountered during construction in accordance with approved methods (Practice 6.81, Subsurface Drain). 11.Permanently stabilize all graded areas immediately after final grading is completed on each area in the grading plan. Apply temporary stabilization measures on all graded areas when work is to be interrupted or delayed for 30 working days or longer. 12.Ensure that topsoil stockpiles borrow areas, and spoil areas are adequately protected from erosion with temporary and final stabilization measures, including sediment fencing and temporary seeding as necessary. Maintenance Periodically check all graded areas and the supporting erosion and sedimentation control practices especially after heavy rainfalls. Promptly remove all sediment from diversions and other water -disposal practices. if washouts or breaks occur, repair them immediately. Prompt maintenance of small eroded areas before they become significant gullies is an essential part of an effective erosion and sedimentation control plan. Temoorary Seedina (continued Table 6.10a - Temporary Seeding Recommendation for Late Winter and Early Spring Seeding mixture Species- Rye(groin), Annual lespedeza (Kobe in Piedmont and Coastal Plain Rate (Ib/acre)- 120 Omit annual lespedeza when duration of temporary cover is not to extend beyond June Seeding dates -Coastal Plain - Dec. 1 - Apr. 15. Soil amendments- Follow recommendations of soil tests or apply 2,000 Ib/acre ground agricultural limestone and 750 Ib/acre 10-10-10 fertilizer. Mulch -Apply 4,0001b/acre straw. Anchor straw by tacking with asphalt netting or a mulch anchoring tool. A disk with blades set nearly straight can be used as a mulch anchoring tool. Maintenance - Refertilize if growth is not fully adequate. Reseed, refertilize and mulch immediately following erosion or other damage. Table 6.10b - Temporary Seeding Recommendations for Summer Seeding mixture Species -German millet Rate(lb/acre)- 40 Seeding dates -Coastal Plain- Apr. 15-Aug. 15 Soil amendments -Follow recommendations of soil tests or apply 2,000 ib/axe ground agricultural limestone and 750 Ib/acre 10-10-10 fertilizer. Mulch -Apply 4,000 ib/acre straw. Anchor straw by tacking with asphalt netting or a mulch anchoring tool A disk with blades set nearly straight can be used as a mulch anchoring tool. Maintenance-Refertrlize if growth is not fully adequate. Reseed, refertilize and mulch immediately following erosion or other damage. Table 6.10c - Temporary Seeding Recommendation for Fall Seeding mixture Species-Rye(grain) Rote(lb/acre) - 120 Seeding dates - Coastal Plain and Piedmont -Aug 15 - Dec. 30 Soil amendments - Follow soil tests or apply ZOOO Ib./acre ground agriculturel limestone and 1,000 Ib/acre 10-10-10 fertilizer. Mulch- Apply 4,000 Ib/acre straw. Anchor straw by tacking with asphalt, netting, or a mulch anchoring tool. A disk with blades set nearly straight can be used as a mulch anchoring toot Maintenance- Repair and refertilize damaged areas immediately. Topdress with 50 ib/acre of nitrogen in March, if it is necessary to extend temporary cover beyond June 15, overseed with 50 Ib/ocre Kobe (Piedmont and Coastal Plain) OP Outlet Stabilization Structure Specification / 6.41 - Construction Specifications 1. Ensure that the subgrade for the Alter and riprap follows the required lines and grades shown in the plan. Compact any fill required in the subgrade to the density of the surrounding undisturbed material. Low areas in the subgrade on undisturbed soil may also be filled by increasing the rfprop thickness. 2. The riprap and gravel filter must conform to the specified grading limits shown on the plans. J. Filter cloth, when used, must meet design requirements and be properly protected from punching or tearing during installation. Repair any damage by removing the riprap and placing another piece of filter cloth over the damaged area. All connecting joints should overlap a minimum of I ft. If the damage is extensive, replace the entire filter cloth. 4. Rlprop may be placed by equipment, but take care to avoid damaging the Alter. 5. The minimum thickness of the riprap should be 1.5 times the maximum stone diameter. 6. Rpprop may be field stone or rough quarry stone. It should be hod, angular; highly weather -resistant and well graded. 6. Construct the apron on zero grade with no overfall at the end Make the top of the riprap at the downstream end level with the receiving area or slightly below it. 8. Ensure that the apron is properly aligned with the receiving stream and preferably straight throughout its length. if a curve is needed to fit site conditions, place it in the upper section of the apron. 9. Immediately after construction, stabilize all disturbed areas with vegetation (Practice 6.10, Temporary Seeding, and 6.11, Permanent Seeding), Maintenance Inspect riprop outlet structures after heavy rains to see if any erosion around or below the riprap has taken place or if stones have been dislodged. Immediately make all needed repairs to prevent further damage. PermoneaL Seeding Specifications / 6.11 - Specifications Seedbed Requirements Establishment of vegetation should not be attempted on sites that are unsuitable due to inappropriate sort texture (Table 6.110), poor drainage, concentrated overland flow, or steepness of slope until measures have been taken to correct these problems. To maintain a good stand of vegetation, the soil must meet certain minimum requirements as a growth medium. The existing soil should have these criteria: - Enough fine-grained (sit and day) material to maintain adequate moisture and nutrient supply (available water capacity of at least .05 inches water to 1 inch of soi). - Sufficient pore space to permit root penetration. - Sufficient depth of soil to provide an adequate root zone. The depth to rock or impermeable layers such as hardpans should be 12 inches or more, except on slopes steeper than 21 where the addition of soil is not feasible. - A favorable pH range for plant growth, usually 6.0-6.5. - Freedom from large roots, branches, stones, large clods of earth, or trash of any kind. Clods and stones may be left on slopes steeper than 3:1 if they are to be hydroseeded. If any of the above criteria are not met-i.e., if the existing soil is too coarse, dense, shallow or acidic to foster vegetation -special amendments are required. The soil conditioners described below may be beneficial or, preferably, topsoil may be applied in accordance with Practice 6.04, Topsoiing. Soil Conditioners In order to improve the structure or drainage characteristics of a soil, the following material may be added. These amendments should only be necessary where soils have limitations that make them poor for plant growth or for fine turf establishment (see Chapter 3, Vegetative Considerations). Peat -Appropriate types are sphagnum moss peat, hypnum moss peat, reedsedge peat, or peat humus, all from fresh -water sources. Peat should be shredded and conditioned in storage pries for at least 6 months after excavation. Sand -dean and free of toxic materials Vermiculite -horticultural grade and free of toxic substances. Rotted manure -stable or cattle manure not containing undue amounts of straw or other bedding materials. Thoroughly rotted sawdust- free of stones and debris. Add 6 Ib. Of nitrogen to each cubic yard. Sludge -Treated sewage and industrial sludges are available in various forms: these should be used only in accordance with local, State and Federal regulations. Species Selection Use the key to Permanent Seeding Mixtures (Table 6.11b) to select the most appropriate seeding mixture based on the general site and maintenance factors. A listing of species, including scientific names and characteristics is given in Appendix 6.02. Seedbed Preparation Install necessary mechanical erosion and sedimentation control practices before seeding, and complete grading according to the approved plan. Lime and fertilizer needs should be determined by sort tests. Soil testing is performed free of charge by the North Carolina Department of Agriculture soil testing laboratory. Directions, sample cartons, and information sheets are available through county agricultural extension offices or from NCOA. Because the NCOA soil testing lab requires i-6 weeks for sample turn -around, sampling must be planned well in advance of final grading. Testing is also done by commercial laboratories. When soil test are not available, follow rates suggested on the individual specification sheet for the seeding mix chosen (Tables 6.11c through 6.11 y). Applications rates usually fall into the following ranges: - Ground agricultural limestone Light -textured, sandy soil 1-1 1/2 tons/acre Heavy textured, clayey soils 2-3 tons/acre - Fertilizer. Grasses 800-1200 Ib/acre of 10-10-10 (or the equivalent) Grass -legume mixtures: 800-1200 Ib/aoe of 5-10-10 (or the equivalent) Apply lime and fertilizer evenly and incorporate into the top 4-6 inches of soil by disking or other suitable means. Operate machinery on the contour. When using a hydroseeder, apply lime and fertilizer to a rough, loose surface. Roughen surfaces according to Practice 6.03, Surface Roughening. Complete seedbed preparation by breaking up large clods and raking into a smooth, uniform surface (slope less than 3:1) Fill in or level depressions than can collect wafer. Broadcast seed into a freshly loosened seedbed that has not been sealed by rainfall. Table 6.11s - Seeding No. 4CP for. Well -Drained Sandy looms to Dry Sands Coastal Plain, Low to Medium -Care Lawns Seeding mixture Species - Centipedegrass - Rate - 10-20 Ib/acre (seed) or 33 bu/acre (sprigs) Seeding dates - Mar. - June, (Sprigging can be done through July where water is available for irrigation.) Soil amendments - Apply lime and fertilizer according to soil test, or apply 300 Ib/acre 10-10-10. Sprigging - Plant sprigs in furrows with a tractor -drown transplanter, or broadcast by hand. Furrows should be 4-6 inches deep and 2ff apart. Place sprigs about 2 ft. apart in the row with one end of or above ground level (Figure 6.11d). Broadcast at rates shown above, and press sprigs into the fop 1 1/2 inches of soil with a disk set straight so that sprigs are not brought back toward the surface. Mulch - Do not mulch Maintenance - Fertilize very sparingly- 20 Ib/axe nitrogen in spring with no phosphorus. Centipedegross cannot tolerate high pH or excess fertilizer. Maintenance Table 6.11 t - Seeding No. 5CP for. Well -Drained Sandy Looms to Dry Sands; Low Seeding mixture Species Rate (Ib/acre) Pensacola Bahiagross 50 Sericea lespedeza 30 Common Be►mudogross 10 Cerman millet 10 Seeding notes 1. Where a neat appearance is desired, omit sericea 2. Use common Bermudograss only on isolated sites where if cannot become a pest. Bermudograss may be replaced with 5 Ib/acre centipedgrass. Seeding dates - Apr. 1 - July 15 Sail amendments - Apply lime and fertilizer according to soil tests, or apply 3,000 Ib/acre ground agricultural limestone and 500 Ib/acre 10-10-10 fertilizer. Mulch Apply 4,000 Ib/acre grain straw or equivalent cover of another suitable mulch. Anchor by tacking with asphalt, roving and netting or by crimping with a mulch anchoring tool. A disk with blades set nearly straight can be used as a mulch anchoring tool. Maintenance - Refertiize the following Apr. with 50 Ib/acre nitrogen. Repeat as growth requires May be moved only once a year. Whore a neat appearance is desired, omit sericea and now as often as needed. Table 6.11 v - Seeding No. 7CP for. Grass -lined Channels; Coastal Plain Seeding Mixture Species - Common Bermudograss - Rate - 40-80 (1/2 Ib/1,000 ft ) Seeding dates - Coastal Plain, Apr - July Soil amendments - Apply lime and fertilizer according to soil tests, or apply 3,000 Ib/acre ground agricultural limestone and 500 Ib/acre 10-10-10 fertilizer. Mulch - Use jute, excelsior matting, or other effective channel lining material to cover the bottom of channels and ditches. The lining should extend above the highest calculated depth of flow. On channel side slopes above this height, and in drainages not requiring temporary linings apply 4,000 lb/acre grain straw and anchor straw by stapling netting over the top. Mulch and anchoring materials must be allowed to wash down slopes where they can clog drainage devices Maintenance -A minimum of 3 weeks is required for establishment. Inspect and repair much frequently. Refertiize the following Apr. with 50 Ib/acre Refer to Appendix 802 for botanical names ,11 II�I IiM LICENSE # C-2710 ENGINEERING LAND PLANNING COMMERCIAL / RESIDENTIAL P.O. BOX 4041 MILMINGTON, NC 28406 (910) 791-4441 LL (1) J Q9 Ui It W Q Q Z a. JO 2� V) U 3 (O Cr �_O ZZ O CL� f) Q (J O L.�: Cr- W (/)Z >, J Z w Z oZ O C U W Q �LJJ Z 11 rn (JO J J O 00 QpU O. (�D Q Z Z n 6EO I Li ~Z � Op�_J OI =(p;E -M W O \������\\\uC AR",// /// N �� /,/i �� --\ )� .� S S r C /� /f/� �9� v :ems SAL {725483 11-25-19 ", /% 0. -...�/S///\\\ 81/11lIIIIIIN� 2! N^ C �2 i N h -� Z1 . 4 ^ N 1k ail .� Nil O 9 is R P Y a o Q:� Q CZ Zi Cf)JLIJ a� g gs ct FS0 IN o m �o tz?': ., c� 5 a I.- (n to47i� � clR�f pWo L S W O Z N .- O 5 O p0 h co � W DA TE: 12-17-15 HORZ. SCALE. N/A VERT. SCALE. N/A DRAWN BY- RL W CHECKED BY- HSR PROJECT NO.: 06-0134 Sheet NEC11 aEC12 STAPLES STRAW BALE (2 PER BALE) 10 MIL PLASTIC LINING NATIVE MATERIAL (OPTIONAL) Fir WOOD OR METAL STAKES (2 PER SECTION B-B U N. T. S. 36 >'"I WIRE PLYWOOD 48"x24" PAINTED WHITE BLACK LETTERS 6" HEIGHT zLAG SCREWS WOOD POST 3.5 x3.5"X8' CONCRETE WASHOUT SIGN DETAIL (OR EQUIVALENT) VARIES 8" 1.12" DIA. STEEL WIRE STAPLE 10 MIL PLASTIC LINING PLAN ��.TRAW BALE DETAIL N. T. S. TYPE "ABOVE GRADE" WITH STRAW BALES NOTES, 1. ACTUAL LAYOUT TO BE DETERMINED IN THE FIELD. 2. A CONCRETE WASHOUT SIGN SHALL BE INSTALLED WITHIN 30 FT OF THE TEMPORARY CONCRETE WASHOUT FACILITY. 3. MATERIALS USED TO CONSTRUCT TEMPORARY CONCRETE WASHOUT FACILITIES SHALL BE REMOVED FROM THE SITE OF THE WORK AND DISPOSED OF OR RECYCLED. 4. HOLES, DEPRESSIONS OR OTHER GROUND DISTURBANCE CAUSED BY THE REMOVAL OF THE TEMPORARY CONCRETE WASHOUT FACILITIES SHALL BE BACKFILLED, REPAIRED AND STABILIZED TO PREVENT EROSION. MAINTENANCE: 1. CONCRETE WASHOUTS SHOULD BE INSPECTED DAILY AND AFTER HEAVY RAINS. DAMAGES SHOULD BE REPAIRED PROMPTLY. IF FILLED TO OVER 75% CAPACITY WITH RAIN WATER IT SHOULD BE VACUUMED OR ALLOWED TO EVAPORATE TO AVOID OVERFLOWS. BEFORE HEAVY RAINS THE CONTAINERS LIQUID LEVEL SHOULD BE LOWERED OR THE CONTAINER COVERED TO AVOID AND OVERFLOW DURING RAIN. WHEN SOLIDS HAVE HARDENED THEY SHOULD BE REMOVED AND RECYCLED. NOTE ELL 1. SOIL STABILIZATION TIMEFRAMES a-BERM 10 MIL PLASTIC LININ SECTION A -A 13'N. T, S. LATH AND FLAGGING ON THREE SIDES 10 f MIN o � o SANDBAG 0 A A VARIES QUi BERM 0 0 0 0 10 MIL PLASTIC LINING ELAN N.T.S. TYPE "BELOW GRADE" �10 MIL PLASTIC LINING WOOD FRAME SECURELY- SECTION B-B FASTENED AROUND N.T.S. ENTIRE PERIMETER WITH TWO STAKES 10 FT MIN-- - TWO STACKED 2X12 ROUGH B B WOOD FRAME VARIES /STAKE (TYP) 10 MIL PLASTIC LINING PLAN TYPE "ABOVE GROUND" N. T. S. WITH WOOD PLANKS CONCRETE OUT DETAIL NOT TO SCALE LEGEND LIMITS OF DISTURBANCE 7 DAY STABILIZATION SITE AREA DESCRIPTION STABIUZARON 71MEFRAME EXCEPTIONS PERIMETER DIKES;SWALES 7 DAYS NONE DITCHES AND SLOPES HIGH QUALITY ZONES HQW 7 DAYS NONE SLOPES STEEPER THAN J.1 7 DAYS IF SLOPES ARE 10 FT OR LESS IN LENGTH AND ARE ARE NOT STEEPER THAN 2-- 1, 14 DAYS ARE ALLOWED SLOPES 3:1 OR FLATTER 14 DAYS 7 DAYS FOR SLOPES GREATER THAN 50 FT IN LENGTH ALL OTHER AREAS WITH SLOPES 14 DAYS NONE, EXCEPT FOR PERIMETER AND FLATTER THAN 4.1 HQW ZONES Rpsq p 41% / ALL OTHER AREAS 14 DAY STABIUZATION r1f ALL OTHER AREAS 14 DAY STABIUZA LION z i /. 1 / U �< i` ALL OTHER AREAS 14 DAY STABIUZA / -�... . . . . . . . " . / 39 ..........B I/ . - . . . . . . - - j ij o f 3 i O i i -- 0 j i j/ SCALE IN FEET: 1"-- 200' 200 100 0 200 400 600 rn U O J � 00 Q N C) O pzZ � D: O I Lu U) 0CN3 W O �1 C A Ho ti SEAL 025483 3/30/2020 N 00 N N � E� Y o z � � � a � 3 o � m m 2 Ll Z W IY DA TE.• 12-17-15 HORZ. SCALE. 1" = 200' VERT. SCALE. N/A DRAWN BY RL W CHECKED BY- HSR PROJECT NO.: 06-0134 EC12 EC12 Sheet No. Of 30 15 0 30 60 90�\ SCALE IN FEET: 1 "= 30' 33.3 FT 6 FT TOP OF VEG. SHED" PERMANENT POOL = 6:1 PLANTED SHELF PA Proposed Plon t Toble VFr.FTATIVF PI AN7TNG 6:1 SHELF Quantity Symbol Scientific Name Common Name Planting Size Planting Remarks Planting Season 1,217 EUPATORIADELPHUS FISTULOSUS JOE PYE WEED 4 CUBIC INCH 8' O.C. SPRING, FALL 1,217 LOBELIA CARDINALIZ CARDINAL FLOWER 4 CUBIC INCH 8' O.C. SPRING, FALL 1,217 1 RHYNCHOSPORA COLORATA STARRUSH WHITETOP 4 CUBIC INCH 8' O.C. SPRING, FALL O.C. — "ON CENTER" CAL. — "CALIPER AT 6" ABOVE GRADE" GAL. — "GALLON CONTAINER" PLANTINGS REQUIRED = 14,502 SF / 200 = 73 X 50 = 3,650 PLANTS REQUIRED MINIMUM OF 3 DIFFERENT SPECIES REQUIRED REMAINING PORTION OF POND ABOVE 6:1 SHELF 70 BE PLANTED WITH CENTIPEDE GRASS FOREBAY BERM TO BE CENTIPEDE GRASS OR LINED NTH RIP RAP FIVIKI'M VA 1. WORK SHALL MEET THE REQUIREMENTS OF ALL LOCAL, STATE, AND FEDERAL GOVERNING CODES, ORDINANCES LAWS, REGULATIONS SAFETY ORDERS AND DIRECTIVES Z CONTRACTOR SHALL BE RESPONSIBLE FOR MAKING HIMSEL.FAERSELF FAMILIAR WITH ALL UNDERGROUND UTILITIES, PIPES AND STRUCTURES CONTRACTOR SHALL TAKE SOLE RESPONSOUTY FOR ANY COST INCURRED DUE TO DAMAGE OF SAID U71UIIES J. CONTRACTOR MUST CHECK ALL SITE CONDITIONS PRIOR TO COMMENCING WORK CONTRACTOR SHALL NOT WILLFULLY PROCEED WITH CONSTRUCTION AS DESIGNED WHEN IT IS OBVIOUS THAT UNKNOWN OBSTRUCTIONS AND/OR GRADE DIFFERENCES EXIST THAT MAY NOT HAVE BEEN KNOWN DURING DESIGN. SUCH CONDITIONS SHALL BE IMMEDIATELY BROUGHT 70 THE ATTENTION OF THE ENGINEER. THE CONTRACTOR SHALL ASSUME FULL RESPONSIBILITY FOR ALL NECESSARY REVISIONS DUE TO FAILURE 70 GIVE SUCH NOTIFICATION. 4. ALL PLANT QUANTITIES ARE IDENTIFIED BY TYPICAL SYMBOLS REFER TO PLANT LEGEND FOR QUANTITIES PLANT QUANTITIES ARE APPROXIMATE AND ARE PROVIDED FOR THE CONVENIENCE OF THE CONTRACTOR. IT SHALL BE THE CONTRACTOR'S RESPONSIBIUTY TO CONFIRM ALL PLANT QUAN7171ES PRIOR 70 ADDING. IN THE EVENT OF DISCREPANCIES IN PLANT COUNT, QUANTITIES INDICATED BY PLANT SYMBOLS SHALL PREVAIL. 5. CONTRACTOR SHALL NOTIFY DESIGNER IF ANY SPECIFIED PLANT MATERIAL IS FOUND 70 BE UNAVAILABLE. 6. ALL AREAS NOT WITHIN THE 6.1 SHELF SHALL BE STABILIZED WITH CENTIPEDE GRASS 7. IF ANY OF SPECIFIED PLANTS ARE UNAVAILABLE; CHOOSE A NATIVE ALTERNATIVE FROM UST ON THIS PAGE. - ASCLEPIAS INCARNATA (SWAMP MILKWEED) - CARIX TENERA (QUILL SEDGE) - CHELONE GLABRA (WHITE TURTLEHEAD) - EUPATORIADELPHUS DUBIUS (DWARF JOE PT WEED) - EUPATORIADELPHUS DUBIUS (DWARF JOE PT WEED) - EUPATORIADELPHUS FISTULOSUS (JOE PYE WEED) - EUPATORIADELPHUS MACULATUS (SPOTTED TRUMPETWEED) - HISSISCUS COCCINEUS (SCARLET ROSE MALLOW) - hWSCUS LAEVIS (HALKRDIEAF ROSEMALLOW) - KOSTELE72KYA VIRGINICA (SEASHORE MALLOW) - LOBELIA CARDINALIZ (CARDINAL FLOWER) - LOBELIA ELONGATA (LONGLEAF LOBELIA) - LOBELIA SIPHILITICA (GREAT BLUE LOBELIA) - RHYNCHOSPORA COLORATA (STARRUSH WHITE70P) - SACCHAROM BALDiWNII (NARROW PLUMEGRASS) LICENSE # C-2710 ENGINEERING LAND PLANNING COMMERCIAL / RESIDEN P.O. BOX 4041 WILMINGTON, NC 28406 (910) 791-4441 Z J a. C� J $� CL (W� "a �I C4 Z4 N ~ Z QL Q Z JCL O 0 Q ZU Q 3 O� Z O Z_ ~ O a> Q s Q j W O ONO 0 Q O C-)Z Z � � U� �Z F E 5 rn U � J � 00 QC4 �CZ rY O I � I N =comps � 'F E S s o' /'1''''� o SEAL. ti9�9 025483 = 9-15-17 Q o 2�m Q W Z z t3s p Z W Cr DA TF• 7-17-17 HORZ. SCALE. I" = 30' VERT. SCALE.- N/A DRAWN BY RL W CHECKED B Y.• HSR PROJECT NO.: 06-0134 ,%�eet No. LP 1 of LP3 I 10 I 20 40 .I 6 FT 33.3 FT WET BASIN 3A 1 " = 20' Proposed Plant Table TOP OF VEG. SHELF VEGETATIVE PLANTING 6:1 SHELF PERMANENT POOL BOTTOM OF VEG. SHELF T E VEGETA T1 VE PLANTING FOR 6: 1 SHELF PLANTINGS FOR 6:1 VEGETA T1 VE SHELF - ASCLEPIAS INCARNATA (SWAMP MILKWEED) - CAREX TENERA (QUILL SEDGE) - CHELONE GLABRA (WHITE 7UR7LEHEAD) - EUPATORIADELPHUS DUBIUS (DWARF JOE PYE WEED) - EUPATORIADELPHUS DUBIUS (DWARF JOE PYE WEED) - EUPATORIADELPHUS RSTULOSUS (JOE PYE WEED) - EUPATORIADELPHUS MACULATUS (SPOTTED TRUMPETWEED) - HIBBSSCUS COCCINEUS (SCARLET ROSE MALLOW) - HIBISCUS LAEVIS (HALBERDLEAF ROSEMALLOW) - KOSIE'LE72KYA V►RGINICA (SEASHORE MALLOW) - LOBELIA CARDINALIZ (CARDINAL FLOWER) - LOBELIA ELONGATA (LONGLEAF LOBELIA) - LOBELIA SIPHIL171CA (GREAT BLUE LOBELIA) - RHYNCHOSPORA COLORATA (STARRUSH WHITETOP) - SACCHARUM BALDWINII (NARROW PLUMEGRASS) = 6:1 PLANTED SHELF Quantity Symbol Scientific Name Common Name Planting Size Planting Remarks Planting Season 825 EUPATORIADELPHUS FISTULOSUS JOE PYE WEED 4 CUBIC INCH 8' O.C. SPRING, FALL 825 LOBELIA CARDINAUZ CARDINAL FLOWER 4 CUBIC INCH 8' O.C. SPRING, FALL 825 RHYNCHOSPORA COLORATA STARRUSH WHITETOP 4 CUBIC INCH 8' O.C. SPRING, FALL] O.C. — "ON CENTER" CAL. — "CALIPER AT 6" ABOVE GRADE" GAL. — "GALLON CONTAINER" PLANTINGS REQUIRED = 9,902 SF / 200 = 49.5 X 50 = 2,475 PLANTS REQUIRED MINIMUM OF 3 DIFFERENT SPECIES REQUIRED REMAINING POR71ON OF POND ABOVE 6:1 SHELF TO BE PLANTED WITH CENTIPEDE GRASS FOREBAY BERM TO BE CENTIPEDE GRASS OR LINED WITH RIP RAP PLANTINGS NOTES: 1. WORK SHALL MEET THE REQUIREMENTS OF ALL LOCAL, STATE, AND FEDERAL GOVERNING CODES, ORDINANCES, LAWS, REGULATIONS, SAFETY ORDERS AND DIRECTIVES. 2. CONTRACTOR SHALL BE RESPONSIBLE FOR MAKING HIMSELFAERSELF FAMILIAR WIIH ALL UNDERGROUND UTILITIES, PIPES AND STRUCTURES. CONTRACTOR SHALL TAKE SOLE RESPONSIBILITY FOR ANY COST INCURRED DUE TO DAMAGE OF SAID UTILITIES. 3. CONTRACTOR MUST CHECK ALL SITE CONDITIONS PRIOR TO COMMENCING WORK. CONTRACTOR SHALL NOT WILLFULLY PROCEED WITH CONSTRUCTION AS DESIGNED WHEN IT IS OBVIOUS THAT UNKNOWN OBSTRUCTIONS ANDIOR GRADE DIFFERENCES EXIST THAT MAY NOT HAVE BEEN KNOWN DURING DESIGN. SUCH CONDITIONS SHALL BE IMMEDIATELY BROUGHT TO THE ATTENTION OF THE ENGINEER. THE CONTRACTOR SHALL ASSUME FULL RESPONSIBILITY FOR ALL NECESSARY REVISIONS DUE TO FAILURE TO GIVE SUCH NOTIFICATION. 4. ALL PLANT QUANTITIES ARE IDENTIFIED BY TYPICAL SYMBOLS REFER TO PLANT LEGEND FOR QUANTITIES PLANT QUAN7171ES ARE APPROXIMATE AND ARE PROVIDED FOR THE CONVENIENCE OF THE CONTRACTOR. IT SHALL BE THE CON7RACTOR'S RESPONSIBILITY TO CONFIRM ALL PLANT OUAN77TIES PRIOR TO BIDDING. IN THE EVENT OF DISCREPANCIES IN PLANT COUNT, QUAN7171ES INDICATED BY PLANT SYMBOLS SHALL PREVAIL. 5. CONTRACTOR SHALL NOTIFY DESIGNER IF ANY SPECIFIED PLANT MATERIAL IS FOUND TO BE UNAVAILABLE. 6. ALL AREAS NOT WITHIN THE 6:1 SHELF SHALL BE STABILIZED WI7H CEN7IPEDE GRASS 7 IF ANY OF SPECIFIED PLANTS ARE UNAVAILABLE, CHOOSE A NATIVE ALTERNATIVE FROM LIST ON THIS PAGE. 60 •I WET BASIN 3B 1 " = 30' P.P 1 t' 170 II LICENSE # C-2710 ENGINEERING LAND PLANNING COMMERCIAL / RESIDENTIAL P.O. BOX 4041 WILM/NGTON, NC 28406 (910) 791-4441 CAlu0 N R :Qz SEAL' 9<'. 025483 — 1-10-20 ''�, NI � O Q 1 m v ! Y Q W ct x a O Z W DATE.• 9-15-17 HORZ. SCALE. AS N07ED VERT. SCALE. • N/A DRA WN B Y.• MRB CHECKED BY.- HSR �=PRWE=CTNO.: 06-0134 LS.heet No. LP3 of jjPJ FOREBA Y 2A-1 AREA FOREBA Y 2C-1 AREA 14 14 15 151 15 O FOREBA Y 2B-2 AREA 14 14 14 4 4 55 e I/ 43 G � � 0� 46 � i 42 �` 47 n FOREBA Y 2C— 2 AREA FOREBAY 2B-3 AREA FOREBA Y 2B —1 AREA AMTCHLINE A —A 100 50 0 100 200 300 SCALE W FEET.• 1"= 100' COSD ENGINEERING LICENSE # C-2710 ENGINEERING LAND PLANNING COMMERCIAL / RESIDENTIAL P.O. BOX 4041 IMLMINGTON, NC 28406 (910) 791-4441 O Q 0 At N N w � N Z m� CL WO f�,l U � J 00 J Q C4 U C) pZZ � 0E i Lu�Z � N I =�3 O W 3 O �uC A Rurr������/// 0� � Q� SEAL 9<' 025483 — 9-15-17 C.) o� V) �1 cr- I N ZN C5 8 W O Z N �— w DA TE.• 6-20-17 HORZ. SCALE. I" = 100' VERT. SCALE. N/A DRAWN BY- RL W CHECKED BY.• HSR PROJECT NO.: 06-0134 Sheet No. Of LINE TABLE FOR POND 1 DRAINAGE AREA LINE TABLE TAG LENGTH DIRECTION L34 58.85' S22`13'25"W L35 345.23' N80°07'05"W L36 105.62' N66°44'50"W L37 36.24' N64'1 O'l 1 "W L38 43.63' N83`18'54"W L39 41.96' S84°00'21 "W L40 41.29' S61 °28'02"W L41 47.92' N51 °44'26"W L42 19.63' NO3°56'36"E L43 64.83' N51 `34'46"W L44 40.00' S39'44'41 "W L45 78.84' S46'21'28"E L46 40.33' S39°37'26"E L47 50.23' S33°09'09"W L48 46.36' S14°58'30"W L49 46.79' SO4°03'21 "E L50 49.62' S19'51'54"E L51 48.15' S42'55'21 "E L52 39.95' S55°10'09"E L53 59.61' S70°24'08"E L54 54.55' S08°58'56"W L55 199.28' S83'14'10"W LINE TABLE TAG LENGTH DIRECTION L56 21.96' S30'49'24"W L57 83.64' S00°00'00"E L58 89.11' S11 `04'38"E L59 32.84' S29"01'40"E L60 42.99' S21 °45'33"W L61 109.01' S00°27'17"W L62 40.29' S61 °00'45"W L63 39.01' S12`07'15"E L64 32.19' N76°51'23"E L65 31.44' S33`20'40"E L66 77.74' S27'51'51 "E L67 285.05' N77°25'32"E L68 64.42' N76°42'29"E L69 28.61' S13°08'15"E L70 50.01' N75°44'36"E L71 27.77' N13°08'15"W L72 264.33' N76'42'29"E L73 84.62' N73'47'26"E L74 139.17' NI *16'04"E L75 448.66' N08°09'56"E L76 54.87' N10*57'11 "E L77 147.24' N80°19'10"W LINE TABLE FOR POND 2A, 2B & 2C DRAINAGE AREA LINE TABLE TAG LENGTH DIRECTION L136 54.98' N34"52'16"W L137 100.00' N06°54'57"E L138 178.32' N1417'05"W L139 682.90' N18°01'59"E L140 63.31' N67°43'40"W L141 63.15' N19'32'55"E L142 85.48' S62'38'25"E L143 126.03' S72°13'51 "E L144 70.29' S18'42'39"W L145 185.58' S71 °50'05"E L146 44.60' S17'39'22"W L147 26.89' S75°14'09"E L148 423.69' S79°59'39"E L149 635.49' S09`10'37"W L150 181.14' N81 °06'07"W L151 129.52' N57°46'31"W L152 166.14' S39°36'43"W L153 370.04' S80°02'48"E L154 988.81' S09°57'46"W L155 30.00' S09°57'46"W L156 319.36' S10°00'37"W L157 147.24' N80'19'10"W ++++++++++ +++++++++ + + + + + + + + + + + + + + + + + + + + + + + + + + + + + LINE TABLE TAG LENGTH DIRECTION L158 28.54' N22°42'36"W L159 301.14' N79°51'39"W L160 142.35' N27`42'52"W L161 109.17' N12°57'40"E L162 125.50' N26`11'11 "W L164 328.84' S53°27'18"W L165 96.26' N89°27'10"W L166 100.49' S50°27'01 "W L167 179.17 N43°39'44"W L168 184.64' N00'50'51 "W L169 109.21' N07'53'12"E L170 40.26' N26"14'25"E L171 103.49' N10°30'36"E L173 17.40' N80`19'03"W L174 38.56' N11 °54'40"E L176 104.80' N11'30'34"E L177 405,34' S79°26'55"E L178 55.42' N10*33'21"E L179 110.64' N78`09'16"W L180 265.71' N09'57'30"E L181 100.25' S81 °43'50"E L182 136.79' N12°30'05"E DRAINAGE AREA FOR NCDEQ POND SYSTEM 1 (POND 1) = 675,561 SF (15.51 AC) DRAINAGE AREA FOR NCDEQ ---- POND SYSTEM 2 (PONDS 2A, 2B & 2C) = 1,852,J86 SF (42.52 AC) DRAINAGE AREA FOR NCDEQ 4 ry POND SYSTEM 3 (PONDS 3A & 3B) = 1,119, 644 SF (25.70 AC) 77 f \ LINE TABLE FOR POND 3A & 3B DRAINAGE AREA LINE TABLE TAG LENGTH DIRECTION L34 58.85' S2213'25"W L35 345.23' N80`07'05"W L36 105.62' N66°44'50"W L37 36.24' N64°1 O'11 "W L38 43.63' N83°18'54"W L39 41.96' S84°00'21 "W L40 41.29' S61 `28'02"W L41 47.92' N51'44'26"W L42 19.63' NO3"56'36"E L43 64.83' N51'34'46"W L44 40.00' S39'44'41 "W L45 78.84' S46°21'28"E L46 40.33' S39°37'26"E L47 50.23' S33`09'09"W L48 46.36' S14°58'30"W L49 46.79' SO4`03'21 "E L50 49.62' S19°51'54"E L51 48.15' S42°55'21 "E L52 39.95' S55°10'09"E L53 59.61' S70°24'08"E L54 54.55' S08°58'56"W L55 199,28' F3`14'10"W LINE TABLE TAG LENGTH DIRECTION L56 21.96' S30`49'24"W L57 83.64' S00°00'00"E L58 89.11' S11 °04'38"E L59 32.84' S29°01'40"E L60 42.99' S21'45'33"W L61 109.01' S00°27'17"W L62 40.29' S61 °00'45"W L63 39.01' S12'07'15"E L64 32.19' N76°51'23"E L65 31.44' S33°20'40"E L66 77.74' S27`51'51 "E L67 285.05' N77°25'32"E L68 64.42' N76°42'29"E L69 28.61' S13'08'15"E L70 50.01' N75°44'36"E L71 27.77' N13`08'15"W L72 264.33' N76`42'29"E L73 84.62' N73'47'26"E L74 139.17' N11 *16'04"E L75 448.66' N08°09'56"E L76 54.87' N10*57'11 "E L77 147.24' N80'19'10"W 200 100 0 200 400 600 SCALE IN FEET. 1 '= 200' LICENSE / C-2710 ENGINEERING LAND PLANNING ;OMMERCIAL / RESIDEA P.O. BOX 4041 WILMINGTON, NC 28406 (910) 791-4441 T C >- I mVft cc Q�4=. Z 0 ~ Z cc 0 Q z J CO 2� Q W 3 U Q zZ O o CL >= m _ LU Wy W� W LU �z0 z ZQ = 3 Q 1-z � - Z a�& E R o N a m � E'Etn -gIii W;i a AB'v 42 rz A R0� �c) E s S o :ems SEAL 9<'. 025483 1-10-20 1 //ISI N ~ i 3 3 %- m oc Q a � o N �a 0 z N �- L�,I DATE:• 6-20-17 HORZ. SCALE. 1' = 200' VERT. SCALE. N/A DRAWN BY- RL W CHECKED BY.• HSR PROJECT NO.: 06-0134 Sheet No. Of STRUCTURE AREA CB2 1.00 CB3 0.82 CB4 1.76 CB5 1.40 CB6 0.70 CB8 1.52 CB9 1.05 CB10 0.67 CB12 1.40 CB13 1.48 CB14 1.54 CB16 2.73 CB17 1.99 CSD ENGINEERING LICENSE j C-2710 ENGINEERING LAND PLANNING COMMERCIAL / RESIDENTIAL P.O. BOX 4041 WILMINGTON, NC 28406 (910) 791-4441 U) W r!� V A S /®y9am 4 3 U) Z V 1 Q m U V �A1RO���' r LESS SEAL v CL 025483 iy061 � Q o m ct W cr- 2 O Z LLJ DA TE: 1-28-16 HORZ. SCALE.- 1 " = 100' VERT. SCALE: N/A DRA WN 8 Y.• RL W CHECKED B Y.• HSR PROJECT NO.: 06-0134 Sheet I Of -- M\ ... ..... - - ---- ....... . .. . . . . . . . . . . . . . . . . . . . . . 21 20 I CSD ENGINEERING LICENSE 7f C-2710 ENGINEERING LAND PLANNING COMMERCIAL / RESIDENTIAL P.O. BOX 4041 WtUINGTON, NC 28406 (910) 791-4441 6 (31 Cc ---cc vJ j w- co LU r: U C) LU CL cj� Q uj U- z V cri Q RZ CL -i Z CA Ir ci� SEAL 02548 1-10-20 s j, ca U) O C) z C14 >: Uj Qc DA TE.- 9-15-17 HORZ. SCALE.• 1' = 100' VERT SCALE.• NIA DRAWN BY- RLW CHECKED B Y.• HSR PROJECT NO.: 06-0134 100 50 0 100 200 300 EEEiT SCALE IN FEET.• 1 "-- 100' 100 50 0 100 200 300 SCALE IN FEET. 1"= 100' Sheet No. Of - j OCA TION MAP NOT TO SCALE PLANNED EROSION AND SEDIMENT f27ROL PRACTICES - CE 1. TEMPORARY GRAVEL CONSTRUCTION ENTRANCE Practice 6.06 SHALL BE INSTALLED AT THE ENTRANCES TO THE PROJECT FROM AN EXIS7NG ROADWAY. DRAINAGE SHOULD BE AWAY FROM THE ROAD AND EROSION WILL BE CONTROLLED WITH DOWNSTREAM PRACTICES DURING WET WEATHER IT MAY BE NECESSARY TO WASH TRUCK TIRES AT THESE LOCATIONS 2. LAND GRADING Practice 6.02 GRADING SHOULD BE LIM17ED TO AREAS AS SHOWN ON 714E PLANS. CUT AND FILL SLOPES SHALL BE 3:1 OR FLATTER EXCEPT WHERE SPECIFICALLY INDICATED. CARE SHALL BE TAKEN DURING LAND GRADING ACTIVITIES NOT TO DAMAGE EXIS7NG TREES THAT ARE IDEN71RED AS 'TO BE PRESERVED' 0 SF J. SEDIMENT FENCE Practice 6.62 SEDIMENT FENCING SHOULD BE INSTALLED AS SHOWN ON THE PLAN, TO DELINEATE AND PR07ECT WETLANDS AND SPECIFIED AREAS, AND AROUND ANY TEMPORARY STOCKPILE AREAS AS NECESSARY TO PREVENT ANY GRADED INTERIOR AREAS FROM ERODING ONTO ADJACENT LANDS OR ROADWAY, OR INTO INLETS OR AS DIRECTED BY ENGINEER OR NEW HANOVER COUNTY EROSION CONTROL PERSONNEL. 0 GC 4. GRASS -LINED CHANNELS PRACTICE 6.30 ALL OVERFLOW SWALES TO BE GRADED TO DESIGN CONFIGURATION,LINED WITH CEN71PEDE SOD, TO COLLECT AND CONVEY SITE WATER AS SHOWN ON PLAN. AFTER FINAL PROJECT STABILIZATION, SWALES TO BE RE -GRADED, CLEANED OF SILTA77ON AND LINED W1774 CEN77PEDE SOD TO ESTABLISH ORIGINAL DESIGN CONTOURS FOR STORMWATER CONVEYANCE. 5. CONSIRUC77ON ROAD STABILIZA71ON PRAC77CE 6.80 UPON REACHING FINAL GRADE AND AFTER U77LI71ES HAVE BEEN INSTALLED, ROADWAY/PARKING AREAS ARE TO BE STABILIZED BY PLACING SUB -BASE AS SHOWN IN THE TYPICAL STREET CROSS-SEC71ON DETAIL ON THE PLAN, TO REDUCE EROSION AND DUST DURING THE REMAINDER OF BUILDING CONSTRUCTION. SB 6. SEDIMENT BASIN PRACTICE 6.61 THE SEDIMENT BASIN IS TO BE CONSTRUCTED FIRST (SEE CONSTRUCTION SCHEDULE) AND IS THE PRIMARY PRAC710E TO PREVENT SEDIMENT FROM LEAVING THE SI7E DETAILED DESIGN AND SPILLWAY CONFIGURA71ONS ARE SPECIFIED IN THE DETAIL SHEET. SK 7. SKIMMER PRACTICE 6.64 A SEDIMENTATION BASIN DEW47ERING CONTROL DEVICE 774AT WITHDRAWS WATER FROM THE BASINS WATER SURFACE, THUS REMOVING THE HIGHEST QUALITY WATER FOR DELIVERY TO 7HE UNCONTROLLED ENVIRONMENT. TD 8. TEMPORARY DIVERSIONS PRACTICE 6.20 A TEMPORARY RIDGE OR EXCAVATED CHANNEL OR COMBINA71ON RIDGE AND CHANNEL CONSTRUCTED ACROSS SLOPING LAND ON A PRE- DETERMINED GRADE TO PROTECT WORK AREAS FROM UPSLOPE RUNOFF AND TO DIVERT SEDIMENT -LADEN WATER TO APPROPRIA7E TRAPS OR STABLE OUTLETS. B F 9. BAFFLE PRAC77CE 6.65 A POROUR BARRIER INSTALLED INSIDE A TEMPORARY SEDIMENT TRAP, SKIMMER BASIN OR SEDIMENT BASIN TO REDUCE THE VELOCITY AND TURBULENCE OF WATER FLOWING THROUGH THE MEASURE AND TO FACILITATE 714E SETTLING OF SEDIMENT FROM WATER BEFORE DISCHARGE. OP 10. OUTLET STABILIZA7ION PRAC710E 6.41 RIPRAP APRONS WILL BE LOCATED AT THE DOWNSTREAM END OF ALL DISCHARGE PIPES TO PREVENT SCOUR. TP 11. TREE PR07EC17ON PRAC710E 6.05 RESTRICT ACCESS TO 7PZ WITH TALL BRIGHT PR07EC71VE FENCING ON AREAS INDICATED ON PLAN. LEGEND - - EXISTING BOUNDARY PHASE LINE NO WETLANDS DETERMINA TION ,14A---_MOM EXISTING CULVERT CE F171;�;j CONSTRUCTION ENTRANCE SF X X SIL T FENCE - PROPOSED CUL VERT TD FD-1]-----pw- TEMPORARY DIVERSION BF )( BAFFLES Op OUTLET PROTECTION CI.N07E WELL: SOIL STABILIZA7ION 7IMEFRAMES I v 11 11 EC2 F S17F AREA DESCRIP71ON STABILIZATION TIMEFRAME EXCEP77ONS PERIMETER DIKES,SWALES 7 DAYS NONE DITCHES AND SLOPES HIGH QUALITY ZONES(HOW) 7 DAYS NONE SLOPES STEEPER THAN 3:1 7 DAYS IF SLOPES ARE 10 FT OR LESS IN LENGTH AND ARE ARE NOT STEEPER THAN 2: 1, 14 DAYS ARE ALLOWED SLOPES 3.• 1 OR FLA TIER 14 DAYS 7 DAYS FOR SLOPES GREATER THAN 50 FT IN LENGTH ALL OTHER AREAS W11H SLOPES 14 DAYS NONE, EXCEPT FOR PERIMETER AND FLATTER THAN 4.1 1 HQW ZONES 2. DENUDED AREAS MUST BE STABILIZED WITHIN FIFTEEN (15) WORKING DAYS OF CEASE OF ANY PHASE OF ACTIVITY. ALL SLOPES MUST BE STABILIZED WITHIN TWENTY-ONE (21) CALENDAR DAYS OF CEASE OF A'JY PHASE OF AC77W Y. THIS INCLUDES SLOPES, SWALES, CHANNELS AND STOCKPILES. 3. THIS PLAN TO BE U71UZED AND REVIEWED ONLY IN CONJUNC71ON WITH THE WRITTEN NARRATIVE, WHICH IS AN INTEGRAL PART OF THIS EROSION AND SEDIMENT CONTROL PLAN. ?. ALL SLOPES SHALL BE 3.1 OR FLATTER. 5. 2.42 ACRES OF WETLANDS ON SITE 6. BOUNDARY SURVEY PERFORMED BY SOUTHWIND SURVEYING Z TOPOGRAPHIC SURVEY PERFORMED BY CAROLINA RESOURCES MAPPING WITH SUPPLEMENTARY TOPOGRAPHIC INFORMATION PERFORMED BY BASELINE SURVEYING. 8. ELEVA77ON DATUM: NAVD 88 9. ALL SWALES TO BE LINED WITH EXCELSIOR MATTING OR EQUAL. la ALL EXIS7NG CULVERTS TO BE REMOVED EXCEPT FOR SH1-SH3. 11. LOTS 154-196 WILL ONLY BE FOR ROUGH GRADING. NO FINAL ROAD DESIGN HAS BEEN COMPLETED. ONCE DESIGN IS FINALIZED A REVISION TO THE EROSION CONTROL PERMIT WILL BE SUBMITTED FOR APPROVAL. 12 DEVELOPER/HOA ARE RESPONSIBLE FOR MAINTENANCE OF THE STORMWATER SYSTEM. I EC4 �• f EX. CULVERT TO REMAI "" FUTURE 1 I �2 sia� 1 1 MANASSAS DRIVE Manassas Drive EC6--� PROPERTY OWNER CERTIFICATION: "I HEREBY CERTIFY THAT I AM THE CURRENT OWNER OF THE PROPERTY AND THAT UPON RECEIPT OF "AUTHORIZATION-TO-CONSTRUCT"ANY CLEARING, GRADING, CONSTRUCTION OR DEVELOPMENT, WILL BE PERFORMED IN ACCORDANCE WITH THIS PLAN AND THAT THE APPLICABLE ORDINANCES AND RULES OF NEW HANOVER COUNTY, THE STATE OF NORTH CAROLINA AND THE FEDERAL GOVERNMENT AND ITS AGENCIES WHICH ARE HEREBY MADE PART OF THIS PLAN. AS THE OWNER, I ACCEPT FULL RESPONSIBILITY FOR THE CONSTRUCTION AND OPERATION AND MAINTENANCE OF THE PROPOSED FACILITIES. I WILL NOT ATTEMPT TO TRANSFER THIS RESPONSIBILITY WITHOUT THE WRITTEN AUTHORIZATION OF NEW HANOVER COUNTY. SIGNATURE: PRINTED NAME AND TITLE: DATE: 0 OAF - 5% "1 MATCHLINE THIS SHEET EC2 DESIGNER'S PLAN CERTIFICATION: "I HEREBY CERTIFY THAT THIS PLAN HAS BEEN PREPARED IN ACCORDANCE WITH THE LATEST NEW HANOVER COUNTY ORDINANCES AND STORMWATER DESIGN MANUAL." SIGNATURE: PRINTED NAME AND TITLE: DATE: REGISTRATION NUMBER: CONSTRUCTION SCHEDULE - I. OBTAIN APPROVAL OF PLAN AND ANY NECESSARY PERMI75, AND HOLD A PRE -CONSTRUCTION CONFERENCE PRIOR TO COMMENCING ANY WORK. 2 FLAG WORK LIM17S AND STAKE -OUT ROW, TEMPORARY DIVERSIONS AND SED. BASINS FOR PRELIMINARY GRADING. 3 INSTALL GRAVEL CONSTRUCTION ENTRANCES 4. INSTALL SILT FENCING PRIOR TO ROUGH GRADING THE REMAINING SITE AND ANY STOCKPILING OF MATERIAL AND TOPSOIL NECESSARY. 5. CONSTRUCT SWALES, GRASS LINED CHANNELS, SEDIMENT BASINS AND ANY 07HER SEDIMENT CONTROL PRAC7ICES SHOWN, PRIOR TO ROUGH GRADING ROADWAYS AND SITE, STOCKPILING TOPSOIL AS NECESSARY. 6. UNDER CUT ROW FOR SWEETGUM DRIVE AND CANOPY WAY SO LOTS WILL DRAIN TO ROW AND SWALES 7. ESTABLISH ROUGH ROAD GRADES AND STABILIZE ROAD 107H TEMPORARY OR PERMANENT SEEDING 8. ALL EROSION AND SEDIMENT CONTROL PRACTICES ARE TO BE INSPECTED WEEKLY AND AFTER ANY RAINFALL, AND REPAIRED AS NECESSARY. 9. SUBMITTAL AND APPROVAL OF A FINAL DESIGN PLAN IS REQUIRED BEFORE ANY IMPERVIOUS MATERIAL CAN BE INSTALLED. MAINTENANCE PLAN - 1. ALL MEASURES TO BE INSPECTED WEEKLY AND AFTER ANY RAINFALL EVENT AND NEEDED REPAIRS MADE IMMEDIATELY. 2 SEDIMENT TO BE REMOVED FROM SWALES WHEN THEY ARE APPROXIMATELY 50% FILLED OR SEDIMENT LEVEL IS WITH 1' OF TOP OF DITCH BANK. J. SEDIMENT TO BE REMOVED FROM BEHIND ANY SILT FENCE AND INLET PR07ECIION DEVICES WHEN IT BECOMES 0.5' DEEP. FENCNG AND INLET PROIEC71ON TO BE REPAIRED AS NEEDED TO MAINTAIN A BARRIER. 4. ALL SEEDED AREAS SHALL BE FERTILIZED, MULCHED AND RE -SEEDED AS NECESSARY, ACCORDING TO SPECIFICA77ONS PROVIDED, TO MAINTAIN A SUITABLE VEGETA7IVE COVER. 5. CONSTRUCTION ENTRANCE TO BE MAINTAINED IN SUCH A MANNER AS TO PREVENT MUD OR SEDIMENT FROM LEAVING THE CONSTRUCTION SITE PERIODIC TOPDRESSING WITH 2-INCH STONE MAY BE REQUIRED. INSPECT AFTER EACH RAINFALL AND IMMEDIATELY REMOVE ALL OBJEC77ONABLE MATERIALS SPILLED, WASHED, OR TRACKED ONTO PUBLIC ROADWAYS. 6. INSPECT SKIMMER SEDIMENT BASINS AT LEAST WEEKLY AND AFTER EACH SIGNIFICANT (ONE-HALF INCH OR GREATER) RAINFALL EVENT AND REPAIR IMMEDIATELY. REMOVE SEDIMENT AND RESTORE THE BASIN TO 17S ORIGINAL DIMENSIONS WHEN SEDIMENT ACCUMULATES TO ONE-HALF THE HEIGHT OF THE FIRST BAFFLE. PULL THE SKIMMER TO ONE SIDE SO THAT THE SEDIMENT UNDERNEATH IT CAN BE EXCAVATED. EXCAVATE THE SEDIMENT FROM THE EN71RE BASIN, NOT JUST AROUND THE SKIMMER OR THE FIRST CELL MAKE SURE VEGETA77ON GROWING IN THE BOTTOM OF THE BASIN DOES NOT HOLD DOWN THE SKIMMER. SEDIMENT TO BE REMOVED FROM SEDIMENT BASINS WHEN A MINIMUM OF 50% OF VOLUME HAS BEEN FILLED. REFER TO CHART FOR BASIN DEPTHS 7. IF SKIMMER IS CLOGGED WITH TRASH AND 774ERE IS WATER IN THE BASIN, USUALLY JERKING ON THE ROPE WILL MAKE THE SKIMMER BOB UP AND DOWN AND DISLODGE THE DEBRIS AND RESTORE FLOW. IF THIS DOES NOT WORK, PULL THE SKIMMER OVER TO THE SIDE OF BASIN AND REMOVE 774E DEBRIS ALSO CHECK THE ORIFICE INSIDE THE SKIMMER TO SEE IF IT IS CLOGGED. IF SO REMOVE THE DEBRIS 8. REMOVE SEDIMENT FROM BEHIND BAFFLES ONCE ACCUMULATION HAS REACHED V2 HEIGHT OF THE FIRST BAFFLE. REPLACE BAFFLE PROMPTLY IF THEY COLLAPSE TEAR, DECOMPOSE OR BECOME INEFFECTIVE 9. REFER TO NC LOS EROSION AND SEDIMENT CONTROL PLANNING AND DESIGN MANUAL' FOR ADD177ONAL MAINTENANCE REQUIREMENTS FOR EACH EROSION CONTROL DEVICE. VEGETATIVE PLAN - 1. PERMANENT VEGETATION TO BE ESTABLISHED IN ACCORDANCE WITH NORTH CAROLINA EROSION AND SEDIMENT CONTROL PLANNING AND DESIGN MANUAL', SECTION 6.11, LATEST VERSION. EXISTING TREE I � DRIPLINE (� i 3' MIN, STAKE PROTECTIVE I --r-HEIGHT ABOVE BARRIER ; J I GRADE r� 1�1 NOTE: TREES TO BE SAVED WILL BE CLEARLY MARKED PRIOR TO CONSTRUCTION AND A PROTECTIVE BARRIER IS TO BE INSTALLED AT THE DRIPLINE. DRIP LINE - THE AREA OF SOIL DIRECTLY BENEATH THE TREE EXTENDING OUT TO THE TIPS OF THE OUTERMOST BRANCHES. TP TREE PROTECTION DURING CONSTRUCTION SD 15-08 NOT TO SCALE GA�tN �� h3 h1 EI E BY: _5A 1 I�0 50 100 200 300 SCALE IN FEET.- 1 "= 100' CmOSD ENGINEERING LICENSE # C-2710 ENGINEERING LAND PLANNING COMMERCIAL / RESIDENTIAL, P.O. BOX 4041 WILM/NGTON, NC 28406 (910) 791- 4441 Q CL Lv Z O 3 � Q O a�� 1 gga to�q � B E yot ��o WZ��v W aa� a ��a �J U � J J C) N Cj 0 o?z � Q� OO 1 LLJ ON cUo_j O Ld O i�idrliet//t SEAL ''.�► 025483 '~ •y • �`. �4r L L V_ L7_9 /o? ____j I N Q i Y Q z W L O zi i W DATE: 12-17-15 HORZ. SCALE 1" = 200' VERT. SCALE.- N/A DRA WN B Y.• RL W CHECKED B Y.• HSR PROJECT NO.: 06-0134 EC1sw EC12 Sheet No. Of MATCH LINE S SHEET EC2 � .45 , 'XI ` _ ;' / , I IP _ PH4 C85 22.80 J " INV. OUT 19.30 (S - 18 )I i 77 LF 18" DOUBLE WALL HDPE -r- ; / 1 �, ADS N-12 OR EQUIV. � ! EXISTING DITCH TO BE FRILLED IN � j. _.,\ I IP Zz t PH4 B4 w TG = 2 90 qLf f OP Cl INV. IN 9.00 (N - 8)V. OU 19.00 (E - 18") j / \ 1 l RI �_ 18.50 ® ' l � '' 21 / INV. Our 1 �\ 24" DOUBLE WALL HOPE l I X N-12 OR EQUIV. 10 l 2 w 23 / ry. / J SILT FENCE TO BE PLACED AROUND EXISTING DITCH ' `' DE s , it 24 t 15 1 � 26 k f 1 ' t l EXISTING DITCH TO BE FILL E IN L J ___. RIM 22.50 1 11 45 — / 70(N-24 7 �_ C28 PH4 CB6 44 / INV. OU/ 17.70 - 24 X 14 RIM 22 00 / IN V OUT 18.00 (E - 24") 1 LF 36' DOUBLE WALL DPE 41 ADS N-12 OR QUI V. 20 / RIM 23.50 / ti 29 of IN . 0 (N - 36 _ o INV. IN 17.20 - 25 INV. OUT 17.20 (SE - 36") pE 2 PH4 JB11 I IM 2J 00 _ / / 4 I IN . 17.80 (E - 30 EXISTING DITCH TO BE FILLED IN � � 139 24" DOUBLE WA L H E NV. T 17.80 (SW - 30") / ADS N-12 R E UI V. — �� 162E PH CB12 >1 " OUT FALL 2C-1 — 30" DOUB 3 � 55 LF 36 DOUB WAL HDPE IE - 17.0 ADS N_12 LE WALL HDPE RIM 2240 i / j• [,' ADS N 12 0 EQUIV. OR EQUIV. IN OUT 8.30 () W - 30" 1 1 O f ADS N 12 0 EQUIV. Q� I � 43 LF 30N DOUR WAL HDPE f p Q / OUTFALL 2C-2 , IE = 17.0 /f 4 P144 J87 / l INV. IN 17.20 GS 24 JO�p� 3 EXISTING DITCH TO BE FILLED IN .. j 11 h INV. OUT 17.20 (E 30") l oa��ti l EXISTING DITCH TO BE FILLED IN H4 IM 2.60 / of 0 IP INV. OUT18.30 (E - 18 )OUTFALL 2C-3 � / N �? IE = 17.0 , " _ t 49 i ! -142 LF 18" DOUBLE ALL H E a PH4 J 1 ADS N-12 OR EQUI V ' RIM 2 .00 f f INV. 17.10 (NE - 30") IP INV. UT 17.10 (W - 36") l � ti 42 36" DOUBLE WALL HD •_ / ; ADS -12 OR EQUIV. -!� POND 2C � SEDIMENT BASIN 5 N 5� SEDIME 4 JBS (SEE SHEET EC10 FOR DETAIL) EX CULVERT TO BE CAPPED I ' TG 23.0 / t i INV. IN 17.80 ( - 18) , j; f , 1 / INV. OUT I Z80 N - 2 3 1t \ i ?t J( !! 7ji i, t TTT r Jil _.. T:D\ t j r ;� l _ \ 1 l t it• 11 \f ! t �f; 25- 11 I J f X 25 � 12 25 cv �-- 'I{ DE - . f t � I I I t 112 --� Q 2At I k ( ; P2-CB4 _ I 4 TG = 22.60 " cv j o INV. OUT 18.50 (S - 24) s, — ..... —-23 ¢� WEET GU,y DRII�E _�— 1 1 �h 12 110, TE �\ 134 LF 24" DOUBLE WALL HDPE IP — W 25 Av ADS N-12 OR EQUIV. 24 24 MATCH LINE SEE SHEET EC5 LEGEND EXISTING BOUNDARY PHASE LINE NO WETLANDS DETERMINA TION =- EXISTING CULVERT CE CONSTRUCTION ENTRANCE SF X X SILT FENCE PROPOSED CULVERT TD TD-1 -/m- TEMPORARY DIVERSION BF )( BAFFLES I VIE OP OUTLET PROTECTION 50 25 0 50 100 150 SCALE IN FEET.• 1 "= 50' CSD ENGINEERING LICENSE # C-2710 ENGINEERING LAND PLANNING COMMERCIAL / RESIDENTIAL P.O. BOX 4041 WILMINGTON, NC 28406 (910) 791-4441 CA1R����� a SEAL 7 025453 ea V , O $3 N c�5f' a g a z W ^ CO Ln V• W DA TE.• 12-17-15 HORZ. SCALE: 1" = 100' VERT. SCALE: N/A DRAWN BY- RL W CHECKED B K HSR PROJECT NO.: 06-0134 EC35W EC12 Sheet No. Of LEGEND MATCH LINE SEE SHEET EC3 / EXISTING BOUNDARY r! I !If gt PHASE LINE + 1 I20 I I 25 _ 2� IP J NO WETLANDS DETERMINATION �I of 134 LF 24" DOUBLE WALL HDPE TG = 22.80 — I ADS N-12 OR EQUIV. I I INV. OUT 1 &50 (S - 24-) STOCKPILE LOCAAON 25 EXISTING CULVERT / P2-CB6 111 I I I 10 TG = 23.10 I 000NSTRUCTION ENTRANCE / i S T INV. OUT 1&50 (E - 24") IP I 110 D. 133 LF 24" DOUBLE WALL HDPE I sF !` — 10 I X X SILT FENCE I I ADS N-12 OR EQUIV. sroCKPaE LOCAnoN Y �;� S ! I 10 25 PROPOSED CUL VERT ( I —� p I I 1 0 I 20 FT I TD TD-1 TEMPORARY DIVERSION I � 1025 � I o. /� `, i` `� / 97 — _ o _ Q — I P2-CB10 I VI I 143 LF 24 DOUBLE WALL HDPE 2 I O 2 I TG = 23.50 10 � BFX BAFFLES I ADS N-12 OR EQUIV. S l 98 I INV. IN 17.70 (E - 24") 133 LF 24" DOUBLE WALL HDPE I pp IN 1 Z70 (N - 24 IN OUTLET PROTECTION gg V. ") O j I I' P2-CB3 20 I O " _ ADS N-12 OR EQUIV. TG = 23.00 100 INV. OUT 17.70 (S - 30) i `. INV. IN 17.70 (N - 24) I of � I � ! — � � IP �`� 1 INV. IN 17.70 W - 24" 1 181 LF 30" DOUBLE WALL HDPE 1�2� — l . r �� ( ) I �� S INV. OUT 17.70 (S - 30") ADS N-12 OR EQUIV. — ` ♦ / ! i s 2 0� P2_ CB13 f;t, 10 O ,: -♦ ,♦ - 25 TG = 22.90 / w 3 INV OUT 18 50 - 2 ! I (W 4") - I ; I _ r A _ _ 2 1 1 F WALL HDPE _ 8 L 30 DOUBLE .lourI 71_ - ♦ -. X — — N-12 OR Q IV. 5 ♦ S� ! =t J a t . . .. ........ ........ .... _u 10 ' T �� -24 ICv r V P — -. r ♦ '' TG 22 50 IP _ 45 EAF WAY _ IVATE , I ' J' cnl per, I INV. IN 1 T° 10 (N - 30") I 24 — ROW 23 N -r A �� / L ! ; o INV. OUT 1 i.10 (S - 36) 75 I k0 j 4� r �I t1I r,1' I 12 flt II x f , : 1 ! I 20I I '' S If89 158 LF 36" DOUBLE WALL HDPE �E I I I P2-CB9 IP I 12 T!I — 07 Z/1 I _ '•� t �' �` I.I 1 92 1 I HUJ IV — IL UR r_wuIv. I I / i T I I _ _ N 76 1 I INV. IN 17.10 (N - 30") r x tr'J �� 93 I ! 2S ET INV. OUT 17.10 (S - 36 1 / N N I ! 94 _ _ O � � I _ _ P2 JB1 I I ,.' co ! _ 1 95 RIM = 23.50 l t' O I ! - A I 74 i D. 146 LF 36" DOUBLE WALL HDPE I I N ge� N INV. IN 16.60 (N 36) I I ;R IV �x I I N ,INV. (SE - 48") 73 I ADS N-1 2 0 EQUIV. N !1 36 E WALL HDPE I ADS N-12 OR EQUIV. " O D.E. 69 I f P — _ i 1 71 RIM B 50 3 LE WALL HDPE A N 3 ADS N-1 I ( I INV. IN 17.60 E - 24 �r I _ l 0 4? O _ INV. IN 16.60 N - 36" _ _ I TG=_22.90 4"I �I INV. OUT 16.60 (SW - 48 x 4 LACI( AS BE _ INV. OUT 18.00 (E 24") � I t PH2-OUT -ALL 1 133 LF 24" DOUBLE WALL HDPE e,,. - .�, 4f r; — 5 y ND I I f FT PR i( 169 LF 24" DOUBLE WALL HDPE 78 I ry a QUIV. 130 ADS N-12 OR E ADS N-12 OR EQUIV. I PH — 1 ` STOCKPILE LocA71ON r`t' I IP IP - PH2-OUTFACE 2 I 11r � �. T I P2-C817 I' � � 2� _ 68 — x '1 t I ,l " TG = 22.40 - /� Il t i z r 24 - ' �� INV. 0 T 18.50 (S - 24") ° _- I �' � � , 79 �� P2 CB8 r I 90 f � I 1 _ _ � � TG = 22. r r� I S f1 N I I 1 ��120 � `--- � � � ,t. I INV. OUT 18.00 (W - 24-) I 13126 168 LF 24 DOUBLE WALL HDPE of !� tj; 5 ADS N-12 OR EQUIV• ' % ! 67 25 I _1 I J i 88 8I 1 N `�80 13 POND 28 SEDIMENT BASIN 5 66t T EC8A FOR DETAIL)°� 3 SEESHEE / '82 r� f 1j _ I _ I x'I t,r f j PH2-OUIFALL 5 81I _ 25 I 13f1 26 I IF/ /i , I , I, r I 65 II7 I PH2-OU7FALL 4 1 171 LF 24 DOUBLE WALL HDPE ADS N-12 OR EQUIV. tr SJ,B — ov! INSTALL JUTE MATTING ;rsr) ���� POND 2A FOR BANK STABILIZATION �'�' SEDIMENT BASIN 5 WHEREVER EXISTING DITCH SHEET ECBA FOR DETAIL) HAS BEEN DISTURBED ( S X PH2-OUTFALL 3 I 25 SEE DETAIL SHEET EC9 1 (3) 203 LF 36" AD�UNL 12 OR EQ��V. p I P2-CB14 64 TG - 22.30 I P INSTALL SF ALONG TOP OF PIPE A ® INV. OUT 18.00 (W - 24) 102 LF 24" DOUBLE WALL H EX. CULVERT TO BE RDPE I w � lI EMovED _ ADS N-12 OR EQUIV. _ INSTALL SF ALONG TOP OF PIPE ,� � — �„ INSTALL SF ALONG TOP OF PIPE �I �, * ACOE APPROVAL PENDING ,. I 13 X ,USACE SECTION 404 WETLANDS WERE DELINEATED S / \ RIM = 23.001 _ EX. CULVERT TO BE REMOVED 59 INV. IN 1&00 S - 24" BY MR. DAND SClBEITA WI1H SOUTHERN �' ( ) INV. OUT 18.00 (N - 24 ............. _ INSTALL JUTE MATTINGy y ENVIRONMENTAL GROUP,INC ON 11-16-16 N ] 25FOR BANK STABILIZA71ON 1' HAS BEEN DISTURBED WHEREVER EXISTING DITCH „ AND VERIFI® BY MR. KYLE DAHL, USACE PROJECT MANAGER >w � SEE DETAIL SHEET EC9 ON THAT SAME DATE ` / 58 N O I20 ll I ' 13 /` _n F I r-� IUTILITYTD- EASEMENT \� 0E I 62 i I TEMP. WETLANDS IMPACT PART OF - - r 7 \ 143 LF 24" DOUBLE WALL HDPE ACOE APPROVAL 1 — ;< ADS N-12 OR EQUIV. I I S�.--q S ,, ,� _ _ I _ _ 1 I AI I r r I I _ I INSTALL JUTE MATTING FOR BANK STABILIZATION ��_— = ,. / L4 WHEREVER EXISTING DITCH' I I 13 HAS BEEN DISTURBED _ I i` I SEE DETAIL SHEET EC9 ,1 S SWALE 1 TO CONNECT S RIM 22 50 E -- '� V `� � P2 C816 � � i TO S85 UNTIL UPSTREAM AREA - 18. - 24") • OF SWALE 1 IS STABILZIED INV OUT 50 (N --,,THEN SWALE IS 1 IS TO BE CONNECTED TO S _ IETSHR I P r 1 I it �siINc DITCH TO THE SOUTH WEST. 45 C91 �- 2 S — — PR/VABE R RT 11 POND 3A INSTALL JUTE MATTING — ROW ENT BASIN 2 \` . \ FOR BANK STABILIZATION S O SEDIMENT WERE EXISTING DITCH J (SEE SHEET E08B FOR DETAIL - HAS BEEN DISTURBED MATCH LINE SEE SHEET EC7 1` SEE DETAIL SHEET E09 SWALE 1 UTILITY EASEMENT POND 3A OUTFALL POND 2 OUTFALL �. (2) 24- HDPE (2) 30A HDPE INV. EL = 18.7 INV. EL = 18.7 F.E.S. W1 15 CY CL II RIP RAP F.E.S. W1 4 CY CL 11 RIP RAP 50 25 0 50 100 150 O B INSTALL F.E.S. IN SIDE SLOPE OF CREEK BANK INSTALL F.E.S. IN SIDE SLOPE OF CREEK BANK MATCH LINE SEE SHEET EC6 DO NOT DISTURB ANY PART OF THE FLOW DO NOT DISTURB ANY PART OF THE ROW LINE IN BASE OF EXISTING CREEK BED LINE IN BASE OF EXISTING CREEK BED SCALE IN FEET. • 1 "= 50' CSD ENGINEERING LICENSE # C-2710 ENGINEERING LAND PLANNING COMMERCIAL / RESIDENTIAL P.O. BOX 4041 WILMINGTON, NC 28406 (910) 791-4441 Q Z J C O cn Q Ui o� Q Z ZII J � CL Q_ w � Q� O LL�� � Q (n CAo ��2 a SEAL f y 025483 • ����7 yGl NE�P �`��� N O S co N N N� Q �o h I o� N o� 3 ao 3 3 3 m 3 3 %- m W ct Q Zii1 LSu Z 0 p ¢¢ o Q g Z m g E a p a o 0 1012 O Op I� cc LO 1+ w DATE: 12-17-15 HORZ. SCALE: 1" = 100' VERT. SCALE: N/A DRA WN B Y.• RL W CHECKED B Y•• HSR PROJECT NO.: 06-0134 Sheet NEC& OEC/ 2 LAJ U p O Y O o m m= TYPICAL WEDGE CURBING 7 FT 6" HIGHBACK CURB 2,080� 2 OSt - - - - - 0.1' LOCAL DEPRESSION _ SID. GRATE & HOOD BOLT BOXES TOGETHER AND CUT OUT OPENING BETWEEN THE TWO BOXES OR PRECAST. a: SECTION VIEW A - TO BE SIZED PER INLET PIPE COMING INTO BOX BOXES TO MEET NCDOT STD 840.02 REQUIREMENTS. TO BE USED AT INLET CB1, CB2 AND CB5 DOUBLE INLET NOT TO SCALE I1H1111111 HARDWARE19-GAUGE 4' MAX STEEL POST (114 MESH OPENINGS) F1 ;_T7 1 s�rrrf�e;r���o`s�<��e��r�i`% WASHED STONE/,.��J,000„�rOe�yra�0elra�0,l,� ^•I^,rnOOOrrrgi"JPJOrJppellpp0 STEEL °Jeerreerroe+•rrr �111111111111111111111111111� POST HARD WA Kam & GRAVEL DROP INLET PR07EC PRACTICE 6.51 NOT TO SCALE LEGEND --� EXISTING BOUNDARY PHASE LINE NO WETLANDS DETERMINATION - EXISTING CULVERT CE CONSTRUCTION ENTRANCE SF )( X SILT FENCE PROPOSED CULVERT TD 1D-1 TEMPORARY DIVERSION BF--- BAFFLES pp OUTLET PROTECTION 50 25 0 50 100 150 SCALE IN FEET. 1 "= 50' MATCH LINE SEE SHEET EC5 S s _ 2� f 23 SWEETS _ / WETLANDS 45 UB COURT \���r a._ FT PRIVATE ROW \ PUMPSTA71ON AREA TO DRAIN TO ACOE APPROVAL PENDING 1 �. CAN "Y / CB 3— S - \ \ \ 21.8 IE 03-�� \ f 2 1 24 S STOCKPILE LOCATION 24 CY CLASS 11 RIP RAP;, \ - - X I �" X 1 ;4 — —X s i 12" 12" SLOPE AWAY FOR SUPERELEVA 110N 6 1 2 � � � � �� 4" LOCAL DEPRESSION AT FLUME MODIFIED VALLEY CURBING -- NOT TO SCALE I 25, I 03� X If 1 — X EX. CULVERT TO BE REMOVED 44 , SWALE 1 - — X S � CE 46 1 1 — SWALE 8, 1 I \ i 47 - 1x � �� \ 1 I 48 :, :.1 � I 4 I S I 19 1 41 23 I a CANOPY W YI �IIP 45 RIVATE ROW h I I r1 ,Irli: •� — I 1 IP C83 f , '`_ DOUBLE INLETS EX. CULVERT TO BE REMOVED;'.. / TG = 22.1 ;' C84 / / IE = 19.1 I I 4 24' DOUkE WALL E ' 1 DOUBLE INLETS 12 ORE I V. 2 4 1 TG = 22.6 17 T I 4 — 1 3 6 IE - 19.9 � �j 20 FT i 40 24 D.E. 142 LF 24' DOUBLE WALL HDP J �1 , �� 3 9 I 2S 3 5 20rr ADS N-12 Of EQUIV. r� i � 34 / 103,LF 36' DOUBLE WALLIHOPE , Njjj�;I ADS1 N-12 OR EQUIV. 3 3 I f { i n16 200 LF 36' DOUBLE WALL HOPE lj, NJ 25 I - ADS N-12OR EQUIV. I cu I I r _ ` - � � '`; � I ' (� _ .�, cV C82 1 DOUBLE INLETS TG=22.6 ..� IE = 19.9 41 LF 48' DOUBLE WALL HDPE '�1 B __ z ( ADS N-12 OR EQUIV. JB1A RIM = 23.5 — RIM = 23.5 IE = 19.0 - it IE = 18.7 JBIC _ PIPE IE = 1&5 RIM = 23.5 t L OUTFALL 1 IE = 19.6 141 LF 24' DOUBLE WALL PV 11 f IP ' 9 CY CLASS RIP RAP 12OR EQUI \ _ . _ I �t SEE DETAIL SHEET EC6 I , t , ' B FOREBAY APRON_ I ' B 150 CY CLASS If RIP SEE DETAIL SHEET EC8 - 30 B OUTFALL 2 - ti WET BASIN 1 2 CY CL 11 RIP RAP . , SEE DETAIL SHEET EC8 SEE DETAIL SHEET EC6 — — o (v 1 i - PIPE IE = 19.3 INSTALL JUTE MATTING,_'Vo, FOR BANK STABILIZATION WHEREVER EXISTING DITCH HAS BEEN DISTURBED .SEE DETAIL SHEET EC9 r Q POND 1 OUTFALL I �1�;'t0 ;, 27 (3) 24' HDPE I 1 INV.EL=18.8 lF�11,� I U F.E.S. W/ 2 CY a11 RIP RAP 1 [ 1 1 '; 13 �I� 6 / INSTALL F.ES IN SIDE SLOPE OF CREEK BANK DO NOT DISTURB ANY PART OF THE FLOW LINE IN BASE OF EXISTING CREEK B®�15 SF SWALE 8��I 24 ' 1 1 1 177 LF 24' DOUBLE WALL HDPE 26 23 20 FT, ADS N-12 OR EQUIV. \ 25 11 D.E. CBI I 1 DOUBLE INLETS .01 i I TG - 22.6 ,IE=191� / \ \ fl' � 2 �IVE N p IP Lp i \ X CGUMW �I �lI �, I — - SWFT PRIVATE RO 5 0 FLOW LINE IE = 18.3- PIPE IE = 17.3 7 CY CLASS 11 RIP RAP CULVERT 1- (2) - 85 LF 54- CLASS N RCP S FLOW LINE IE = 1&0 PIPE IE = 17.0 10 CY CLASS 9 RIP RAP X EXISTING DITCH TO BE RE -GRADED AND LINED WITH EXCELSIOR MATTING Y rw vo s` Y 1 r-J INSTALL X7E MATTING ` 5 FOR BANK STABIUZA71ON ' --WHEREVER EXISTING DITCH C E HAS BEEN DISTURBED __ = INSTALL JU1E MATTING - SEE DETAIL SHEET EC9 FOR BANK STABILIZATION '!, 4 1 -. ". "= - ' WHEREVER EXISTING DITCH HAS BEEN DISTURBED It -7 _ YFr Av _ f " 1 <- - - - , " _ - 1 J YJ " " _ 1 ...FLOW LINE IE - 19.0 PIPE IE = 18.0 \ l ram- / 6 CY CLASS II RIP RAP ' f' , } _ N I CULVERT 2 (f (2) - 85 LF 'CLASS IN RCP's 0 09 OCT . BURIED 1 FT " r 1 I FLOW LINE IE = 8.7 Yt - �. = - B l - _- PIPE IE 177 �1: "_----- _ 10 CY CLASS - _- RAP " " CSD ENGINEERING LICENSE # C-2710 ENGINEERING LAND PLANNING COMMERCIAL / RESIDENTIAL P.O. BOX 4041 WILMINGTON, NC 28406 (910) 791- 4441 ```��N�►CARQ`,,, a SEAL ' .7 025483 ly • . 1 NE .a \�. �i; l �Fr'�c • 9��C��-i Lu o� cp u01 ,4 N m O cj- z Q Lij W ai z� aO O cO o Z (o h N .- W Or DATE: 11-3-16 HORZ. SCALE: 1" = 100' VERT. SCALE. N/A DRA WN B Y.• MRB CHECKED B Y.• HSR PROJECT NO.: 06-0134 EC7 EC12 Sheet No. Of V I f I 10 FT R=15.00' \, 30 15 0 30 60 90 SCALE IN FEET: 1 30' NOTES,• 1. TEMPORARY SKIMMER TO BE INSTALLED ON PRIMARY OUTLET STRUCTURE BOX AND TO REMAIN IN PLACE UNTIL SI7E IS PERMANENTLY STABILIZED PER NCOENRAQS SEDIMENTATION AND EROSION CONTROL PERMIT. SEE SKIMMER DETAILS FOR INSTALLATION. Z GRADE WILL BE 12:1 ONLY IN FRONT OF OUTLET BOX REMAINING SHELF SHOULD BE 6- 1. PP IS THE CENTER OF THE 6:1 SHELF. 3. RIP RAP TO BE PLACED AROUND THE PERIMETER OF OUTLET BOXES 4. (3) 4 FT x 4 FT PRECAST CONCRETE BOXES OR EQUIVALENT HAND -BUILT. 5. SKIMMER = &0' SKIMMER WITH 4.2' ORIFICE DIAMETER. TOP OF BOX AT FAIRCLOTH SKIMMER 0 WSEL = 19.5 SB O 3 1 POND BOTTOM ELEV= 15 6' PVC SCREW PLUG 6' ORIFICE ASSEMBLY 6' CROSS SKIMMER CONNECTION TO BE CAPPED ONCE SKIMMER IS REMOVED 12' 12' 6' CAP TO REMAIN UNTIL SKIMMER IS REMOVED. EL= 20.6 FOREBAY 2A-1 EBAY BOTTOM = 1 L=5.93' 5' 1 SIOFSL PEES L=1 L=22.05' � R=30.00' L=1.f0' R=8A0' L=3:92' R=45.00' 4��Oh• yYr. ylc A, ERGENCY SPILLWAY EL; = 22.0 �. 60, CY CL 11 RIPRAP 1.5 FT DEEP \� PLACE NONWOVEN CE07ECH FILTER FABRIC UNDER RIPRAP SEE DETAIL (THIS SHEET) L=9.75' R=5.00' -OUTLET STRUCTURE 10 CY CL B RIPRAP 1.5 FT DEEP PLACE NONWOVEN GE07ECH FILTER FABRIC UNDER RIPRAP SEE DETAIL (THIS SHEET) L=Z84' R=5 00' {J) 33 LF 36' DOUBLE WALL HOPE AN71-SEEP COLLAR SEE DETAIL THIS SHEET -POND 2 0U7FALL IE = 1&7 CL B RIP RAP W/ GEOTEX NONWOVEN FILTER FABRIC (TO SURROUND ENTIRE (3) 36' HDPE OUTLET STRUCTURE) OUTLET PIPE INV = 19.5 - 1NV = 19.0 2 FT SUMP FOR CLEANOUT O$ GROUT•• v 61BASE EL = 15.5 1 j 5EC71ON VIEW WET BASIN 2A OUTLET STRUCTURE DETAILS NOT TO SCALE FABRICATED GRATE TOP v.v vnrnL.c noxmUu PLddJ�E�' FT VVLLUcu oriRO, GALVANIZED, OR EQUIVALENT L=0.43' R=8.00' Ilk L=23.56' R=15.00' 1 L=23.56' R=15.00' ICMrURAK ► rUUL CLC VA llVlV = LU. 1 j VS MUST BE DIRECTED INTO THE STORM WATER SWALES SURFACE AREA 0 ELEV. 20.1 (2A,28,2C) = 177,494 SF l i! STORAGE 0E1EV 20.1 (2A,28,2C)= 103,146 OF L=23.56' ISED TO DRAIN POND IN CASE OF EMERGENCY. PUMP TO BE " / R=15.00' I WITH SCREEN ATTACHED TO HOSE INLET AND COVERED WITH STONE. Il ACROSS STABLE UPLAND AREA SUFFICIENT TO RESTRAIN EROSION. 1 PERMANENTLY VEGETATIVELY STABILIZED WITH CENTIPEDE GRASS 18 FT N A DRAINAGE EASEMENT. POND 2B - BASIN BOTTOM = 15 ' L=23 57' R=15.00' it (3) 200 LF 36' HDPE � �' � 308 FT R 20.400' sl LAY FLAT AT ELEV. 16.5 L=23.56' 1 R=15.00' L=23.56' L=4.71' r R=15.00' R=3.00' ' � W FOREBAY 2B-1 EBAY BOTTOM = 1 IIE = 16.5 i_ L=9.60 [24- _ HDPE R=34.00' L=4.50' L=21.28' L=21.28' L=3.65' R=15.00' I ! R=10.00' R=15.00 L=25.84' IE = 175 R=15.00' 24' HDPE WET BASIN 2A & 28 1 " = 30' WELDED FABRICATED TRASH RACK W/SQUARE OPENINGS SQUARE OPENINGS < 6' T ' HDPE ' HDPE ' HDPE T T 4-0' SEE DETAIL THIS SHEET FOR TRASH RACK 4-0' 4-0' SEE DETAIL THIS SHEET FOR TRASH RACK SEE DETAIL THIS SHEET FOR TRASH RACK 6' 1I _ 15'- 0' .5 FT WEIR CUT 20 FT WEIR CUT 0 c GRAZE PLAN VIEW 6.0' ORIFICE ASSEMBLY BOX PLAN VIEW WET BASIN 2A OUTLET STRUCTURE DETAILS NOT TO SCALE 0 h ALL SLOPES J.I MAXIMUM (TYPICAL AT ALL STORM OU7FALLS TO POND) 10 FT VARIES FOREBAY VOLUME OF REQUIRED ^n PIPE JIUKAUt, I Tr1UAL V WSEL = 19.5 RIP RAP 1.5� - S.1 �' SEDIMENT CLEANOUT 3'min. BOTTOM = B ELEV. = SCE oQ� OUTLET ,ti �o�� NON WOVEN FILTER FABRIC UNDER RIP RAP PR0CPON AS 7E PLANS FOREBAY 28-1,2,3: B = 15, SCE = 16 FOREBAY 2A-1 B = 16, SCE = 17 FOREBA Y SECT/ ON DE TA I L NOT TO SCALE 52 FT TOP OF EMBANKMENT ELEVATION = 23.0 'NON IfOn FILTER FABRIC CLASS II RIPRAP 1.5 FT DEEP 7ERRA IEX N04 OR EQUAL EMERGENCY SPILL WA Y FRONT VIEW - BASIN 2A NOT TO SCALE NOTE.• COLLAR TO BE POURED AFTER 6' PIPES ARE IN PLACE, REINFORCING AS NECESSARY. 5' s s s d v in MIN WET BASIN ANTI -SEEP COLLAR NOT TO SCALE VARIES 10' 13 15' 16' EMBANKMENT TOP= 23.0 (SETTLED), = 2325 (CONSTRUCTED) EMERGENCY SPILLWAY = 22.0 6 TOP OF GRATE = 20.5 (STATE STORAGE)/ WEIR CUT = 20.1 STATE STORAGE = 103,146 CF (3) 33 36' HDPE s� NORMAL WSEL= 19.5 (MIDDLE OF 6.1 SHELF) p IE(OUT) = 18.7 BOTTOM OF 6:1 SHELF EL= 19.0 �\ \ ANTI -SEEP COLLAR, BOTTOM EL= 17.3 IE= 19. - /�\ BOTTOM SW STRUCTURE EL- 15.5 ANT) -SEEP SEDIMENT CLEANOUT EL. = 16.0 COLLAR, 6 FT WIDE BOTTOM = 15.0 SEE DETAIL 6:1 SHELF % j /�/ ���/% /��x_ s t 2017 VARIES 33' BY: EMBANKMENT SECTION NOT TO SCALE COSD ENGINEERING LICENSE # C-2710 ENGINEERING LAND PLANNING COMMERCIAL / RESIDENTIAL P.O. BOX 4041 WILMINGTON, NC 28406 (9100) 791-4441 0 J LLJ 0 m � O N �3 99 3 N Z Q Qa Q Q. rn U O J 00 0' p N 0 Lu � f N 2Zoo� rn W 3 O CA R SEAL 025483 9-15-17 x 0/1111111 rn � cp 3 3 3 CO o � Q � w W A o o � S s s iv O Z r7 N .- W ct DA TE: 5-10-17 HORZ, SCALE. • AS N07ED VERT. SCALE. • N/A DRAWN BY.• RLW CHECKED B Y.• HSR PROJECT NO.: 06-0134 Shoat ,EC8A_ NOTES: 1. TEMPORARY SKIMMER TO BE INSTALLED ON PRIMARY OUTLET STRUCTURE BOX AND TO REMAIN IN PLACE UNTIL SITE IS PERMANENTLY STABILIZED PER NCDENR/LQS SEDIMENTATION AND EROSION CONTROL PERMIT. SEE SKIMMER DETAILS FOR INSTALLATION. 2 GRADE WILL BE 12:1 ONLY IN FRONT OF OUTLET BOX. REMAINING SHELF SHOULD BE 6.1. PP IS THE CENTER OF THE 6.1 SHELF. 3. RIP RAP TO BE PLACED AROUND THE PERIMETER OF OUTLET BOXES 4. (2) 4 FT x 4 FT PRECAST CONCRETE BOXES OR EQUIVALENT HAND -BUILT. 5. SKIMMER = 8.0' SKIMMER WITH 4.2' ORIFICE DIAMETER. FAIRCLOTH SKIMMER 3 1 F POND BOTTOM ELEV= 15 6' PVC SCREW PLUG 6' ORIFICE ASSEMBLY 6' CROSS SKIMMER CONNECTION TO BE CAPPED ONCE SKIMMER IS REMOVED EL= 20.7 TOP OF BOX AT ACK OF BOX a= 21.6 `* 11 6 FT WEIR 171 4" EL= 20.2 INV = 19.5 INV = 19.0 !12' 2 FT SUMP FOR CLEANOUT 12' I.12'. CONC. f. OR GROUT a CL B RIP RAP W/ GEOTEX NONWOVEN FILTER FABRIC (TO SURROUND ENTIRE (2) 24' HDPE OUTLET STRUCTURE) OUTLET PIPE 6 BASE EL = 15.5 6' CAP TO REMAIN UNTIL SKIMMER SECTION VIEW IS REMOVED. THEN DRILL 4' HOLE IN CAP WET BASIN 3A OUTLET STRUCTURE DETAILS NOT TO SCALE FABRICATED GRATE TOP av vnirn.c n�xmou SURFACE AREA 0 ELEV. 20.2 3A,3B) = 79,421 SF STORAGE 0 ELEV 20.2 (3A,3B)= 53,547 CF FT WLLULU VAKJ, GALVANIZED, OR EQUIVALENT EL = 1ZO 10 CY CL 11 RIPRAP 1.5 FT DEEP PLACE NONWOVEN GE07ECH FILTER FABRIC UNDER RIPRAP WET BASIN 3A & 3B 1 " = 30, 73.4 FT TOP OF EMBANKMENT ELEVATION = 23.0 'VON WOVEN FILTER FABRIC CLASS 11 RIPRAP 1.5 FT DEEP TERRATEX N04 OR EQUAL EMERGENCY SPILL WA Y FRONT VIEW - BASIN 3A NOT TO SCALE SQUARE 6' LALlnrn cAoninA•M T Anil 4-0' SEE DETAIL THIS SHEET FOR TRASH RACK o 10'- 0' � 6.0' ORIFICE ASSEMBL `o GRATE PLAN VIEW WITH 4' HOLE BOX PLAN VIEW WET BASIN 3A OUTLET STRUCTURE DETAILS NOT TO SCALE AP 1.5 FT DEEP V GE07ECH VDER RIPRAP i i 0 i frf/ PERMANENT POOL ELEVATION = 19.5 SURFACE AREA 0 ELEV. 19.5 (MAIN BAY 3A,38 ONLY) = 54,006 SF SURFACE AREA 0 ELEV. 19.5 (WHOLE POND 3A,35) = 72,790 SF TEMPORARY POOL ELEVATION = 20.2 SURFACE AREA 0 ELEV. 20.2 3A,38) = 79,421 SF STORAGE 0 t1EV. 20.2 (3A,3B)= 53,547 CF ALL SLOPES 3:1 MAXIMUM (TYPICAL AT ALL STORM OUTFALLS TO POND) 10 FT VARIES FOREBAY VOLUME OF REQUIRED OP PIPE STORAGE, TYPICAL WSEL = 19.5 RIP RAP 1.5 mi - 4,•T � � SEDIMENT CLEANOUT 3'min. BOTTOM = B ELEV. = SCE ' OUTLET mow NON WOVEN FILTER FABRIC UNDER RIP RAP AS ON PLANS FOREBAY 38-1: B = 16, SCE = 17 FOREBAY 3B-2-3,: B = 16, SCE = 17 FOREBA Y SECTION DE TA I L NOT TO SCALE 4-0' SEE DETAIL THIS SHEET FOR TRASH RACK 3.0 FT WEIR CUT (6.0 FT TOTAL) 6 i LO NOTE.• COLLAR TO BE POURED AFTER PIPES ARE IN PLACE, REINFORCING AS NECESSARY. PUTLET STRUCTURE 10 CY CL B RIPRAP 1.5 FT DEEP PLACE NONWOVEN GEOTECH FILTER FABRIC UNDER RIPRAP SEE DETAIL (THIS SHEET) ANTI -SEEP COLLAR SEE DETAIL THIS SHEET {2) 20 LF 24' DOUBLE WALL HOPE POND 3 007FALL IE = 18.8 EMERGENCY SPILLWAY EL = 21.6 54 CY CL II RIPRAP 1.5 FT DEEP PLACE NONWOVEN GEOTECH FILTER FABRIC UNDER RIPRAP SEE DETAIL (THIS SHEET) J�` 1.5' MIN WET BASIN ANTI -SEEP COLLAR NOT TO SCALE VARIES 10' 13 15' 16' EMBANKMENT TOP= 2J.0 (SETTLED), = 2J.25 (CONSTRUCTED) BWERGENCY SPILLWAY = 21.6 6. TAP OF GRATE = 20.5 STATE STORAGE WEIR CUT = 20.2 STATE STORAGE = 53,547 CF (2) 20 24' HDPE ¢� NORMAL WSEL= 19.5 (MIDDLE OF 6:1 SHELF) p IE(OUT) = 18.8 BOTTOM OF 6.1 SHELF EL= 19.0 ANTI- - SEEP COLLAR BOTTOM EL- 7. 13 IE= 19, L\ BOTTOM SW STRUCTURE EL= 15.5 �� i ANTI -SEEP /I\ SEDIMENT CLEANOUT EL = 16.0 ....... . COLLAR, 6 FT WIDE SEE DETAIL 6.1 SHELF 14' VARIES 33' EMBANKMENT SECTION NOT TO SCALE CSD ENGINEERING LICENSE # C-2710 ENGINEERING LAND PLANNING COMMERCIAL / RESIDENTIAL P.O. BOX 4041 WILMINGTON, NC 28406 (910) 791- 4441 Q z tl O 2 ct � Q Z U O I=- O zz O CL>�: � � Q O (Co�> z O 0 Z ki :I- Q ; Q u� C °Z rn (i 00 JC)N O ocz o Q -Z n cco � I 2 C) � rn w O I$fill/ q��i�' a SEAL 025483 '� • _ '•3Qit G1NE�� w, o� Q N rn m >- m Q W ck� 1�2 25 U W 0 rL L O z W DATE: 9-15-17 HORZ. SCALE: AS NOTED VERT. SCALE: N/A DRA WN B Y.• RL W CHECKED BY: HSR PROJECT NO.: 06-0134 EC8B EC12 Sheet No. Of POND 21 SB 5 / BASIN BOTTOM / IE = 16.5 10 CY CL B RIP RAP \ !L rll4 SWEET GUM DRIVE i7- _ MATaglNE B-B ..... . .. . .. . i _ 1 _ _ _ i I PERMANENT POOL ELEVATION = 19.5 SURFACE AREA 9 ELEV. 19.5 (MAIN BAY 2A, 28, 2C ONLY) = 127,658 SF SURFACE AREA 0 ELEV. 19.5 (NHOLE POND 2A, 28, 2C) = 165,421 SF �..� TEMPORARY POOL ELEVATION = 20.1 SURFACE AREA 0 ELEV. 20.1 (2A28,2C) = 177,494 SF STORAGE 0 ELEV 20.1 (2A,28,2Cj= 103,146 CF IE = 16.5- r'UIVLJ LD 10 CY CL B RIP RAP SEE SHEET EC8A jj I I 1 1 f 1 NOTES 1. ALL BUILDING ROOF DRAINS MUST BE DIRECTED INTO THE STORM WATER SWALES _ OR INTO THE STREET. 2 PORTABLE PUMP TO BE USED TO DRAIN POND IN CASE OF EMERGENCY. PUMP TO BE PLACED ON TOP OF BERM WITH SCREEN ATTACHED TO HOSE INLET AND COVERED WITH STONE HOSE OUTLET TO DRAIN ACROSS STABLE UPLAND AREA ^SUFFICIENT. TO RESTRAIN EROSION. WET BASIN 2C 1" = JO' _ SHORT /EAF WA Y (3) 355 LF 36- HOPE ' LAY FLAT AT ELEV 16.5 1 72 1 '0'] FL=23.56' _ R=15 00' WSEL = 19.5 RIP RAP 1.5 min. 6)� ALL SLOPES J.1 MAXIMUM (TYPICAL AT ALL STORM OUTFALLS TO POND) 109 VARIES FOREBAY VOLUME OF REQUIRED PIPE STORAGE, TYPICAL OP 3 min. " SEDIMENT CLEANOUT BOTTOM = B ELEV. = SCE WOVEN FILTER FABRIC UNDER RIP RAP FOREBAY 2C-1 & 2C-2 B = 15, SCE = 16.0 OUTLET PROTECTION AS ON PLANS FOREBAY SECTION DETAIL NOT TO SCALE 667' �9 f (3) 710 LF 36- HOPE POND 28 �, LAY FLAT 16.5 EMBANKMENT TOP= 23.0 (SETTLED), = 2325 (CONSTRUCTED) EMERGENCY SPILLWAY = 22.0 (STATE STORAGE)/ WEIR CUT = 20.1 NORMAL WSEL= 115 (MIDDLE OF 6.1 SHELF) S7 \ \ BOTTOM OF 6.1 SHELF EL= 19.0 SEDIMENT CLEANOUT EL. = 16.0 �1. DATTAU rl — 1 r. A ....................... EMBANKMENT SECTION POND 2C NOT TO SCALE LICENSE / C-2710 ENGINEERING LAND PLANNING COMMERCIAL / RESIDEN P.O. BOX 4041 WILMINGTON, NC 28406 (910) 791-4441 E s\a.a o -fit ]Nit Sl z a $ram At U J `j 00 p N U O Cpj �O I �~Z _CN C) c0 w i O \`\\�Nii/`�r CAq 4 SEAL : - : 025483 r a �L 3 ao %-- m co Y Q w a q� S S 0 z Ncr- .— DA TE.• 5-10-17 HORZ. SCALE. AS NOTED VERT. SCALE. • N/A DRAWN BY- RL W CHECKED B Y.• HSR PROJECT NO.: 06-01J4 E EC10sw EC12 Sheet No. Of LINE TABLE FOR POND 1 DRAINAGE AREA LINE TABLE TAG LENGTH DIRECTION L34 58.85' S22'13'25"W L35 345.23' N80`07'05"W L36 105.62' N66°44'50"W L37 36.24' N64*10'11 "W 1-38 43.63' N83°18'54"W L39 41.96' S84'00'21 "W L40 41.29' S61 `28'02"W L41 47.92' N51 °44'26"W L42 19.63' NO3°56'36"E L43 64.83' N51'34'46"W L44 40.00' S39*44'41 "W L45 78.84' S46°21'28"E L46 40.33' S39°37'26"E L47 50.23' S33°09'09"W L48 46.36' S14°58'30"W L49 46.79' SO4°03'21 "E L50 49.62' S19°51'54"E L51 48.15' S42°55'21 "E L52 39.95' S55°10'09"E L53 59.61' S70°24'08"E L54 54.55' S0.8'58'56"W L55 199.28' S83°14'10"W LINE TABLE TAG LENGTH DIRECTION L56 21.96' S30`49'24"W L57 83.64' S00`00'00"E L58 89.11' S11'04'38"E L59 32.84' S29°01'40"E L60 42.99' S21 °45'33"W L61 109.01' S00°27'17"W L62 40.29' S61 *00'45"W L63 39.01' S12°07'15"E L64 32.19' N76°51'23"E L65 31.44' S33°20'40"E L66 77.74' S27°51'51 "E L67 285.05' N77°25'32"E L68 64.42' N76°42'29"E L69 28.61' S13'08'15"E L70 50.01' N75°44'36"E L71 27.77' N13°08'15"W L72 264.33' N76°42'29"E L73 84.62' N73'47'26"E L74 139.17' N11 *16'04"E L75 448.66' N08'09'56"E L76 54.87' N10*57'11 "E L77 147.24' N80°19'10"W LINE TABLE FOR POND 2A, 2B & 2C DRAINAGE AREA LINE TABLE TAG LENGTH DIRECTION L136 54.98' N34*52'16"W L137 100.00' N06°54'57"E L138 178.32' N14`17'05"W L139 682.90' N18'01'59"E L140 63.31' N67°43'40"W L141 63.15' N19°32'55"E L142 85.48' S62°38'25"E L143 126.03' S72°13'51 "E L144 70.29' S18'42'39"W L145 185.58' S71 °50'05"E L146 44.60' S17'39'22"W L147 26.89' S75°14'09"E L148 423.69' S79°59'39"E L149 635.49' S09`10'37"W L150 181.14' N81 °06'07"W L151 129.52' N57°46'31 "W L152 166.14' S39°36'43"W L153 370.04' S80°02'48"E L154 988.81' S09`57'46"W L155 30.00' S09°57'46"W L156 319.36' S10'00'37"W L157 147.24' N80*19'10"W L + + + + + + + + + + + + + + + + + + + + + + + + + LINE TABLE TAG LENGTH DIRECTION L158 28.54' N22°42'36"W L159 301.14' N79°51'39"W L160 142.35' N27°42'52"W L161 109.17' N12°57'40"E L162 125.50' N26°11'11 "W L164 328.84' S53°27'18"W L165 96.26' N89°27'10"W L166 100.49' S50°27'01 "W L167 179.17' N43°39'44"W L168 184.64' N00°50'51 "W L169 109.21' N07°53'12"E L170 40.26' N26°14'25"E L171 103,49' N10°30'36"E L173 17.40' N80°19'03"W L174 38.56' N11 °54'40"E L176 104.80' N11 °30'34"E L177 405.34' S79°26'55"E L178 55.42' N10°33'21 "E L179 110.64' N78°09'16"W L180 265.71' N09°57'30"E L181 100.25' S81'43'50"E L182 136.79' N12°30'05"E DRAINAGE AREA FOR NCDEQ POND SYSTEM 1 (POND 1) = 675,561 SF (15.51 AC) DRAINAGE AREA FOR NCDEQ POND SYSTEM 2 (PONDS 2A, 2B & 2C) = 1,852,386 SF (42.52 A DRAINAGE AREA FOR NCDEQ POND SYSTEM 3 (PONDS JA & 3B) = 1,066,462 SF (24.48 AC) LINE TABLE FOR FOND 3A & 3B DRAINAGE AREA LINE TABLE TAG LENGTH DIRECTION L34 58.85' S22°13'25"W L35 345.23' N80°07'05"W L36 105.62' N66`44'50"W L37 36.24' N64°1 O'11 "W L38 43.63' N83`18'54"W L39 41.96' S84`00'21 "W L40 41.29' S61 °28'02"W L41 47.92' N51 `44'26"W L42 19.63' NO3`56'36"E L43 64.83' N51 °34'46"W L44 40.00' S39°44'41 "W L45 78.84' S46°21'28"E L46 40.33' S39°37'26"E L47 50.23' S33°09'09"W L48 46.36' S14°58'30"W L49 46.79' SO4°03'21 "E L50 49.62' S19°51'54"E L51 48.15' S42°55'21 "E L52 39.95' S55°10'09"E L53 59.61' S70°24'08"E L54 54.55' S08°58'56"W L55 199.28' S83"14'10"W _�-- 0 C) LINE TABLE TAG LENGTH DIRECTION L56 21.96' S30°49'24"W L57 83.64' S00°00'00"E L58 89.11' S11 °04'38"E L59 32.84' S29°01'40"E L60 42.99' S21'45'33"W L61 109.01' S00°27'17"W L62 40.29' S61 °00'45"W L63 39.01' S12°07'15"E L64 32.19' N76°51'23"E L65 31.44' S33°20'40"E L66 77.74' S27'51'51 "E L67 285.05' N77°25'32"E L68 64.42' N76'42'29"E L69 28.61' S13'08'15"E L70 50.01' N75°44'36"E L71 27.77' N13°08'15"W L72 264.33' N76°42'29"E L73 84.62' N73°47'26"E L74 139.17' N11 *16'04"E L75 1 448.66' N08°09'56"E L76 54.87' N10*57'11 "E L77 147.24' N80'19'10"W CSD ENGINEERING LICENSE # C-2710 ENGINEERING LAND PLANNING COMMERCIAL / RESIDENTIAL P.O. BOX 4041 WILMINGTON, NC 28406 (910) 791-4441 rn U O J 00 J 0 N pQZ O C)�O r N I 2 C) O rn w O ��\\\\\IIn i u nlunlrF,i CAR 04 0. SEAL = 025483 - 9-15-17 ISI 11111\\\\��\\\\\ Q o m cn Y Q W N O Q z w ct - A + + + + + + + + V V w + + + 9 DATE_. 6-20-17 + + + + + + + + + - + + + + + + + + + + + + I + + + + + + + + + + 100 E "^'�' IV E HORZ. SCALE. SCALE: I" = 200' I ��0 + + + + + + o S FP 18 2017 DRAWN To + + + + + + + + 5 E)f`SV� B Y.• RL W + +� � + + +�_,�-~ CHECKED B Y.• 6 ® 6 ® ail BY: HSR Llo f PROJECT NO.: 06-0134 200 100 0 200 400 600 SCALE IN FEET.- 1 200' Sheet No. 01 I I I If i 42 41 II • I II II II �-== II CSD ENGINEERING LICENSE # C-2710 ENGINEERING LAND PLANNING COMMERCIAL / RESIDENTIAL P.O. BOX 4041 WILMINGTON, NC 28406 (910) 791- 4441 f� V _Z CO _ 4 Q Z Q Q W m Z , Q U Q CL 1— Q Q U CAR :a SEAS, �•�'- __ 025483 _ ®�y •�G1 Nti�Q4 i Q N p J, 3 m or Zi w ct _� OCL 8 O Z W DATE: 9-15-17 HORZ. SCALE 1 " = 100' PERT. SCALE.- N/A DRAWN BY- RL W CHECKED B Y.• HSR PROJECT NO.: 06-0134 100 50 I 100 200 300 SCALE IN FEET. 1"= II Sheet No. Of FOREBA Y 2A-1 AREA 0 FOREBA Y 2C-1 AREA � O 14 14 15 151 15 FOREBA Y 2B - 2 AREA 14 14 14 14 � ® 14 14 55 � I G ' i \ � 45 � 46 I i 42 �` 47 / _ .n FOREBA Y 2C- 2 AREA FOREBA Y 2B-3 AREA FOREBA Y 2B-1 AREA MATCHLINE A -A ECEIVE 9E 2 0 11 BY: 100 50 0 100 200 300 SCALE IN FEET. 1 "= 100' LICENSE # C-2710 ENGINEERING LAND PLANNING COMMERCIAL / RESIDENTIAL P.O. BOX 4041 WILMINGTON, NC 28406 (910) 797-4441 14 14 15 151 15 FOREBA Y 2B - 2 AREA 14 14 14 14 � ® 14 14 55 � I G ' i \ � 45 � 46 I i 42 �` 47 / _ .n FOREBA Y 2C- 2 AREA FOREBA Y 2B-3 AREA FOREBA Y 2B-1 AREA MATCHLINE A -A ECEIVE 9E 2 0 11 BY: 100 50 0 100 200 300 SCALE IN FEET. 1 "= 100' LICENSE # C-2710 ENGINEERING LAND PLANNING COMMERCIAL / RESIDENTIAL P.O. BOX 4041 WILMINGTON, NC 28406 (910) 797-4441 O Q 0 N O N � � N Q O I to QI rn � m cr- Q W i N N e O z w DA TE.• 6-20-17 HOR2. SCALE. • 1 " = 100' VERT. SCALE. • N/A DRA WN B Y.• RL W CHECKED B Y.• HSR PROJECT NO.: 06— 0134 Sheet No. Of Gii1 33.3 FT I ` .... .. ........ OP T OF VEG. SHELF 4 Ya�I.A, i .. .. .. PERMANENT POOL J J a� it °::.r J .::'':'. TYP. ......... VEGETATIVE ......... PLANTING ...... BOTTOM OF VEG. SHELF FOR 6: 1 SHELF . j = 6:1 PLANTED SHELF p . ....... I 1 I 1 WET BASIN 2A & 2B 1 " = 30' Proposed Plan t Toble VEGETATIVE PLANTING 6:1 SHELF Quantity Symbol Scientific Name Common Name Planting Size Planting Remarks Planting Season 1,217 EUPATORIADELPHUS FISTULOSUS JOE PYE WEED 4 CUBIC INCH 8' O.C. SPRING, FALL 1,217 ;'' LOBELIA CARDINALIZ CARDINAL FLOWER 4 CUBIC INCH 8' O.C. SPRING, FALL 1,217 T= RHYNCHOSPORA COLORATA STARRUSH WHITETOP 4 CU81C INCH 8' O.C. SPRING, FALL O.C. — -ON CENTER" CAL. — "CALIPER AT 6" ABOVE GRADE" GAL. — "GALLON CONTAINER" PLAN71NGS REQUIRED = 14,502 SF / 200 = 73 X 50 = 3,650 PLANTS REQUIRED MINIMUM OF 3 DIFFERENT SPECIES REQUIRED REMAINING POR71ON OF POND ABOVE 6:1 SHELF TO BE PLANIED WITH CENTIPEDE GRASS FOREBAY BERM TO BE CENTIPEDE GRASS OR LINED WITH RIP RAP PLANTINGS NOTES: 1. WORK SHALL MEET THE REQUIREMENTS OF ALL LOCAL, STALE, AND FEDERAL GOVERNING CODES, ORDINANCES, LAWS, REGULATIONS, SAFETY ORDERS AND DIRECTIVES 2. CONTRACTOR SHALL BE RESPONSIBLE FOR MAKING HIMSELFAERSELF FAMILIAR WITH ALL UNDERGROUND UTILITIES, PIPES AND STRUCTURES CONTRACTOR SHALL TAKE SOLE RESPONSIBILITY FOR ANY COST INCURRED DUE TO DAMAGE OF SAID UTILITIES J. CONTRACTOR MUST CHECK ALL 97E CONDITIONS PRIOR TO COMMENCING WORK. CONTRACTOR SHALL NOT WILLFULLY PROCEED WITH CONSTRUCTION AS DESIGNED WHEN IT IS OBNOUS THAT UNKNOWN OBSTRUCTIONS AND/OR GRADE DIFFERENCES EXIST THAT MAY NOT HAVE BEEN KNOWN DURING DESIGN. SUCH CON0171ONS SHALL BE IMMEDIATELY BROUGHT TO THE ATIEN77ON OF THE ENGINEER. THE CONTRACTOR SHALL ASSUME FULL RESPONSIBILITY FOR ALL NECESSARY REVISIONS DUE TO FAILURE TO GIVE SUCH N071FICA710N. 4. ALL PLANT QUANTITIES ARE IDENTIFIED BY TYPICAL SYMBOLS REFER TO PLANT LEGEND FOR QUANTITIES PLANT QUANTITIES ARE APPROXfkA7E AND ARE PROVIDED FOR THE CONVENIENCE OF THE CONTRACTOR. IT SHALL BE THE CONTRACTOR'S RESPONSIBILITY TO C RR ALL PLANT QUAN7111ES PRIOR TO BIDDING. IN THE EVENT OF DISCREPANCIES IN PLANT COUNT, QUAN7771ES INDICATED BY PLANT SYMBOLS SMALL PREVAIL. 5. CONIRACTOR SHALL N07IFY DESIGNER IF ANY SPECIRED PLANT MATERIAL IS FOUND TO BE UNAVAILABLE. 6. ALL AREAS NOT WITHIN THE 6.1 SHELF SHALL BE STABILIZED WITH CENTIPEDE GRASS 7. IF ANY OF SPECIFIED PLANTS ARE UNAVAILABLE; CHOOSE A NATIVE ALTERNATIVE FROM LIST ON THIS PAGE. PLANTINGS FOR 6.1 VEGETA TI SHELF - ASCLEPIAS INCARNATA (SWAMP MILKWEED) - CAREX ITNERA (QUILL SEDGE) - CHELONE GLABRA (WHITE 7URILEHEAD) - EUPATORIADELPHUS DUBIUS (DWARF JOE PYE WEED) - EUPATORIADELPHUS DUBIUS (DWARF JOE PYE WEED) - EUPATORIADELPHUS FISTULOSUS (JOE PYE WEED) - EUPATORIADELPHUS MACULATUS (SPOTIED TRUMPETWEED) - HIBBISCUS COCCINEUS (SCARLET ROSE MALLOW) - HIBISCUS LAEVIS (HALBERDLEAF ROSE.MALLOW) - KOSTELETZKYA VIRGINICA (SEASHORE MALLOW) - LOBELIA CARDINALIZ (CARDINAL FLO%fER) ECEIVE - LOBELIA ELONGATA (LONGLEAF LOBELIA) - LOBELIA 9PHIL171CA (GREAT BLUE LOBELIA) - RHYNCHOSPORA COLORATA (STARRUSH WHIIETOP) - SACCHARUM BALDWINII (NARROW PLWMEGRASS) BY. CwSD ENGINEERING LICENSE # C-2710 ENGINEERING LAND PLANNING COMMERCIAL / RESIDENTIAL P.O. BOX 4041 WILMINGTON, NC 28406 (910) 791-4441 Q z O NU 3 Q O I=— Cr z z O � Q� m Lu Q O N � Q_ Z � o C Q _jz kks� .c.sa E $ � w _9r� 2 a� y5S �ou.s n E U � J � J00 QN �Q OU o Cr O�zO Nj w~Lp QD ON� OI _Zo:�E rn 0 \\\\I111111 � 111/U/ CAR 0 :Q SEAL 025483 9-15-17 Q o co C/ 1Q W m i S 0 z w DA TE• 7-17-17 HORZ. SCALE: 1 " = 30' VERT. SCALE: N/A DRAWN BY- RL W CHECKED B Y.• HSR PROJECT NO.: 06-0134 Sheet No. LP 1 Of k-p—J, • 20 40 .• o� 6 FT 333 FT _.___ ............. ............................. TOP OF VEG. SHELF g ` PERMANENT POOL __ ........ ! BOTTOM OF VEG. SHELF PLANTINGS FOR 6:1 VEGETA r1 VE SHELF - ASCLEPIAS INCARNATA (SWAMP MILKWEED) - CAREX TENERA (QUILL SEDGE) - CHELONE GLABRA (WHITE TURTLEHEAD) - EUPATORIADELPHUS DUBIUS (DWARF JOE PYE WEED) - EUPATORIADELPHUS DUBIUS (DWARF JOE PYE WEED) - EUPATORIADELPHUS FISTULOSUS (JOE PT WEED) - EUPATORIADELPHUS MACULATUS (SPOTTED 1RUMPETWEED) - HISBISCUS COCCINEUS (SCARLET ROSE MALLOW) - HIBISCUS LAEVIS (HALBERDLEAF ROSEMALLOW) - KOSTELETZKYA VIRGINICA (SEASHORE MALLOW) - LOBELIA CARDINALIZ (CARDINAL FLOWER) - LOBELIA ELONGATA (LONGLEAF LOBELIA) - LOBELIA SIPHILITICA (GREAT BLUE LOBELIA) - RHYNCHOSPORA COLORATA (STARRUSH WHITETOP) - SACCHARUM BALDNN11 (NARROW PLUMEGRASS) M WET BASIN 3A I" = 20' Proposed Plant Table VEGETATIVE PLANTING 6:1 SHELF Quantity Symbol Scientific Name Common Name Planting Size Planting Remarks Planting Season 734 EUPATORIADELPHUS FISTULOSUS JOE PYE WEED 4 CUBIC INCH 8' O.C. SPRING, FALL 734 LOBELIA CARDINALIZ CARDINAL FLOWER 4 CUBIC INCH 8' O.C. SPRING, FALL 734 RHYNCHOSPORA COLORATA STARRUSH WHITETOP 4 CUBIC INCH 8' O.C. j SPRING, FALL O.C. — "ON CENTER" CAL. — "CALIPER AT 6" ABOVE GRADE" GAL. — "GALLON CONTAINER" PLANTINGS REQUIRED = 8,717 SF / 200 = 44 X 50 = 2,200 PLANTS REQUIRED MINIMUM OF 3 DIFFERENT SPECIES REQUIRED REMAINING PORTION OF POND ABOVE 6:1 SHELF TO BE PLANTED WITH CENTIPEDE GRASS. FOREBAY BERM TO BE CENTIPEDE GRASS OR LINED WITH RIP RAP 1. KORK SHALL MEET THE REQUIREMENTS OF ALL LOCAL, STATE, AND FEDERAL GOVERNING CODES, ORDINANCES, LAWS, REGULATIONS, SAFETY ORDERS AND DIRECTIVES 2. CONTRACTOR SHALL BE RESPONSIBLE FOR MAKING HIMSELF/HERSELF FAMILIAR WITH ALL UNDERGROUND UTILITIES, PIPES AND STRUCTURES. CONTRACTOR SHALL TAKE SOLE RESPONSIBILITY FOR ANY COST INCURRED DUE TO DAMAGE OF SAID UTILITIES 3 CONTRACTOR MUST CHECK ALL SITE CONDITIONS PRIOR TO COMMENCING WORK, CONTRACTOR SHALL NOT WILLFULLY PROCEED WITH CONSTRUCTION AS DESIGNED WHEN IT IS OBVIOUS THAT UNKNOWN OBSTRUCTIONS AND/OR GRADE DIFFERENCES EXIST THAT MAY NOT HAVE BEEN KNOWN DURING DESIGN. SUCH CONDITIONS SHALL BE IMMEDIATELY BROUGHT TO THE ATTENTION OF THE ENGINEER. THE CONTRACTOR SHALL ASSUME FULL RESPONSIBILITY FOR ALL NECESSARY REVISIONS DUE TO FAILURE TO GIVE SUCH NOTIFICATION. 4. ALL PLANT QUANTITIES ARE IDENTIFIED BY TYPICAL SYMBOLS REFER TO PLANT LEGEND FOR QUANTITIES PLANT QUANTITIES ARE APPROXIMATE AND ARE PROVIDED FOR THE CONVENIENCE OF THE CONTRACTOR. IT SHALL BE THE CONTRACTORS RESPONSIBILITY TO CONFIRM ALL PLANT QUANTITIES PRIOR TO BIDDING. IN THE EVENT OF DISCREPANCIES IN PLANT COUNT, QUAN1177ES INDICATED BY PLANT SYMBOLS SHALL PREVAIL. 5. CONTRACTOR SHALL NOTIFY DESIGNER IF ANY SPECIFIED PLANT MATERIAL IS FOUND TO BE UNAVAILABLE. 6. ALL AREAS NOT WITHIN THE 6.1 SHELF SHALL BE STABILIZED WITH CENTIPEDE GRASS 7. IF ANY OF SPECIFIED PLANTS ARE UNAVAILABLE, CHOOSE A NATIVE ALTERNATIVE FROM UST ON THIS PAGE. 15 0 30 60 •• SCALE IN FEET. 1 30' = 6:1 PLANTED SHELF WET BASIN 3B 1 " = 30' ism LICENSE # C-2710 ENGINEERING LAND PLANNING COMMERCIAL / RESIDENTIAL P.O. BOX 4041 WILMINGTON, NC 28406 (910) 791— 4441 Z J CL C� Z � W Q O � CL ~ CL Q Z CL Q z J J Q Cj-O _ Or Q p � U Q OO Q z Z O CL m Q Q O 0 W 3 ?o Q p z CL Q oz rn U C) J � J 00 p N O pOZ LO O Cj rj 0 C 2cD3 rn w O Q p m Y IQ W O z W DA TE.• 9-15-17 HORZ. SCALE.- AS NOTED VERT. SCALE.- N/A DRA WN B Y.• MRB CHECKED BY.- HSR PROJECT NO.: 06-0734 Sheet No. tp-j of kpj LOCATION MAP MATCHLINE THIS SHEET NOT TO SCALE PLANNED EROSION AND SEDIMENT CONTROL PRACTICES - CE 1. TEMPORARY GRAVEL CONSTRUCTION ENTRANCE Practice 6.06 SHALL BE INSTALLED AT THE ENTRANCES TO THE PROJECT FROM AN EXISTING ROADWAY. DRAINAGE SHOULD BE AWAY FROM THE ROAD AND EROSION WILL BE CONTROLLED WITH DOWNSTREAM PRACTICES DURING WET WEATHER IT MAY BE NECESSARY TO WASH TRUCK TIRES AT THESE LOCATIONS. 2. LAND GRADING Practice 6.02 GRADING SHOULD BE LIMITED TO AREAS AS SHOWN ON THE PLANS. CUT AND FILL SLOPES SHALL BE J.1 OR FA77ER EXCEPT WHERE SPECIFICALLY INDICATED. CARE SHALL BE TAKEN DURING LAND GRADING AC7IW77ES NOT TO DAMAGE EXISTING TREES 774AT ARE IDEN71FIED AS 'TO BE PRESERVED" SF J. SEDIMENT FENCE Practice 6.62 SEDIMENT FENCING SHOULD BE INSTALLED AS SHOWN ON THE PLAN, TO DELINEATE AND PROJECT WETLANDS AND SPECIFIED AREAS, AND AROUND ANY TEMPORARY STOCKPILE AREAS AS NECESSARY TO PREVENT ANY GRADED INTERIOR AREAS FROM ERODING ONTO ADJACENT LANDS OR ROADWAY, OR INTO INLE75 OR AS DIRECTED BY ENGINEER OR NEW HANOVER COUNTY EROSION CONTROL PERSONNEL G C 4. GRASS -LINED CHANNELS PRACTICE 6.30 ALL OVERFLOW SWALES TO BE GRADED TO DESIGN CONFIGURA77 N,LINED NTH CEN7IPEDE SOD, TO COLLECT AND CONVEY SI7E WATER AS SHOWN ON PLAN. AFTER FINAL PROJECT STABILIZA770N, SWALES TO BE RE -GRADED, CLEANED OF SILTA77ON AND LINED WITH CENTIPEDE SOD TO ESTABLISH ORIGINAL DESIGN CONTOURS FOR STORMWATER CONVEYANCE. 5. CONSTRUCTION ROAD STABILIZA71ON PRAC710E 6.80 UPON REACHING FINAL GRADE AND AFTER U11LI71ES HAVE BEEN INSTALLED, ROADWAY/PARKING AREAS ARE TO BE STABILIZED BY PLACING SUB -BASE AS SHOWN IN THE TYPICAL STREET CROSS-SECIION DETAIL ON THE PLAN, TO REDUCE EROSION AND DUST DURING THE REMAINDER OF BUILDING CONSTRUCTION, SB 6. SEDIMENT BASIN PRAC77CE 6.61 THE SEDIMENT BASIN IS TO BE CONSTRUCTED FIRST (SEE CONSTRUCTION SCHEDULE) AND IS THE PRIMARY PRAC710E TO PREVENT SEDIMENT FROM LEAVING THE SITE DETAILED DESIGN AND SPILLWAY CONFIGURA77ONS ARE SPECIFIED IN THE DETAIL SHEET. S K 7. SKIMMER PRAC710E 6.64 A SEDIMENTATION BASIN DEWA7ERING CONTROL DEVICE THAT WIIHDRAWS WATER FROM THE BASINS WATER SURFACE, THUS REMOVING THE HIGHEST QUALITY WATER FOR DELIVERY TO 7HE UNCONTROLLED ENVIRONMENT. TD 8. TEMPORARY DIVERSIONS PRAC710E 6.20 A TEMPORARY RIDGE OR EXCAVATED CHANNEL OR COMBINATION RIDGE AND CHANNEL CONSTRUCTED ACROSS SLOPING LAND ON A PRE- DE7ERMINED GRADE TO PROTECT WORK AREAS FROM UPSLOPE RUNOFF AND TO DIVERT SEDIMENT -LADEN WATER TO APPROPRIA7E TRAPS OR STABLE OUTLETS. B F 9. BAFFLE PRAC77CE 6.65 A POROUR BARRIER INSTALLED INSIDE A TEMPORARY SEDIMENT TRAP, SKIMMER BASIN OR SEDIMENT BASIN TO REDUCE THE VELOCITY AND 7URBULENCE OF WATER FLOWING THROUGH THE MEASURE AND TO FACILITATE 7HE SETTLING OF SEDIMENT FROM WATER BEFORE DISCHARGE. OP 10. OUILET STABILIZATION PRAC77CE 6.41 RIPRAP APRONS WILL BE LOCATED AT THE DOWNSTREAM END OF ALL DISCHARGE PIPES TO PREVENT SCOUR. TP 11. TREE PR07EC71ON PRAC710E 6.05 RESTRICT ACCESS TO 7PZ WITH TALL BRIGHT PR07ECIIVE FENCING ON AREAS INDICATED ON PLAN. W460 ,91 EXISTING BOUNDARY PHASE LINE f / NO WETLANDS DETERMINATION ---- EXISTING CULVERT CE 77 CONSTRUCTION ENTRANCE SF X X SIL T FENCE PROPOSED CULVERT TD F7D-1 TEMPORARY DIVERSION BF -�� BAFFLES OP OUTLET PROTECTION SITE DATA: PROJECT AREA 6,028,954 SF or 138.41 AC.t SOIL TYPE(S) 547,760 SF (12.57 AC) = Kr 976,537 SF (22,41 AC) = PM 397, 719 SF 9.13 AC) = L Y 169,418 SF (3.88 AC) = LE Z392 SF (0.05 AC) = MU PHASE 1 LOTS 1-51 ROADS 61,197 SF SIDEWALKS 8, 733 SF PUMPSTAT70N 4,716 SF BUILDINGS 178,500 SF PHASE 2 L07; 52-141 ROADS 114,095 SF SIDEWALKS 18,116 SF FUTURE 15,000 SF BUILDINGS 315,000 SF NO IMPERVIOUS PLANNED FOR THIS PHASE OF GRADING FOR LOTS 154-196 SQUARE FOOTAGE OF DISTURBANCE 767,410 SF ASSOCIATED WITH COMMERCIAL 3,489,553 SF ASSOCIATED NTH SINGLE FAMILY L07S 4,256,963 SF (97.73 AC) TOTAL N07E WELL 1. SOIL STABILJZA77ON 71MEFRAMES 0 SI7E AREA DESCRIP77ON STABILIZATION T7MEFRAME EXCEP71ONS PERIMETER DIKES,SWALES 7 DAYS NONE DITCHES AND SLOPES HIGH QUALITY ZONES HOW 7 DAYS NONE SLOPES STEEPER THAN 3:1 7 DAYS IF SLOPES ARE 10 FT 01? LESS IN LENGTH AND ARE ARE NOT STEEPER THAN 2: 1, 14 DAYS ARE ALLOWED SLOPES 3.-1 OR FLATTER 14 DAYS 7 DAYS FOR SLOPES GREATER THAN 50 FT IN LENGTH ALL OTHER AREAS WITH SLOPES 14 DAYS NONE, EXCEPT FOR PERIMETER AND FLATTER THAN 4A HQW ZONES 2. DENUDED AREAS MUST BE STABILIZED WITHIN FIFTEEN (15) WORKING DAYS OF CEASE OF ANY PHASE OF ACTIVITY ALL SLOPES MUST BE STABILIZED WITHIN TWENTY-ONE (21) CALENDAR DAYS OF CEASE OF ANY PHASE OF AC77WTY. 7HIS INCLUDES SLOPES, SWALES, CHANNELS AND STOCKPILES 3. THIS PLAN TO BE U7ILIZED AND REVIEWED ONLY IN CONJUNCTION WITH THE WRITTEN NARRAIIW, WHICH IS AN INTEGRAL PART OF THIS EROSION AND SEDIMENT CONTROL PLAN. 4. ALL SLOPES SHALL BE 3:1 OR FLATTER. 5. 242 ACRES OF WETLANDS ON SITE. 6. BOUNDARY SURVEY PERFORMED BY SOUTHWIND SURVEYING 7. TOPOGRAPHIC SURVEY PERFORMED BY CAROLINA RESOURCES MAPPING WITH SUPPLEMENTARY TOPOGRAPHIC INFORMATION PERFORMED BY BASELINE SURVEYING. 8. ELEVA7101V DATUM: NAVD 88 9. ALL SWALES TO BE LINED WIIH EXCELSIOR MATTING OR EQUAL. la ALL EXISTING CULVERTS TO BE REMOVED EXCEPT FOR SHl-SH3. 11. LOTS 154-196 WILL ONLY BE FOR ROUGH GRADING. NO FINAL ROAD DESIGN HAS BEEN COMPLETED. ONCE DESIGN IS FINALIZED A REVISION TO THE EROSION CONTROL PERMIT WILL BE SUBMITTED FOR APPROVAL 12 DEVELOPER/HOA ARE RESPONSIBLE FOR MAINTENANCE OF THE STORMWATER SYSTEM. MATCHUNE THIS SHEET EX. CULVERTS TO MANASSAS DRIIiE Man �ssc s Ori i.- PROPERTY OWNER CERTIFICATION: "I HEREBY CERTIFY THAT I AM THE CURRENT OWNER OF THE PROPERTY AND THAT UPON RECEIPT OF "AUTHORIZATION-TO-CONSTRUCT"ANY CLEARING, GRADING, CONSTRUCTION OR DEVELOPMENT, WILL BE PERFORMED IN ACCORDANCE WITH THIS PLAN AND THAT THE APPLICABLE ORDINANCES AND RULES OF NEW HANOVER COUNTY, THE STATE OF NORTH CAROLINA AND THE FEDERAL GOVERNMENT AND ITS AGENCIES WHICH ARE HEREBY MADE PART OF THIS PLAN. AS THE OWNER, I ACCEPT FULL RESPONSIBILITY FOR THE CONSTRUCTION AND OPERATION AND MAINTENANCE OF THE PROPOSED FACILITIES. I WILL NOT ATTEMPT TO TRANSFER THIS RESPONSIBILITY WITHOUT THE WRITTEN AUTHORIZATION OF NEW HANOVER COUNTY. SIGNATURE: PRINTED NAME AND TITLE: DATE: DESIGNER'S PLAN CERTIFICATION: "I HEREBY CERTIFY THAT THIS PLAN HAS BEEN PREPARED IN ACCORDANCE WITH THE LATEST NEW HANOVER COUNTY ORDINANCES AND STORMWATER DESIGN MANUAL." SIGNATURE: PRINTED NAME AND TITLE: DATE: REGISTRATION NUMBER: CONSTRUCTION SCHEDULE - I. OBTAIN APPROVAL OF PLAN AND ANY NECESSARY PERMITS, AND HOLD A PRE -CONSTRUCTION CONFERENCE PRIOR TO COMMENCING ANY WORK. 2. FLAG WORK LIMITS AND STAKE -OUT ROW, TEMPORARY DIVERSIONS AND SED, BASINS FOR PRELIMINARY GRADING. J. INSTALL GRAVEL CONSTRUCTION ENTRANCES 4. INSTALL SILT FENCING PRIOR TO ROUGH GRADING THE REMAINING SITE AND ANY STOCKPILING OF MATERIAL AND TOPSOIL NECESSARY. 5. CONSTRUCT SWALES, GRASS LINED CHANNELS, SEDIMENT BASINS AND ANY OTHER SEDIMENT CONTROL PRACTICES SHOWN, PRIOR TO ROUGH GRADING ROADWAYS AND S17E, STOCKPILING TOPSOIL AS NECESSARY. 6. UNDER CUT ROW FOR SWEETGUM DRIVE AND CANOPY WAY SO LOTS WILL DRAIN TO ROW AND SWALES Z ESTABLISH ROUGH ROAD GRADES AND STABILIZE ROAD WITH TEMPORARY OR PERMANENT SEEDING 8. ALL EROSION AND SEDIMENT CONTROL PRACTICES ARE TO BE INSPECTED WEEKLY AND AFTER ANY RAINFALL, AND REPAIRED AS NECESSARY. 9. SUBMITTAL AND APPROVAL OF A FINAL DESIGN PLAN IS REQUIRED BEFORE ANY IMPERVIOUS MATERIAL CAN BE INSTALLED. MAINTENANCE PLAN - 1. ALL MEASURES TO BE INSPECTED WEEKLY AND AFTER ANY RAINFALL EVENT AND NEEDED REPAIRS MADE IMMEDIATELY. 2. SEDIMENT TO BE REMOVED FROM SWALES WHEN THEY ARE APPROXIMATELY 50% FILLED OR SEDIMENT LEVEL IS WITH 1' OF TOP OF DITCH BANK. 3. SEDIMENT TO BE REMOVED FROM BEHIND ANY SILT FENCE AND INLET PROTECTION DEVICES WHEN IT BECOMES 0.5' DEEP. FENCING AND INLET PROTECTION TO BE REPAIRED AS NEEDED TO MAINTAIN A BARRIER. 4. ALL SEEDED AREAS SHALL BE FERTILIZED, MULCHED AND RE -SEEDED AS NECESSARY, ACCORDING TO SPECIFICATIONS PRbVIDED, TO MAINTAIN A SUITABLE VEGETATIVE COVER. 5. CONSTRUCTION ENTRANCE TO BE MAINTAINED IN SUCH A MANNER AS TO PREVENT MUD OR SEDIMENT FROM LEAVING THE CONSTRUCTION 97E PERIODIC TOPDRESSING WITH 2-INCH STONE MAY BE REQUIRED. INSPECT AFTER EACH RAINFALL AND IMMEDIATELY REMOVE ALL OBJEC77ONABLE MATERIALS SPILLED, WASHED, OR TRACKED ONTO PUBLIC ROADWAYS. 6. INSPECT SKIMMER SEDIMENT BASINS AT LEAST WEEKLY AND AFTER EACH SIGNIFICANT (ONE-HALF INCH OR GREATER) RAINFALL EVENT AND REPAIR IMMEDIATELY REMOVE SEDIMENT AND RESTORE THE BASIN TO I7S ORIGINAL DIMENSIONS WHEN SEDIMENT ACCUMULATES TO ONE-HALF THE HEIGHT OF THE FIRST BAFFLE. PULL THE SKIMMER TO ONE SIDE SO THAT 7HE SEDIMENT UNDERNEATH IT CAN BE EXCAVATED. EXCAVATE THE SEDIMENT FROM THE ENTIRE BASIN, NOT JUST AROUND 7HE SKIMMER OR THE FIRST CELL MAKE SURE VEGETATION GROWING IN THE BOTTOM OF THE BASIN DOES NOT HOLD DOWN THE SKIMMER. SEDIMENT TO BE REMOVED FROM SEDIMENT BASINS WHEN A MINIMUM OF 50% OF VOLUME HAS BEEN FILLED. REFER TO CHART FOR BASIN DEPTHS 7. IF SKIMMER IS CLOGGED WITH TRASH AND THERE IS WATER IN THE BASIN, USUALLY JERKING ON THE ROPE WILL MAKE THE SKIMMER BOB UP AND DOWN AND DISLODGE THE DEBRIS AND RESTORE FLOW. IF THIS DOES NOT WORK, PULL 7HE SKIMMER OVER TO THE SIDE OF BASIN AND REMOVE 7HE DEBRIS ALSO CHECK THE ORIFICE INSIDE THE SKIMMER TO SEE IF IT IS CLOrZD. IF SO REMOVE THE DEBRIS 8. REMOVE SEDIMENT FROM BEHIND BAFFLES ONCE ACCUMULATION HAS REACHED W1/2 HEIGHT OF THE FIRST BAFFLE, REPLACE BAFFLE PROMPTLY IF THEY COLLAPSE AR, DECOMPOSE OR BECOME INEFFECTIVE 9. REFER TO NC LQS 'EROSION AND SEDIMENT CONTROL PLANNING AND DESIGN MANUAL" FOR ADDITIONAL MAINTENANCE REQUIREMENTS FOR EACH EROSION CONTROL DEVICE VEGETATIVE PLAN - 1. PERMANENT VEGETAIION TO BE ESTABLISHED IN ACCORDANCE WITH 'NORTH CAROUNA EROSION AND SEDIMENT CONTROL PLANNING AND DESIGN MANUAL" SEC77ON 6.11, LATEST VERSION. EXISTING TREE i DRIPLINE I I� i 3' MIN. STAKE PROTECTIVE r - �-HEIGHT ABOVE BARRIER _ ;1� v GRADE r� , NOTE: TREES TO BE SAVED WILL BE CLEARLY MARKED PRIOR TO CONSTRUCTION AND A PROTECTIVE BARRIER IS TO BE INSTALLED AT THE DRIPLINE. DRIP LINE - THE AREA OF SOIL DIRECTLY BENEATH THE TREE EXTENDING OUT TO THE TIPS OF THE OUTERMOST BRANCHES. TP TREE PROTECTION DURING CONSTRUCTION SD 15-08 NOT TO SCALE 100 50 0 11, ECEIVEM ice Cwoo,S6D ENGINEERING LICENSE ,f C-2710 ENGINEERING LAND PLANNING COMMERCIAL / RESIDENTIAL P.O. BOX 4041 WILMINGTON, NC 28406 (910) 791- 4441 SCAR 70 '. SEAL P z 025483 r - %✓y4'0I N E�cR a /J ^� 1,0 N N to N N f� m I I I C7 Y oc � Q W m Q a � oggggg�qqogqqZ Iv O W DATE. 12-77-75 HORZ. SCALE 1 " = 200' VERT. SCALE: N/A DRA WN B Y.• RL W CHECKED B Y. HSR PROJECT NO.: 06-0134 200 300 EC 1;i Sheet No. 0 SCALE SCALE IN FEET: 1 "= 100' EXISTING DITCH TO BE FILLED IN EX/S1)NG DITCH TO BE FILL® IN t 1 1 1 SEDIMENT BASIN 6 (SEE SHEET EC10 FOR DETAIL) EX. CULVERT TO BE CAPPED i ►Q •1� r �. TD_5 Jai r' 11 T 25 11 11 ' I1 2S Fj ' cry D.E. p P2—CB4Ln / TG = 22.60""®_-_ IN OUT 18.50 (S — 24") _ _ 23 SWEET i � 45 — M DRIVE �- ?S� iP FT PRIV,q �- ROW 134 LF 24 DOUBLE WALL HDPE 24 I ADS N-12 OR EQUIV. 24 T� _ MATCH LINE ZSHEET EC2 7// 24 �:-1 MATCH UNE SEE SHEET EC5 �X j i i i i i ............... 25 121 25 25 � � / n 1■� LEGEND -- EXISTING BOUNDARY PHASE LINE NO WETLANDS DETERMINA TION EXISTING CULVERT CE` LL.�IJ CONSTRUCTION ENTRANCE SF X X SILT FENCE PROPOSED CUL VERT TD 7TD—-Smm-- TEMPORARY DIVERSION BFs— .BAFFLES OP OUTLET PROTECTION E IVI ( 21? CmovS*D ENGINEERING LICENSE # C-2710 ENGINEERING LAND PLANNING COMMERCIAL / RESIDENTIAL P.O. BOX 4041 WILMINGTON, NC 28406 (910) 791— 4441 W U J � 00 JON O c� pzZ C) ��—QD Z O CN OI LLJ O A 1 t I �I I T///� V0 R 2: .v a SEAL 7 - - 025483 r S�.FtiGINE��'���: 1 zy/7 v� z m 16 0 Z Q �n ri O 2 ce, O O g g g Q� Q Z d �) N W DATE 12-77-75 HORZ, SCALE.- 1 " = 100' VERT. SCALE N/A DRA WN B Y.• RL W CHECKED B Y.• HSR PROJECT NO.: 06-0134 Sheet No. 1 oEC LEGEND -- EXISTING BOUNDARY PHASE LINE j NO WETLANDS DETERMINATION EXISTING CULVERT 67/;l CONSTRUCTION ENTRANCE SF X X SILT FENCE PROPOSED CULVERT TD F-1 TEMPORARY DIVERSION BF- BAFFLES OP OUTLET PROTECTION WATCH LINE SEE HT EC3 S© jt 124 1 ---25 10 133 LF 24" DOUBLE WALL ADS N-12 OR EQUIV. 1• 12 Jit IP fX®I1 �i ` I P2-CB13 11, TG = 22.90 I OUT 18.50 (W - 24") I (12 _ _ x11, 3 I c'vI x \ 12 11 I// I z - i Q I ` 11 I12 � f 92 I I I INV. IN 1710 (N - 30 l �I t T 93 N 76 ?5' I I ' N �� O ' fT INV. OUT 1710 (S - 36") 70 j I to ,' 1 N 94 P2-JB1 1 I �, s� cv- j r w _ 1 95 I r RIM 23.50 - I 74 I 146 LF 36 DOUBLE WALL HDPE I I INV. IN 16.60 N - 36 - O �, �x I ( ) I ADS N-12 OR EQUIV. r 1 �'( N - 1' INV. (SE - 48") 73 1 - I �� j 129 x _ __ tv 77 36 E WALL HDPE 72 I 20 P2-J87 � P - _ ADS N- 12 OR EQUIV. 1 71 �E 69 RIM 23.50 - I p ��, �I �50 LE WALL HDPE INV. IN 17.60 (E 24 ),, ADS N-1 _ - I ( ") INV. IN 16.60 N - 36 r S -� 2� B �- - 1 TG = 2290 jv� NI lc J J- LA qS B _ �� INV. OUT 1&00 (E - 24") ! ! H 1� �` y 1 > �, 45 FT pR/Vq jE R0--'"'`j�169 LF 24" DOUBLE WALL HDPE 78 _ - w 2 I W i �` _ ? ADS N-12 OR EQUIV. r_ - IP - - - P2-CB17 A I 22.40 _- _ i `� INV. 0 T 18.50 (S-24"") �24-� 79 s " I?oFrl 1 1 l% 168 LF 24" DOUBLE WALL HDPE �pE� r 26 f ADS N-12 OR EQUI 1 V. j 25 1 N i 88 r x 11 I 80 - 87 O 86 I I ,, - - l I A`' 83 - I � 1 , `_ V- CIV I PH2-OUIFALL 5 O + 81 ' Ii 26 `S B IP I20Fr I 25-P2-CB12- x � D. E 1 I TG = 22.80 134 LF 24 DOUBLE WALL HDPE „ I I ADS N-12 OR EQUIV. I INV. OUT 1&50 (S - 24 ) STOCKPILE LOCATION 25 I I P2-CB6i 111 TG = 2310 24') E OUT 1&50 INLE WALL HDPE I V. - ; 13J LF 24 DOUBLE I ( IP � I I I 0 ADS N-12 OR EQUIV. LOCA77ON -- 10 25 I j - I I 10 I 20 Fr 10 P2-CB10 I I 143 LF 24" DOUBLE WALL HDPE 2 1 O 2 - - TG=-23.50 - I V. S I INV. IN 17.70 (E 24") I O - INV. IN 17.70 (N - 24") ADS N-12 OR EQUI 20 1 99 INV. OUT 17.70 (S - 30') TG = 23.00 INV. IN 17.70 (N - 24) INV. IN 17.70 (V - 24") I I 181 LF30' DOUBLE WALL HDPE OUT 1 INADS N 12 OR EQUI V. 25I I 10 V. 7.70 (S - 30") I f-r 20 FT I �- __ 25_ I d.E 1 0 r � � INV. - O 24 -- d-_ _��� � X � � _- 181 LF 3 - 0" DOUBLE WALL HDPE `... ._ ._.r _ ... _ , _. -: --., S - - � -25 ADS N 12 OR EQUIV. I I CO S r 2S 23 - _ - f I - � 6 24 o f P2-CB S�j _ 45 F �RnEgF w,q y - +' � TG = 22.50 IP - - T PR/Vq Row - `. x' �� p, INV. IN 17.10 (N - 30") - 23 ( 24 - I I�7 N,` OQ INV. OUT 17.10(S-36") _ - - c� 75 J 24. - 0 - - I S i 89� r - 20 24 91 P2-CB9 _ 11 \ - I 158 LF 36 DOUBLE WALL HDPE I , TG = 22.30 I ADS N 12 OR EQUI V PH2-OUTFALL 2 PH2-OUTFALL 4 INV. OUT 16.60 (SW - 48") 133 LF 24" DOUBLE WALL HOPE 0 o ADS N-12 OR EQUIV. I 130 - STOCKPILE LOCATION A? - IP i 1 f ' 68 P2-CB8 r _ TG = 22.90 INV. OUT 18.00 (W - 24") ' x �(f � 25 - 1f ' I ,. r o I t I �f, S INSTALL FOR BANK FOR E MA T I NN © ! ' ' t? POND 2A - I O WHEREVER EXISTING DITCH �; SEDIMENT BASIN 5 � HAS BEEN DISTURBED (SEE SHEET ECBA FOR DETAIL)' S " - �( PH2-OUTFALL SEE DETAIL sHEEr EC9 1 (3) 203 LF 36 DOUBLE WALL HDPE ri - x \ ADS N-12 OR EQUIV. - O P2-CB14 64 TG = 22.JO IP INSTALL SF ALONG TOP OF PIPE INV. OUT 18.00 (W - 24") s 0 " _ ---� 102 LF 24 DOUBLE WALL HDPE ,I EX. CULVERT TO BE REMOVED y y ADS N-12 OR EQUIV. WETLANDS K► x IF/ I INSTALL SF ALONG TOP OF PIPE .. INSTALL SF ALONG TOP OF PIPE y y ACOE APPROVAL PENDING ` P2-JB15 � 63 S -� r il USACE SECTION 404 WETLANDS WERE DELINEATED RIM = 23.00, r EX. CULVERT TO BE REMOVED BY MR. DAVTD SCIBETTA, WITH SOUTHERN INV. IN 18.00 (S - 24) 1 r INSTALL JUTE MATTING4 ENVIRONMENTAL GROUPINC ON 11-16-16 ZZ INV. OUT 18.00 (N - 24 FOR BANK STABILIZATION WHEREVER EXISTING DITCH SAND VERIFIED BY MR. KYLE DAHL, USACE PROJECT MANAGER. HAS BEEN DISTURBED / G N O i SEE DETAIL SHEET EC9 ON THAT SAME DATE. 20 TD- 61 UTILITY EASEMENT TEMP. WETLANDS IMPACT PART OF`" " T \ 143 LF 24 DOUBLE WALL HDPE I ' S ACOE APPROVAL ADS N-12 OR EQUIV. I INSTALL JUTE MATTING \� ' \ �� ��, \ i 24 r FOR BANK STABILIZATION WHEREVER EXISTING DITCH HAS BEEN DISTURBED - -� - 57 ��� P2-CB16 SWALE 1 TO CONNECT SEE DETAIL SHEET EC9 �,` i !', f22.50CV i� r TO SB5 UNTIL UPSTREAM AREA ' / I RIM UT( / ) � N 1 SEDIMENT BASIN 2 �- - � � - � ` ,' INV. OUT 18.50 N - 24" � N OF SWA1f 1 IS STABILZIED l � I P (SEE SHEET EC9 FOR DETAIL) S i THEN SWALE IS 1 IS TO BE CONNECTED TO S - Lo ( S�VEETSHRUB N EXIs11NG DITCH To THE SOUTH WEST. s - ` 45 FT pR/Vq CURT C 2� O _ TE ROW 23 \ s s �� 2� ;i (, B INSTALL ✓CITE MATTING MATCH LINE SEE SHEET EC7 FOR BANK STABILIZATION SWALE 1 WHEREVER EXISTING DITCH UTILITY EASEMENT f ; B HAS BEEN DISTURBED .:. SEE DETAIL SHEET EC9 i POND 2 OUTFACE (2) 30' HDPE INV. EL = 18.7 F.E.S. W1 4 CY a11 RIP RAP 50 25 0 50 100 150 �t: \ INSTALL F.E.S. IN SIDE SLOPE OF CREEK BANK DO NOT DISTURB ANY PART OF THE FLOW SCALE IN FEET: 1 "= 50' Cmo**SD ENGINEERING LICENSE # C-2710 ENGINEERING LAND PLANNING COMMERCIAL / RESIDENTIAL P.O. BOX 4041 WIL MING TON, NC 28406 (910) 791- 4441 0 rn U J � co J � N U C' ozz � �o LLJ C) O 2 W O CAIRo�'% O�'4ESSY '•i o . c SEAL 025483 : I � Q A Cn a cj:� Z Lo m a z W CS O O S m S= U O O Co ^ to h N' M N o> > w DA TE.• 12-17-15 HORZ. SCALE 1 " = 100' VERT. SCALE: N/A DRA WN B Y.• RL W CHECKED B Y.• HSR PROJECT NO.: 06-0134 EC5 ,EC1 Sheet No. O MATCH LINE SEE SHEET EC6 LINE IN BASE OF Ek1S71NG CREEK BED _ GO ckc (000'-- 1-- PC Q � s 0 0 oQ m c� W m m= TYPICAL WEDGE CURBING 7 FT 6" HIGHBACK CURB 2— 08� — T — — — 0.1' LOCAL DEPRESSION SID. GRATE & HOOD 81 ' GRATE & HOOD r6" HIGHBACK CURBING `EDGE OF PAVEMENT `TYPICAL MV TYPICAL MV B<—J CURBING CURBING PLAN VIEW OFFSET INLET DETAIL NOT TO SCALE NOTE.OFFSET INLET DETAIL APPLIES TO SINGLE AND DOUBLE INLETS BOLT BOXES TOGETHER AND CUT OUT OPENING BETWEEN THE TWO BOXES OR PRECAST. 6- 6- A 6' 6. d SECTION VIEW A - TO BE SIZED PER INLET PIPE COMING INTO BOX BOXES TO MEET NCDOT STD 840.02 REQUIREMENTS. TO BE USED AT INLET CB1, CB2 AND CB5 DOUBLE INLET NOT TO SCALE 11 A -..A IMMEM LEGEND -�� EXISTING BOUNDARY PHASE LINE NO WETLANDS DETERMINA TION - EXISTING CULVERT CE CONSTRUCTION ENTRANCE SF X X SILT FENCE PROPOSED CULVERT TD TD-1 ----jmm.- TEMPORARY DIVERSION BF- BAFFLES OP OUTLET PROTECTION 50 25 0 50 100 150 SCALE IN FEET. • 1 "= 50' MATCH LINE SEE SHEET EC5 ' 23 s0 _ — 2� I�` SWEETS. ` WETLANDS i r 45 HRUB SOU - FT PR/VA RT TERow GRADE PUMPSTARON AREA TO DRAIN TO �COE APPROVAL PENDING (�� �- # CANOPY WAY CB 3 o !_ 21.81E �',\A / 24 \ S STOCKPILE LOCATION \ / 1s 24 24 CY CLASS 11 RIP RAP 55n 54 12" 12" SLOPE AWAY FOR SUPERELEVA71ON / 6 1 LOCAL DEPRESSION AT FLUME MODIFIED VALLEY CURBING NOT TO SCALE INSTALL JUTE MA71)N FOR BANK STABIIJZA71ON WHEREVER EXISnNG DITCH HAS BEEN DISTU SEE DETAIL SHEET EC9 POND 1 OUTFALL (3) 24' HDPE INV.EL=18.8 F.ES W/ 2 CY CL 11 RIP RAP INSTALL F.ES. IN SIDE SLOPE OF CREEK BANK DO NOT DISTURB ANY PART OF THE FLOW LINE IN BASE OF EXISTING CREEK BED FLOW LINE IE = 1&3- PIPE IE = 17.3 7 CY CLASS 11 RIP RAP CULVERT 1- (2) - 85 LF 54' CLASS 111 RCP'S FLOW LINE lE = 18.0 PIPE IE = IZO 10 CY CLASS II RIP RAP I 25, I - l J�� 44 O'T� 124 52 1 I SWALE 1 EX. CULVERT TO BE REMOVED �, � \ I n� 45 I — CE 141 I1 1 k I � 1 I - F II \ \ 46 SWALE 8 I f 1 x N I t 1 i S/ 19 50 ' I I — _ 1 t I I- #' 41 23 \ CANOPY IP 4 WAY, LAI - - 5 FT P `� \ — R1VA ROW CB3 I — I P _ I I DOUBLE INLETS -• _ I — EX. CULVERT �0 BE REMOVED � TG = 221 I t IE = 19.1 I I 142 LF 24' DOUALE WALL HDPE I DOUBLE INLETS - - I ADS N-12 ORE IV 2 I TG = 22.6 36 4 IE = 19.9 I 4 I O I 20 FT O O 2 40 37 24 D.E. 38 142 LF 24' Dbi1BLE WALL HDP 35 34 20 ADS N-12 0� EQUIV. j, /V ` / 103� 36' DOUBLE WALLIHDPE I BEN 33 AD N-12 OR EQUIV. y NJ I 25 32 I I 200 LF 36 DbUBLE WALL HDPE N ADS N-12 EQUIV. I C\4 I C82 DOUBLE INLETS TG = 22.6 41 LF 48' DOUBLE WALL HDPE, BIB _ ____._ - z \BIA RIM = 23.5 IE - 19.9 ADS N-12 OR EQUIV. IE = 19.0 i i I IEM 18.7 5 _ - t JBIC PIPE IE = 1&5 RIM = 23.5 ' ? , OUTFALL 1 lE = 19.6 141 LF 24'DOUBLE ADS N-12WALL HDPE OR EQUIV ' IP 9 CY CLASS 9 RIP RAP \ ' SEE DETAIL SHEET EC6 ,._.., 1 I FOREBAY APRON �' �►= , I , 150 CY CLASS 1' RIP RAP -�- - B SEE DETAIL SHEET EC8 ' B OUTFALL 2 - 30 I WET BASIN 1 _ 2 CY CL 11 RIP RAP ' SEE DETAIL SHEET EC8 SEE DETAIL SHEET EC6 O 1 t E = 19 3 PIPE 1 c 1 29 REED O cn y 1 1 1 27 1 12 sf 1 22 1 1 26 I 177 LF 24' DOUBLE WALL HDPE i 1 21 1 20 FT ADS N-12 OR EQUIV \ 25 11 D.E. CB1 1 `1 DOUBLE INLETS L, 2 . -Ile 19. \�� 1 SUM �RI IP 2� 1 1 10 \ STET ROW \ N i 5 TE FT PRIVA _ "" o 1 1 9 1 4 _— 1 \ 5 / 0 � 1 � r ECEIV Y: CSD ENGINEERING LICENSE j C-2710 ENGINEERING LAND PLANNING COMMERCIAL / RESIDENTIAL P.O. BOX 4041 WILMINGTON, NC 28406 (910) 791- 4441 J W Q z CL O cn U o� o z Z Z O Q � � CL Q WLL- LLJ O W U 3 z O �Z co Q � ���`��'`� � �•5 S Rol/��� a SEAL 025483 NGINS b �o co Q ad Q Y Q. Q z � m � 0c o Q m"EM Z � W DATE: 11-3-16 HORZ. SCALE 1" = 100' VERT. SCALE.- N/A DRA WN B Y.• MRB CHECKED BY: HSR PROJECT NO.: 06-0134 Sheet No.EC7o,�EC1 i j L=8.01' R=5.00' L=20.42' I�.. .�� R=13.00'� F ARY SKIMMER TO BE INSTALLED ON PRIMARY OUTLET STRUCTURE BOX REMAIN IN PLACE UNTIL SI7E IS PERMANENTLY STABILIZED PER NCDENR/LQSNTATION AND EROSION CONTROL PERMIT. SEE SKIMMER DETAILS FOR INSTALLATION. 2. GRADE WILL BE 12.1 ONLY IN FRONT OF OUTLET BOX. REMAINING SHELF SHOULD BE 6.1. PP IS THE CENTER OF THE 6:1 SHELF. 3. RIP RAP TO BE PLACED AROUND THE PERIMETER OF OUTLET BOXES 4. (3) 4 FT x 4 FT PRECAST CONCRETE BOXES OR EQUIVALENT HAND -BUILT. 5. SKIMMER = 8.0' SKIMMER W17H 3.5' ORIFICE DIAMETER. TOP OF BOX AT BACK OF BOX EL= 22.5 FAIRCLOIH SKIMMER 0 WSEL = 19.5 SB O 6' PVC SCREW PLUG 6' ORIFICE ASSEMBLY 6' CROSS SKIMMER CONNECTION TO BE CAPPED ONCE SKIMMER IS REMOVED 12' 12' 1 � / 6' CAP TO REMAIN UN71L SKIMMER IS REMOVED. THEN DRILL 4.5' HOLE IN CAP POND BOTTOM ELEV= 15 EL= 20.6 Iry FOREBAY 2A-1 LZ OTTOM = _S L=22.05' R=30.00' L=3.92' R=45� AL I& �Lc �Ylr. �W. L4r. yYc 11� U AL fir. a0c �Oc >IYc aIL. AL AL GENCY SPILLWAY EL'. = 22.0 60, CY CL 11 RIPRAP 1.5 FT DEEP PLACE NONWOVEN GE07ECH FILTER FABRIC UNDER RIPRAP SEE DETAIL (THIS SHEET) L=9.75' / R=5.00' TLET STRUCTURE 10 CY CL B RIPRAP 1.5 FT DEEP PLACE NONWOVEN GE07ECH FILTER FABRIC UNDER RIPRAP SEE DETAIL (THIS SHEET) L=7.84' R=5.00' {3) 33 LF 36' DOUBLE WALL HOPE ANT -SEEP COLLAR SEE DETAIL THIS SHEET POND 2 OUTFALL IE = 18.7 Y 7 FT WEIR '\ 4" EL= 20.1 � CL B RIP RAP W/ GE011=X NONWOVEN FILTER FABRIC 1, (TO SURROUND ENTIRE (3) 36' HDPE OUTLET STRUCTURE) OUTLET PIPE INV = 19.5 - INV = 19.0 2 FT SUMP FOR CLEANOUT OR- CONC. OUT OIt � GROUT... • a . 6'BASE EL = 15.5 SECl10N VIEW v.v vrtmi.c naxmoLI WET BA SIN 2A 4.5' HOLE DRILLED IN CAP PLAN VIEW OUTLET STRUCTURE DETAILS NOT TO SCALE FABRICATED GRATE TOP �& A, FT RS, GALVANIZED, OR EQUIVALENT 1JL �jk L=0.43' R=8.00' t i� t axle. I �Lc AL, ]tlt 1 " = 30' WELDED FABRICATED TRASH RACK W/SQUARE OPENINGS 36' HDPE 'HDPE 'HDPE SQUARE OPENINGS : 6' 7 0 i h 0 _I h 6' - 0- 15'- 0' .5 FT WEIR CUT 2.0 FT WEIR CUT 0 GRATF PLAN VIEW 6.0' ORIFICE ASSEMBLY 4.5' HOLE DRILLED IN CAP BOX PLAN VIEW WET BASIN 2A OUTLET STRUCTURE DETAILS NOT TO SCALE 4-0' 4-0, 4-0' SEE DETAIL SEE DETAIL SEE DETAIL THIS SHEET THIS SHEET THIS SHEET FOR FOR FOR TRASH RACK TRASH RACK TRASH RACK cp s 25 _--25 FT EASEMENT FOR FUTURE CONNECT! 4L;=-2J. 5' 1560 �=23.56'L LR==2135..5060'' _ rL=23.56' I 1 R=15.00' ALL SLOPES 3:1 MAXIMUM (TYPICAL AT ALL STORM OUTFALLS TO POND) 10 FT VARIES FOREBAY VOLUME OF REQUIRED STORAGE, TYPICAL OP pjPE = WSEL 19.5 RIP RAP 1.5 SEDIMENT CLEANOUT 3'min. BOTTOM = B ELEV. = SCE O OUTLET NON WOVEN FILTER FABRIC UNDER RIP RAP AS ON PLANS ,moo FOREBAY 2B-1,2,3: B = 15, SCE = 16 FOREBAY 2A-1 B = 16, SCE = 17 FOREBA Y SECTION DE TA I L NOT TO SCALE 52 FT TOP OF EMBANKMENT ELEVATION = 23.0 `NON WOVEN FILTER FABRIC CLASS II RIPRAP 1.5 FT DEEP 7ERRAIEX N04 OR EQUAL EMERGENCY SPILL WA Y FRONT VIEW - BASIN 2A NOT TO SCALE L=23 56' R=15.00' L=23.56' R=15.00' NOTE COLLAR TO BE POURED AFTER 6' PIPES ARE IN PLACE, REINFORCING AS NECESSARY. s 5' s s a v MIN WET BASIN ANTI -SEEP COLLAR NOT TO SCALE VARIES 10' 13 15' 16' EMBANKMENT TOP= 230 (SETTLED), = 23.25 (CONSTRUCTED) R EMERGENCY SPILLWAY = 22.0 TOP OF GRATE = 20.5 STATE STORAGE WEIR CUT = 20.1 STATE STORAGE = 122,791 CF PE NORMAL WSEL= 19.5 (MIDDLE OF 6.1 SHELF) E7 IE(OUT) = 18.7 BOTTOM OF 6:1 SHELF EL= 19.0 AN77-SEEP COLLAR, BOTTOM EL= IZ3 9. _ BOTTOM SW S1RUCTURE EL 15.5 AN11-SEEP SEDIMENT CLEANOUT TEL = 16.0 COLLAR, 6 FT WIDE BOTTOM EL= 15.0 SEE DETAIL 6:1 SHELF ECEIVE VARIES 33' A111, 2017 EMBA NKMEN T SECTION NOT TO SCALE CmIOSD ENGINEERING LICENSE # C-2710 ENGINEERING LAND PLANNING COMMERCIAL / RESIDENTIAL P.O. BOX 4041 WIL MING TON, NC 28406 (910) 791-4441 '\0yliIlIill ; /, FOSS/Q a SEAL 025483 m I Y Q w U S S O z N �- W DA TE: 5-10-17 HORZ. SCALE AS NOTED VERT. SCALE: N/A DRAWN BY- RL W CHECKED B Y.• HSR PROJECT NO.: 06-0134 ,EC8A FC12 Sheet o 0 COiR FIBER BAFFLE MATERIAL PROPERTY REQUIREMENTS MATERIAL 100% COCONUT FIBER THICKNESS 0.30 IN MIN. TENSILE STRENGTH (WET) 900 X 680 LB/FT MIN ELONGATION (WET) 69% X 34% MAX FLOW VELOCITY 10-12 FT/SEC WEIGHT 20 oz/SY (680 G/M^2) MIN MINIMUM WIDTH 6.5 FT OPEN AREA 50% MAX STEEL POST EARTHEN EMBANKMENT. OUTLET, CLASS 11 STEEL POST SHOULD BE APPROX 1-3/8' WIDE MEASURED PARALLEL TO FENCE AND HAVE A MIN. W► IGHT OF 1.25 LB/LINEAR FT AND BE EQUIPPED WITH AN ANCHOR PLATE WITH MINIMUM AREA OF 14.0 IN^2. STEEL POST SHOULD BE INSTALLED AT MAX. 4 FT SPACING AND DRIVEN INTO GROUND MIN. OF 2 FT. INLET ZONE 25% OF SURFACE AREA BAFFLE (TYPICAL) FIRST CHAMBER 259 OF SURFACE AREA SECOND CHAMBER 25% OF SURFACE AREA OUTLET ZONE 25% OF SURFACE AREA BF TEMPORARY BAFFLES Practice 6.65 NOT TO SCALE M= 3 VARIES n= 0.03 LINED WITH REINFORCING MATTING AND SEED PER SPECIRCARONS OR SOD. SWALES 1-7 0 3: 1 GRASSED CHANNEL N.T.S WATER LEVEL 8.5" END VIEW BASIN ORIFICE SIZED DRILLED IN CAP 1 2.6" 2 3.0 " 3 2.4" 4 2.0" 5 3.5" 6 3.2" ••••••••••••• ••••••••••••• • • 3 i K CUSTOM SKIMMER DETAIL Practice 6.64 NOT TO SCALE - BAFFLES TO BE INSTALLED PER TEMPORARY BAFFLES DETAIL TOP OF EMBANKMENT EL. INSTALL POLE WITH CLEAN OUT DEPTH MARKED. CANNOT BE TOP OF POLE M� 1 EMERGENCY SPILLWAY EL. 4 FT IMMER SEE DETAIL THIS SHEET) 2' 14.0' 3 1l 11 �- 18" 3 1-1 b= 5' SEE EROSION CONTROL CALCULATIONS FOR G VELOCITY CALCULATIONS. TEMPORARY DIVERSION DETAIL Practice 6.20 NOT TO SCALE 8" HDPE CAP w/ VENT HOLES 1/2" WOODEN DOWEL (RETAINING FLOAT) 2" REPURPOSED STYROFOAM FLOAT /8" SINGLE WALL CORRIGATED HDPE " HDPE TEE 8" HDPE CAP (SEE CHART FOR ORIFICE SIZE OF HOLED DRILLED IN CAP) HDPE TOP OF BERM FRONT VIEW FLEXIBLE RUBBER COUPLING PLAN VIEW SEE DENR STANDARDS & SPECS. FOR COMPLETE DESIGN CRITERIA & MAINTENANCE AREA ELEVATIONS VOLUME SKIMMER CLEANOUT DEPTH (FT) FROM BOTTOM SEDIMENT BASIN { SURFACE AREA (SF) TOP OF EMERGENCY BASIN OUTFALL BERM SPILLWAY BOTTOM INV EL. REQUIRED PROVIDED (CF) (CF) PIPE ORIFICE SIZE RADIUS *1 45,405 23 22.0 19.5 18.8 27,666 38,906 8.0 2.6 1.0 2 24,759 25 24 21.5 21.4 33,048 55,428 8.0 3.0 1.0 3 16,695 26 25 22.5 22.4 16,344 34,520 8.0 2.4 1.0 4 13,162 29 28 26 25.9 6,768 23,718 8.0 2.0 1.0 5 9,504 24 23 21 20.8 11,862 16,704 8.0 3.5 1.0 6 42,287 25 24.5 23 22.8 49,392 58,626 &0 3.2 1.0 *SEE EC8 FOR BASIN DETAIL AND SKIMMER CONNECTION TO OUTLET BOX. BASIN 1 DOESN'T UTILIZE THIS EMBANKMENT CROSS SECTION SB TEMPORARY SEDIMENT BASIN EMBANKMENT CROSS SECTION NOT TO SCALE I� 1 Construction Road Stabilization Specification 16.80 - Construction Specifications 1. Clear roadbed and parking areas of oil vegetation, roots and oth obiectionable material. 2. Ensure that road construction fcllews the natural contours of th terrain if it is possible. J. Locate parking areas on ncturahy lat cress if they are available ''eep grades sufficient for drainage but generally not more than 2 toiX: 4. Provide surface drainage, and divert excess runoff to stable arec by using water bars or turnouts (References Runoff Control Measures). 5. Keep cuts and Ris at 2:1 or Hotter for safety and stability and' -- facilitate establishment of vegetation and maintenance. 6. Spread a 6-inch course of 'ABC crushed stone evenly over the` ' width of the road and smooth to avoid depressions. 7. Where seepage areas or seasonally wet areas must be crossed, subsurface drains or geotextie fobrr'c cloth before placing the aish d stone (Practice 6.81, Subsurface Drain). 8. Vegetate all roadside drtdtes, cuts, fills and other disturbed area �Y otherwise appropriately stabilize as soon as grading is complete pe*ences. Surface Stabilization). 9. Provide appropriate sedrrnent control measures to prevent off -sit, sedimentation. Maintenance Inspect construction roads and porkng areas periodically for conditir o! surface. Topdress with new gravel as needed. Check road ditches cc, other seeded areas for erosion and sedimentation after runoff -producing r.(-s Maintain all vegetation in hedthy, vigorous condition. Sediment-prYw king areas should be treated immediately. CE Temporary Gravel Construction Entrance/Exit Specification J 6.06 - Construction Specifications 1. Clear the entrance and exit area of oil vegetation, roots and other objectionable material and properly grade it 2. Place the gravel to the specific grade and dimensions shown on be plans and smooth if. J. Provide drainage to carry water to a sediment trap or other suitee outlet. 4. Use geotextile fabrics because they improve stability of the foundatiM in locations subject to seepage or high water table. Maintenance Maintain the gravel pad in a condition to prevent mud or sediment from leaving the construction site. This may require periodic topdressing with 2-inch stone. After each rainfall, inspect any structure used to trap sediment and dean it out as necessary. Immediately remove all objectionable materials spilled, washed, or tracked onto public roadways. TemporarySeeddng Specification 16.10 - Specifications Complete grading before preparing seedbeds and install all necessary erosion control practices, such as dikes, waterways and basins. Minimize steep slopes because they make seedbed preparation difficult and increase the erosion hazard. If soils become compacted during grading, loosen them to a depth of 6-8 inches using a ripper, harrow, or chisel plow. Seedbed Preparation Good seedbed preparation is essential to successful plant establishment. A good seedbed is well -pulverized, loose and uniform. Where hydroseeding metit,4s are used, the surface may be left with a more irregular surface of large clods and stones. Liming - Apply lime according to soil test recommendations. If the pit , ,aridity) of the soil is not known, an application of ground agricultural limestone at the rate of 1 to 1 1/2 tons/acre on coarse -textured soils and 2-3 tonsla es on fine -textured soils is usually sufficient Apply limestone uniformly and incorporate into the top 4-6 inches of soil. So7s with a pH of 6 or higher need not be r'+med. Fertilizer- Base application rates on soil tests. When these are not possible, apply a 10-10-10 grade fertilizer at 700-1,000 1./acre. Both fertilizer and lime should be incorporated into the top 4-6 inches of soil. If a hydraulic seeder is used, do not mix seed and fertilizer more than 30 minutes before application. Surface roughening- If recent tillage operations have resulted in a loose surface, additional roughening may not be required except to break up large clods. If rainfall causes the surface to become sealed or crusted, loosen it just prior to seeding by disking, raking, harrowing, or other suitable methods, Groove or furrow slopes steeper than 3.1 on the contour before seeding (Practice 6:03, Surface Roughening), Plant Selection Select an appropriate species or species mixture from Table 6.10a, for seeding in late winter and early spring, Table 6.106 for summer, and Table 6.10c ,or fall. Seeding Evenly apply seed using a cyclone seeder (broadcast), drill, cultipadker seeder, or hydroseeder. Use seeding rates given in Table 6.10a-6.10c. Broadcast seeding and hyroseeding are appropriate for steep slopes where equipment cannot be driven. Hand broadcasting is not recommended because of the difficulty in achieving a uniform distribution. Small grains should be planted no more than 1 inch deep, and grasses and legumes no more than 1/2 inch. Broadcast seed must be covered by raking or chain dragging, and then lightly firmed with a roller or cultipacker. Hydroseeded mixtures should include a wood fiber (cellulose) mulch. Mulchin The use of appropriate mulch will help ensure establishment under normal conditions and is essential to seeding success under harsh site condition (Practice 6.14, Mulching). Harsh site conditions include. -seeding in fall for winter cover (wood fiber mulches are not considered adequate for this use), -slopes steeper than J. 1, -excessively hot or dry weather, -adverse soils(shallow, rocky, or high in day or sand), and -areas receiving concentrated flow. If the area to be mulched is subject to concentrated waterflow, as in channels, anchor mulch with netting (Practice 6.14, Mulching). Sediment Fence (Silt Fence) Specification 6.62 - Construction Specifications MATERIALS 1.Use a synthetic filter fabric or a pervious sheet of polypropylene, nylon, polyester, or podyethylene yam, which is certified by the manufacturer or supplier as conforming to the requirements shown in Table 6.62b. Synthetic fifer fabric should contain ultraviolet ray inhibitors and stabilizers to provide a mrrimum of 6 months of expected usable construction life at a temperature range of 0 to 120 F. 2.Ensure that posts for sediment fences are 1.33 Ib/linear ft steel with a minimum length of 4 ft. Make sure that steel post have projects to facilitate fostering the fabric. 3.For reinforcement of standard strength filter fabric, use wire fence with a mnrnum 14 gauge and a maximum mesh spacing of 6 inches. Table 6.62b Specifications For Sediment Fence Fabric Physical .Property Requirements Filtering Efficiency - 85% (min) Tensfe Strength at Standard Strength- 30 Ib/lin in (min) Extra Strength- 50 Ib/lin in (mm) Slung flow Rate - 0.3 gal/sq ft/min (min) COti'STRU'C77 N 1.Construct the sediment barrier of standard strength or extra strength synthetic fiter fabrics. 2Ensure that the height of the sediment fence does not exceed 18 inches above the ground surface. (Higher fences may impound volumes of water sufficient to cause foiiure of the structure.) 3.Construct the titer fabric from a continuous roll cut to the length of the barrier to avoid joints. When joints are necessary, securely fasten the filter cloth only at a support post with overlap to the next post. 4.Support standard strength filter fabric by wire mesh fastened securely to the up slope side of the posts using heavy duty wire staples at least 1 inch long, or tie wires. Extend the wire mesh support to the bottom of th; !-einch. 5. Men a wine mesh support fence is used, space posts a maximum of 8 ft apart. Support posts should be driven securely into the ground to a minimum of 18 inches. 6.Extra strength fifer fabric with 6ft post spacing does not require wire mesh support fence. Staple or wire the filter fabric directly to posts. 7.Exca►ate a trench approximately 4 inches wide and 8 inches deep along the proposed line of posts and upslope from the barrier (figure 6.62a). 8.6adkfil the trench with compacted soil or gravel placed over the titer fabric. 9.Do not attach filter fabric to existing trees. Maintenance Inspect sediment fences at least once a week and after each rainfall. Make any required repairs immediately. Should the fabric of o sediment fence collapse, tear, decompose or become ineffective, replace it promptly. Replace burlap every 60 days. Remove sediment deposits as necessary to provide adequate storage volume for th next rain and to reduce pressure on the fence. Take care to avoid undermining the fence &rang deanout. Remove ail fencing muter cis and unstable sediment deposits and bring the area to grade and stabilize it after the contributing drainage areo has ^ 3 properly stabilized. SK Skimmer Sediment Basin Specification 6.64.7 - Construction Specifications 1. Clear, thgrub, and strip the rrrea under the grrQnbpnitment of all ►�getation an root at. Remove all su ocQe soil contai in i n qm nts of i5r anic ma err a d St it or di ose of it roped . FIau Ilgob[ecr able ma edal to e besi�inotel/ dis�osciT area. Plano tenpbrory sediment cony measures below s nee 2. Ensure that fill material for the mbankment is free of roots, woody Yget t' or anic after, and Bier tunable rr�at�nal. Pa a the fill in ffs not�'o ec inched and mach�r�compact it. Civex fi� a embankment 6 inches to Blow 0 settfanent 3. ape the basin to the sp�cf fie I dimensions. Prevent the skim ming device din settling into the fnud b xcavgtinq a s nal�ow pit k�nI a skimmer or providing a ow support undesr t�e skinnier o s one or m er. 4. P ace the bor�el t ical! 4-in Schedule 40 PVC pip) on a firm, Smogth �ound Lion of ' s�sor7. 0 .not use pernouq fin���nal such s grid Pee el, or crusimi one as backh7! around e p e. PIa e Uie r material rid the i sspp in 4-in 1 cr ac 1� under and around leds t sameensfty as°Q,e ad'tab n eat �are ust aken not tq rape rye p�'pe > n the film c ac with s ndation WTen compacting under the pipe fiaun es. Piave a minimum th of ?feq.t of coin aced baddill over the p' illway before crossin it i c c i ip en In no ose y�ould the I gonduit pq insialle� y cuuNing aTrenn rough the Sam after the enPi 1ment is compie e. 5. Assemble the skimmer following the manufacturers instructions, or as designed. 6. lay the a bled skri�m�r on the bottom o the b n wi a flex le aint at e it et of the barrel e. Attach a flexigsfe ' in the c el ip nd os' iron e skimmer over a excavat itt orbs�p art ;t flir t RNA 7 ro0f 9 thin skimai r rid anchor it to the Nde of thb basin. This wi� be used o pu l e immer o e side or maintenance. VJ to gn width, peration oro in a trench. the es ma be secur with 8-inch' stqples or iris. 11►e f d r�list ¢ Ion9�rnok� to ektgnd down a slop@ grid a it ontq S �1 groyn . the with of the f ri must be piece, not or splwise water rian get ynger t�n� obri- e ten th of'the ebdi is insufofi t fqr the en ire eng o e spilway, mu a sec ons spanning a comppl�e a w►dth, a be used 1h err Lion s� Quid overlap the lower fien s) ' d't water connott Cw under the to a Secure the under e� an sld�es of the fabric in a trench with staples or pins. (Adapted from --A Manual for Designing, Installing and Mal toining Skimmer Sediment Basins.' F-#)rucry, 1999. J. W. Fairdoth do Son.). 8. Inlets -Discharge w tqr into or Me basin kl a manner t event erosion. U la7p wa7esteth aupp r end the p� art o�nprove baslnr Ups�ie cy 9. Ergsf'on conMt�- struct the structur so {{f�at the disc abed is mnmi eel Di su ce water a a ba ¢ ar s. �on► le?e�h em¢anent be�re th are isred�Sltaze emerc spi�lwa ein ankmen an all o er istu areas ve a crest o e prn spillway immediately after construction (References: Surface Stabilzation). 10. After all the sediment-prode i areas h ve barn p E negVy stabilized remove the structure bnd air( tgie unst fie sedimeft ooth the area to blend with the adjoining areas and stabilize properly (ferences: Surface Stabilization). I select skimmer sediment basins at least weekly and after each significant ding -half inch or neater) rainfall event 9Qd eoair iinmedia el R over edment and restdgre thh basip to its origin `Ulmer��ion e1 s. ment accu lutes to on hat the het eight of a rst b theu th min t one side so that the �id ea{� i cc ge a c'u Cavae e to m tomth�, en irei�a in,ur ��us aroun�the s�Cilnmer or e rst �1. e sureverge a ion growing in e o tom o the basin does not h dd down skimmer. Fin wot n the b iynn u ally on tfne rih�rnace a'mmer bo� an own Qnodislo�ge1 skin errQveh tosthe ont�ice asidethe mer �o see i t is dogge� if so remove e FaH If the skimmer arm or barrel pipe is dogged, the orifice can be removed and the obstruction cleared with a plumber's snake or by flushing with water. Be sure and replace the orifice before repositioning the skimmer. Check the fabric lined spillway for damage and make any required repairs with fabric that spans the full width of the spillway. Check the embankment spillways, and outlet for erosion damage, and inspect the embankment for piping and settlement Make all necessary repairs immediately. Remove all trash and other debris from the skimmer and pod areas. Freezing weather can result in ice forming in the basin. Some special precautions should be taken in the winter to prevent the skimmer from nluaaina with ice. Land Grading Specification J 6.02 - Construction Specifications 1.Construct and maintain all erosion and sedimentation control practices and measures in accordance with the approved sedimentation control plan and construction schedule. 2.Remove good topsoil from areas to be graded and Oiled, and preserve it for use in finishing the grading of all critical areas. 3.Scorify areas to be topsoiled to a minimum depth of 2 inches before placing topsoil (Practice 6.04, Topsoiling). 4.Cleor and grub areas to be filled to remove trees, vegetation, roots, or other objectionable material that would affect the planned stability of the fill. 5.Ensure that ill material is free of brush, rubbish, rocks logs, stumps, building debris, and other materials inappropriate for constructing stable fills. 6.Place all fill in layers not to exceed 9 inches in thickness, and compact the layers as required to reduce erosion, slippage, settlement, or other related problems. ZDo not incorporate frozen material or soft, mucky, or highly compressible materials into fill slopes. &Do not place fill on a frozen foundation, due to possible subsidence and Slippage. 9.Keep diversions and other water conveyance measures free of sediment during all phases of development. 10.Handle seeps or springs encountered during construction in accordance with approved methods (Practice 6.81, Subsurface Drain). 11.Permonent1y stabilize all graded areas immediately after final grading is completed on each area in the grading plan. Apply temporary stabilization measures on al/ graded areas when work is to be interrupted or delayed for 30 working days or longer. 12Ensure that topsoil stockpiles borrow areas, and spoil areas are adequately protected from erosion with temporary and final stabilization measures, including sediment fencing and temporary seeding as necessary. Maintenance Periodically check all graded areas and the supporting erosion and sedimentation control practices, especially after heavy rainfalls. Promptly remove all sediment from diversions and other water -disposal practices. If washouts or breaks occur, repair them immediately. Prompt maintenance of small eroded areas before they become significant gullies is an essential part of an effective erosion and sedimentation control plan. Temporary Seeding continued) Table 6.10a - Temporary Seeding Recommendation for Late Winter and Early Spring Seeding mixture Species- Rye(grain), Annual lespedezo (Kobe in Piedmont and Coastal Plain Rate (Ib/acre)- 120 Omit annual lespedezo when duration of temporary cover is not to extend beyond June Seeding dates -Coastal Plain - Dec. 1 - Apr. '.5. Soil amendments- Follow recommendations of soil tests or apply 2,000 Ib/acre ground agricultural limestone and 750 Ib/acre 10-10-10 fertilizer. Mulch -Apply 4,0001b/acre straw. Anchor straw by tacking with asphalt, netting or a mulch anchoring tod. A disk with blades set nearly straight can be used as a mulch anchoring tool. Maintenance - Refertlize if growth is not fully adequate. Reseed, refertilize and mulch immediately following erosion or other damage. Table 6.10b - Temporary Seeding Recommendations for Summer Seeding mixture Species -German millet Rate(Ib/acre)- 40 Seeding dates -Coastal Plain- Apr. 15-Aug. 15 Soil amendments -Follow recommendations of soil tests or apply 2,000 ib/acre ground agricultural limestone and 750 Ib/acre 10-10-10 fertilizer. Mulch -Apply 4,000 Ib/acre straw. Anchor straw by tacking with asphalt, netting or a mulch anchoring tool. A disk with blades set nearly straight can be used as a mulch anchoring tool. Maintenance-ReferMize if growth is not fully adequate. Reseed, refertilize and mulch immediately following erosion or oth- damage. Table 6.10c - Temporary Seeding Recommendation for Fall Seeding mixture Species-Rye(grain) Rate(lb/acre) - 120 Seeding dates - Coastal Plain and Piedmont -Aug 15 - Dec. 30 Soil amendments - Follow sal tests or apply 2,000 lb./acre ground agricuiturel limestone and 1,000 lb/acre 10-10-10 fertilizer. Mulch- Apply 4,000 Ib/acre straw. Anchor straw by tacking with asphalt, netting, or a mulch anchoring tool. A disk with blades set nearly straight can be used as a mulch anchoring tool. Maintenance- Repair and refertilize damaged areas immediately. Topdress with 50 Ib/acre of nitrogen in March, if it is necessary to extend temporary cover beyond June 15, overseed with 50 Ib/acre Kobe (Piedmont and Coastal Plain) OP Outlet Stabilization Structure Specification J 6.41 - Construction Specificati^ns 1. Ensure that the subgrade for the liter and riprap follows the required lines and grades shown in the plan. Compact any fill required in the subgrade to the density of the surrounding undisturbed material Low areas in the subgrode on undisturbed sal may also be filled by Increasing the riprap thickness. 2. The riprap and gravel filter must conform to the specified grading limits shown on the plans. J. Filter cloth, when used, must meet design requirements and be property protected from punching or tearing during installation. Repair any damage by removing the riprap and placing another piece of filter cloth over the damaged area. All connecting joints should overlap a minimum of 1 ft. If the damage is extensive, replace the entire filter cloth. 4. Rpprap may be placed by equipment, but take care to avoid damaging the fin ter. 5. The minimum thickness of the riprap should be 1.5 times the maximum stone diameter. 6. Riprop may be field stone or rough quarry stone. It should be hard, angular, highly weather -resistant and well graded. 6. Construct the apron on zero grade with no overfall at the end. Make the top of the riprap at the downstream end level with the receiving area or slightly below it. 8. Ensure that the apron is properly aligned with the receiving stream and preferably straight throughout its length. If a curve is needed to fit site conditions place it in the upper section of the apron. 9. Immediately after construction, stabilize all disturbed areas with vegetation (Practice 6.10, Temporary Seeding, and 6.11, Permanent Seeding). Maintenance Inspect riprap outlet structures after heavy rains to see if any erosion around or below the riprap has taken place or if stones have been dislodged. Immediately make all needed repairs to prevent further damage. Permanent ,ee in Specifications if 6.11 - Specifications Seedbed Requirements Establishment of vegetation should not be attempted on sites that are unsuitable due to inappropriate soil texture (Table 6.11o), poor drainage, concentrated overland flow, or steepness of slope until measures have been taken to correct these problems. To maintain a good stand of vegetation, the soil must meet certain minimum requirements as a growth medium. The existing soil should have these criteria. - Enough fine-grained (silt and day) material to maintain adequate moisture and nutrient supply (available water capacity of at least .05 inches water to 1 inch of soil). - Sufficient pore space to permit root penetration. - Sufficient depth of soil to provide an adequate root zone. The depth to rock or impermeable layers such as hardpans should be 12 inches or more, except on slopes steeper than 21 where the addition of sob is not feasible. - A favorable pH range for plant growth, usually 6.0-6.5. - Freedom from large roots branches, stones, large clods of earth, or trash of any kind. Clods and stones may be left on slopes steeper than J. I if they are to be hydroseeded. If any of the above criteria are not met-i.e., if the existing soil is too coarse, dense, shallow or acidic to foster vegetation -special amendments are required. The soil conditioners described below may be beneficial or, preferably, topsoil may be applied in accordance with Practice 6.04, Topsoiling. Soil Conditioners In order to improve the structure or drainage characteristics of a soil, the following material may be added. These amendments should only be necessary where soils have limitations that make them poor for pion i grc = th or for fine turf establishment (see Chapter 3, Vegetative Considerations). Peat -Appropriate types are sphagnum moss peat, hypnum moss peat reedsedge peat, or peat humus, all from fresh -water sources. Peat should be shredded and cc- 'tioned in storage piles for at least 6 months after excavation. Sand -dean and free of toxic materiels Vermiculite -horticultural grade and free of toxic substances. Rotted manure -stable or cattle manure not containing undue amounts of straw or other bedding materials. Thoroughly rotted sawdust- free of stones and debris. Add 6 lb. Of nitrogen to each cubic yard. Sludge -Treated sewage and industrial sludges are available in various forms: these should be used only in accordance with local, State and Federal regulations. Species Selection Use the key to Permanent Seeding Mixtures (Table 6.11b) to select the most appropriate seeding mixture based on the general site and maintenance factors. A listing of species, including scientific names and characteristics, is given in Appendix 8.02. Seedbed Preparation Install necessary mechanical erosion and sedimentation control practices before seeding, and complete grading according to the approved plan. Lime and fertilizer needs should be determined by soil tests. Soil testing is performed free of charge by the North Carolina Department of Agriculture soil testing laboratory. Directions, sample cartons, and information sheets are available through county agricultural extension offices or from NCDA. Because the NCDA soil testing iab requires 1-6 weeiks for sample tum-around, sampling must be planned well in advance of final grading. Testing is also done by commercial laboratories. When soil test are not available, follow rates suggested on the individual specification sheet for the seeding mix chosen (Tables 6.11c through 6.11v). Applications rates usually fall into the following ranges: - Ground agricultural limestone Light -textured, sandy soils; 1-1 1/2 tons/acre Heavy textured, dayey soils 2-3 tons/acre - Fertilizer. Grasses 800-1200 Ib/acre of 10-10-10 (or the equivalent) Gross -legume mixtures: 800-1200 Ib/acre of 5-10-10 (or the equivalent) Apply lime and fertilizer evenly and incorporate into the top 4-6 inches of soil by disking or other suitable mer s Oper-'e machinery or, ths contour. When using a hydroseeder, apply lime and fertilizer to a rough, loose surface. Roughen surfaces according to Practice 6.03, Surface Roughening. Complete seedbed preparation by breaking up large clods and raking into a smooth, uniform surface (slope less than J. 1) Fill in or level depressions than can collect water. Broadcast seed into a freshly loosened seedbed that has not been sealed by rainfall. Table 6.11s - Seeding No. 4CP for. Well -Drained Sandy looms to Dry Sands, Coastal Plain; Low to Medium -Care Lawns Seeding mixture Species - Centipedegross - Rate - 10-20 Ib/acre (seed) or 33 bu/aa a (sprigs) Seeding dates - Mar. - June, (Sprigging can be done through July where water is available for irrigation.) Soil amendments - Apply lime and fertilizer according to soil test, or apply 300 Ib/ocre 10-10-10. Sprigging - Plant sprigs in furrows with a tractor -drown transplanter, or broadcast by hand. Furrows should be 4-6 inches deep and 2ft apart. Place sprigs about 2 ft. apart in the row with one end at or above ground level (Figure 6.11d). Broadcast at rates shown above.. and press sprigs into the top 1 /2 inches of soil with a disk set straight so that sprigs are not brought back toward the surface. Mulch - Do not mulch Maintenance - Fertilize very sparingly- 20 Ib/acre nitrogen in spring with no phosphorus. Centipedegross cannot tolerate high pH or excess fertilizer. Maintenance Table 6.11 t - Seeding No. 5CP for. Well -Drained Sandy Looms to Dry Sands; Low Seeding mixture Species Rate (Ib/acre) Pensacola Bahiagross 50 Sericea lespedeza 30 Common Bermudagrass 10 German millet 10 Seeding notes 1. Where a neat appearance is desired, omit sericea 2 Use common Bermudagrass only on isolated sites where it cannot become a pest. Bermudagrass may be replaced with 5 Ib/acxe centipedgrass. Seeding dates - Apr. 1 - July 15 Soil amendments - Apply lime and fertilizer according to soil tests, or apply 3,000 Ib/acre ground agricultural limestone and 500 Ib/acre 10-10-10 fertilizer. Mulch Apply 4,000 Ib/acre grain straw or equivalent cover of another suitable mulch. Anchor by tacking with asphalt, roving and netting or by crimping with a mulch anchoring tool. A disk with blades set nearly straight can be used as a mulch anchoring tool. Maintenance - Refertilize the following Apr. with 50 Ib/acre nitrogen. Repeat as growth requires. May be moved only once a year. Where a neat appearance is desired, omit sericea and now as often as needed. Table 6.11 v - Seeding No. 7CP for. Gross -lined Channels; Coastal Plain Seeding Mixture Species - Common Bermudagrass - Rate - 40-80 (1/2 6/1,000 ft ) Seeding dates - Coastal Plain; Apr - July Soil amendments - Apply lime and fertilizer according to soil tests, or apply 3,000 Ib/acre ground agricultural limestone and 500 Ib/acre 10-10-10 fertilizer. Mulch - Use jute, excelsior matting, or other effective channel lining material to cover the bottom of channels and ditches. The lining should extend above the highest calculated depth of flow. On channel side slopes above this height, and in drainages not requiring temporary linings, apply 4,000 ib/acre grain straw and anchor straw by stapling netting over the top. Mulch and anchoring materials must be allowed to wash down slopes where they can clog drainage devices. , lw- Maintenance -A minimum of 3 weeks is required for est sf repair mulch frequently. Refertilize the following Apr. with lb/acre Refer to Appendix 8.02 for botanical names CSD ENGINEERING LICENSE # C-2710 ENGINEERING LAND PLANNING COMMERCIAL / RESIDENTIAL P.O. BOX 4041 WILMINGTON, NC 28406 (910) 791- 4441 � 0 J C) 62 W E 50� A2 EkE'F cgs 9 6 Z&� W E W V v in v I §$; o c a � � E s \\', CAR( O� F S S70 •,�'..r 0- SEAL 025483 '- : 0,� X `o o `^ N �2 N N 0 M co N Y Q ZE LLJ Z § J a � m WWO� �Qj 2RS �Qj vq5 Uqq �qq qo A� N. O Z ,O .t N W cr DA TE: 12- 7 7-15 HORZ. SCALE: N/A VERT. SCALE: N/A DRA WN B Y RL W CHECKED B Y. HSR PROJECT NO.: 06-0134 EC11 �'C12 Sheet No. Gi wo 15 0 30 .• •• • 33.3 FT f q z a = 6:1 PLANTED SHELF __......... TOP OF VEG. SHELF PERMANENT POOL BOTTOM OF VEG SHELF Proposed Plon t Toble VEGETATIVE PLANTING 6.1 SHELF Quantity Symbol Scientific Name Common Name Planting Size Planting Remarks Planting Season 1,217 EUPATORIADELPHUS FISTULOSUS JOE PYE WEED 4 CUBIC INCH 8' O.C. SPRING, FALL 1,217 _ LOBELIA CARDINALIZ CARDINAL FLOWER 4 CUBIC INCH 8' O.C. SPRING, FALL 1,217_ RHYNCHOSPORA COLORATA STARRUSH WHIIETOP 4 CUBIC INCH 8' O.C. SPRING, FALL O.C. — "ON CENTER" CAL. — "CALIPER AT 6" ABOVE GRADE" GAL. — "GALLON CONTAINER" PLANTINGS REQUIRED = 14,502 SF / 200 = 73 X 50 = 3,650 PLANTS REQUIRED MINIMUM OF 3 DIFFERENT SPECIES REQUIRED REMAINING PORTION OF POND ABOVE 6:1 SHELF TO BE PLANTED WIIH CENTIPEDE GRASS FOREBAY BERM TO BE CENTIPEDE GRASS OR LINED WITH RIP RAP I. WORK SHALL MEET THE REQUIREMENTS OF ALL LOCAL, STATE, AND FEDERAL GOVERNING CODES, ORDINANCES, LAWS, REGULATIONS, SAFETY ORDERS AND DIRECTIVES 2. CONTRACTOR SHALL BE RESPONSIBLE FOR MAKING HIMSELF/HERSELF FAMIUAR WITH ALL UNDERGROUND U11171ES, PIPES AND STRUCTURES CONTRACTOR SHALL TAKE SOLE RESPONSIBILITY FOR ANY COST INCURRED DUE TO DAMAGE OF SAID UIIUTIES 3. CONTRACTOR MUST CHECK ALL SITE CONDITIONS PRIOR TO COMMENCING WORK. CONTRACTOR SHALL NOT WILLFULLY PROCEED WITH CONSTRUCTION AS DESIGNED WHEN IT IS OBVIOUS THAT UNKNOWN OBSTRUCTIONS AND/OR GRADE DIFFERENCES FJOST THAT MAY NOT HAVE BEEN KNOWN DURING DESIGN. SUCH COND171ONS SHALL BE IMMEDIATELY BROUGHT TO THE ATTENTION OF THE ENGINEER. THE CONTRACTOR SHALL ASSUME FULL RESPONS161LITY FOR ALL NECESSARY REW90NS DUE TO FAILURE TO GIVE SUCH NOTIFICATION. 4. ALL PLANT QUANTITIES ARE IDENTIFlED BY TYPICAL SYMBOLS REIFR TO PLANT LEGEND FOR QUANTITIESS, PLANT QUANTITIES ARE APPROXINAIE AND ARE PROVIDED FOR THE CONVENIENCE OF THE CONTRACTOR. IT SHALL BE THE CONTRACTORS RESPONSIBILITY TO CONFIRM ALL PLANT QUANTITIES PRIOR TO BIDDING IN THE EVENT OF DISCREPANCIES IN PLANT COUNT, QUAN7171ES INDICAIED BY PLANT SYMBOLS SHALL PREVAIL 5. CONTRACTOR SHALL NOTIFY DESIGNER IF ANY SPECIFIED PLANT MATERIAL IS FOUND TO BE UNAVAILABLE: 6. ALL AREAS NOT WIIHIN THE 6.1 SHELF SHALL BE STABILIZED WITH CENTIPEDE GRASS 7. IF ANY OF SPECIFIED PLANTS ARE UNAVAILABLE, CHOOSE A NATIVE ALIERNAINE FROM UST ON THIS PAGE - ASCLEPIAS INCARNATA (SWAMP MILKWEED) - CAREX TENERA (QUILL SEDGE) - CHELOINE GLABRA (WHIIE TURIIEHEAD) - EUPATORIADELPHUS DUBIUS (DWARF JOE PYE WED) - EUPATORIADELPHUS DUBIUS (DWARF JOE PYE WEED) - EUPATORIADELPHUS FlSTULOSUS (JOE PYE WEED) - EUPATORIADELPHUS MACULATUS (SPOTTED TRUMPETWEED) - H1581SCUS COCGNEUS (SCARLET ROSE MALLOW) - HIBISCUS LAEVIS (HALBERDLEAF ROSEMALLOW) - KOSIELE72KYA V1RGINICA (SEASHORE MALLOW) - LOBELIA CARDINALIZ (CARDINAL FLOWER) - LOBELIA ELONGATA (LONGLEAF LOBELIA) - LOBELIA SIPHILITICA (GREAT BLUE LOBELIA) - RHYNCHOSPORA COLORATA (STARRUSH WHIIETOP) - SACCHARUM BALDWINII (NARROW PLUMEGRASS) Ck 1/gri/ol EEIVE L i 9 209 CSD ENGINEERING LICENSE # C-2710 ENGINEERING LAND PLANNING COMMERCIAL / RESIDENTIAL P.O. BOX 4041 WILMINGTON, NC 28406 (910) 791— 4441 Z J CL Z Z � p Z J O 0L _0 ZQ N QCL o� 0 CL 1 I C A R l ESS/'.- 2 0 2 '.-7 SEAL 9 CL — 025483 %O SIN/ E Wi 7 /'% /7 ti Q m cn Y Q W O Z W DA TE.' 7— 7 7-17 HORZ. SCALE.- 1" = JO' VERT. SCALE: N/A DRA WN B Y.- RL W CHECKED B Y.- HSR PROJECT NO.: 06— 0134 Sheet No. LP 1 of LP 1 AREA (AC) DRAINING X OF POND VOLUME (cf) % OF VOLUME FOREBAY TO FOREBAY DA PROVIDED PROVIDED 1 2.04 7.2 4,560 10.1 2 4.51 15.9 12,202 27.1 3 5.81 20.5 14,132 31.4 4 6.19 21.9 14,132 31.4 NOTE. POND DA = 28.28 AC 15% MIN TOTAL FOREBAY VOLUME = 38,405 CF 2090 MAX TOTAL FOREBAY VOLUME = 51,207 CF TOTAL FOREBAY VOLUME PROVIDED = 45,026 CF 100 50 0 100 200 300 SCALE IN FEET' 1"= 100' 3A Y 2B-3 B-1 PPN -, Lu NORTH CAROLINA 04V1 E NK COMMISSION A . - -7 /a5 /1 -1 EGE i �Y: ��� � 10�3 c7�► COSD ENGINEERING LICENSE # C-2710 ENGINEERING LAND PLANNING COMMERCIAL / RESIDENTIAL P.O. BOX 4041 WILMINGTON, NC 28406 (910) 791-4441 o) U O J 00 JON U C) O OHO rj �-- WLI)Z ON I O pp rn CA 7 - _ SEAL 9 = Ix 025483 r = tiGINS o i7 LLI Q 0 m Q w 0 Z w cr- DA TE.- 6-20-17 HORZ• SCALE I" = 100' VERT. SCALE. N/A DRA WN B Y.• RL W CHECKED B Y.• HSR PROJECT NO.: 06-0134 Sheet No. Of �p M STRUCTURE AREA CB2 1.00 CB3 0.82 CB4 1.76 CB6 0.70 CB8 1.52 CB9 1.05 CB10 0.67 CB12 1.40 CB13 1.48 CB14 1.54 C816 2.73 CB17 1.99 // 50 / 100 200// SCALE IN FEET. 1"= /I CSD ENGINEERING LICENSE # C-2710 ENGINEERING LAND PLANNING COMMERCIAL / RESIDENTIAL P.O. BOX 4041 WILMINGTON, NC 28406 (910) 791-4441 Q Z J c)-O _Cc CO(j Z 00 ct Q Z Z W O Z J z Q O WUO co u) W Z L` Cc W cis Z � m Noz WQ L8 Q� QU W UQ 4� Z •CAROB / S�o''�'L a SEAL 9 9 025483 r ' — • �O� tiG1NE� • ��� a�L-Lj� Q p 3 %— �' m Y Q W cr- ti O O Z LLJ DA TE.• 1-28-16 HORZ. SCALE.- 1 " = 100' VERT. SCALE: N/A DRAWN BY- RL W CHECKED B Y.• HSR PROJECT NO.: 06— 0134 Sheet No. 01 N/F N/F MYRTLE GROVE COASTAL CHRISTIAN N 404 WETLANDS DELINEATION CERTIFICATE / ' / ! f CHRISTIAN SCHOOL HIGH SCHOOL MYRTLE GROVE DB 5769/2302 / DB 5647/616 PRESBYTERIAN THIS CERTIFIES THAT THIS PLAT ACCURATELY DEPICTS THE BOUNDARY OF THE JURISDICTION OF l / S 7518'55" E I CHURCH SECTION 404 OF THE CLEAN WATER ACT PURSUANT TO THE 1987 CORPS OF ENGINEERS 1 SOIL ROAD DB 5647/616 SOIL ROAD rn DELINEATION MANUAL AS DETERMINED BY THE UNDERSIGNED ON THIS DATE. UNLESS THERE IS A l 139.11 / 30' SANITARY SEWER EASEMENT E2 / CHANGE IN THE LAW OR OUR PUBLISHED REGULATIONS, THIS DETERMINATION MAY BE RELIED UPON T 30' SANITARY SEWER EASEMENT. / (DB 5499/2435) FOR A PERIOD OF FIVE YEARS FROM THIS DATE. ANY ISOLATED WETLANDS OR WATERS THAT ARE / (DB 2472/155) OUT OF CORPS JURISDICTION HAVE BEEN LABELED ON THE SURVEY. I S 747j " N/F_ A rL / � ARTHUR 4g E( 68229 T 1 7— �, , DB 5830/2499 , SIGNATURE, U.S. ARMY CORPS OF ENGINEERS OFFICIAL DATE TI TLE. EXPIRATION DATE OF DELINEATION: USACE ACTION ID: / / T - - - - - - - - N �. . . . . . . . . . I GRAPHIC SCALE "' .- f / -� - - - • - - - - I , 300 0 150 300 600 116.97 ACRES f NOT DETERMINED (NOVEMBER 2016) - - - - - - - - - I ` ( IN FEET ) I inch = 300 ft. } �— i - - PROJECT BOUNDARY 2016 T" �_... (� I , � / r ! SOIL ROAD . . . . _ . Z _ I qI NOT FOR RECORDING OR CONVEYANCE % ` � / / � � 30' SANITARY SEWER EASEMENT / _ GENERAL .OYES (DB 2472/155) / T 1. THIS MAP WAS PREPARED FROM A COMBINATION OF RECORD DOCUMENTS " -I I AND A PARTIAL FIELD SURVEY. THIS IS NOT A BOUNDARY SURVEY, BUT THE WETLANDS DATA IS TIED TO BOUNDARY MONUMENTS. 2. BASIS OF BEARINGS FOR THIS MAP/PLAT ARE BASED ON LOB 5836\1392 N/F I f MASTERSON Q, — — — J. ALL DISTANCES ARE HORIZONTAL GROUND DISTANCES UNLESS OTHERWISE 7 I MILLS DB 2655/505 M I i NOTED. _ / I DB 520/ 325 N F N/F OHI ASSET � ^ � \ �.. 4. UNITS ARE U.S. SURVEY FEET UNLESS OTHERWISE NOTED. / MILLS WILMINGTON LLC / 5. AREA BY COORDINATE GEOMETRY. 2134 \ ��-: A� 6. THIS SURVEY PERFORMED AND MAP PREPARED WITHOUT BENEFIT OF A TITLE DB 5952 DB 1156/15 / SANITARY SEWER � ' �� / N 25'31'53' E / _ — — EASEMENT T EXISTING SEWER MANHOLE REPORT THIS SURVEY SUBJECT TO ANY FACTS AND EASEMENTS WHICH 59.58'_ - — _ _ N 12.22'28• W MAY BE DISCLOSED BY A FULL AND ACCURATE TITLE SEARCH. j/ S 8225 E 942.56' 163.99' 07" r , 7. COUNTY PARCEL # R07600-004-052-000 ! \ 1 1 8. TOTAL SITE AREA: 138.41f ACRES S 6SSS'S� - - N 7*2443' E 3 V (NOVEMBER 0 1! \ g MAP & DEED REFERENCES PER NEW HANOVER COUNTY REGISTRY I � 8.92 ACRES 127•�' � (NOVEMBER 2016) ( ): N 6 F �O143, ��- NOT DETERMINED EXISTING SOIL ROAD DB 583611392 (DECEMBER 2015) \ ` Q / N F W 6 `� - MODIFIED NOV. 2016 _ N 31.56'14' E ' ! / (AND OTHEPS THAT MAY BE SHOWN ON THIS MAP) / TREGUMBO ¢663' \\ (. ) 1e2n- �\ — 10. FLOOD ZONE NOTE: AS DETERMINED BY GRAPHIC PLOTTING, IS LOCATED IN DB 4906/2159 N/F / N 33�62, �` ` PROJECT�OUPIDARY 2016 'u rr FLOOD HAZARD ZONE "X" (NON SHADED), PER FEMA FLOOD INSURANCE \ TREGUMBO I/ BS3W \�� . _ N s1ro2'1a' E _ ~ " RATE MAPS (FIRM) #3720313300J & 37203IJ400J. EFFECTIVE DATE. �' ! S DB 3875/921 - �� 0 1 `0 � ' 6S I8- S 24'20'34" W 39•00' 1 22.48'43' E FUTURE FORCE MAIN00 f 0410312006 9 j' ` / '� - '� N 64'51'04' E a 113.01' M SYMBOL LEGEND: EXISTING IRON (AS NOTED) ® SEWER CLEAN -OUT 0 REBAR SET (RBS) U71LITY POLE ■ EXISTING MONUMENT (AS NOTED) 4 GUY WIRE ANCHOR "�, EXISTING RIGHT-OF-WAY MONUMENT ELECTRIC PEDESTAL EXISTING NCGS MONUMENT (AS NOTED) m ELECTRIC METER WATER METER > LIGHT / UGHT POLE W WATER VALVE TELEPHONE PEDESTAL FIRE HYDRANT MAIL BOX ® SEWER MANHOLE ® WELL 0 SOIL BORING LINETYPE LEGEND: SURv£'i£D LINES (BOUNDARY) LINES FROM RECORD DATA - — — — — — — — - LINES NOT SURVEYED (ADJOINERS) RIGHT-OF-WAY iE3EXX XX XX FENCE (AS NOTED) ABBREVIATIONS. EIP EXISTING IRON PIPE DB DEED BOOK EIR EXISTING IRON ROD MB MAP BOOK MGF MAO NAIL FOUND MC MAP CABINET RBS REBAR SET PG PAGE MON EX. MONUMENT (AS NOTED) BLDG BUILDING ECM EX. CONCRETE MONUMENT [E] EXISTING NCGS N.C. GEODETIC SURVEY EL ELEVATION N/F NOW OR FORMERLY (TYP) TYPICAL EC UPLAND S 65��' 6" - - - - - - , I ' D EMBER 2 F _I S 60'03'47' E 2 2015) S2d 6.37 ACRES _ I 1 94.42' N 83'16'02" 64' _ `� _ NOT DETERMINED - I N 80.1P11' E W 383.46' (DECEMBER 2015) I loons' FUTURE GRAVITY SEWER l ~ f CERTIFICATE OF ACCURACY &MAPPING / L��sN 7025- 1 N 7524' _ _ _ _ . 6157' 81.68' (� ` ~ , I I, THE UNDERSIGNED CERTIFY THAT THIS SURVEY WAS DRAWN UNDER MY SUPERVISION FROM AN ACTUAL SURVEY _ T \ _ l 1 '' — '� ~ MADE UNDER MY SUPERVISION (DEED DESCRIPTION RECORDED IN BOOK 5836 PAGE 1392 ETC.); ���� N 25'49'2� 1 WF XOT WF xos �g�3T41' E j THAT THE BOUNDARIES NOT SURVEYED ARE CLEARLY INDICATED AS DRAWN FROM INFORMATION AS FOUND IN >r � BOOK AS PAGE NOTED WF zoa THAT THE RATIO OF PRECISION, AS CALCULATED, IS 1: 10,000+; THAT WF X09 WFX05 52.58' E THIS PLAT WAS PREPARED IN ACCORDANCE WITH G.S. 47-30 AS AMENDED. WITNESS MY ORIGINAL SIGNATURE, I I I N 74'29'22" E WF X10wF X04 S 13'2523-E -- LICENSE NUMBER AND SEAL THIS DAY OF DECEMBER A.D. 20 16 .-� 77.37' 17.29' �� WF X03 ( _ 1 a,•1 N 4'32'24" E 455 2f;' N 66'48'40" W >�040, PROPOSED 60' UTILITY EASEMENT j 219.23' 4" W 81.58' E 1 ' i �, � S 1'S2'12' S11,79 N 66.48'40' w WF X02 132.33' J ,� \ / f JOSEPH A. ROMEO - PROFESSIONAL LAND SURVEYOR L-4937 404 oWETLANDS S'33141' W s Y r _ 2.62 ACRES i I (NOVEMBER 2016) GRAVITY SEWER 344.s3' // _> I I _ ( — _ _ _ / /r ,� N ss48'4o' w N eororn• W 1 / l _.. �l� f:- FORCE MAIN 258.75' L 1 NOT FOR R. CC<.?IL3G OR CC>Pdvm'YANCE t > ' / -UPLAND- o ' _s - - / / _ / - / (DECEMBER 2015) t f SHEET: - [ _ 0 Z N'n o /4 S _ �, L_ // j I 1 OF 1 I I s5'L_z �� / / / 1 't _ I -- — _ ILom / " DATE OF SURVEY: SCALE: I 1 BLS PROJECT NO: --_ N N M -� ' 1 iry 12 01 16 AS NOTED p m �' DRAWN: CHECKED: �,� �� , 15-1054 ;ZEI S 86'50'34" E / / �" W 1 OF TRIBUTARY z \ / i JAR BLS — 19.78' _ / I (MAPPED DECEMBER, 2015) / f REVISIONS NO. I DATE DESCRIPTION BY T ___ ; _ _ / / _ 1 _ -,tea /1 % - _W_ BASE LINE SURVEY, PLLC �-4 - N 4'35'24" E / 1 N 69'39'36" W I 1 / ~/ I f j ( j i I I 75.00' - 187.53' \ I / � � � / ~ � C � � V I 1i_.J_._,f f I i jl 1399.91' 1 1 1��1- / �� ,� �� %� l �� LICENSE P-1091 MANASSAS DRIVE L — I N 85'18'56" W / W S l6'51'23 —'DRIVE T T / ' \ T--- 13e.ss' ��--- ,. SON T .� PO Box 15966, Wilmington, NC 28408 �i` T T T T —1 1 _ N 63'48'32' W / _ ." \ \ 1� cONGL�N �I' 1 1 , �\ �J / / sI 2017 _ N 20'2024 E \ �— ��•, �__ (910) 338-1880 www.baselinesurveync.ciom 159.23\ 1 119.58' I-- I— �7o "HEGLAR TRACT" OWNER (N/F)' HOOSIER DADDY, LLC L-� Lei--- PARCEL ID: R07600-004-052-000 (DB 5836\1392) /� T" FEDERAL TOWNSHIP NEW HANOVER COUNTY NORTH CAROLINA 0 404 WETLANDS LOCATI N MAP LOCATION MAP NOT TO SCALE 'LANNED EROSION AND SEDIMENT CONTROL PRACTICES - CE 1. TEMPORARY GRAVEL CONSTRUCTION ENTRANCE Practice 6.06 SHALL BE INSTALLED AT THE ENTRANCES TO THE PROJECT FROM AN EXISTING ROADWAY. DRAINAGE SHOULD BE AWAY FROM THE ROAD AND EROSION WILL BE CONTROLLED WITH DOWNSTREAM PRACTICES DURING WET WEATHER IT MAY BE NECESSARY TO WASH TRUCK 71RES AT THESE LOCATIONS 2. LAND GRADING Practice 6.02 GRADING SHOULD BE LIMITED TO AREAS AS SHOWN ON THE PLANS CUT AND FILL SLOPES SHALL BE 3:1 OR FLITTER EXCEPT WHERE SPECIFICALLY INDICATED. CARE SHALL BE TAKEN DURING LAND GRADING ACTIVITIES NOT TO DAMAGE EXISTING TREES THAT ARE IDENTIFIED AS 'TO BE PRESERVED'. SF< J. SEDIMENT FENCE Practice 6.62 SEDIMENT FENCING SHOULD BE INSTALLED AS SHOWN ON THE PLAN, TO DELINEATE AND PROTECT WETLANDS AND SPECIFIED AREAS, AND AROUND ANY TEMPORARY STOCKPILE AREAS AS NECESSARY TO PREVENT ANY GRADED INTERIOR AREAS FROM ERODING ONTO ADJACENT LANDS OR ROADWAY, OR INTO INLETS OR AS DIRECTED BY ENGINEER OR NEW HANOVER COUNTY EROSION CONTROL PERSONNEL. G C 4. GRASS -LINED CHANNELS PRACTICE 6.30 ALL OVERFLOW SWALES TO BE GRADED TO DESIGN CONFIGURATION,LINED WITH CENTIPEDE SOD, TO COLLECT AND CONVEY SIZE WATER AS SHOWN ON PLAN. AFTER FINAL PROJECT STABILIZATION, SWALES TO BE RE -GRADED, CLEANED OF SILTATION AND LINED WITH CENTIPEDE SOD TO ESTABLISH ORIGINAL DESIGN CONTOURS FOR STORMWAM? CONVEYANCE. 5. CONSTRUCTION ROAD STABILIZATION PRACTICE 6.80 UPON REACHING FINAL GRADE AND AFTER UTILITIES HAVE BEEN INSTALLED, ROADWAYIPARKING AREAS ARE TO BE STABILIZED BY PLACING SUB -BASE AS SHOWN IN THE TYPICAL STREET CROSS-SECTION DETAIL ON THE PLAN, TO REDUCE EROSION AND DUST DURING THE REMAINDER OF BUILDING CONSTRUCTION. S B 6. SEDIMENT BASIN PRACTICE 6.61 114E SEDIMENT BASIN IS TO BE CONSTRUCTED FIRST (SEE CONSTRUCTION SCHEDULE) AND IS THE PRIMARY PRAC710E TO PREVENT SEDIMENT FROM LEAVING THE SITE. DETAILED DESIGN AND SPILLWAY CONFIGURA71ONS ARE SPECIFIED IN THE DETAIL SHEET. SK 7. SKIMMER PRACTICE 6.64 A SEDIMENTATION BASIN DEWATERING CONTROL DEVICE THAT W7HDRAWS WATER FROM THE BASINS WATER SURFACE, THUS REMOVING THE HIGHEST QUALITY WATER FOR DELIVERY TO THE UNCONTROLLED ENVIRONMENT. TD 8. TEMPORARY DIVERSIONS PRAC77CE 6.20 A TEMPORARY RIDGE OR EXCAVATED CHANNEL OR COMBINATION RIDGE AND CHANNEL CONSTRUCTED ACROSS SLOPING LAND ON A PRE- DETERMINED GRADE TO PROTECT WORK AREAS FROM UPSLOPE RUNOFF AND TO DIVERT SEDIMENT -LADEN WATER TO APPROPRIATE TRAPS OR STABLE OUTLETS. B F 9. BAFFLE PRACTICE 6.65 A POROUR BARRIER INSTALLED INSIDE A TEMPORARY SEDIMENT TRAP, SKIMMER BASIN OR SEDIMENT BASIN TO REDUCE THE VELOCITY AND TURBULENCE OF WATER FLOWING THROUGH THE MEASURE AND TO FACILITATE THE SETTLING OF SEDIMENT FROM WATER BEFORE DISCHARGE. OP 10. OUTLET STABILIZATION PRACTICE 6.41 RIPRAP APRONS WILL BE LOCATED AT THE DOWNSTREAM END OF ALL DISCHARGE PIPES TO PREVENT SCOUR. TP 11. TREE PROTECTION PRACTICE 6.05 RESTRICT ACCESS TO TPZ WITH TALL BRIGHT PR07ECIIW FENCING ON AREAS INDICATED ON PLAN. S1TE DATA: PROJECT AREA 6,028,954 SF or 138.41 AC.f SOIL TYPE(S) 547,760 SF (12.57 AC) = Kr 976,537 SF 22.41 AC) = PM 397,719 SF (9.13 AC) = LY 169,418 SF (3.88 AC) = LE Z392 SF (0.05 AC) = MU FOR LOTS 1-51 ROADS 61,197 SF SIDEWALKS 8, 733 SF PUMPSTA71ON 4,716 SF BUILDINGS 178,500 SF NO IMPERVIOUS PLANNED FOR THIS PHASE OF GRADING FOR LOTS 52-95 SQUARE FOOTAGE OF DISTURBANCE 767,410 SF ASSOCIATED WITH COMMERCIAL 1,375,868 SF ASSOCIATED W17H SINGLE FAMILY LOTS 2,143,278 SF TOTAL LEGEND I - - - � EXISTING BOUNDARY ' ' ' NO WETLANDS DETERMINATION EXISTING CULVERT `CE 7; 7 CONSTRUCTION ENTRANCE sSF X X SILT FENCE PROPOSED CULVERT �(3F7Z)-I]------► TEMPORARY DIVERSION 1. SOIL STABILIZATION TIMETRAMES SITE AREA DESCRIPTION STABILIZATION TWEFRAME EXCEP77ONS PERIMETER DIKES,SWALES 7 DAYS NONE DITCHES AND SLOPES HIGH QUALITY ZONES(HOW) 7 DAYS NONE SLOPES STEEPER THAN 3:1 7 DAYS IF SLOPES ARE 10 FT OR LESS IN L64GTH AND ARE ARE NOT STEEPER THAN 2: 1, 14 DAYS ARE ALLOWED SLOPES 3:1 OR FLITTER 14 DAYS 7 DAYS FOR SLOPES GREATER THAN 50 FT IN LENGTH ALL OTHER AREAS WITH SLOPES 1 14 DAYS I NONE, EXCEPT FOR PERIMETER AND FLATTER THAN 4.1 1 HQW ZONES 2 DENUDED AREAS MUST BE STABILIZED WITHIN FIFTEEN (15) WORKING DAYS OF CEASE OF ANY PHASE OF ACTIVITY. ALL SLOPES MUST BE STABILIZED WTHIN TWENTY-ONE (21) CALENDAR DAPS OF CEASE OF ANY PHASE OF ACTIVITY. THIS INCLUDES SLOPES, SWALES, CHANNELS AND STOCKPILES J. THIS PLAN TO BE UTILIZED AND REVIEWED ONLY IN CONJJNC77ON WITH THE WRITTEN NARRATIVE, WHICH IS AN INTEGRAL PART OF THIS EROSION AND SEDIMENT CONTROL PLAN. 4. ALL SLOPES SHALL BE 3:1 OR FLATTER. 5. NO WETLANDS EXIST WITHIN LIMITS OF DISTURBANCE 6. BOUNDARY SURVEY PERFORMED BY SOUTHWIND SURVEYING 7. TOPOGRAPHIC SURVEY PERFORMED BY CAROLINA RESOURCES MAPPING WITH SUPPLEMENTARY TOPOGRAPHIC INFORMA77ON PERFORMED BY BASELINE SURVEYING. 8. ELEVATION DATUM: NAND 88 9. ALL SWALES TO BE LINED W1IH EXCELSIOR MATTING OR EQUAL 10. ALL EXISTING CULVERTS TO BE REMOVED EXCEPT FOR SHl-SH3. 11. LOTS 52-95 WILL ONLY BE FOR ROUGH GRADING. NO FINAL ROAD DESIGN HAS BEEN COMPLETED. ONCE DESIGN IS FINALIZED A REVISION TO THE EROSION CONTROL PERMIT WILL BE SUBMITTED FOR APPROVAL PROPERTY OWNER CERTIFICATION: "I HEREBY CERTIFY THAT AM THE CURRENT OWNER OF THE PROPERTY AND THAT UPON RECEIPT OF "AUTHORIZATION -TO-CONSTRUCT"ANY CLEARING, GRADING, CONSTRUCTION OR DEVELOPMENT, WILL BE PERFORMED IN ACCORDANCE WITH THIS PLAN AND THAT THE APPLICABLE ORDINANCES AND RULES OF NEW HANOVER COUNTY, THE STATE OF NORTH CAROLINA AND THE FEDERAL GOVERNMENT AND ITS AGENCIES WHICH ARE HEREBY MADE PART OF THIS PLAN. AS THE OWNER, I ACCEPT FULL RESPONSIBILITY FOR THE CONSTRUCTION AND OPERATION AND MAINTENANCE OF THE PROPOSED FACILITIES. I WILL NOT ATTEMPT TO TRANSFER THIS RESPONSIBILITY WITHOUT THE WRITTEN AUTHORIZATION OFF NEW HANOVER COUNTY. SIGNATURE: (`" PRINTED NAME AND TITLE: af�h 63 L 7a n0 7132L m P4�4,rs J� DATE: DESIGNER'S PLAN CERTIFICATION: "I HEREBY CERTIFY THAT THIS PLAN HAS BEEN PREPARED IN ACCORDANCE WITH THE LATEST NEW HANOVER COUNTY ORDINANCES AND STORMWATER DESIGN MANUAL." SIGNATURE: l PRINTED NAME AND TITLE: LA),9 I F_`P,f0i k r-",�57 DATE: Z Z3 REGISTRATION NUMBER: 1205-92.) CONS77?UC7ION SCHEDULE - 1. OBTAIN APPROVAL OF PLAN AND ANY NECESSARY PERMITS, AND HOLD A PRE-CONSIRUC110N CONFERENCE PRIOR TO COMMENCING ANY WORK. 2 FLAG WORK LIMITS AND STAKE -OUT ROW, TEMPORARY DIVERSIONS AND SED. BASINS FOR PRELIMINARY GRADING. J. INSTALL GRAVEL CONSTRUCTION ENTRANCES. 4. INSTALL SILT FENCING PRIOR TO ROUGH GRADING THE REMAINING 91E AND ANY STOCKPILING OF MATERIAL AND TOPSOIL NECESSARY. 5. CONSTRUCT SWALES, GRASS LINED CHANNELS, SEDIMENT BASINS AND ANY OTHER SEDIMENT CONTROL PRACTICES SHOWN, PRIOR TO ROUGH GRADING ROADWAYS AND SITE, STOCKPILING TOPSOIL AS NECESSARY. 6. UNDER CUT ROW FOR SWEETGUM DRIVE AND CANOPY WAY SO LOTS WILL DRAIN TO ROW AND SWALES Z ESTABLISH ROUGH ROAD GRADES AND STABILIZE ROAD WITH TEMPORARY OR PERMANENT SEEDING 8. ALL EROSION AND SEDIMENT CONTROL PRACTICES ARE TO BE INSPECTED WEEKLY AND AFTER ANY RAINFALL, AND REPAIRED AS NECESSARY. 9. SUBMITTAL AND APPROVAL OF A FINAL DESIGN PLAN IS REQUIRED BEFORE ANY IMPERVIOUS MATERIAL CAN BE INSTALLED. MAINTENANCE PLAN - 1. ALL MEASURES TO BE INSPECTED WEEKLY AND AFTER ANY RAINFALL EVENT AND NEEDED REPAIRS MADE IMMEDIATELYY, 2. SEDIMENT TO BE REMOVED FROM SWALES WHEN THEY ARE APPROXIMATELY 5OX FILLED OR SEDIMENT LEVEL IS WITH I' OF TOP OF DITCH BANK. J. SEDIMENT TO BE REMOVED FROM BEHIND ANY SILT FENCE AND INLET PROTECTION DEVICES WHEN IT BECOMES 0.5' DEEP. FENCING AND INLET PROTECTION TO BE REPAIRED AS NEEDED TO MAINTAIN A BARRIER. 4. AS NVSEEDED ARY ACCORD N G TO FERTILIZED, CI� 1I� MULCHED DED,RE-SEEDED MAINTAIN A SUITABLE VEGETAAVE COVER. 5. CONSTRUCTION ENTRANCE TO BE MAINTAINED IN SUCH A MANNER AS TO PREVENT MUD OR SEDIMENT FROM LEAVING THE CONSTRUCTION SITE. PERIODIC TOPDRESSING WITH 2-INCH STONE MAY BE REQUIRED. INSPECT AFTER EACH RAINFALL AND IMMEDIATELY REMOVE ALL OBJECTIONABLE MATERIALS SPILLED, WASHED, OR TRACKED ONTO PUBLIC ROADWAYS. 6. INSPECT SKIMMER SEDIMENT BASINS AT LEAST WEEKLY AND AFTER EACH SIGNIFICANT (ONE-HALF INCH OR GREATER RAINFALL EVENT AND REPAIR IMMEDIATELY. REMOVE SEDIMENT AND RESTORE THE BASIN TO ITS ORIGINAL DIMENSIONS WHEN SEDIMENT ACCUMULATES TO ONE-HALF THE HEIGHT OF THE FIRST BAFFLE. PULL THE SKIMMER TO ONE SIDE SO THAT THE SEDIMENT UNDERNEATH IT CAN BE EXCAVATED. EXCAVATE THE SEDIMENT FROM THE ENTIRE BASIN, NOT JUST AROUND THE SKIMMER OR THE FIRST CELL MAKE SURE VEGETATION GROWING IN THE BOTTOM OF THE BASIN DOES NOT HOLD DOWN THE SKIMMER. SEDIMENT TO BE REMOVED FROM SEDIMENT BASINS WHEN A MINIMUM OF 5OX OF VOLUME HAS BEEN FILLED. REFER TO CHART FOR BASIN DEPTHS. 7. IF SKIMMER IS CLOGGED WITH TRASH AND THERE IS WATER IN THE BASIN, USUALLY JERKING ON THE ROPE WILL MAKE THE SKIMMER BOB UP AND DOWN AND DISLODGE THE DEBRIS AND RESTORE FLOW. IF THIS DOES NOT WORK, PULL THE SKIMMER OVER TO THE SIDE OF BASIN AND REMOVE THE DEBRIS. ALSO CHECK THE ORIFICE INSIDE THE SKIMMER TO SEE IF IT IS CLOGGED. IF SO REMOVE THE DEBRIS 8. REMOVE SEDIMENT FROM BEHIND BAFFLES ONCE ACCUMULATION HAS REACHED 112 HEIGHT OF THE FIRST BAFFLE. REPLACE BAFFLE PROMPTLY IF FHEY COLLAPSE DECOMPOSE OR BECOME INEFFECTIVE 9. REFER TO NC LQS 'EROSION AND SEDIMENT CONTROL PLANNING AND DESIGN MANUAL' FOR ADDITIONAL MAINTENANCE REQUIREMENTS FOR EACH EROSION CONTROL DEVICE. Vi_GETATIW PLAN - I. PERMANENT VEGETATION TO BE ESTABLISHED IN ACCORDANCE WITH NORTH CAROLINA EROSION AND SEDIMENT CONTROL PLANNING AND DESIGN MANUAL' SECTION 6.11, LATEST VERSION. DRIPLINE PROTECTIV BARRIEF TREE 3' MIN. STAKE -HEIGHT ABOVE GRADE NOTE: TREES TO BE SAVED WILL BE CLEARLY MARKED PRIOR TO CONSTRUCTION AND A PROTECTIVE BARRIER IS TO BE INSTALLED AT THE DRIPLINE. DRIP LINE - THE AREA OF SOIL DIRECTLY BENEATH THE TREE EXTENDING OUT TO THE TIPS OF THE OUTERMOST BRANCHES. SD 15-08 NOT TO SCALE APPROVED Py3ppu'ARO!INA ENVIRONME I►MAGEMENi COMMISSION 6W3 al�c� I� k MAP LICENSE j C-2710 COASTAL SITE DESIGN, PC ENGINEERING LAND PLANNING COMMERCIAL / RESIDENTIAL P.O. Box 4041 Wilmington, NC 28406 (910) 791-4441 rn U O J � J C() p N C, pZZ � cr �O I L,J~Z Q O G�� I I O W O ?�-kEsS/0 CL SEA*1 r � i Q N � � � 3 3 co Y Q W z g t�J CC O Z a .- w DATE: 12-17-15 HORZ. SCALE., 1" = 200' VERT. SCALE: N/A DRA WN B Y.- RL W CHECKED B Y.• HSR PROJECT NO.: 06- 0134 00 50 0 100 200 300 EC 1 EC9 Sheet No. Of SCALE IN FEET: 1"= 100' INSTALL JJ7E MATTING FOR BANK STABILIZATION INV. EL = I & F.E.S. W/ 2 CY CL 11 RIP RAP INSTALL F.E.S. IN SIDE SLOPE OF CREEK BANK DO NOT DISTURB ANY PART OF THE FLOW LINE IN BASE OF EXISTING CREEK BED DITCH CHANNEL PROTECTION ISN'T REQUIRED FOR 7HE EROSION CONTROL PERMIT. LOCATIONS WHERE THIS DETAIL IS REFERENCED WILL BE INSTALLED AT 7HE DEVELOPERS DISCRE710N. FLOW LINE IE = 18.3- PIPE IE = 17.3 7 CY CLASS 11 RIP RAP CULVERT 1- (2) - 85 LF 54' RCP'S FLOW LINE IE = 18.0 PIPE IE = 1 ZO 10 CY CLASS II RIP RAP NOT TO SCALE 50 25 0 50 100 150 SCALE IN FEET: 1 "= 50' I I Il ♦ � s / ♦ j/ \ ♦ / 20 CY CLASS !! RIP RAP SEE DETAIL THIS SHEET \ 24 CY CLASS 11 RIP RAP ?j � ,.,:. � � � /. � SWALE 1 `�` ♦ ♦ �Nw_, I 17 CY CUSS it RIP RAP SEE DETAIL THIS SHEET \\ \ IE = 20.5 1 \ ` 2 CY CLASS 11 RIP RAP N o CULVERT 5 O 20 LF 18' RCP J _♦ / 1E 20.4 -2 CY CLASS 11 RIP RAP�- D72 I ' EX. CULVERT TO BE REMOVED SWALE 8 i / \ 46 ' ' O _ FLUME 4 O O IE IN ,= 23.04 48 fit IE OUT = 225 24 2 CY CL 11 RIP RAP O 19 � 50 if (D 23 CA � ♦ WqY 24 CY CLASS II RIP RAP / FrpR/Vq Raw I I r SEE DETAIL THIS SHEET ° UME 3 21 0 -EX CULWR7�IE = 2 O BE REMOVED I I I I I /"'�, IE OUT = 21.6 I 20 FT 2 CY CL 11 RIP RAP I I ' FLUME 5 I Qq 17 IE IN = 22.6 '((t1111 D.E. 120 FT 36 IE OUT = 22-1 I I I 40 �2 CY CL limp RAP I/ O o D.E. 8 20 1h I ''I fT SWALE 3/ / I G _ I I DIf . 33> I SEEEC�AIL 7HIISPSH� I I 32 _.� O SWALE 5 O I 16 I I; (� ! 20 CY CLASS II RIP RAP f I �j SEE DETAIL THIS SHEET SWALE _ x�' o 22 •l Y CLASS 11 RIP RAP TAIL THIS SHEET I ! I. i — I fill FLUME 2 '! lE IN = (22.69: IE OUT = 2219 fi � �:,.� 2 IP RAP �_ ��% � ' 2 CY CL II RIP RAP; / 1 ij B SHEET i I x 1i \ II I 26 CY CL 11 RIP RAP 28 SEE DETAIL THIS SHEET' I ° 25s I / r 10CYCLIIRIP RAP ; III, ,Ii SWALE 4 ` SEE DETAIL 1HIS SHEET / s SWALE 8 O000,00 1' O 1 ftif ii D.E. 1 I �' i FLUME 1 1 I x'' I'' I t ; %•' it IE IN = 22.78 1 OUT 22.28 °� GUM DRIVE G�� t 2 CY II R AP % S E� � V' W �� Pit;! If , FT DIVA �, 1 s 1 f 45 if „ M X - INST/'' !' 1 1 CE OR BANK STABILI 77 INSTALL/�Cl1E MATTING I - -----�----- -------------- -- ........-.-..-.-. ------ --------------- S FOR BANK STABILIZA710k O -- " �: -� = = _ 1 =^" = = 3 1 .- 1 t77�\�, v 52 �� A� } - - - - - - - - - ...... - - j S "` - - \� -'" \ FLOW LINE IE = 19.0 '"^ , PIPE IE = 18.0 6 CY CLASS II RIP RAP CULVERT 2 (2) - 85 LF 54' RCP'S BURIED 1 FT FLOW LINE IE = 18.7 PIPE IE - 17.7 10 CY CLASS u RIP RAP- - LICENSE # C-2710 COASTAL SITE DESIGN,PC ENGINEERING LAND PLANNING COMMERCIAL / RESIDENTIAL P.O. Box 4041 Wilmington, NC 28406 (970) 791-4441 oi 2: a SEAL 025483 � � m cn Q Zi w 3 � �m z ul o O Z N >' W ct DATE.- 12-77-75 HORZ. SCALE. 1" = 100' VERT. SCALE N/A DRA WN B Y.• RL W CHECKED B Y.• HSR PROJECT NO.: 06-0134 Sheet No.EC5o, EC9 tz C6 IV TOp OF BERM EL = 23.0 \20 CY CLASS II RIP RAP 3:1 SIDESLOPES SEE DETAIL SHEET EC5 10 FT R,?o 0 10:1 SIDESLOPES oo, . 157.5 FT � 31 SIDESLoPES BORING B9 • ECS REPORT DATED 8-13-15 EX GROUND ELEV = 23.5 n+WT DEPTH = 42.0' WT ELEV. = 20.0 BASIN BOTTOM = 14.0 EMERGENCY SPILLWAY EL = 22.0 33 CY CL 11 RIPRAP 1.5 FT DEEP PLACE NONWOVEN GEOTECH FILTER FABRIC UNDER RIPRAP SEE DETAIL (THIS SHEET) _--OUTLET STRUCTURE 10 CY a B RIPRAP 1.5 FT DEEP PLACE NONWOVEN GE07ECH FILTER FABRIC UNDER RIPRAP SEE DETAIL (THIS SHEET) NOTES,• 1. TEMPORARY SKIMMER TO BE INSTALLED ON PRIMARY OUTLET STRUCTURE BOX AND TO REMAIN IN PLACE UNTIL SITE IS PERMANENTLY STABILIZED PER NCDENR/LQS SEDIMENTATION AND EROSION CONTROL PERMIT. SEE SKIMMER DETAILS FOR INSTALLATION. 2 GRADE WILL BE 20.1 ONLY IN FRONT OF OUTLET BOX. REMAINING SHELF SHOULD BE 10.1. PP IS THE CENTER OF THE 10.1 SHELF. J. RIP RAP TO BE PLACED AROUND 774E PERIMETER OF OUTLET BOXES 4. (3) 4 FT x 4 FT PRECAST CONCRETE BOXES OR EQUIVALENT HAND -BUILT. 5. SKIMMER = 8.0' SKIMMER WITH 26' ORIFICE DIAMETER. TOP OF BOX AT GRP� for 8" PVC SCREW PLUG EL= 20.8 F ABR�CI'�� 8' ORIFICE ASSEMBLY 4" 6.0 FT WEIR (2 FT EA x 3) 4' EL= 20.3 8" CROSS SKIMMER SKIMMER CONNECTION TO BE CAPPED ONCE SKIMMER IS REMOVED � � WSEL = 19.5 INV = 19.5 INV= 19.0 12' 2 FT SUMP S B FOR CLEANOUT 12' 1 / 8' CAP TO REMAIN UN71L SKIMMER IS REMOVED. THEN DRILL 3.5' HOLE IN CAP POND BOTTOM ELEV= 14 TEMPORARY POOL ELEVATION = 20.3' SURFACE AREA 0 ELEV. 20.3 = 50,696 -V STORAGE 0 ELEV. 20.3 = 38,906 CF WET BASIN 1 1" = 20' 3 1� a 8 RIP RAP W/ GEOTEX NONCIvEN ALTER FABRIC (TO SURROUND ENTIRE 24' HOPE OUTLET STRUCTURE) OUTLET PIPE I i SECTION VIEW WET BASIN 1 OUTLET STRUCTURE DETAILS ^I, , T TO SCALE FOREBAY APRON 150 CY CL 11 RIP RAP SEE DETAIL THIS SHEET 30 'Y �SHEETEC5 SEE AIL FOREBAY BOTTOM = 1$.0 26 CY CL 11 RIP RAP SEE DETAIL SHEET EC5 i TOP OF BERM EL _ 23.0 - 1 1 1 1 10 CY CL 11 RIP RAP SEE DETAIL SHEET EC5 1 1 1 1 20 10 0 20 40 60 SCALE IN FEET: 1 "= 20' FABRICATED GRATE TOP BARS, cei UANIZED, OR ALENT ALL SLOPES 3:1 MAXIMUM (TYPICAL AT ALL STORM OUTFALLS TO POND) VARIES 16.5' FOREBAY VOLUME OF REQUIRED WSEL = 19.5 STORAGE, TYPICAL � � oOP RIP RAP 1.5 min. 31min. BOTTOM = 14 DITCH 0 1 OUTLET NON WOVEN FILTER FABRIC UNDER RIP RV PR07EC71ON o AS ON PLANS EOREBAY SECTION DE TA I L NOT TO SCALE WETLANDS PLANTINGS: THE FOLLOWING SPECIES OF WE7IANDS VEGETATION ARE SUITABLE FOR PLANTING ALONG THE 10:1 VEGETATED SHELF - PLANTS SUITED FOR SHELF THAT'S UNDERWATER - SAGITTARIA LANCIFOLIA (BULL TONGUE) - SAGITTARIA LA71FOIJA (DUCK POTATO) - SAURURUS CERNUUS (LIZARDTAIL) PLANTS SUITED FOR SHELF THAT'S ABOVE WATER - ASCLEPIAS INCARNATA (SWAMP MILKWEED) - CAREX TENERA (QUILL SEDGE) - CHELONE GLABRA (WHITE TURTLEHEAD) SF OF 10.1 SHELF UNDER WATER = 3,573 SF / 200 = 17.9 X 50 = 895 PLANTS REQUIRED 895 / 3 = 298 PLANTS OF EACH OF THE THREE LISTED ABOVE MUST BE PLANTED SF OF 10.1 SHELF ABOVE WATER = 3,730 SF / 200 = 18.7 X 50 = 935 PLANTS REQUIRED 935 / 3 = 312 PLANTS OF EACH OF THE THREE LISTED ABOVE MUST BE PLANTED IF ONE OR MORE OF THE SUGGESTED SPECIES IS UNAVAILABLE, APPROPRIATE WETLANDS VEGETATION COMMON TO THE COASTAL NORTH CAROLINA REGION MAY BE SUBSTITUTED. SEE CH 9 OF STATE STORMWATER BMP MANUAL FOR UST OF OTHER RECOMMENDED WETLANDS PLANTS N07E& 1. ALL BUILDING ROOF DRAINS MUST BE DIRECTED INTO THE STORM WATER SWALES INTO THE S7REET/PARKING LOT. 2. PORTABLE PUMP TO BE USED TO DRAIN POND IN CASE OF EMERGENCY. PUMP TO BE PLACED ON TOP OF BERM WITH SCREEN ATTACHED TO HOSE INLET AND COVERED WITH STONE. HOSE OUTLET TO DRAIN ACROSS STABLE UPLAND AREA SUFFICIENT TO RESTRAIN EROSION. 3. POND SIDESLOPES TO BE PERMANENTLY VEGETATIVELY STABILIZED, 4. BASIN TO BE RECORDED IN A DRAINAGE EASEMENT. C 0 6' 46.0 FT TOP OF EMBANKMENT ELEVA710N = 23.0 CLASS 11 RIPRAP 1.5 FT DEEP `NON WOVEN FILTER FABRIC EMERGENCY SPILL WA Y FRONT VIEW - BASIN 1 NOT TO SCALE I .�i 1 i► ��I 4-0' 4-0" SEE DETAIL o THIS SHEET FOR TRASH RACK 2 FT WEIR CUT 2 FT WEIR 8' ORIFICE ASSEMBLY CL 8' CAP W/3.5' HOIf_ \� °D iu-rnrn CAnnlnA=n mA- 6' 4-0' FT WEIR CUT KNOCK OUT INTERIOR WALLS TO ELEV. 19.0 SO THAT BOXES FUNCTION AS ONE STRUCTURE (ALL SEAMS TO BE GROUTED) BOX PLAN VIEW WET BASIN 1 OUTLET STRUCTURE DETAILS NOT TO SCALE NOTE COLLAR TO BE POURED AFTER 6' PIPES ARE IN PLACE, REINFORCING AS NECESSARY. • 5'. - d s. MIN WET BASIN ANTI -SEEP COLLAR NOT TO SCALE VARIES I0' 6' 3 16' EMBANKMENT TOP= 23.0 (SETTLED), = 23.25 (CONSTRUCTED) EMERGENCY SPILLWAY = 22.0 �Q TOP OF GRA 7E = 20.8 STATE STORAGE WEIR CUT = 20.3 STATE STORAGE = 38 906 CF NORMAL WSEL= 19.5 (MIDDLE OF 10.1 SHELF) 'K7 (3) 28 " 24 HDPE OM OF 10.1 SHELF EL= 19.0 -SEEP COLLAR, BOTTOM a= 17.4 TOM SWM STRUCTURE a= 15.5MENT X_�- - IE- 19.0B07 CLEANOUT EL = 15.0aNn-sEEP COLLAR, = 14.0 SEE DETAIL i 7�/���//% 10' 5' WIDE V t 10:1 SHELF, « 'W VARIES 25' EMBANKMENT SECTION NOT TO SCALE LICENSE # C-2710 COASTAL SITE DESIGN,pc ENGINEERING LAND PLANNING COMMERCIAL / RESIDENTIAL P.O. Box 4041 Wilmington, NC 28406 (910) 791- 4441 T vt z 2 cl-- � Q z� 3 O� �O zz U) O J C Q ` W O O W 0 � m(Clz c) Li � O oz cn Q Oz U O J � J 00 � N U O O � 7QD O orn F- �~z � L N O C) O ct w �O CRO'/ t2� 5463 `'u of N � Q N � � 3 3 3 %- m N Y ct� o J m o a S O z N W DA TE.• 12-17-15 HORZ. SCALE: 1" = 20' VERT. SCALE: N/A DRA WN B Y.• RL W CHECKED B Y.• HSR PROJECT NO.: 06-0134 Sheet No. EC60f EC9 COIR FIBER BAFFLE MATERIAL PROPERTY REQUIREMENTS MATERIAL 100% COCONUT FIBER THICKNESS 0.30 IN MIN. TENSILE STRENGTH (WET) 900 X 680 LB/FT MIN ELONGATION (WET) 69% X 34% MAX FLOW VELOCITY 10-12 FT/SEC WEIGHT 20 oz/SY (680 G/1/"2) MIN MINIMUM WIDTH 6.5 FT OPEN AREA 50% MAX STEEL POST EARTHEN EMBANKMENT OUTLET, CLASS ll STEEL POST SHOULD BE APPROX 1-3/8' WIDE MEASURED PARALLEL TO FENCE AND HAVE A MIN. WEIGHT OF 1.25 LB/LINEAR FT AND BE EQUIPPED WITH AN ANCHOR PLATE WiTH MINIMUM AREA OF 14.0 IN^2. STEEL POST SHOULD BE INSTALLED AT MAX. 4 FT SPACING AND DRIVEN INTO GROUND MIN. OF 2 FT. INLET ZONE 25% OF SURFACE AREA BAFFLE (TYPICAL) FIRST CHAMBER 25% OF SURFACE AREA SECOND CHAMBER 25% OF SURFACE AREA OUTLET ZONE 25% OF SURFACE AREA BF. TEMPORARY BAFFLES Practice 6.65 NOT TO SCALE M= 3 VARIES n= 0.03 _ r 3 LINED WITH REINFORCING MATTING AND SEED PER SPECIFICAAONS OR SOD. SWALES 1-7 3: 1 GRASSED CHANNEL N. T. S WATER LEVEL 8.5" END VIEW BASIN ORIFICE SIZED DRILLED IN CAP 1 2.6" 2 3.0 " 3 1 2.4" 4 2.0" sK CUSTOM SKIMMER DETAIL Practice 6.64 NOT TO SCALE - BAFFLES TO BE INSTALLED PER TEMPORARY BAFFLES DETAIL TOP OF EMBANKMENT EL INSTALL POLE WITH CLEAN OUT DEPTH MARKED. CANNOT BE TOP OF POLE BOTTOM EL EMERGENCY SPILLWAY EL 4 FT CLASS B STONE (4' X 4' X 1' MIN) TEMPORARY SEDIMENT BASIN SUMMARY IMMER SEE DETAIL THIS SHEET) 1 FT 2' 14.0' 3 18" 1 L_' 1= 1r 3 117 b = 5' SEE EROSION CONTROL CALCULATIONS FOR TD VELOCITY CALCULATIONS. TEMPORARY DIVERSION DETAIL Practice 6.20 NOT TO SCALE 8" HDPE CAP wl VENT HOLES 1/2" WOODEN DOWEL (RETAINING FLOAT) 2" REPURPOSED STYROFOAM FLOAT /8" SINGLE WALL CORRIGATED HDPE HDPE TEE 8" HDPE CAP (SEE CHART FOR ORIFICE SIZE OF HOLED DRILLED IN CAP) FRONT VIEW HDPE TOP OF BERM FLEXIBLE RUBBER COUPLING PLAN VIEW SEE DENR STANDARDS & SPECS. FOR COMPLETE DESIGN CRITERIA & MAINTENANCE AREA ELEVATIONS VOLUME SKIMMER CLEANOUT DEPTH (FT) FROM 607OU SEDIMENT BASIN J SURFACE AREA (SF) TOP OF EMERGENCY BASIN OUTFALL BERM SPILLWAY BOTTOM INV EL REQUIRED PROVIDED (CF) (CF) PIPE ORIFICE SIZE RADIUS *1 45,405 23 22.0 19.5 18.8 27,666 38,906 8.0 2.6 1.0 2 24,759 25 24 21.5 21.4 33,048 55,428 8.0 3.0 1.0 3 16,695 26 25 225 22.4 16,344 34,520 8.0 24 1.0 4 13,162 29 28 26 25.9 6,768 23,718 1 8.0 2.0 1.0 TFALL EL 1 *SEE EC6 FOR BASIN DETAIL AND SKIMMER CONNECTION TO OUTLET BOX. BASIN 1 DOESN'T EMBANKMENT CROSS SEC )lON TEMPORARY SEDIMENT T BASIN N SB EMBANKMENT CROSS SECTION NOT TO SCALE Construction Road Stabilization Specification 16.80 - Construction Specifications 1. Clear roadbed and parking areas of all vegetation, roots and other objectionable material. 2. Ensure that road construction follows the natural contours of the terrain if it is possible. J. Locate parking areas on naturally flat areas if they are available. Keep grades sufficient for drainage but generally not more than 2 to 3% 4. Provide surface drainage, and divert excess runoff to stable areas by using water bars or turnouts (References: Runoff Control Measures). 5. Keep cuts and fills at 2 1 or flatter for safety and stability and to facilitate establishment of vegetation and maintenance. 6. Spread a 6-inch course of 'ABC' crushed stone evenly over the full width of the road and smooth to avoid depressions. 7. Where seepage areas or seasonally wet areas must be crossed, install subsurface drains or geotextile fabric cloth before placing the crushed stone (Practice 6.81, Subsurface Drain). 8. Vegetate all roadside ditches, cuts, fills and other disturbed areas or otherwise appropriately stabilize as soon as grading is complete (References: Surface Stabilization). 9. Provide appropriate sediment control measures to prevent off -site sedimentation. Maintenance Inspect construction roads and parking areas periodically for conditioi of surface. Topdress with new gravel as needed. Check road ditches and other seeded areas for erosion and sedimentation after runoff-produdng rains. Maintain all vegetation in a healthy, vigorous condition. Sediment -producing areas should be treated immediately. CE Temporary Gravel Construction Entrance Exit Specification 16.06 - Construction Specifications 1. Clear the entrance and exit area of all vegetation, roots and other objectionable material and properly grade it. 2. Place the gravel to the specific grade and dimensions shown on the plans and smooth it. J. Provide drainage to carry water to a sediment trap or other suitable outlet. 4. Use geotextie fabrics because they improve stability of the foundation in locations subject to seepage or high water table. Main tenonce Maintain the gravel pad in a condition to prevent mud or sediment from leaving the construction site. This may require periodic topdressing with 2-inch stone. After each rainfall, inspect any structure used to trap sediment and dean it out as necessary. Immediately remove all objectionable materials spillee washed, or tracked onto public roadways / Temporary Seeding Specification J 6.10 - Specifications Complete grading before preparing seedbeds and install all necessary erosion control practices, such as dikes, waterways and basins. Minimize steep slopes because they make seedbed preparation difficult and increase the erosion hazard. If soils become compacted during grading, loosen them to a depth of 6-8 inches using a ripper, harrow, or chisel plow. Seedbed Preparation Good seedbed preparation is essential to successful plant establishment A good seedbed is well -pulverized, loose and uniform. Where hydroseeding meGic;s are used, the surface may be left with a more irregular surface of large cods and stones. Liming - Apply lime according to soil test recommendations. If the pH (acidify) of the soil is not known, an application of ground agricultural limestone at the rate of 1 to 1 1/2 tons/acre on coarse -textured soils and 2-3 tons/ocres on fine -textured soils is usually sufficient Apply limestone uniformly and incorporate into the top 4-6 inches of soil. Soils with a pH of 6 or higher need not be limed. Fertilizer- Base application rates on soil tests. When these are not possible, apply a 10-10-10 grade fertilizer at 700-1,000 Ib.locre. Both fertilizer and lime should be incorporated into the top 4-6 inches of soil. If a hydraulic ,seeder is used, do not mix seed and fertilizer more than 30 minutes before application. Surface roughening- If recent tillage operations have resulted in a loose ;surface, additional roughening may not be required except to break up large clods. If rainfall causes the surface to become sealed or gusted, loosen it just prior to seeding by disking, raking, harrowing, or other suitable methods, Groove or furrow slopes steeper than J.1 on the contour before seeding (Practice 6:03, Surface Roughening). Plant Selection Select an appropriate species or species mixture from Table 6.10a, for seeding in late winter and early spring, Table 6.10b for summer, and Table 6.10c for fall. Seeding Evenly apply seed using a cyclone seeder (broadcast), drill, cultipacker seeder, or hydroseeder. Use seeding rates given in Table 6.10a-6.10c. Broadcast seeding and hyroseeding are appropriate for steep slopes where equipment cannot be driven. Hand broadcasting is not recommended because of the difficulty in achieving a uniform distribution. Small grains should be planted no more than 1 inch deep, and grosses and legumes no more than 1/2 inch. Broadcast seed must be covered by raking or chain dragging, and then lightly firmed with a roller a cultipaclker. Hydroseeded mixtures should include a wood fiber (cellulose) mulch. RU china The use of appropriate mulch will help assure establishment under normal conditions and is essential to seeding success under harsh site condition (Practice 6.14, Mulching). Harsh site conditions include. -seeding in fall for winter cover (wood fiber mulches are not considered adequate for this use), -slopes steeper than 3:1, -excessively hot or dry weather, -adverse soils(shollow, rocky, or high in day or sand), and -areas receiving concentrated flow. If the area to be mulched is subject to concentrated waterflow, as in channels, anchor mulch with netting (Practice 5,14, Mulching). Sediment Fence (ilt F n ) Specification 6.62 - Construction Specifications MATERIALS 1.Use a synthetic filter fabric or a pervious sheet of polypropylene, nylon, polyester, or polyethylene yam, which is certified by the manufacturer or supplier as conforming to the requirements shown in Table 6.62b. Synthetic filter fabric should contain ultraviolet ray inhibitors and stabilizers to provide a minimum of 6 months of expected usable construction life at a temperature range of 0 to 120 F. ZEnsure that posts for sediment fences are 1.33 lb/linear ft steel with a minimum length of 4 ft. Make sure that steel post have projects to facilitate fastening the fabric. 3.For reinforcement of standard strength filter fabric, use wire fence with a minimum 14 gauge and a maximum mesh spacing of 6 inches. Table 6.62b Specifications For Sediment Fence Fabric Physical Property Requirements Filtering Efficiency - 85% (mm) Tensile Strength at Standard Strength- 30 Ib/lin in (min) Extra Strength- 50 Ibllin in (mm) Slurry Flow Rate - 0.3 gal/sq ft/min (min) CONSTRUCTION 1.Construct the sediment barrier of standard strength or extra strength synthetic filter fabrics. 2Ensure that the height of the sediment fence does not exceed 18 inches above the ground surface. (Higher fences may impound volumes of water sufficient to cause failure of the structure.) 3Construct the filter fabric from a continuous roll cut to the length of the barrier to avoid joints. When joints are necessary, securely fasten the filter cloth only at a support post with overlap to the next post. 4.Support standard strength filter fabric by wire mesh fastened securely to the up slope side of the posts using heavy duty wire staples at least 1 inch long, or tie wires. Extend the wire mesh support to the bottom of the trench. 5 When a wire mesh support fence is used, space posts a maximum of 8 ft apart. Support posts should be driven securely into the ground to a minimum of 18 inches. 6.Extra strength filter fabric with 6ft post spacing does not require wire mesh support fence. Staple or wire the filter fabric directly to posts. ZExcovate a trench approximately 4 inches wide and 8 inches deep along the proposed line of posts and upslope from the barrier (figure 6.62a). 8.6ackfill the trench with compacted soil or gravel placed over the liter fabric. 9.Do not attach fli ter fabric to existing trees. Maintenance Inspect sediment fences at least once a week and after each rainfall. Make any required repairs immediately. Should the fabric of a sediment fence collapse, tear, decompose or become ineffective, replace it promptly. Replace burlap every 60 days. Remove sediment deposits as necessary to provide adequate storage volume for th next rain and to reduce pressure on the fence. Take care to avoid undermining the fence during cleanout. Remove all fencing materials and unstable sediment deposits and bring the area to grade and stabilize it after the contributing drainage area has been property stabilized. SK Skimmer Sediment Basin Specification 6.64.7 - Construction Specifications 1. Clear, rub, and strip the ea under a grr►b ti eat of all tation an roog chat Remove all sir cg sal coma�'R inQQ �ijg cflnrnts o rC . m n an sto�i or dispose o i t erl . Haul ob Jo ble ma erial tole ¢esibgnOr at sa area. la t�rhp�rary s (men on a, measures blow Dasi as needed 2 Ensure that fall material for the AmtsnnkmAnt is fr" of r. fe W,,.,,i emu Oro, anic otter, ono tner op tionobie at the fill in i s not b c I.n i anit moo le compact ri . ie embankment inches to al ow err settJement. the basin to the sp fie I dimensions. Prevent t¢e skimming device orpri gettlinq into the �nuk�y xcavgtin a al ow pit qn the skimmer ar providing a low support undere skunr�ier os�one ar timer 4. Place the barrel t ipal 4-inch Schedule 40 pVC �ip) on a firm, smooth foundation of , soil o t use ervoug ���al ch s rid, gravel, or crush q one as bbadk�iParoun� a pi e. Pla ehe file a7enal qeo ' the pipe spi( wge in 4-in a IQyers Z co{� W i under an� a Duna e i e to pt l�dsj UUff same aaensffy as e aaribiic►nen are ust e a en not t ra�$e the p' a frgm the firm c ac w/th its ouf: Jon hrTien compacting un�er the pipe launches. Place a minimum d th of 2 ter t of cols acted backfill over the pi a spillway before crossin if i c truc> ip ant. In no�ase should tl°►e ekment gonduit (�e insialle:Py cueing wren► rough the am after the ernAan is complete. 5. Assemble the skimmer following the manufacturers instructions, or as designed. 6. Lay the a bled skyrim�r on the bolt o the b in wi{� a flex le Joint at of the bard a At flexile ' t the d�ir and os� oIon a skimmer ovror qer excawt pp�ion wort e re a to � thethskCimmmerm a the e for magnttherheance. of thb basin. its w be used 7. en in, undisturbed. sal to gn width, operatio ar n in a trench. the es ma be soured with 8-incfirsf es or p s. 1Eie f- ' ust ¢ Ion to eCt d down the sl rid exi ant s� qr he wiopth o>9 t ric m s be piece, e{ gpih or spliced; gl in water an et ��dderr th�abric. a len th of "theabri is insu Q lent fpr the entire �engt� othe spillway, mu�ti le secf�ons spanninge cornp e e width, �ibe used The per s tion�s� should overlap the lower Fon�s) o water cannot aw under inf i nc. Secure the upper e� an sides of the fabric in a trench with staples or pins. (Adapted from A Manual for Desi�ning, Installing and Mai taining Skimmer Sediment Basins.' February, 1999. J. W. Fairdoth elk Son . 8. 1 lets-Discha ge water into tthe basin in a m nner fp ppr�event erosion. Use �ernparar s�otpe drains or diversions with owlet ro�ection to di{ sad' ent- a en wa err o the upper en of the pool area fo improve basin trap elciency 9. Erosion cant ol- -Construct the structur so that the dist�irbed r is minims eel. �i surface water aria �r bare areas. Oomple e embanzkment be �re th&are , is gl red to Nze a emerg a i�lwa� einn en an all o err istu areas ve a crest o e prin dal spillway immediately after construction (References Surface Stabilzation . 10. After all the s i ent- oduq' areas h vo b�r, an y stabilized remove the suucture Fd oll % unsfabpe sedtme�it. 000 the area to blend with the adjoining areas and stabilize properly References. Surface Stabilization). I spect skimmer sediment basins at least weedy and after each significant (ong-ho(f inch or reater) rainfall event d ax irgmedia ei . R ova seamen[ an restbgre� basip to ifs in bn ion e�i seir►ent accurst later to on hal the hits 0 b ffie. u t er►m t one side so that the �irpent ui► eatth 1 gge a cavoted. ca 1e �he iment from the entire basin,i�st arouthe sCilnmer aref cell. a e sure page o ion growing in e o tom o the basin does not h down e skimmer Fe a skim err is d eel nth tra and then is water 'n the b si , u ally � op�ie r eiowgi� mace the tin bah 4p and down onYc2.4 sand r s ore flow. Ifthis diesnowgnCpull a skimmer 9► to side 7f the qs and rem�vethe debris. so heck the orifice inside the I r o see it i is dogge ' if so ranove the ebris. If the skimmer arm or bard pipe is dogged, the orifice can be removed and the obstruction cleared with a plumber's snake or by flushing with water. Be sure and replace the orifice before repositioning the skimmer. Check the fabric lined spillway for damage and make any required repairs with fabric that spans the full width of the spillway. Check the embankment spillways, and outlet for erosion damage, and inspect the embankment for piping and settlement Make ail necessary repairs immediately. Remove all trash and other debris from the skimmer and pod areas. Freezing weather can result in ice forming in the basin. Some special precautions should be taken in the winter to prevent the skimmer from plugging with ice. Land Gradin Specification 16.02 - Construction Specifications 1.Construct and maintain all erosion and sedimentation control practices and measures in accordance with the approved sedimentation control plan and construction schedule. 2-Remove good topsoil from areas to be graded and filled, and preserve it for use in finishing the grading of all critical areas. 3.Scarify areas to be topsoiled to a minimum depth of 2 inches before placing topsoil (Practice 6.04, Topsoiling). 4.Clear and grub areas to be filled to remove trees, vegetation, roots, or other objectionable material that would affect the planned stability of the fill. 5.Ensure that All material is free of brush, rubbish, rocks logs, stumps building debris, and other materials inappropriate for constructing stable fills. 6.Place all fill in layers not to exceed 9 inches in thickness and compact the layers as required to reduce erosion, slippage, settlement, or other related problems. ZDo not incorporate frozen material or soft, mucky, or highly compressible materials into fill slopes. &Do not place All on a frozen foundation, due to possible subsidence and slippage. 9.Keep diversions and other water conveyance measures free of sediment during all phases of development lallandle seeps or springs encountered during construction in accordance with approved methods (Practice 6.81, Subsurface Drain). 11.Permanently stabilize all graded areas immediately after final grading is completed on each area in the grading plan. Apply temporary stabilization measures on all graded areas when work is to be interrupted or delayed for 30 working days or longer. IZEnsure that topsoil stockpiles, borrow areas, and spoil areas are adequately protected from erosion with temporary and final stabilization measures, including sediment fencing and temporary seeding as necessary. Maintenance Periodically check all graded areas and the supporting erosion and sedimentation control practices, especially after heavy rainfalls. Promptly remove all sediment from diversions and other water -disposal practices. If washouts or breaks occur, repair them immediately. Prompt maintenance of small eroded areas before they become significant gullies is an essential part of an effective erosion and sedimentation control plan. Temporary Seedina (continued Table 6.10o - Temporary Seeding Recommendation for Late Winter and Early Spring Seeding mixture Species- Rye(groin), Annual lespedeza (Kobe in Piedmont and Coastal Plain Rate (Iblacre)- 120 Omit annual lespedezo when duration of temporary cover is not to extend beyond June Seeding dates -Coastal Plain - Dec. 1 - Apr. 15. Soil amendments- Follow recommendations of soil tests or apply 2,000 Iblacre ground agricultural limestone and 750 Ib/acre 10-10-10 fertilizer. Mulch -Apply 4,0001b/acre straw. Anchor straw by tacking with asphalt, netting or a mulch anchoring tool. A disk with blades set nearly straight can be used as a mulch anchoring tool. Maintenance - Refertilize if growth is not fully adequate. Reseed, rerertilize and mulch immediately following erosion or other damage. Table 6.10b - Temporary Seeding Recommendations for Summer Seeding mixture Species -German millet Rate(lb/acre)- 40 Seeding dates-Coostd Plain- Apr. 15-Aug. 15 Soil amendments -Follow recommendations of soil tests or apply ZOOC,Iblacre ground agricultural limestone and 750 Iblacre 10-10-10 fertilizar. Mulch -Apply 4,000 Iblacre straw. Anchor straw by tacking with asphalt netting or a mulch andwing tool. A disk with blades set nearly straight ca, be used as a mulch anchoring tool. Maintenance-Refertilize if growth is not fully adequate. Reseed, referiilize and mulch immediately following erosion or other damage. Table 6.10c - Temporary Seeding Recommendation for Fall Seeding mixture Species-Rye(grain) Rote(lb/acre) - 120 Seeding dates - Coastal Plain and Piedmont -Aug 15 - Dec. 30 Soil amendments - Follow soil tests or apply 2,000 lb./acre ground agriculturei limestone and 1,000 Iblacre 10-10-10 fertilizer. Mulch- Apply 4,000 Iblacre straw. Anchor straw by tacking with asphalt netting, or a mulch anchoring tool. A disk with blades set nearly straight can be used as a mulch anchoring tool. Maintenance- Repair and referNize damaged areas immediately. Topdress with 50 Ib/acre of nitrogen in March, if it is necessary to extend temporary cover beyond June 15, overseed with 50 Ib/acre Kobe (Piedmont and Coastal Plain) OP Outlet Stabilization Structure Specification 16.41 - Construction Specifications 1. Ensure that the subgrode for the filter and riprap follows the requred lines and grades shown in the plan. Compact any fill required in the a grade to the density of the surrounding undisturbed material. Low areas in the subgrode on undisturbed sod may also be filled by increasing the riprop thickness. 2. The riprap and gravel filter must conform to the specified grading limits shown on the plans. J. filter cloth, when used, must meet design requirements and be picperly protected from punching or tearing during installation, Repair any damage by removing the riprap and placing another piece of filter cloth over the damaged area. A# connecting joints should overlap a minimum cf I ft. if the damage is extensive, replace the entire Eater cloth. 4. Rprap may be placed by equipment, but take care to avoid damaging the filter. 5. The minimum thickness of the riprap should be 1.5 times the maxmum stone diameter. 6. Riprap may be field stone or rough quarry stone. It should be ho-d, angular, highly weather -resistant and well graded. 6. Construct the apron on zero grade with no overfall at the and. Make the top of the riprap at the downstream end level with the receiving area or slightly below it. 8. Ensure that the apron is property aligned with the receiving stream and preferably straight throughout its length. if a curve is needed to fit site conditions place it in the upper section of the apron. 9. Immediately after construction, stabilize all disturbed areas with vegetation (Practice 6.10, Temporary Seeding, and 6.11, Permanent Seeding). Maintenance Inspect riprap outlet structures after heavy rains to see if any erosion around or below the riprap has taken place or if stones have been dislodged Immediately make ail needed repairs to prevent further damage. Permanent Seeding Specifications 16.11 - Specifications Seedbed Requirements Establishment of vegetation should not be attempted on sites that are unsuitable due to inappropriate soil texture (Table 6.110), poor drainage, concentrated overland flow, or steepness of slope until measures have been taken to correct these problems. To maintain a good stand of vegetation, the soil must meet certain minimum requirements as a growth medium. The existing soil should have these criteria: - Enough fine-grained (silt and day) material to maintain adequate moisture and nutrient supply (available water capacity of at least .05 inches water to I inch of soil). - Sufficient pore space to permit root penetration. - Sufficient depth of soil to provide an adequate root zone. The depth to rock or impermeable layers such as hardpans should be 12 inches or more, except on slopes steeper than 2.1 where the addition of soil is not feasible. - A favorable pH range for plant growth, usually 6.0-6.5. - Freedom from large roots, branches, stones, large clods of earth, or trash of any kind. Clods and stones may be left on slopes steeper than 3:1 if they are to be hydroseeded. If any of the above criteria are not met -Le., if the existing soil is too coarse, dense, shallow or acidic to foster vegetation -special amendments are required. The soil conditioners described below may be beneficial or, preferably, topsoil may be applied in accordance with Practice 6.04, Topsoiling. Soil Conditioners In order to improve the structure or drainage characteristics of a soil, the following material may be added. These amendments should only be necessary where soils have limitations that make them poor for plant growth or for fine turf establishment (see Chapter 3, Vegetative Considerations). Peat -Appropriate types are sphagnum moss peat, hypnum moss peat, reedsedge peat, or peat humus, all from fresh -water sources. Peat should be shredded and conditioned in storage piles for at least 6 months after excavation. Sand -dean and free of toxic materials Vermiculite -horticultural grade and free of toxic substances. Rotted manure -stable or cattle manure not containing undue amounts of straw or other bedding materials. Thoroughly rotted sawdust- free of stones and debris. Add 6 Ib. Of nitrogen to each cubic yard. Sludge -Treated sewage and industrial sludges are available in various forms: these should be used only in accordance with local, State and Federal regulations. Species Selection Use the key to Permanent Seeding Mixtures (Table 6.11b) to select the most appropriate seeding mixture based on the general site and maintenance factors. A listing of species, including scientific names and characteristics, is given in Appendix 8.02. Seedbed Preparation Install necessary mechanical erosion and sedimentation control practices before seeding, and complete grading according to the approved plan. Lime and fertilizer needs should be determined by soil tests. Soil testing is performed free of charge by the North Carolina Department of Agriculture soil testing laboratory. Directions, sample cartons, and information sheets are available through county agricultural extension offices or from NCDA. Because the NCDA soil testing lab requires 1-6 weeks for sample tum-around, sampling must be planned well in advance of final grading. Testing is also done by commercial laboratories. When soil test are not available, follow rates suggested on the individual specification sheet for the seeding mix chosen (Tables 6.11c through 6.11v). Applications rates usually fall into the following ranges: - Ground agricultural limestone Light -textured, sandy sots; 1-1 1/2 tons/acre Heavy textured, clayey soils 2-3 tons/acre - Fertilizer. Grasses 800-1200 Iblacre of 10-10-10 (or the equivalent) Grass -legume mixtures: 800-1200 Ib/acre of 5-10-10 (or the equivalent) Apply lime and fertilizer evenly and incorporate into the top 4-6 inches of soil by disking or other suitable means. Operate machinery on the contour. When using a hydroseeder, apply lime and fertilizer to a rough, loose surface. Roughen surfaces according to Practice 6,03, Surface Roughening. Complete seedbed preparation by breaking up large clods and raking into a smooth, uniform surface (slope less than 3,1) Fill in or level depressions than can collect water. Broadcast seed into a freshly loosened seedbed that has not been sealed by rainfall. Table 6.11s - Seeding No. 4CP for. Well -Drained Sandy looms to Dry Sands, Coastal Plain; Low to Medium -Care Lawns Seeding mixture Species - Centipedegrass - Rate - 10-20 Iblacre (seed) or 33 bu/acre (sprigs) Seeding dates - Mar. - June, (Sprigging can be done through July where water is available for irrigation.) Soil amendments - Apply lime and fertilizer according to soil test or apply 300 Iblacre 10-10-10. Sprigging - Plant sprigs in furrows with a tractor -drown transplanter, or broadcast by hand. Furrows should be 4-6 inches deep and 2ft apart. Place sprigs about 2 ft. apart in the row with one end at or above ground level (Figure 6.11d). Broadcast at rates shown above, and press sprigs into the top 1 1/2 inches of soil with a disk set straight so that sprigs are not brought back toward the surface. Mulch - Do not mulch Maintenance - Fertilize very sparingly- 20 Iblacre nitrogen in spring with no phosphorus. Centipedegrass cannot tolerate high pH or excess fertilizer. Maintenance Table 6.11 It - Seeding No. 50P for. Well -Drained Sandy Looms to Dry Sands, • Low Seeding mixture Species Rate (Iblacre) Per, socolo Bahiagrass 50 Sericea lespedeza 30 Common Bermudograss 10 German millet 10 Seeding notes 1. Where a neat appearance is desired, omit sericea 2 Use common Bermudograss only on isolated sites where it cannot become a pest. Bermudagross may be replaced with 5 Iblacre centipedgross. Seeding dates - Apr. 1 -July 15 Soil amendments - Apply lime and fertilizer according to soil tests, or apply 3,000 Iblacre ground agricultural limestone and 500 Iblacre 10-10-10 fertilizer. Mulch Apply 4,000 Iblacre grain straw or equivalent cover of another suitable mulch. Anchor by tacking with asphalt roving and netting or by crimping with a mulch anchoring tool. A disk with blades set nearly straight can be used as a mulch anchoring tool. Maintenance - Refertiize the following Apr. with 50 Iblacre nitrogen. Repeat as growth requires. May be moved only once a year. Where a neat appearance is desired, omit sericea and now as often as needed. Table 6.11 v - Seeding No. 7CP for. Grass -lined Channels; Coastal Plain Seeding Mixture Species - Common Bermudograss - Rate - 40-80 (1/2 Ib/1,000 ft ) Seeding dates - Coastal Plain, Apr - ,oily Soil amendments - Apply lime and fertilizer according to soil tests, or apply 3,000 Iblacre ground agricultural limestone and 500 Iblacre 10-10-10 fertilizer. Mulch - Use Jute, excelsior matting, or other effective channel lining material to cover the bottom of channels and ditches. The lining should extend above the highest calculated depth of flow. On channel side slopes above this height and in drainages not requiring temporary linings, apply 4,000 Iblacre grain straw and anchor strew b sta lin netting over the top. Y P 9 9 Mulch and anchoring materials must be allowed to wash down �pes where they can clog drainage de,4ces. 4 Maintenance -A minimum of 3 weeks is required for establish4eiit. Inspect and repair mulch freojently. Refertilize the following Apr. with 50 Ib/bcre Refer to Appendix 8.02 for botanical names LICENSE 13� C-2710 ' COASTAL SITE DESIGN,PC ENGINEERING LAND PLANNING COMMERCIAL / RESIDENTIAL P.O. Box 4041 Wilmington, NC 28406 (910) 791-4447 Q z CL � Q ZU O E_-- � O ZZ O CL>_� Q Z L'i O Q U 0UJ 3 Z O J z W Z tit LJ Q O Z CL 3 40A C AiR0.4e, O� FES3 , � '�� ' . t: O 0SEA 0254L - zl'Z3�f l 0 N m Q W 2 s S O Z E N .� I I I I W ---,) DATE: 12-17-15 HORZ. SCALE: N/A VERT. 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SCALE. 1 " = 250' , \ ,,. ,. -, . { _ i i% DRAWN B Y. RL W �! j I ,!ia ,, / / - `v`r ',,: ,,rr,1,9Qf' \ \ ,•r,J/Irl /J , � j i , \ _ i \ %i I I t , . . , , , �\.—_'� ,-_- ''`\ it / / li • i r;/ " _ i\-- �' \\ I`,, l�; /-\\,--.. ..... / \.. \ / \, \\` \ / \ ; \ CHECKED B Y. HSR 250 125 0 250 50\ --.--- I 0 75011 -/ I- .�, I / , ,i + ; ., --l \' /.. .... — ' % ' ' \ +• ! - \ "_.. % 11 // i ; , PROJECT NO.: 06 0134 1. 'if/, ,,,, " "" : 11; i ,,, ,. . . . .. . ........... —.j . . il il --------- - - --- . . . ............ —1.1 .... . .... -- %..... I \ I \ '\�`- 11 1),,, I . ...... -.-, .1 ,,\ I- / " ., i \ i . -- ----- \ /-, I I ; II 11',- D /(/(, �- - / _ --�- ----�'" \ " / I I i i I I - I I I " "' \1 / \ I I , I , I if . . . . . I ..... ..:::::::-%.. .—I \ v \ I,, 11 "" � �-, I ) -.-. : : i 1 ,------ . f /, I . mm- j I I kEE� I"I \ \ SCALE IN FEET. 1 " 250' i , - 11 r /) Y/ , I /j/ " I . . . \\ I ... .. \ \ -zz if -11,- -, ---_ Sheet No. Of STRUCTURE AREA CULVERT 1 151.02 A CULVERT 2 153.59 A CULVERT 3 29.37 A CULVERT 4 NOT IN THIS SUBMITTAL CULVERT 5 2.44 A SWALE DRAINAGE AREAS FLUME DRAINAGE AREAS r, WET BASIN 1 DRAINAGE AREA J i STRUCTURE AREA SWALE 1 3.47 ACRES SWALE 2 5.68 ACRES SWALE 3 1.19 ACRES SWALE 4 3.00 ACRES SWALE 5 0.69 ACRES BMP AREA 1 15.51 ACRES PROJECT AREA LINE TABLE LINE TABLE TAG LENGTH DIRECTION L1 545.89' N80'23'02"W L2 187.94' N67'25'21 "W L3 64.04' S23'16'47"W L4 64.83' N51 *34'46"W L5 40.00' S39'44'41 "W L6 78.84' S46'21'28"E L7 48.86' S23'16'47"W L8 161.76' S23'16'47"W L9 80.13' SO4'28'15"W L10 112.16' S00'00'00"E L11 83.64' S00'00'00"E L12 89.11' S11'04'38"E L13 68.64' S00'00'00"E L14 109.01' S00'27'17"W L15 40.29' S61'00'45"W STRUCTURE AREA FLUME 1 Z23 ACRES FLUME 2 2.63 ACRES FLUME 3 1.09 ACRES FLUME 4 0.57 ACRES FLUME 5 0.61 ACRES LINE TABLE TAG LENGTH DIRECTION L16 39.01' S12'07'15"E L17 32.19' N76'51'23"E L18 31.44' S33'20'40"E L19 77.74' S27'51'51"E L20 285.05' N77'25'3,?"E L21 64.42' N76'42'29"E L22 28.61' S13'08'1"E L23 50.01' N75'44'36"E L24 27.77' N13*08'15"W L25 264.33' N76'42'29"E L26 84.62' N73'47'26"E L27 139.17' N11 *16'04"E L28 448.66' N08'09'56"E L29 54.87' N10*57'11"E L30 59.10' N77'33'58"W CA 45' I R \ W —22.5 FT 22.5 F 13 FT 13 FT 11 FT 11 FT 5 FT PLAZA 5 FT MIN. 1 I PLAZA 2087. 27ASPHALT 2 08q M. V 8" ABC STONE CURBING M. V (INVERTED PI TCH) CURBING FT SIDEWALK SECTION A -A STREET CROSS SECTION N. T. S. 45' IR \ W 22.5 22.5 F 12 FT 12 FT 10FT lo FT 5FT PLAZA 5 FT ( MIN. 3.1 PLAZA 2"ASPHALT 1 MIN. FT FT SIDEWALK M. V 8" ABC STONE CURBING A (INVERTED PITCH) CURBING SECTION C- C STREET CROSS SECTION N. T. S. LICENSE # C-2710 " COASTAL SITE DESIGN,PC ENGINEERING LAND PLANNING COMMERCIAL / RESIDENTIAL P.O. Box 4041 Wilmington, NC 28406 (910) 791— 4441 rn U � J � cc p N O Q,C):�Z QZZ � �Q I o`pz p C) o 2cDs � c� w .p C A E S S/ 0`/�� SEAL 9 — 025483 r GiN �Q1 LO m Q Zi LLJ 2 O Z LEI DA TE.• 2-25-16 HORZ. SCALE 1" = 100' VERT. SCALE N/A DRAWN BY- RL W CHECKED B Y.• HSR PROJECT NO.: 06-0134 Sheet No.2 Of