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Home My WebLink About20010506 Ver 1_Site Plan_20010406 /I \ I ' SILT FENCE CLEARING LIMIT LOT 24 ~ IS ROW LINE UVYNGATE SUBDIVISION PB 58, PG 155 rwis~oN 155 m LOT 23 N ~ N!YNGATE SUBDIb'ISION _ c+oa P6 58, PG 1,,5 'S4'38'w 28 W 1 ~ 8, 6 M8t°51' , 40,245 sq.ft. .94 acres ~.ft. ~ 'fa, ~ es ~ SF= ,822 sq.ft. sq.ft. S LLOW 0 ~l Mp M~ i 5 46,558 sq.ft. ~ ~ F 5 40,305 sq.ft. BEDROOM i EDRO 1.07 acres ~ . 1.06 acres ~ SF=19,028 .ft n SHAL g S - ,377 sq.ft. SH LOW ~ 5 EDROOM btiy 4 6ti5 5 BEDROOM 38,616 .ft. rJ/F 0.94 acr 8 r ~GSEPHINE HARRISCN SF=18,063 s t. 88 - E - 374 3 ULTRA SHA 0 9 9 58,5 sq.ft. 3 ~ 42,365 s n. ,e°. 42 365 s _ 27 saes M o SF-18,202 sq.ft. Ip ~ a , 0.97 cre ~ ~ F= ,230 0.97 cres SHALLOW F= ,230 sq. ~ NAP 5 5 m y BE ROOM r BE R NVENTI01 ' NVENTIONA PERRY A. SLO.AN p. / s ~r i i r J / 48,601 sq.ft. 0.94 acres ~ 5 SF=16,477 sq.f ~ BEDROOM ULTRA SHALL ~ 16 i sq.ft. 3 1.63 acres a ~ o ~ ~ 40 2 sq.ft. -14,497 sq.ft. IP M ~j 3 ~ ~ 0.92 acres ~M ~ SF=15,062 sq.ft 15 ALLOW g 15 a SHALLOW ,749 sq.ft ,749 sq.ft. 5 1.1 acres B 00 SF= ,554 1.1 acres 5 q ~ SHALL SF= ,554 q.ft. EDR OM SHALL 5 EDROOM 5 i EDROOM 1 ~ 4 / ` ~ EDR00 14 ~ % ~ _ / ~ LiNE TABLE ~ \ ~ 41 032 s .ft. 47,266 q.ft. ~ ~ 2 q 1.09 aces a.ft. ~ SILT FENCE ~,NE ~EN~r„ ~AR~N~ es AT CLEARING ~a~~sr~:u `T ~ 0.94 acres ` 40,092 s .ft. _ SF=1 ,002 s .ft. 5 q SF-16,9 0 VENTIO AL ED F $ .ft. 5 ~ L9 13.57 S13'40'S3'E 0.92 acres I LLOW ~ = sq.ft. ~ AL EDR o ~ LIMIT LINE ~s s;z b~~z:u o ``s ULTRA SH OW ~ ~ / ~ 3 ' ~ _r 12 i rN~ ~1~lFti;ii,;,. _ V ~ ~ ~ ~ sq.ft. ~ ~ M ~ ~:it. 0.99 acres 45 s :ft. ~ ~ ~SSip - 1 SF=18,993 sq.ft. .OS a es ~ SHALLOW =14, 5 00 oN no 00 ' ~ ' = Q SEAL - 1 ; S°J F iS6~ - ~ ~ 1 \ \ ~ -\D / / I Y ~ I S~s / f EDROOM ~ / 4 8 4 s .ft. EDR q ~ ~'~~r ~#Mdli~/1111~~~ - 10 acres ~ 0 ~ SF= ,770 1'`~ ` 1f ~ UL SHA 0 ~ S I M ~ ASI i ~ .AIL E CE i .J3. w i'F 1 OU L T ~ 1.~ 1 ,:OE T. PICKARD ' ~ ST U C R E ~ _ ! r~ s OB 244 PG 600 3 o. i ~ ~ril ~ P i M~jq y" ti ~ ~ l ~ s s@ ti ~ i ~ ~o~s 3 ` ~s_s N ,i h o~ ` N \1 da69 ~ v ~~1 1 / ! 1 U ~ ~ ~ i ~ ~ I ~ 1,~. ~ 5 DEEP WITH 1 FREEBOARD ~ ~ ~ 5 4 5 ~ EDR( ! ' EDROOM t ~ . t ~ U Z W W W U U 1~ ~ 5 SCALE 1 " = 100' LL Z Z 1~ ~ f! 4 \ DROOM t IM 65, 07 sq.ft. W N ~ ~ ~ 10 WIDE ~ w ~ ~ ~ ~ ~ . , EDR ~ 1.62 cres 15 WIDE Sf MIN. WIER - ~ 1~ ~ ~ SF=18,20 q.ft, ~ J ii WIDTH ~ _ ~ ~ e SHALLO .o 8 I ~ I `t 54,511 sq.ft. 1 s .ft. ~ " q I 1.28 a es ~ ~ 1 a es ~ ASF=18,246 .ft. 246 .ft. SHALL W 35' OR 40 LONG ,1 LTRA SHALL W 19 ti 59,b17 s ' ft. ~ 1 5-10 CHANGED PIPE SIZES FHB q~ . " 1.2~ acres. N0. DATE DESCRIPTION BY ~ _ ' ~ SF=14 033 sq~ft. ~'S2'3S^ ULTRA ,SHALLO \ rVBi•5 '3. ICAL DIMENT BASIN DETAIL 245.. @' l2 1 DRAWN BY FHB DATE.' 3-15 STRAYHOPN HILLS ~i r Ng p.49~ . NB o,49 ~ ~ SUBDIVISION - SECTIGN 1 HI~LSEOROUGH ` »o PB 26, PG 80 LEGICa'v HUT DB 785 F; 343 CHECKED BY.• SF DRAWING' NO.: 0102SlTE1 JOB NO.: 0102 SHEET OF CLEARING LIMIT LINE BRUNSSEN ENGINEERING SERVICES, P.A ccnu~cnir cc~irc i ini~ ~ ENGINEERING CONSULTING PLANNING JLVIIYI LIY I I LIVVL LII~L 36 CHURCHWELL COURT DURHAM, NC TELEPHONE 919-544-1159 TELEFAX 919-544-1201 z ~ ~ Z a - w Z Z CJ J Z ~ D ~ a Q ~ !r! o = U Z ~ Z J - ~ z d. W ~ ~ F Q ~ J Q = <C Z J Q ~ _ w ~ _ ~g Q w Z - W v 0 o Q E- ca z z ~ - U W I-- ~ z r~--~ I- W W cn - 0 0 0 o zz > Z ~ z z ~ w ~ _ o o - ~ ~ LL Z W o Z__ ~T » W> iZ~~mr~~ ,>WW> W W - ~ cr - ~o U CL' O ~ D ;~rN~ O o ~ Q ~ _ ~ f-- m Z TN I~~m~ Q..'Q ON.N. 'N$o~ - W Q Q W TT ~ ~ ~ W W II :.ONN my Z'~ N Vi W z W I- (1 ~ ~ G ^NN< F u~Np~M tY f- (Y cn I-- Ne 4 ~ I I cn ~ m n ~ C ~^f ~ Q U Ol 0i 'N<mM Z TT J(~ ~ UU IZ W W, ~ Q O Q o Q N (f1 W o J CL ? 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'P~, c &j'"~r,' H..~ ~a r~ u) i I 0 r z x r ~n ~ rl D ~ ~ ~ \ ~2,,. ~ 9 ~ ~ ~ G 5 ~ r~~ ~ o v ~'o \ ~ ~ ~ ~ D I f I ~ "_h ~ V ~ V 1 ~ LJJ fl ~p ~ i C O r-r- Q \ U ~ / m~ O I ~1a ,-0~ ~n UJ \ Y\ / O ~ r ~ 0 ~ ~ ~ O / - 1 ~ ~ ~ \ c'o„ r- --n / ~ ~ ~ ; ~ -Q ~ r+- iy 0 ~ ~9 ~ s ~ s ~~s ~ ~ a i ~ ~ I , - o ~ ti c~ a s - / ~ ~ ~ i r I!1! ~ ~ i o 9~~ q ~ ~ 1 i Il l A ~ ~ ~ ~ r ~ o s o ~ ~ i t ~ ~ I o ~1 ~ T , ~ ~ ~ ~ , i ~ r ~ ~ 1 "!i ~ 4 k~ / 0 C,~ ' ~ ~ ~ / 1~ / II ~ ~a ~ ~ ~ / ~ ~ , ~ --r II o ~ ~ i ~ r i 0~ ~ ~ , ' j ' ; / ~ ~ 'g ~ ~ ~ ~ i ~ ~ i / I ~ ~ CO ~ ~ ~ ~ o. \ r ~ ~ ~ ~ / / D \ ~ r • ~ li ~ ~ ~ ~ ~ V ~ ~ ~ I ~ j~ ~ ~ ~ ~ O i / / ~ o V~ ~ ~ i ~ w ~ ~ ~ ~ ~ ~ I / ~ Q 0~ ~ ~ ~ ~ ~ i ~ i ,1 ~ ~ ~ I ~ ~ ~ \ ~ ~ ~ ` ~ ~ i~ i ~ I i i Q ~ ~ 1~ \ ~ / / i i ~ ~ ~ ~ -~h ~ ~ ~ I ~ ~ , ~ , ~ ~ ~ l ~ r I ~ ~ , / ~ ~ ~ ~ , rt ~ i ~ I ~ ~ I I , ~ N ' I ~ R ! ~ ~ ~ I ~ ~ \ ~ / p ~~ti ~ i I ~ ~ f~1 ~ i ~ ~ a~ - / l ~ ~ I I 1 o ~ ~ ~ I, I ~ II ~ ' y/ ~ , ~ i ~ ~ r~o ~ , x o 9 r ~ ~ ~ 2 Co co II O o cq i , I ~ ~ I , ~ ~ ~ ~ ~ CD N t~ Q ~ i I + ; ~ ~ ri ~ ~ ~ O i ~ ~ ~ CO ~ Z ~ ~ E SBIAk@ ~ Q s 25~ e~`~~ - I ~ o Q w I ~ + ~ W D cp N ~ ~ , e ~ ~ \ ~ U1 0 n ~ ~ ~ ~ a ~ ~o ~ \ ~ ~ 00 Q , O r 0 ore ~ ~ s 0 ~ I -P I I , o ~ , ~ O O ~ , V ~ w ~ ~ a 4 ~ ~ ~ v~ ~ I ~ r.,. ~ ~ x , ~ \ V V V M ~ 6 O ~ ~ r ~ ~ r-f- ~ r+ f ~'1 ~ , A ~ i m s I ~ a. I I ~ ~ Ij ~ ~ O A ~ n c~ o L~ ~ ~ d ~ o A ~ ~J i ~ ~ II \ , ~ C~ C~ O I 6~ lJ f O O /r ~ !iBlEP ~o ~ ~ ~ ~ I ~ ~ ~ i s Q s ~ O ~ Q Ul ~ ~ ~ ~ ~ O ~ ~ ~ d , N ~ ~ ~ 0 ~ ' Lr ~ q 0 2 ~ \ ~ ~ n o ~ ~ 1 'L 0 ,,•T /1 /,.r , /1 v ~ 1 / r_ ~ 8 ~ Q1 ~ Z iw ± ~ N~ ~ 600.o vc . w I ~ ~ ~ ~O i > w '~i U w O HI H POINT ELEV 625.59 ~ I ~ ~ HIG POINT STA = 20+32.44 U} I- i O T - ~ Fail SSA - 18f 4,1? ~ ~ I WU i ~Z I ~ A.D. - -7. 5 I W - ?G ~ K-~~.0 a I 6 DIP W ~ e~ 8 ~ i ~ ~ - w -i- - U I i I i i ~ ~ c a i _ rU-i 1 Z~ / _ x i n I ~ iq U C r~ ~ ~ I I 6„ B a i + ~i i I ~ ~ ~ i _ I ' AND LUG I (FUTU E PL RIGHT i ~ I EXTE SION) ' ~ ~ i I ' FIRE HY RANT ~ ° I ~ I ASSEMB Y CL OF RO ~ 6 ELBO i I i I ~ ~ ~ I i i W I-----I i I LOW POINT LEV = 583.46 i I - I LOW POINT S A = 10+23.60 ~ FT ~ I ~ ~ i I i PVI STA = 10+50 ~ I ~ I c F _ I A.D. 7.86 { 6~ I ~I K=14.00 ~ ~ I I ~ i I ~ U l ~ ~ i I I W 110.0 UC I I i i ~ I I ~ i o~ i i ~ i I c i. i ~ ~ o~ i ^ ~ w ~ I~ w I I u > > ~ i i m ~ I SNE~T 3 OF i ~ I ~I ~ ~ ~ ~ i ~ ~ ~ z i Z z z a i ~ ~ ~ ~ w ~ ~ I I W Q ~ i ~ Q i ~ ~ ~ ~ I~ ~ Z W C7 V U Z / " I ~ 6 MAIN LINE 1- J Z J J 6 BRANCH LIN Z p w~ W W ~ 3q / 6x6 TEE ~ I U z U I O ~ 6" GV ON EAC, LEG ~ Z~ ~ ~z ~ i W ~ pp I ~ j Cn c~ U ~ I (n W z I I I I ~ ~ ~ Z W ~ ~ w ~ z o I i m Z ~N ~ I W ~ ~ ~ I d' ~ ~ ~ i II rnrn r~ r N O O j G O O 0)01) N co O M? u~ cc d- r ~ G - O 6) O O N m(0 nr- mLO ryN nc a~ ~N oN 0,O wO nO o(p o6? - 00? od' alD pip m~N n~ -~7 nM elm nN o(D 00 n~ m~ roU) m0d o`I~ 0O o~ 9 .:JM ;vV a(0 X07 ~O ~'!'V co ~mCO o CO r,'-0 roO wO mO N N N 10iO o(0 CD QO n~ ,`dv<t .dNUj Nln ~ln wN f0N ~N 1ON N N N N N ~N " N W (0 (D CO QO l0 CD co ~c0 CO c0 Z I Q 10+00 11+00 12+00 13+00 14+00 15+00 16+00 17+00 13+00 19+00 20+00 21+00 22+00 23+00 ~L ~ W WJ JW I I .I s I ~ r r ! ooK i ~ i ~ ~ / I N I~ q ~ 4 C 9• ~ 3 ~ - C t. 4 0 S i ~3 ~ 8 W 3 ~5 ~ 8 8 ~ ~ ~ 1 s I ~ / ~ S 8 8 ; ~ 0 3 ~ s q. ~ S 3 t • 0 . f~~ 9, fi e s s I~ ~ I ~ 9~ f 5 t. ~ ~ a ~ E fi~ ~ cr D ~ a ~ R cr v s 0 ~ a pcr l ~S ~ ~ ~ o I 4 S T 0 M ~0 R C 9 s 0 5 g ~0 ~ 5 I N 1 V s S q. ~ i ~ N fi ~ N 9; q T S .N q. ~ x T t C I c o ! 0 ~ N q N 5 q 8 D R 0 ~ I 5 g E ~ ~ D 0 M 1 ~ R p~ 0 0 o ~A 0 0 NF M 1 ~,o ~ ! c ! ° ig8~'~ENT r U~ R) !p NAGS' ~M~ I ~ ! r 1 R ~ w ~ ~l N ~ i a v o i i ~ ? r rn , , s ~ /i ~ ~ / ~ 1 i ,i 1 i i ~ ° Z i i ~ \ \ ~ ~ ~ ITI ~ ~ ~ ~ ~ ~ t. i x i ~ s ~ O ~ ~ ~ / ~ ~ ~V I 1 /A ~ ~ ~ ~ ~ ~ ~ D~ ~ ~ ~ ~r ~ .r I ~ ~ \ 1 WG ~ ~ \1~~ ~ ~ , m ~ ~ ~~i i w \\~x~7 ~5 - _ ~ ~ 1, ~ „1 ~ a7 ' % i , % / / ~ v. ~ ~ 1\ to 0 - -`J 1 . 1~ ~ ~ 9 R 16.6 / ~ ~ ~ ~ I ~ ~ / ~ ~ , ENCROACHMENT ~ ~ ~ ~ ~ ~ s ~ ~ n ~ > > ~ o REQUIRED , , , - ~ c~ u .1 m ~ G° ~ FOR WATER ~ ~ , / , ~ ~ 6x6 ~ ~ ~ _ - - + ' _ , LINE ~ ~ TAPPING ' ~ / 1 I ; ~ \ ' W ~ , ~ ~ ~ 1 ' ' ~ - 575FT C' h o o C 1 S/C C r o ~ AN SLEEVE ~ ! ' ~ - ~ ~ ~ - I o i ~ ~ ~l ~ ~ I ! ~ ~ I ~ /f BORE AND / ~ ; ~ ~ ~ ~ / ~ ~ ' i R .00' Q I JACK I ~ ~ , i ~ , ~ ~o I \ , 12 DI A ~ X ~ ~r ~ ~ ~ CASING ~ ~ ~ I i i ~ o I ~ D ~ 6 GV Z i ~ ~ i i ~ I ~ /570F~ 1' 1 fRMAN 9~s x ` ~~K 1 pk N7 ~ I gy ~ANyAC f NCB, i ~ ~ I ~ x ~f 'ANT GRAPHIC SCALE ~ ~ ~ ` ' o ~ ~ (IN FEET ) 1 inch = 50 it, I 300.00 VO HIG4 POih' acv : 5g<.9e y..:,: o:p: cTp = ~.<+5505 G4 POin" .'..v : 5g<.Sa o[.p: cTp = '.i+5505 o;+ : 15+?0.75 ~ ~ PN F1EV ::86.51 o," j'> : 15*?0.75 vN F1EV ::66.51 590 ~ I K-61.76 K - 61.76 I m m N rv~ NI i I O u) ~ ~ ~ l ! ' i 1 i I W J w ~ PL LEFT I ~ C L~„ ! ~ a I z W 6 w I ! ~ > ..r.--- ~ ~ ~ ~ 58C I ~ i, ! I ~ ~ PROPERT LINE ~ ~ 6x6'. TEE i~ z 6 TEE ~ I AT STATI N ~ WITN 6'GV'~ 6' GV i ANDI ~ 18+66,20 Ex DIP w FIR HXDRA ~ ~ PL RIGHT 6x6 TEE 6" GV 6' D TIE INTD E ISTING ~ WATER LIN WITH ; FIRE HYD AN B ~W-OFF 6 x 6~TAP ING SLEEVE ~ ! ~ \ ASSEMB ~ A SEMBLY ~ ~ AND 6 GV I, WATER LIN 5?0 BORE A D JACK 1 ~ WATER INE 6x4 TE ~ ~ i BRANCHI 4° WAT R LINE % 6x6 TE UNDER OADWAY ~ I 6" WAT LINE 12 STE L CASING ~ i / i SEE DE AIL SHEET ~ i i ~ ~ , ~ i ~ ~ / 30° RCP 2~ SLOPE ~ ~ 86 LINEAL FE T e~e~s1~~~~~° ~ i ~ ~ 56° i o~ ~ ~ ~ w ~ 4 s ~ i 4 ~ ~ 12 ,,C 30" RCP 2~ SLOPE I, I I 90 LINEAL FEET °v F ~I ~a . B~ 'I ses .,1~ qrr 1 5-3 ncdot comments i N0. DATE DESCRIP7i0N 8Y I sea ~ , FNB 3- 75-07 ~ DRAWN BY.• DATE.• I i i ~ ~ SF CHECKED BY. DRAWJNC ND.: O~O2PP~ ~ I I D~ITUN EL&Y 545.00 O ~O2 SHEET OF 2 JOB ND.: ~ M G u?w ON NQi o3 ID ~N WO Mls hr ~N QN ~ n BRUNSSEN ENGINEERING ~n ~C nCq ~ ~ V1N N~ NN Jl~ ~ N~ if1 v~ u')~ N0~ N~ N07 Nei u]0~ NSA ~,1~j 'n jj ~N u7 ~ u7 I'J7 S ~ try i SERVICES, P.A 90+0° 11+OG 12+0° 17+00 14+0° 1500 16+00 1?+00 18+00 19+OD FNCI~IF'FRIAIC Ct1~ICl II TINE; PI ANNINf; 36 CHURCHWELL COURT DURHAM, NC TELEPHONE 919-544-1159 TELEFAX 919-544-1201 x9,` ~ ~ -y\ v o s ~ ~ o ~ 7 5~ ~ ~ s~ ~ s b o s 0 ti~ s o ~ s o ~ tg ~ ~ ~ S d S ~~o t~ ~ O ~A ~ ~ ~ r b -~r ~2' ti ~ ~ ~ ~ Q ~ ~ ~ ~ O ~ r ~ O . o / ~ ~ ~ ~ ~ ~ cs, ~ ~ ~ a ~ ~ ~ ~ ~ ~ y ~Q s~ ~ o s ;a o ~ 2 i 0 ~ o o, Z ~ s ~ 0 /o ~ r> m S' 0 Z V' r ~3~~ ti ~ ~ A ~ ~ ~ R ~ o s~ 0 ~ ~ o,~ 0 ~ '~b. ~y p~ try~1 ;l ~ / J S~ s PT=17 1.53 ~ + _ / 0~ PT - 17 i .5~ ~ ~ o~ ~ . , ~ Rso a Q S i , ~ ~ ~ ~ I s ~ ~ I a ti ~ ~ <s ~,x ~~Q _ ~y o- ~ ~ ~ i ~ ~ r GG 0: ~ 1 i S d ~ ~ ~ ~ , / I ~1 ~ ~ i ~ ~ ~0~. l t I 5 ~ off, ,~yy ~ , 1 s~ ~ g ,1 O ~ , 4 \ / ~ \ U~ 0 \ ~ \ ~ ~ ~ ~ ~ i 1 ~ ~ ~ ~ / / o ~ ~ t ~o t ~ ~ DO ~ ~ 1 i r` ~C t ~ ~ ' o i~ u 1 5(~ ~ ~ ~ ~ 1, 0 20 ~ o i i ~ ~ ~ ~ 1 5( ~ ~ a ~ ~ ~ O,n '~a ~ ! o \ ~ ~ , i v> -'r ~ ~ . ~~L...~ - ~ ~ ~ ~ i ~ a ~ I ~ ~ ~ ~ S S ~ ! ~ ~ Sl ~ ~ ~ ~ ~ I 4$ 9 ~0 ~ ~ ~ x ~ Cu~ \ ~ 30856 , \ ~ ~ I s i 'oo' ~ ~ % / ~ ~ ~ ~ ~ ~ / ~ , ~ ~ \ a ~ ~ I ~ ~ a ~ . 0\ ` ~ ~ \ a ~ ~ ~ 1 ~ ~ I i ~ I X I rr II ~ ~ % 1~ ~ I / y 6 ~ ~ ~ ~).1 I ~ s I I ~ ~ ~ ~ S~oF~ N ~ ~ I i I i ~ i v> ~ i ~ ~ , , ~ / . 2 ~ ~ ~ ~ 1' I~ J ~ v ~ T, I I l ~ ~ ~i1 ~ l ~ ~ ~ i ~ ~ ~ i ; iV' 1~ ~ ~ ~ o ~ l l l~ l ~ v i / ~ ~ ti ~ ~ _ ~ I ~ / ~ / ~ •6 ~ ~ GRAPHIC SCALE 50 0 25 50 100 200 ( IN FEET ) 1 inch = 50 ft Pv: SLA = 12+49.80 HIGH POINT ELE`~,' = 578.65 Pill ELEV = 588.42 HIGh FONT S'a. _ '~-~i?.49 A.D. _ -3.80 PVI STA = 14+25.5u K = 39.44 LOW POINT ELEV = 5~-.50 = 5~0 L01N P INT STA = 11+10.54 D. _ -3J? I PVI STa = i1+81.6 ~ ~ K = 53.00 ' vc 150.00 ~ P~ I EI E = 573.3 ~ ~ ~ ' i 4 Go ~ ~ ' A.I. ~ i f ~ i N~ 20 .00 ~ u7 W o N ~ ~ LON ~ ' ~ o r u > LON F0~'v ELEV = 576.6 > w 2 0.00 V ~ ~ ~ pow P ~ N h LOW POIN? STA = 10+26.1 w PVI ST = 10+58.85 <D ~'i ~ ~ _ ~ ~ ~ P V d 0) ~ ~ ~ i L'7 F F~11 EL V = 575.67 ~ ~ i + ~ I ~ iV W I ~ N ~ I W I I.>J i II i A. . = 8.68 ~ o ° ' PL LE ~ I . i 890 _ ~ ~ N 500 W U > m ~ ! ~ I II) Ci > W ~v'I- I ~ P RIGHT ~ ~i + ~ U > rl > m ' CL OF ROA W m ~ ~ _ ~ ~ 121 50 vC o > a ~ t , ~ ~ ~ 9 i~ U ~V i >m J; ~ CL 0 CL OF ROD Z ~ i ~ ~ OW- FF ~ ~ k ~ I ~ I rn ~ I, A E LY W I _ ~ I N ~ ~e I 4 G 6" DIP W ~ ~ \ I 6 MINL ~ ~w ~ ~ I W " ~ FIRE H DRANT ~ 6 SI E LINE / $80 m ~ ~ P LEFT ~ pet4tuti tr 5,o ASSEM LY J ~ ~ 6 GV ~ \ ~ 6x6 EE / , ~ ~ 4k m ~ w G i i I ~ ~ ~ I ~ _ s~~ ~ ~~a~ ~ ~L N EACH EG ONE P RIGHT ~ L I ~ ~w~ = F ~ ~ ~ai~ ~ ,,,P H. ~~,t ~~~„o~„~„~~` ~ 6 M 6" MAIN LINE 560 x x I I, 4 S I, 4" SIDE LINE i ~ 4'~ G ~ so' RcP 4'~ GV ~ I 96 LINEAL FE T i 2~ SLOPE MI ~ I ~ STANDARb HEAb ALL T CA 0 838,01 UPSTREAM AND OWNSTREAM ENDS I I 1 5-2 N0. DATE DESCRIPTION BY I ~ I I FHB 3-75-07 I DRA6YN BY~ DATE.' DATUM E1,E'6J i D. OD ~ 560.00 r ~ N t.0 ~7 O ~ d d' N d' 6~ ~ m ~ ~ ~ N N ~ SF WG~ N~ MIS ~U MIS NIA ~ D! OL1 ! I ro a O a O o X17 Cfk oN m~ n~ oM NOp mgt mN n N dM ~ ~S n m ~ m m `m n r I r ~ CO ~ ~ ~ ~ ~ ~ ~ ~0. ACC N m ~ ~ n ~ ~ ~ ~ ~ ~ N u,~ ~ ~ m ~ ~ CHECKED BY DRA SING ND.; Nr ~r ~ co ~l u~ ~ ~ ~ ~ ~ u~ ~ ~ ~ ~ O ~O2 SHEET OF ~ JOB NO.: 10iG0 11+G6 12+00 73+00 1G+00 ii+00 12+00 13+00 14+00 15+00 15+00 10100 I BRUNSSEN ENGINEERING I s ~ ~ ~ ~ SERVICES, P.A O 61 ~ J1 M N 61 W ~ W 61 N1 a o ~ v ro ~ n ~ m ro ro ~ ~ s m u; ~ ~ N ~ ;n m N ~ ~ n m~ N ~ ~ ENGINEERING CONSULTING PLANNING i i I M 36 CHURCHWELL COURT a ~ a ~ n ~ ~ ~ ~ ~ ~ ~ ~ ~ N N DURHAM, NC ul N v] Y1 N N J7 Jl ift N N N N N I TELEPHONE 919-544-1159 TELEFAX 919-544-1201 _ \ ~ 50' R W ~ ~ ~ 20' ~ ( 0 0 , EXISTING OR PROPOSED GRADE 50 Ri ht-af-Wa g Y a Q ~ ~ / ~ I I„~ ~ / .d. ~ o ~ GRADE MUST NOT EXCEED 5%+- Q ~ Q FOR 100' FROM INTERSECTION ' ~ 6 18 6 5 z ~ m ~ uld r Shoulder Ditch I Sho e PAVEMENT 18" r~~n~ r, o a o i 30" M~n~ ~ a ° ° 0 45 „ / " er foot ~/4 per foot er foot 3; 1 S ode 2 ' 1 S~ ~o~ ~ ~ SIGHT TRIANGLE 5 \ i I ~ WATER 1 4 ' ' S0' TAPER 2' 10 x 70 6" See Meter Detail 2 I-2 _ j TYP . ~ < l ' MAIN for extension beyond th'~s point ~ U ABC a. a°. ° 3 a _ _ _ _ 30 _ _ LOCAL RESIDENTIAL ROAD ~ ~ PAVEMENT WIDTHS WINDFALL LANE - 20' WIDE OLD FOREST DRIVE - 20' WIDE NC 10 60 R W , FRAM LANE - 18 WIDE BILL OF MATERIALS ~ CORPORATION COCK 3/4" Fard F-1000-3G (1" F-1000-4G) ' 2 3 4" Class 200 Pol eth lene Tubin CTS or Class K co er 3 Saddle -Ford S90 (C-900), 2028 (DI/AC) ROAD CONNECTION DETAIL 4 Meter -SEE DETAIL TYPICAL SERVICE CONNECTION ~ ~ ~ ~ S~ ' S0' Ri ht-af-Wa 50 R g Y III II III-III-II n e e ~ a II-III-III-I o ° ~ ~ _ I -I I p . d. p o e .d I I- ~ ~ , 6" MIN. I ~ e ° ° 8 18 6' 5' ~I I D_ _ a I I- I Shoulder PAVEMENT Shoulder Ditch e ep ° d° I po - ° ad I _ ~ ~ ~ II- (-I I II-III..-II II-III..- -III-I 3 , ( I S ~ ~ ~ ~ _I I I I_ er foot ~/a per foot per fo of e I I \4~ e = I ~ I= \4~ 5 e 1 5 5 2. .1 2• - - 18 . ~ \ 2• / ( I I= » 6 I-1 I I I-~ VALVE BOX 2 I-2 50 2'-0" x 2'-0" 8" ABC ,<''.,< ~ > CONCRETE BASE AROUND VALVE BOX RESIDENTIAL COLLECTOR ROAD ~ ' ~ ° CASTING VALVE BOX SETTING -UNPAVED AREAS PAVEMENT WIDTHS WINDFALL LANE - 20' WIDE SIZE VARIES AS DIRECTED 2" ASPHALT (TYPE I-2} BY THE ENGINEER. SUPERELEVATION NOT REQUIRED ON CUL-DE-SAC AND DEAD END STREETS LESS THAN 1500 FEET LONG. ~~er sit r.1 ~ t~ 6" MIN. ~ a ~~a re ® ~ STREET CLASSIFICATION ® ~ m " r ,m a a LOCAL RESIDENTIAL SUBDIVISION ROAD 4 d S ` - l ~ i2 I_I I I_I I I-III- -I I I_I _I I I_I I e~ II EXISTING SUB BASE - ~rP.:F,~F,=se. = I I I- I ( =1 I I I- _I CONCRETE BASE II II AROUND VALVE BOX VALVE BOX CASTING (SIZE VARIES) VALVE BOX SETTING - PAVED STREETS N0. DATE DESCRIPTION 8Y FHB 3- 75- 07 DRAWN BY.• DA TE• SF 0~02PP1 CHECKED BY DRAWING NO.. • O ~ O2 SHEET OF ~p JOB NO.. BRUNSSEN ENGINEERING SERVICES, P.A ENGINEERING CONSULTING PLANNING TTT A TI C iJ L I I L 36 CHURCHWELL COURT DURHAM, NC TELEFAX 919-544-1201 SHEET TELEPHONE 919-544-1159 ? SPIDERS -MIDDLE SPIDER (OPTIONAL) HORIZONTAL THRUST BLOCKING SCHEDULE AS DIRECICD BY ENGINEER • • • • 21" MIN. CLOW MEDALLION OR MUEL 1ALUON oR MUELLER FIRE HYDRANT ~5'J~" BASED ON TEST PRESSURE OF 200 P.S.I. (ALL AREA IN SQUARE FEET) PUMPER NOZZLE TO BE JOZZLE TO BE PERPENDICULAR TO STREET ~UTAR TO STREET. , A =METER BOX, STANDARD PLASTIC WjC~ST L",0~~ LID, DFW D12n0 OR OP p; ~ APPROVED EQUAL, CAST IRON BOX AND LID FOI' a O ~ ~ ~ OQ ~ CARRIER PIPE ENCASEMENT PIPE TRAFFIC AREAS Q~ -1 Q ~ ~ Q a PREFAB. FLEXIBLE END SLEEVE A ~o w P ~ ~ O P ~ O ~ ~ ~ pQ- Ov ~ ~ v J~ O F ' HEIGHT = 12" ~ ~ ~ P ~ ~ J P o P Q O Q- ~ ~ -l ~ 0 i O , ~ ~ QP ~ o Q- ~ NOTES: O 0 ~,Z. ~ 0~ v 00 -l 00 0 0~ ~ ~0 0 00 R PI ERS IS 3 PER 18 FOOT LENGTH OF PIPE, ONE SUPPORT Z a 1-NORMAL SPACING FO S D ~ ~ 0 J~ o0 0o JQ' 0 O' oo O^ Oo ~ .F- o0 AT EACH END AND A SUPPORT AT 9 FOOT CENTER. O O _ .n o Q' P 0 ~ P ~ ~ ~ 0 ~ o ~ v , CURB & ti OQ Q P ~0 0 ~o Q" O~ O ~P cb P ~ J ~0 0 ~o 2-ENTIRE SPIDER ASSEMBLY TO BE BITUMINOUS COATED AFTER FABRICATION f N SIDEWALK SIDEWALK ~ ~ Q ~ ~ ~ 4 Q' GUTTER I N SLOPE IN CARRIER PIPE. , 3-FIELD MODIFY AS REQUIRED TO PROVIDE DES G ~ • ' ~~n\ ~.A ,.A n\ PAVEMENT 6" 11 1 4' 1 108 1 1 1 1 1 1 2 1 D Concrete r e ~~~/~~A 22 1 2' 2 207 1 2 2 1 1 1 3 1 nc et ~,./i,/i,/i,,/i.. i~ 6" GATE VALVE PIPE SIZE CASING SIZE WALL THICK. B G 30~ Siab ~b " 0.250" Felt Z 4 10 ~ VALVE BOX CONC. THRUST 6" 12" 0.250 ~ COMPACTED BA( COMPACTED BACKFILL BLOCK 8" 16" " FLOW .%~,v,,,, i (TAMPED IN 6" (TAMPED IN 6" LIFTS) n n mb f7 10 18 0.375 - 4' - + 12" 22 0.375 „ PUG y/ ; 6" MIN. BRAN( l - 6 MIN. BRANCH PIPE MAIN ~ `r 1114' 4 1 1 0 ~ 1 45' 1 ~ NCASEMENT PIPE Q x ~~~T~~/\~%~/\~~\~~~~~'~~\ 5I8" f STEEL E ~ ~ OR AP 5/8" BRIDLE ROD W/ COLLAR r~ 90' 3 3 8 16 19 4 4 8 32 4 a, r 0 ~ ;D OR APPROVED ANCHOR PIPE RE`~~RAINT PLUG 22 619 6 12 14 3 3 6 23 3 VARIES 1B" 1^ D a 0 7 (REQUIRED) 11 1 4' 7 881 2 4 5 1 1 2 8 1 7 CU. FT. CRUSHED 22 1 2' 15 691 4 8 10 2 2 4 16 2 STAINLESS STEEL SHOES U 0 ~ ~ 0 DD,. ~D o< ~a~a a~. S ON EACH F00T OF ~ "D STONE MIN. USE RODS OR ANCHOR CPLG. 45' 30 779 8 16 19 4 4 8 31 4 Q ; VQ O O O ~ ~a Q CONC. THRUST BLOCKING SPIDER p D p D, D a a s a 90' S6 861 1 S 29 35 8 8 15 57 6 6" x 3/8' STEEL PLATE - ~ MIN. BEARING AREA 18"x18" PLUG 40,213 10 21 25 5 5 10 41 5 6" GRANULAR BEDDING UNDISTURBED EARTH NOTES: REACTION BEARING AREAS ARE IN SQUARE FEET MEASURED IN A NOTES: THRUST BLOCK SCHEDULE. VERTICAL PLANE IN THE TRENCH SIDE AT AN ANGLE OF 90' TO THE IIiRUST VECTOR. B =FORD METER STOPS or APPROVED EQUAL 1 -ALL CONCRETE SHALL BE 2500 F CARRIER PIPE METER METER STOP O Setter to be placed HALL BE 2500 PSI MIN. SEE CONTINUOUS WELD BOTH SIDES IYP. 3/4" X 5/8" No. 894- 3 ~3W in vertical position 2 -ALL HYDRANT VALVES SHALL BE ( ) LVES SHALL BE SECURED TO MAIN LINE B7 RODS OR ANCHOR CPLG. USE 6"-90' BEND VALUE FOR HYDRANTS FOR ADDITIONAL SAFETY FACTOR 1" No. 894-3X4W µ 3 -CONCRETE OF PAD REQUIRED ON 4D REQUIRED ON ALL VALVES OUTSIDE OF PAVED AREA.(SEE DETAIL) 01~ C =DUAL CHECK VALVE SET MIN. 18" FROM BACK OE CURB TO CI NTER OF HYDRANT OR 1.0' FORD HHS91-323, HHS91-344, OR APPROVED EQUAL 4 -HYDRANT TO BE SET MIN. 18" FF t e T-1~ Water Meter Wltb Pru[Zead A~ INSIDE OF R/W AND MAX. 8' FRC AND MAX. 8' FROM EDGE OF PAVEMENT. D = Schlumberger Nep un END 5 -HYDRANT TO BE LOCATED 10' FR LOCATED 10' FROM P.T. OR P.C. AT INTER'~ECTIONS AND ELEVATION E =METER YOKE, FORD Y502 5/8" X 3/4"), DRIVEWAYS. Y504 1) 6 -CONCRETE SLAB TO BE 3'-TW E TO BE 3'-2"W BY 4'-4"L 8Y 4" THICK. THRUST BLOCKING DESIGN QUANTITY TABLE PIPE ENCASEMENT DETAIL FOR WATER AND SEWER MAINS ~ 5 8" & 1" METER INSTALLATION / STAN AR FIRE D D JDARD FIRE HYDRANT INSTALLATION DETAIL 1. Minimum 36" cover from to of m 'n ? I p al to ground surface. p p ~ RESILIENT SEAT TAPPING VALVE W~ 2'x2' OPERATING NUT 2. See Detail for Valve BOX Setting. a ~ ~ (125b FLANGE BY MECHANICAL JOINT) ~ ~ a WATER ~ 3/4° TEST PLUG Blt, Conc. Base course, Type HB e I-2 WATER LINE PRESSURE TESTINf~ The water lines must be tested •se, Type HB 2 Bit. Conc. Surf course, Typ Q p° a to depth of original subgrade ~ t subgrade or to 150 psi in accordance with AWWA Cb00 guidelines. ~ oo 0 0 0 6' r~tn;r,ur~ a ° ~ ° Q Q a WATER LINE DISINFECTION The proposed waterline must be O O~O ° a 0 0 disinfected in accordance with NCDEH and AWWA C601 ° < ° ° 0 0 0 requirements. a Ex'sting Exlsting a 5}~e a ~ 5ta~n~l.SS TAPPING SLEEVE 1 ~ - O 1'-0" „ Saw cut full depth in 8-1 /2 I 7-1 ~2" PLAN ~,0' VALVE OQ~~~Ap~Psa ~ a n 9 1-1/8 ~ a d e O ® 0~~, ~ ~ EXIS LNG ~ ~ m ~ / a 6-7 8' ° d ~ ,d F~ ® ~ ° MIN '<<t; ° a "~~raur~oi~<<e+. ° d a ° ° a a ELEVATION k NOTES: E THRUST BLOCK SCHEDULE> pI n T P A V 1 - 2500 P.S.I. SOLID CONCRETE BEHIND SLEEVE. SE I V C D T REPLACEMENT DETAIL )DT PAVEMEN ~~u, a u 2 -CONCRETE SHALL NOT CONTACT BOLTS OR ENDS OF MECHANICAL JOINT FITTINGS. N0. DATE DESCRIPtfDN 8Y 3 - PRESSURE TEST TAPPING SLEEVE AND VALVE ASSEMBLY BEFORF_ TAPPING EXISTING MAIN FHB 3- 75-07 DRAWN BY.~ DATE.• TYPICAL SCREW TYPE VALVE BOX ASSEMBLY SF 0~02PP1 FOR 4" 6" AND 8" VALVES STANDARD TAPPING SLEEVE & VALVE ASSEMBLY CHECKED BY DRAWING NO.. D ~ O2 SHEET Of JOB NO.: BRUNSSEN ENGINEERING SERVICES, P.A ENGINEERING CONSULTING PLANNING 36 CHURCHWELL COURT I I I 1 L. DURHAM, NC TELEFAX 919-544-1201 :SHEET TELEPHONE 919-544-1159 1 ~+00 i ~ saa saa I ' II i I i I 584 584 I I 1 E+00 1 L ~ 0 ~ 580 X80 ~ I I 580 580 I t ~ ' 576 576 i 576 ~ 576 I I I i ~ I I 576 576 ~ I ~ ~ 572 572 ~ i I~ ~ I ~ ~ ~ 572 572 I 1, I ~ ~ 5~2 I I~, ~ 568 ~ 568 I , ~ i I ~ i I ~ i 1 j ~ 568 568 1~+~~ i , ~ ~ ~ 1 i ~ I 56~ ~ 568 ~ I ' ~ 1 564 564 } I~, ~ I ~ ~ i I 592 F92 I i 564 I ~ yy 564 ~ I I I Fp4 56» i i I I I ' ' S~.. 560 j _ I p e I ~ a i i I I ~ i i ~ 1 ii I ~ ~ i i ~ 58B i i -60 -40 -2G 0 20 40 60 - -40 -20 ~~0 20 4G 50 80 i ~I I ~ ~ ' 560 -aC -6;; -a~ G 20 40 60 80 j 584 584 ~ ~ ° ~ 0 0 rn m N N -80 -60 -4C -20 C 20 a0 60 80 n V 588 ~ ;88 ;,88 . , --rte 588 ' ~ i f 1 I F. ~~6 076 I ii ~a4 I 584 584 i ~ 584 j ~ ~ ~ , I J 572 ~ ~I ~ i t i I ~ \ I ~ ' I ~ ; 584 F84 I~ i I , ~ i ,I I cP ~ .p~ Sa^ I SBI: ~~Q i i ' I ~ ~ i. ~ ~ 56a'~ Ssa I ~ I ~ ~ ' I ~ i 580 580 ~ ~ I ~ i i M I 576 576 576 57fi m I ~ I s v i ' ~ I I ri ~i ~ .,04 564 1 I I -80 -60 -4n -20 0 20 40 6C 80 -80 -60 -40 -2C 0 20 40 60 80 I ~ I ~1 572 ~ ~ 572 572 i X72 ~ I I I I 1 ,i r~ dlll ai ~ ~ ~ 1 A i 1 ~ ~ ~ i sy ~ ~j I~, i ~ ~6s 568 568 568 ~ a T J ii ~ I i o° ~ SEp~ ® 1$~~' r I ~ ~ I ~ ri ~ I ~b It ~ ~ ~ I 564 I 564 564 564 I~ Oti j i ~ H, I !0 I i li N ~ c0 d ~ ~ N cC i I 9 ~ r ~ ~ r ' ~ I ~ i N ~ 560 560 560 560 -60 -4U -20 0 20 40 60 80 -80 -6C -40 -20 0 20 40 60 80 ~ I"l r-- ~ 1 i i ~ \ I, I ~ ~ \ ~ - ~ 15+00 76+00 11+00 ~ 14+00 12+00 1~+00 14+00 ~~I,, 6G8 - 608 616 i 616 ( ~ ~ i i i I i i i I I i I I I i ~ ~ i 624 I 620 ~ 620 624 i I F92 I I i I ~ ~ 592 I I i, i , i 600 ~ 6CG I ~ i I ~ ~ i , 1 i i i ~ i S1L ~ ~ 604 ~ 604 832 ~ , i I I ~ i I 620 620 I 616 616 ~ Sea ~ 5ae ~ 596 4~ I i i I i~ ~ r ~ I ~ I I i ii i ~ ~ ~ i i i 608 ~ ~ ~ I , ~ nea I ~ I I 60~ 60o I 616 616 612 612 I _ I I I I ~ l 584 X84 ~ ~ I I ~ I i ~ ~ I =c ~ i ~ ~ ~ i ~ i ~ 592 I ~ ,2 I i i ~ i ~ i I ~ ~ I ~ I j ~ I I I ~ I I ~ ~ i i i ~ I ~ / ~ i i ~ ~i X06 ~ ~ i 290 604 I ~ ~ ~ ~ ~ ~ r I _ ; I 604 I I ~ r r I d v 580 58G ~ ~ ! ~ ~ I I ~ ~ 608 608 i ~ ~ NN ~ o~i ~ i N m i Q~ i i 588 „88 , ~ ~ ~ I ~ ~ I -BO -6C -40 -20 0 2G 40 60 80 -gn -60 ~ -40 -20 G 20 40 60 80 ~ e one ~ u~ ~ a l w I ~ I 0 0 a ~ ~ -60 -40 -20 u 20 40 60 80 0 0 ~ ~ -80 -60 -40 -20 0 20 40 60 80 -a0 -60 -4(' -z0 6 20 4G 60 80 600 -60 -40 -20 C 2C 60v -20 C 20 40 60 80 ,I ~ ~ ~ 22+00 23+CO ~ ~ 20+00 18+u0 ~ ~+Ov ~1 +0~~ I ~ 6Y8 i 62a ~ r i I , ~ , I I i ~ ~ ~ I i 628 E28 I I 604 624 i ~ II ( ,~R 628 j ~ ~ 624 624 624 624 ~~4 I I i btu I i i I o~., ~ I ~ ~ , 028 ~I 628 I i I i I i i ~ ~ I ~ i I ! ~ ~ ~ ~ ~ ~ l I II ~ i 1 1 i I I I 624 ~ 624 I ~ 1 624 624 n cw ~ I ~ 7~ N N ~ i i i N I I ~ I i I I i t ~ CO U~ ~ ~ ~ F i I ~ N N ~ 6z0 ,20 620 020 i i i ~ i 624 i 824 i ~ I I i 4 62 ~ 024 ~ i ~ W I o i 624 ~ -80 -60 -40 -20 0 20 40 60 ~ s -20 C 20 40 60 ~ N N ~ -80 -60 -w. ~ i N N i ~ I ~ ~ I ~ I ~ ~ r i I i ~ N N ~ ~ - ~ -40 -20 0 20 40 ~ 620 ~ I -60 -4C -20 C 20 40 60 60 I~ ~ I -00 -40 0 2G 40 6C - - - 6G 80 _ :I I =^.a ~ ~ "ice I i I ~ 615 -80 -40 -20 2C; 40 60 ~ ~ ~ I ~ ~ , ~ I ~ i ~ i ~ ` I ~ ~ \ id 14+ I'~i i I, i ` I ' 592 I ~ , „ ~ I i I I i i n 1,~+.,0 2+~0 15+00 I, i~; ,vR ' Sae I I L~ I I I~ I ~ ~ I ~ ~ 1 ~6+00 ~ ~ I ~ ~ I ~ ~ I ~ , ~ V 588 ~ 7 i _ I v ~aa ~ 580 ~ , ~ ~ i \ I ~ , ~ ~ ~ ii i~ I I ~ ~ I ~ I I ~ I, ; ~ ~-i ~ 1 ~ I I ~ I I I ~ ~ I 584 ~ i6 ~ ~ I ~ I I ~ ' ~ 584 584 ~ , 58C , i 580 i i I 584 ~ ~ ~ oA®~ 14~ pp® I i I A~0 ~ ~ i I i I~ ~ ~ III ~ ' I ~ ~ ~ ~ I l I ~ ~ ~ I q®, a 5'6 i =''6 I i 4 580 580 Q 53 ~ ~ yea ~ i ~ ~ ~ I ~ I i I ~ I !i I i ~ ~ ~ w I I i ~ ~ i i I I 4_ ~ ~ ~ 5?6 i 580 ~ ~ 580 _;6 ~ i I I j I i i i ~ ~ ! i ~ ~ ~ 580 580 ~ S ~ ~ ~ a I p I 6 ~ i i i ~ ~ I I ~ ~ j i i ~ ~ ~ i i i ~I ~ \ ! ~ ~ 5'2 I 580 ~ 580 576 ~I i 5r6 m`' I I `6 qao a i I ~ ~ 5 2 ~ ~ ~ I i I~ 1 I I I ~ l i ~ ~ ( ~ i ~ i I I ~ ~ ~ , ~ ~ ~ , r t i ~ I 'I I ! ; ~ _ ~ I 5'6 576 , 576 ~ 576 ®~ae~aapugio9~e~ i ~ I' I ~ i I ~ i I I ~ I ~ I \ I I - I ~s I , I 508 568 I I ~ I i 76 s72 ~ ' S%2 5 ~ ~ ~ I ~ ~ ~I ~ I ~ I I I~, i ~ ~ I ~ ~ ~ I i ~ 572 572 56a ~ 565 , 572 I ~ I 572 I ~ I I I ~ ~ ~ ~ ~ I ~ -,4 ~ 572 i ~ c- 5s~ 568 2 I A i ~ 564 ~ I i i i ~ I i ~ I I I , i , ` 5sa " R G 64 I 568 ~ 568 N LL~ ~ V .,64 ~ ~ , i ~ ~ ~ I ~ ~ i \ o of i 1 I ro ~ ~ 'v I N iJ i I I ~ r I ~ I ~ N ~ _ ~ ~ I I' I I 568 i n ~ ,6t, ~ N ~ ~ I i 64 a 56S 564 5 _ ~ ~ n 8C 581,80 -SO -40 -20 0 20 40 60 80 -80 -6C -40 -20 0 20 40 6Q 80 -50 -40 -2C 0 20 -8D 6J -40 -20 0 20 4. 6D -2C 0 20 40 60 80 -60 -40 -20 0 20 40 60 80 -8C -60 -40 -20 0 20 40 80 ~ ~ P ~ i 1 I I ' %i i. i~ I v i ~ ~ i ~ A TYPE OF LAND COVER AREA TN EXPORT TN EXPORT i FF FROM USE COE ~ YR LBS/ ~ ~ LBS/AC/YR SILT FENCE LINE TABLE CLEARING LIMIT LINE LENGTH EEFRING u lp~po sara9~2p•u LOT c4 I PERMANENTLY PROTECTED, IS ROW LINE L2 231? N81'S295'V La aasT sls'ao'se'E v'dYNGATE SUBDIVISION L4 37.24 S2p'04'2"E ~ UNDISTURBED OPEN SPACE ~ivisioN 5.01 0.6 3.006 Ls aa.aa slz•fe'2z'v PB 58, PG 155 155 ' FOREST, UNMOWEN MEADOW l ~ LGT 23 I ~ WYNGATE SUBDIVISION ~ r ~ PERMANENTLY PROTECTED ~0E N81°54;38'W I PB 5a, P~ 1~5 MANAGED OPEN SPACE GRASS ~ , 288.5 w i, I LANDSCAPING, RESIDENTIAL b 8 I 21.112 1.2 25.334 YARDS, ETC) CONSTRUCTION SEQUENCE 4o,24s sq.ft -"~~;°w l.ft. I 314.09 0,94 acres 1. OBTAIN ALL NECESSARY PERMITS SF=21,822 sq.ft. e5 sq.ft. ~ IMPERVIOUS SURFACES {ROADS AND HOLD A PRECONSTRUCTION MEETING WITH THE CONTRACTOR, OWNER sHALLOw 2. SCHEDULE w , AND EROSION CONTROL OFFICER PRIOR TO START OF TIMBERING, DEMOLITION, CLEARING PARKING LOTS, DRIVEWAYS, ROOFS J 5 ,;r 5 46,558 sq.ft. 3 PAVED STORAGE AREAS, ETC.) 3.284 21.2 69.621 EDROOM 1.07 acres M b OR GRADING. AT THIS TIME THE MAIN ITEMS OF THE PLAN CAN BE DISCUSSED FOR IMPLEMENTATION. 40,305 sq.ft. BEDROOM ~ ~ SF=19,028 sq.ft Im 3. INSTALL RURAL TYPE MAILBOX ON THE SITE TO HOLD A COPY OF THE APPROVED EROSION 1.06 acres SHALLOW b CONTROL PLANS AND TO PROVIDE A PLACE FOR THE INSPECTOR TO LEAVE REPORTS. sF=20,377 sq.ft. SHALLOW TOTAL 29.406 97.9608 4, CLEAR ONLY ENOUGH AREA TO INSTALL THE INITIAL EROSION CONTROL DEVICES. (GRAVEL 5 CONSTRUCTION ENTRANCES SILT FENCE AND SEDIMENT BASINS. EDROOM , tiy~ 6tih~ 5 5, INSTALL THE DRAINAGE PIPES ON WINDFALL LANE. THE DRAINAGE AREAS ARE WET WEATHER 6 Y BEDROOM AND DO NOT REQUIRE SPECIAL CONSIDERATION, 3s,616 sq.ft. T INSTALL ~`'~F 0.94 acres , ' ~ 6. INSTALL THE DRAINAGE CROSSING FOR FRAM LANE. DO NOT CROSS STREAM 0 JcSEPH~NE HaRRisoN sF=ls,os3 s t. ' ~ LOADING - 97.9608/29.406 = 3.33 PIPING. PIPING MUST BE INSTALLED FROM WINDFALL LANE SIDE. INSTALL ENOUGH PIPE sa - E - 37~ ~ ULTRA SHA ow 9 ~ ~0 42,365 sq 9 58,529 sq.ft. 3 42 365 s .ft. 1.27 acres M o q SF 18,202 sq.ft. I~ ~ ~ TO CROSS STREAM WITH MACHINERY. ONCE TRAVELWAY IS ESTABLISHED REMAINDER OF PIPE 0.97 acre 0.97 acres SHALLOW g ~ H F ~ F=18,230 SHOULD BE INSTALLED PLUS THE UPSTREAM HEADWALL. y 5 5 oNVEN~no F=18,230 sq. ~ ~ ONVENTIONA PERRY A. SLOAN m i 5 SL ~A NS ' BEDRO M , BEDROOM d 7. ROUGH GRADE THE ROADWAY. H Tp~i. vP~ ~ ~ R, ; ~ , ZOOM OL MEASURES TO ASSURE THAT THEY ARE FUNCTIONING AS DESIGNED. ~ ~ 8. MONITOR EROOION CONTR , 9. FINISH GRADE ROADWAY, STABILIZE ROADWAY SLOPES, SEED AND MULCH. 10 INSTALL WATER LINE. ~ , l:ngineei's Certification(s) . I AL UTILITIES ,4 6 rfitication ol'Storm~~~atcr Mann rcmcnt ~~i 11 N ST L 48,601 sq.ft. Ln~mcet s Cc 12. INSTALL ABC STONE AND PAVEMENT 0.94 acres ~ - 5 SF=16,477 sq.ft I 1/~. BEDROOM The en ~inccrin T certification required on Stormwatcr Management Plans and 6 6 16 canstruction Plan drawings shall he of the following loan: 13. FINE GRADE SHOULDERS ULTRA SHALL 67,742 sq.ft. a i AL ITCH TREATMENTS ' ' ~ 14 N ST L D ~ ,~'s~ 10 . I 1.63 acres Mw N 15. SEED AND MULCH ALL BARE AREAS. , ~ ~ ~ 4o,os2 sq.ft. i,r 0.92 acres SF=14,497 sq.ft IPM ~ , SHALLOW g ~ inginect's Ccrtiiicaiion of Slormwalcr Managcm~nl A R MOV TEMPORARY EC MEASURES AND RESEED ~ _ 16. AFTER ALL GRASS IS EST BLISHED, E E , , SF-15,062 sq.ft 1s 15 ~ ~ 1 SHALLOW 47,749 sq,fi BARE SPOTS. , ~ ,1 ~ 47,749 sq,ft. 5 i certif that this plan will meet the Nitrogen Lxporl Reduction, and Peal< Runoff Vo ume 1.10 acres Y E A AR STABLISHED CLOSE OUT CONTRACT. 5 ~ t.to ocres 17. AFTER ALL REAS E E BEDR00 ~ \ ~ SF 18,554 s~ SF=18 554 s .ft. EDROOM nts asset forth b the Oran ~e County Stormwater Management Ordinance, and q requtreme Y 6 ~ \ SHALLOW SHALLOW n This plan meet or exceed the 5 Qtat the pa~mancnt Nitrogen Reductton I3MP s shown a 1 au+u~ BEDROOM ~ Ines in the Oran ~e Count Design Manual. m0ee®b~ ~r~r~r e,ndel 6 Y a®e 1~~ a. 5 ° ~ \ EDROOM 4® O ~ ~ , ~ ~ l .C. SLAL: _ s \ ~ ~ ~ 3 SERI ~ 4 ~ 11 14 DRAINAGE STRUCTURES ~ ;o EDROOM A 41 032 s .ft. 47,266 sq.ft. ~V 'IGNATURI:: ~ ~ s m 9zaa~ -o) a.ft. WINDFALL LANE 2 ~ q 1.os aces sq.ft. 5 D! _ es~ , 40,092 s .ft. 0.94 ac es SF=19,002 sq.ft. 5 STATION 11+60 ® q SF 16,984 sq. NvENTiONAI i 0.92 acres HALLOW CO FOR )NAL s ~ ~ ~ ~ EOROOM i, , , , iy y. ~ 30 RCP - 90 LF 1 "DIA SLOPE DRAIN ~N sF=14,181 sq.ft. 2 ~ s ULTRA SHALLOW ~ ` i y~~hon#ttir~it RIP RAP APRON ` TYPICAL ALL LOACATIONS - } Q 12 ~ STRUCI STONE DIA - 6 STRUCTUR 43,127 s .ft. , q APRON LENGTH - 12 - 0.99 acres 45,588 sq.ft. ~ R „ 1 ~ SF=18,993 sq.ft. 1.05 acres 5 STONE THICKNESS - 12 ON FABRIC 5 SHALLOW =14,095 sq. EDROOM BASIN 1 - 15 X 35 X 5 DEEP ' oNVEN>IONA EDROOM ~ ~ WINDFALL LANE BASIN2-15'X44'X5'DEEP ~~,°\s~ SEDI ENT » > STATION 16+95 BASIN 3 - 15' X 25' X 3' DEEP ` ` ENT J, BAST 30 RCP - 86 LF _ - 5 , /~l / BASIN 4 15 X 25 X 3 DEEP ~ ~ ~ RIP RAP APRON _ ~ ~ 3 EDROOM ~ „ BASIN 5 15 X 25 X 3 DEEP EDRO STONE DIA - 6 _ , ~ , 4 ,a31 sq.ft. , BASIN 6 15 X 25 X 4 DEEP + ~ 103 ages APRON LENGTH - 12 SF= ,770 sq.ft. ~ 5so , » uLTR sHAUOw EDI STONE THICKNESS - 12 ON FABRIC ~ ~ ,r ~~'i i ~ BAS ~ , ~ b SILT ENCE , ~;1 1 j, , OUTL T s / ' ~ u~F ~ p , FRAM LANE ~~y STR U C U RE DOE T.,ICKARD DB 244 PG 600 STATION 11+60 3 ASIN 5 Bp 60 RCP - 96 LF WITH HEADWALL ON UPSTREAM END 7p BAST 3 N PR N ~ 1,, RIP RAP A 0 NOTE: STONE DIA - 13" KI RS FLOATING ~ ` CREEK ALL SEDIMENT TRAPS WILL USES MME ( ~ APRON LENGTH - 32 I WEIRS) AS THE OUTLET STRUCTURE AND BE BU LT BAS STONE THICKNESS - 18 ON FABRIC A F IC D M RG NCY SPILLWAY. ROCK !'r' WITH ABR LINE E E E , BAS 4 IN 6 OUTLETS ARE NOT TO BE USED. ~ , ~ \ ~ ~ ~ ti~ ~ 'j LT ~1 1~ N ~g41k1!# ! u ~ p~s ENCE T as c ` 0~®®~ e~~~ ~ 1 ' WEIR OUTLET IS ~`g s E D G F pgg ' Q ti ~0 FABRIC LINED ~ a ~ + e CLE RING NO RIP RAP ~ ~ - , , . SEAI ` ~ LIMI ~zas \ ~ y'/i ~i , SILT ENC DEPTH WITH 1 FREEBOARD - ~ ;;/rr3~ , , ~r w g ~,A~e a~a~, OUT ETA - ~ 5 ~ ~ EDRi EDROOM ~,6~ k ~ ,~o LO SPOT ~ , I , '~#t9i1411~~F~ ~ '1' ,via I ~ ~ z w w ~ ~ SCALE 1"=100' W U U . ~ ~ 5 L~ z Z , 1 ~ 4 BEDROOM 10 WIDE w ~ , ~ N ; BEDROa JM ' 65,507 sq.ft. w 15 WIDE ~ ~ ~ ~ ~7 s~ 1.62 acres SF=16,207 sq.ft, MIN. WIER - ~ / ~ ~ F- ~ ~ , ~I SHALLOW ~ ' ~o WIDTH _ ~ ~ 18 ~ ~ 18 S MMER 1 54,511 sq.ft, 1.28 acres 11 sq.ft, 3 acres WITH SF=18,246 sq.ft. ,246 sq.ft. OUTLET ULTRA SHALLOW i 19 SHALLOW 1 5-10 EC COMMENTS FHB ~ 59,017 sq.ft, ~ ~ i,l ? ° 1.25 acres N0. DATE DESCRIPTION BY ^ - SF=14,033 sq.ft. 1 ~ 6~~~3s ULTRA SHALLOW 2c N81°52~3~ ~ TYPICAL SEDIMENT BASIN DETAIL Pat2(lt ~ 245.59° DRAWN BY FHB DATE.' 3-15 5820751 12 , \ N E NB~9~.V' S ~ RAYHORN HILLS i Nat°oa~a9~~, SUBDIVISION -SECTION 1 no 39- PB 26, PG 80 . SF TE1 ` ` ~ HILLSBOROUGH 17039' i EGICPI HUT CHECKED BY. DRAW/NG' NO.; 0102S1 6B 785 PG 34~ JOB NO.: 0102 SHEET OF CLEARING LIMIT LINE BRUNSSEN ENGINEERING SERVICES, P.A _ ENGINEERING CONSULTING PLANNING SEDIMENT FENCE LINE 36 CHURCHWELL COURT DURHAM, NC TELEPHONE 919-544-1159 TELEFAX 919-544-1201 J 8, ECTION _ Max Steel Fence Post T of Diversion Diversion to Ca ture and Existing. Public Road or Provide Drainage Awa from the °p Direct Runoff to « , t g • ite Pavement Exit Location to a Sed~ment _ Y 0 her Uff s , o v. v trapping Device Slope Drain «a~ ~ a c c cEq ~I{) o ~ i 1. Excavate a 6"x6' trench along the K"' ~ ~ ~ location of the fence. Drive is Wire Fence I FNter fabric r waq q0> ~ £ q L aw P to ~ I I ~ ~ g i a v ac • a o q Gravel Exi ~ : _ : t ~ ~ ~ -a ~ I , 18" Into the gground ae the ower Hardware Cbth on ~ ~ r side of the trench. Attach wire Ground 07 y Ern W d.. ~ ~ W q ` t ~ . 51~ , r ~ J r c. I ' fence (hog wire) to the ppoossts and a, > tend the bottom 12 into the trench. fit ~ t c ex er of 1 " Diameter q° 3 , o~ m ached Stone 3 ~ m ~ ~ w m W E z: ~ o aci tco t Keep a Broom ath Bottom of Diversion o i F q ~ t q c to v Shovel Close tD Channel o m aw q c q a W t N It to Clean the , _ cc c 8"x8" Trench ; a c t Street ~ Q ~ to c Eta ~ c w o ~ v~ / Q ~ a f. c_ Bury Wire Fence and HaMware Cbth t ~ 'c~ ~ ggno d L ~ q ~c~.. ~aQ„ a~ ~ oM Slope ~ ~ x - ~ ,a«;, - ~ t r q oo m m a ~g~~~c PLAN 4 _ o . Cq" c a: ~ N t N `~tz P Staked t0 \ ~ ~j. 3 ~ ~ : , _ 2. Attach the tgter fabrk to the wire - Lance with s and extend the 'it I , ~ E E ~ c ~ N m ~ / Place - bottom 12 the trench. Use a _ synthetk fliter fabrk. ~3 c._ m to ~ 50 Minimum . s,: _ o ~ t O v 12' Minimum 9Q NQI S!~€ BURLAP ! ! ~ Z'tOra+N - - r. • 1 t 1 + 'NNW w ~ c, ~ t .O • e~ • , • ~ ~ . rv ~ c Place the inlet borer than the 1 • It is Advisable to Provide a The Exit tocation ililust Sklpe Away ~o tr, a+ . ~ - . ~ ~ to t:ntrance to Reduoe fnom #Ire Street S Must Be surrounding area to lnaease ' 1 ` ° ° o ~ t and Toren Grad) D ons, Etc. to the head on the pipe and Increase ' ~r--• 1' _ , c afflc Across the Exi . nnyy, fbw. ~ ~ ~ ~ Silt Slit fence . - fence Wear and Maintenance , . .Preven flunoff flow) into the treet . ng m ~m cOnsa x, c ' . 3. Backflil the trench and oornpact soil to securely anchor the bottom. End fliter Fabric Here w~cW _ «.wv t; Dischargge~ Must Be Directed - t,;~ = d c 5 ~to a Statiie Outlet or ~ ~ , ,t ;,,r q • Sediment•trapping Devkx ~ i 8` La 2.9" v' . , ~ , ; . ~ - le MIN. ~ r~ r St01Ee s was r~al V T o ,SgCtIOn r g Steel Post y c - ~ .+a. _ q_ w ti ~ ~ ~•I - it nAC ~,.v • . q • • • . a , y r......•. ~ •r•1 r~ « ~ - « F - NOT Chick~rr Wire qOC q.• q $ 3, Synthetk filter Max. , Fatxic . Q~w 1, r •yra~ •.I,A as ~ eSiri'lM••s;. -C sl qA9 ~ Wire fence 2' - ~ Bottom of Burled MM• and Fliier fabrlcT~ Top of Silt Fences Must ~ qv L « U 0 t n t 7~"!y E ~ a ~ $ Foundation of Compac ed ~ , in the Excavated 8e at beast 1 Above FRONT yam( ~ _ ° a"- O1 Crusher Run Starve S~Q~e both the inlet and Q . c ° c utlet to increase Flow fl m d y , ~ - N~ ~ . , q~=' to the Pi tl the Top of the Washed ~-~.i i3u Wlre Fence, ~ ~ II Stone ~ ~ Fllt~r Fabric, repo fa 12 of the fence andlabric on the Ld3 ~ ~ Fiauee'.~f illustntioo of a Ripgp Aproa Eurgy Dissipator. ~ 0 An table alternative to burying the bottom of the Ii t 8„ and Hardware ens lal Y ~ Or- Figure j: Nlo,tratioo of a Gravel Coastructioo Exu. f .cover it with 6" of washed stone, but not jut sot. ~ Steel Fence Post Set Max. 2' Cloth In Tr~cl and Apart figure Illnstntion of a Sitt Fence Ontlet. b O N ~ INSTRUCTIONS FOR ' ; ~ Fi~ure j: Illustration of a Slope Drain. V ~y~ 1; Illustn[ion or Silt Peace lasullation. N INSTRUCTIONS FOR o qL E ~ INSTRDCTIONS Fox ROTECTiON c fl,•. x v STONE APRON OUTLET P o «E16~ ECTiO TxsTRUCTIOxs FDR _ SILT FENCE OUTLET ~ ~ o E m GRAVEL CONSTRUCTION EXIT INSTALLATION ~'•r y 0 ` C INSTRUCTIONS FOR SILT FENCE INSTALLATloll ^ INSTALLATION ~ - O q q - 1. REFER TO THE PLANS FOR LOCATION, :EXTENT, AND SPECIFIGTL r. a AMID SPECIFICATIONS. HE LOCATION, EXTENT, INSTALLATION 1. REFER TO TKE PLANS FOR LOCATIONS AND SPECIFICATIONS. DURING ~ « o A S-FOR LOGTION ~PECIFIGTIONS. IF THERE ARE SLOPE DRAINS IF THERE ARE QUESTIONS OR PROBLEMS NITH THE LOCATION, EX O O q 1 REFER TO PLAN AND.. OR rO:THOD OF INSTALLATION, CONTACT THE ENGINEER, ARCHITE ~ Z 0 ~ ~ QUESTIONS OR PR08LEMS NITH'THE'LOCItTI011°OR METHODS OF GINEER, ARCHITECT, OR INSTALLATION OF THE SILT BARRIER OR SILT FENCE, INSPECT THE ISTANCE. EROSION 1, REFER TO TAE PLANS FOR LOCATION, EXTENT, AND SPECIFICalTIONS. IF INSTALLATION TO DETERMINE IF OUTLETS RRE NEEDED ACCORDING TO STALLATION RESPONSIBLE PERSONNEL OII THE SITE FOR ASSISTANCE. BROSIO INSTALLATION CONTACT TEB~IIGIREER,~:ARCMITLCT, OR.RESPONSTBLE IN CONTROL PERSONNEL HAVB COPIES OF INSTRUCTIa79 AND MAY HA' Iar9 AND NAY HAVE THERE ARE QUESTIONS OR PROBLEMS WITH THE LOCATION, 6STENT, OR THE CRITERIA SET FORTH IN THE SPECIFICATIONS FOR TAE BARRIER m PLRSONMSL ON THE SITE i!OR,RTSISSArCB. iROSiON CONTROL PERSONNEL R LOGTIONS EXTENT, AND SPECIFICATIONS. IF pgOTOGgI?pgS OF YROPERLT INSTALLED APRDNS AS AN AID TO ~ 9AVE COPIES OF INSTRUCTIONS .ARD.;PaOTOGRAPRS:OF PROPERLY ' I. REFER T'0 PLANS FO , AS AN AID TO METHODS OF INSTALLATION, CONTACT THE ENGINEER, ARCHITECT, OR AND FENCE. iF THERE ARE QUESTIONS ~ PROBLEMS WITH THE RESPONSIBLE PERSONNEL ON THE SITE FOR ASSISTANCE. EROSION LOCATIONr EXTENT, OR METHOD OF INSTALLATION, CONTACT THE IMST BXITS AS AN AID TO INSlALiSSIOM. THERE ARE QUESTIONS OR PROBLEMS WITH THE LOGTIONS, EXTENT, OR INSTALLATION. ' METHODS OF INSTALLATION, CONTACT THE ENGINEER, ARCHITECT, ~ : . AIdBD _ _ CONTROL PERSONNEL HAVE~COPIES OF INSTRUCTIONS AND MAT HAVE ENGINEERr ARCHITECT, OR RESPONSIBLE PERSONNEL ON THE SITE FOR CTL! T'ME FIRST Tll~r PHOTOGRAPHS OF PROPERLY INSTALLED SILT FENCES AS AN ASD TO ASSISTANCE. EROSION CONTROL PERSONNEL RAVE COPIES OF i RESPONSIBLE PERSONNEL ON THE SITE FOR ASSISTANCE. EROSION IF BTOR6 APRON IS MO! INSTALLED CORRECTLY FIRST IF !R6 COMSlROCTION ExI! Ii iIMBlAiJiD .C01tRECTL! !RE lIRBT ONTROL PERSONNEL HAVE'COPIES OF INSTALLATION INSTRUCTIONS AND IT NIi.L itVS !0 BE rt66iIILT. TIIR, I! HILL RAVE TO R ROMIId. C INSTALLATION. INSTRUCTIONS AND MAY HAVE PHOTOGRAPHS OF PROPERLY INSTALLED OUTLETS AS AN AID TO INSTALLATION. MAY HAVE PHOTOGRAPHS OF PROPERLY INSTALLED SLOPE DRAINS AS AN INSTALLATION. 2. DETERMINE TaE LOGTiON ON THE GROUND TARING INTO 2. DETBRNIM! TBL IACATION ON TBE GROOMD, OARING INTO AID TO NG INTO IF THE SILT FBHCE I6 HOT INSTALLED CORRECTLY TAS FI~tST TIME, IT ' HILL HAVE TO BE REBUILT. IF TH6 SILT PENCE OUTLET I6 aOT IMSTaJ.LED CORRECTLY THE FIRST CONSIDERATION: CODISIDBRATION: { .r ac-• ~-t>+ - - - IF TH6 6IAPE DRJIIM IS IiOT INSTALLED CORRECTLY TRB FIRST TIME, ACH THE IACATION TO DETERMINE THE LOCATION ON THE GROUND TARING INTO TIt~, IT MILL HAVE TO SE REBUILT. TaE~lTSTRix.TION E7fIT ST f6~tX.~?rSR~ING ALL~EASES~F iT HILL 8AY6 TO SE REBUILT.':<~` • DECIDE MON apUIP10TNT ARD'MATSRIAL MILL BEACH THE LOCATIO _ ~ CONSTRUCT "PaL APRON. DD MDT 'PAINT iOURSLaLF INTO A CORNE. LF INTO A CORNER' AND CONSIDERATION: 2. DETERMINE THE EXACT LOCATION OF THE ODTLET BEFORE COMPLETING CDMSTRUC"Fii~i j~F:!'BS~AO?T~~td~~ ~aDED, ;?1~EaJRIT Ia1ST BE 2. DETERMINE THE LOCATION:ON THE GROUND TARING INTO PLACE FILL, STRUCTURES, ETC. !MAT COULD aIACK AOCESS. INSTALLED FeR !M6 IRITLiL`lb~, ~D 1tD.L?LLOM~l1DIMG THE IACX AOCESS. INSTALLATION OF THE SILT BARRIER OR SILT FENCE, TAXING INTO • A SILT BARRIER (PREFABRICATED SILT FENCE) CANNOT HL CONSIDERATION: LOCATION, AMD REPIaCLD DlSl;DLTiLY a!!aR QRADING SO TaIIT IT IS CONSIDERATION - • } .i. 6 • THE LOCATION OF IRE APRON MUST DL SOLID GROUND. IT MAY 8 IN YLIICE ~ tDNCTI01TIiIG iT SLL 3LaiS s. NECESSARY i0 ELCAVAT£ THE LOCATION 11D RffiIDYE MUD AND THE ROUND. IT MAY SE SUBSTITUTED! ! TAE SILT FENCE MUST BE CONSTRUCTED AS ' OVE MUD ]?ND THEN DESCRIBED IN THESE INSTRUCTIONS. • INSTALL TAE OUTLET AT THE LOWEST POINT(S) IN THE BARRIER OR :;y_,,,,. T ,t f ~ • THE INLET MUST $E AT•THE LOW POINT WHERE RUNOFF CAN ENTER THE :~:y; C ~ _3 £ SLOPE DRAIN. SACRFiLL MIER GOOD MATERIAL. 19I6 IS NECESSARY SO THE ST • IF SRE SITE IILL'IAVE ATi~iR:~~~ICLES~6A1G:T8E' SSART SO TAE STONE FENCE WNER£ WATER WILL POND. ULD REQUIRE MUCH YlDRE « A[,LOW SUFFICIENT SPACE FOR MAINTENANCE, GRADING, PILLdNG, AND T DIRECTS THE INLET DOES TrOT DISAPPEAR INTO THE MOD, MHICH MOULD REQUIRE MUC EIIT, IT IS,ADVISARLE TO SaaR ~ Mtti~ iI1FRANCL SMA ASEDIMENT-TRAPPING DEVICE MUST BE PLACED AT EITHER. STONE'S C01@LETL THE APADN AND 101EE INSTALWTION DIFFIC • ENl;RING TRAFFIC'l~OOBR #!@ARRlE lRAVatSAY PARALLaL~4'O?THE • RELATION DIFFICULT. pT7[ER CONSTRUCTION ACTIVITY BETWEEN THE SILT FENCE ARID TAE « INSTALL THE OUTLET WHERE IT IS ACCESSIBLE FOR INSTALLATION, CONSTRUCTION SITE. IF NECESSARY, HAVE SLOPE STARES, BDJII,DING MAINTENANCE, AND REMOVAL. GRAVEL COMSTRDCI'[ON a[It 1M lO~DOL TAB M~ OF TRIPS OR, PREFERABLY, AT THE OUTLET. a 3. CLEAR TaE LOCATION OF THE APRON. LEAVE AS MOCH pF THE EX Ia7CH pF THE EXISTING CORNERS, STORM DRAINS, ETC. SURVEYED BEFORE CLEARING TO GUIDE OVER !!OS B'I~,~MCRER$D11G~E.lIIMj,3i~~ GRAVQ,y*~IiDitEDUCING • NHEN USED DOWN A STABILIZED SLOPE BELON A SEpIMENT-TRAPPING VEGETATilNi #S POSSIBLE AR01#D THE LOCATION 1+0 aoLD THE Si MAiMTERAMCE RElaItTO T~ ¢L9ilRATIeL~SDETA$,a: iDiRRlS:,`•, PLACE AND REDUCE TAE ARE? TRAY HILL HAVE TD BE STABILISE' , a DEVICE, INSTALL THE SLOPE DRAIN AT THE SAME TIME AS THE DEVICE. H 1~0 BZ)LD THE SOIL IN INSTALLATION. RrON NAERE THE TOE OF FILL STAPES MILL EI(TEND SO « ALLOW AT LEAST: !O HE STABILIZED THAT SUFFICIENT ROOM IS LEFT BETWEEN THB TOE AND SILT FENCE FOR !RUMOFl. RND.~tDI(EMIT_l~OI ~~~L~ '-'!B DIRBCI'RD .lp1Y .FROM AFTERWARD. MAINTENANCE, REPAIR, AND REMOVAL. 15 FEET BETWEEN THE BARRIER OR FENCE AND SINGLE-STORY TRENT S0: A_OBS ;~IAN~•STREET~R.A1RaR OFF- ' WHEN USED DOWN A FILL SLOPE, INSTALL THE SLOPE DRAIN WHEN THE SIR IKEA. .T~T2 ~ ~RIT~MAT;RILZ MAELSIT FILL REACHES 5 FEET HIGH. AS GRADING PROGRESSES AND ADDITIONAL EXGVATB 11ta SO'I'TOM TO T~ RRQOIRED DEPTH TO ACCEPT THE "lO ACCEPT THE STONE • ALLOW AT LEAST: BUILDINGS. E BOTTOM OF THE 25 FEET FOR FORK LIFTS BETWEEN TKE BARRIER OR FENCE AND , JrDOAT,IOKrirOR ~ FILL IS PLACED, RECONSTRUCT THE DIVERSIONS AND RELOGTE THE AND THE FILTER BLANKET. MaBM lINISHED, THE BOTTOM OF THB EASY td DIVER! TaE RDMOR !O iEDI1~WT-TRIIPPIWG DLYICiS.~ APR~i MUST BB LEVEL NI'!!S !MQ a0TT011 OF '1MS CHANNLLi THER - M:•- r.;t::, q¢t,r;•,: _~::G G` 2.. SLOPE DRAIN: g CHANNEL; THERE 15 FEET BETWEEN THE FENCE AND SINGLE-STORY BUILDINGS. MULTIPLE-STORY BUILDINGS. • IF !RL CRAVA.?P0'~'+'~~=~t~T'tfIMCTTON;'!rD aEEP:MUD CANNOT D)t i~ l~YBBFilLL ~ f~ tiit~ tiF ~ lPBQL• AND DUST ON-SITE, THE61 ISIY~QSL~a DaaafSlIRIICRED~ROMTHE'SITE PTI~ EETEEN TAE FENCE AND MOL -STORY BUILDIHGSi. 25 FEET B TIPLE 10 FEET BETWEEN TAE BARRIER OR FENCE AND THE TOE OF FILL MUST BE PHYSiCALLi:BEMOVED lROM'RIIE56 aREAt aY lIRST iISING A 3. ANCHOR THE INLET AT THL TOP OF THE SLOPE. DRIVE 1~ 6ROI S. PLACE FILTER aI~T, AS SPECIFIED TN THE PLAN, OVER • STARES DN 90TH SIDES OF THE INLET 18 INCaES INTO LOCATION AMD aDER TtQ LIP OF TH8 FLARED SND SECTION. THE PLAN, OVER THE SLOPES. EMiD SECTION. 10 FEET BETWEEN TAE FENCE AND THE TOE OF FILL STAPES. SHOVLL:IIND iR00tl,AND 3'a6ti MASMING;T'RL PAVFamP1' - z USE WIRE OR CORD TO SECORE THE PIPE TO~fRE STARES. COVER TME k - PIPE WITH SOIL AND COMPACT IT AS SHOWN IN TNB ILLUSTRATION. 6. PLACE Tt$ BPtCIFILD STONE TO THE R64t1IRaD DIl~NSIONS AND • PLACE THE OUTLET SO THAT WATER PLOWING THROUGH IT MILL POT DIlEHSIONS AND SBAPE • MHERE POSSIBLE, INSTALL TAE SILT FENCE ON THE CONTOUR 30 THAT CREATE AN EROSION HAZARD BELOW: AVOID STEEP SLOPES BELON T![E • IF lRt PRRSOM-RESFORSIf1i FOR S'RS OISTDRRIML'R /atri !0 ?Att _ ZNITIATEVE 1'0 RER /OIL R;1D DEaRI6 RR TaE illR #MIORrRIiMT ~ ~ THE'CONFiGORAlZ~ j~ ~ !Q RUNOFF GOES THROUGH TME GILT FENCE AND DOES NOT FLOW SSONG THE OUTLET AND AREAS WITHOUT PROTECTIVE VEGETATION. USE SLOPE SILT FENCE AND POND AT THE LOWEST POINT. WHERE PONDIlT~ DOES DRAINS IF NECESSARY. T LAY THB PIPE DONN TH6 STAPE. WHERE PREPABRIGTED DRAIN IS USES,. ACTION !N! K L' RRM ASAlar! !Mi iESR aaD SMR oRADI1r0 lRIMiI OR A fTeP MBaR aaaMR I/i!#M. OSE RODS oR STARES AND ATTACH THEM AT EACH GROMMET ON THE PIP 7'.• STABILISE THE AREA AROOMD !B aPaoN TYT MAC DISTURitD D REVORRD RMS/ DRIVE 1-INCH SQUARE CONSTRUCTION. USE ADDITIONAL STOM6 eR gRGRTAlIg1, NNICBE ~ DISlUaatD DUPING OCCUR, SILT FENCE OOTLETS MAY BE NECESSARY SO THAT TEE FENCE a"plllgr, NMIICAEVER IS pOES NOT COLLAPSH. • • DETERMINE THE LOCATION OF THE OUTLET: FORA ;jj,p >sAati,>:a, WHEN NHERB CORROGATED PLASTIC PIPE IS ~ED,~ SIOLS ~ ,r,ME PIPE; I ioF:aaE I M~Sr'~0015„i1ND STARES le INCHES INTO THE GROUND Plra ~ ~ STALES APMtOPRIAEE FOR THB •ETOITIeR. 3. CLEAR TBE TgCll! ~ ~ ~i .CLEAR THE LOCATION OF THE SILT FENCE, CLEARING ONLY N!m?T IS TAE TREIICH IS DUG TO BURY THE BOTTOM! OF THE FABRIC aECADSE THE 3. BARRIER NITS 8E OMITTED AT THE OUTLET; FOR A a~3LI'itt~r6r NHEN ' =OTHER 'VEGETAIir~f -tM iISDIR:. S Flair SpOMdRlEOr BO THAT SPACE TaE STARBS EVERT 10 I !ME SA10s MANNER. NEEDED TO PROVIDE ACCESS TO PERSONNEL AND EQUIPIIBNT FOHt THE MIRE FENCE IS IN PLACE BECAUSE THE FILTER FABRIC MILL BE INSTALLATION. IT IS PERMISSIBLE TO PLACE THE SILT FENCE IN THE OMITTED AT TAE OUTLET. THE STONE i6 rbT-PR~SS~D INTO BOFT I:iDiSD•;CI>AR LN00t.H NIDTH KITH HIRE OR CORD. SECURE TO ALLON PASSAGE OF LARGE VtBICIiS, a0! tilAR ONLY NMAT IS INSTRUCTIONS £OR gDGE OF EXISTING TREES AS LONG AS THE OWNER ALLOMS IT aND CARE ' DD MOT CieAR aDJACENT AREAS UNTIL THE S. ALL JOINTS IN THE PIPE MUST BE NATERTIGHT. USL CONNECTIONS NECESSARY FOR THE ERIT REQUIRED EROSION CONTROL DEVICES LR6 iM PLACE. MADE FOR THE PARTICULAR BRAND OF PIPE. FILTER STRIP IS TAXEN TO PROTECT THESE TREES DURING INSTALLATION, N![INTENANCE, AND REMOVAL IF THE TREES ARE TO RElUIIN AFTER 3. REFER TO THE ILLUSTRATIONS OF THE OUTLET IN THE PLAN. INSTRUCTIONS FOR PERMANENT STABILIZATION USING • 6. PLACE THE OUTLET OF THE PIPE MHERE IT HILL DISCHARCESOMTO CONSTRUCTION. DO NOT ATTACH THE FILTER FABRIC TO TAE T9tEES, A5 IT MARES BURYING THE TOE IMPOSSIBLE. 4. CLEAR STUMPS AND ROOTS FROM TH£ LOCATION OF THE OUTLET.'CLEAR MULCH IP YRL SOIL AT TEE LOCAlIpI IS SOFT IT IS ADVISABLE TO PLACE A STABLE GROUND. DD ROT PLACE THE OUTLET NRERS lRRE IRSTALIiTIOM 6 TO S INCA LATER 0! CROSRER RWr fTON6 DOWN FIRST ib PROVIDE A OR piSTORBED SOIL OELOM IT. WHERE THE BOIL IS NOT STABLE, q, E%CAVATE A 6 X 6-INCH TRENCH ALONG THE fACATION OF THE FENCE. ADEQUATE ACCESS FOR THE EQUIPMENT NEEDED FOA INSTALLATION, INSTALLATION FIRM FOUNDATION AND PREVENT THE MAfB6D (TONE BEING PRESSED INTO .CONSTRUCTION A STONE APRON AT THE OUTCRY. ~Q ~ SI,FAEt1Ei ~,IxS ~ D, SPECIFICAT SPECIFICATIONS. USING A 'DITCH WITCH' IS HELPFUL. MAINTENANCE, AND REMOVAL. AMD 1. REFER 1D ERB PLANS FOR I,OCIITIDMS, ERla'I, ~bOCATIOM OR 1. REFER TO PLANS FOR LOCATION, EXTENT, AND SPECIFIGTIONS. IF BLEMS WITH THE IACATION, EXTENT, OR AT !BE IAGTION OF T~ SKIT, PIKE AN S-INCH LATER OF WASHED MAINTENANCE ~ - IF TARE ARE QUESTIONS -0R ISE ~pES~pO~MSIBL6 lERSOMNL THERE ARE QUESTIONS OA PRO 4 ~ 1ACATICN OR ExTP1rT, 5, ALONG THE LOWER SIDE OF THE TRENCH, PLACE STEEL PENCE ipOSTS NO ~ 5. FOR A ,SS1,T BARRIER; MSIaL6 ~ ~Eg MORE THAN B FEET APART AND DRIVE THEM 18 INCHES INTO TIME METHODS OF INSTALLATION, CONTACT THE ENGINEER, ARCHITECT, OR STOM6 2 !D 3 iMC~3 IM DLfMETER RT LEAST 50 t66T LONG AND AS CONTACT TB ENGINEER, , 10 PELT WIDE. I. INSPECT THE SLOPE DRAIN: THE SITB FOR ASSISTANCE. QOSION CONTROL PERSOrRRL RAGS • JUST BELOW THE GAP IN THE BARRIER, PLACE R LAYER OF FILTER ' GROUND. OF PROPERLY INSTALLED FABRIC ON 2HE GROUND TO PROTECT THE SOIL FROM EROSION BY RESPONSIBLE PERSONNEL ON THE SITE FOR ASSISTANCE. EROSION HIDE AS T~ FULL NIDSR Q TB SRI! OR AT LEAS'! E ABLE ~ I! laTRTS THE PAVEMDIT SO THAT MACHINERY HAS DAMAGED THE OF INSTRUCTIONS AND NAY 4V6 P/pTOGRAPES OF PROPERLY IN CONTROL'PERSONNEL HAVE COPIES OF INSTRUCTIONS AND NAY B FLARE THE EMD OF !NE STONE . rON TRS UCTION: TO SEE IF OUTFLOW FROM THE OUTLET; PLACE 6 INCHES OF THE UPPER EDGE IN 6. ATTACH WIRE FENCE ('HOG WIRE' OF MINIMUM 14 GAUGE WITH: MAXIMUM TO OFFER ASSISTANCE. ?EE WHEELS OF SVRNIMG VEHICLES aaMAIM ON STONE AMD DO NOT g SO REPAIR IT. TO SEE IF FILL MATERIAL HAS BLOCKED FILTER STRIPS AS AN AID !0 USE. TRAVEL OVSR'UMPROTBCTED COIL. DRAIN, I , - THE INLET OR THE CHANNEL LEADING TO THE INLET; IF S0; REMOVE IF !Q /IfRSR STRIP IS IA~Rr iISlIIRRfD, ~ IIbROn MESH OF 6 INCHES) T'0 THE OPHILL SIDE OF TAE POSTS, RND: PLACE 12 THE TRENCH. STAKE THE REMAINING EDGES OF THE FABRIC TO HOLD IT ~ IMtlROlHRLT INCHES OF THE BOTTOM OF THE FENCB 3NT0 THE TRENCH. DO HMOT USE IN PLACE. IP TEE DISTURBANCE IS NOT PROPERLY AMD SUCCESSFULLY STABILISED - UBED, 0lfiR ~~T_~P~p 1~ MeiS! 1R ~ MITM itIFF BRISTLES MAST BE THE FILL AND CLEAR THE INLET. TB6 lIRST TIME SO TEAT EROSION I6 RESTRAIR6D, TRL MULCHIMO MILL 5• A g~~D SaOVRL 1MD MO011 ~ ~ 'CHICKEN WIRE.' USE WIRE TO FASTEN THE FENCE TO THE`POLSTS. THE HAVE TO BE REPEATED. PROVIDED AT !RE a=I! FOR aOgY~ AMT apD 'THAT MAY SE TRACKED • TO SEE THAT RUNOFF IS FLOWING THROUGH THE _ At~B 6SC8 OF THE SIAPE; IF MOT, RARE THE 2. pEYERirIME TQ IACATION ON !NB GROOMD, lAEING INT'0 T~ SLOPE DRAIN TO THE BOTTOM . rIHG INTO COMPLETED FENCE MOST BE AT LEAST 2 FEET HIGH AND NOT MXORE THAN r pF~NSTRENGTK. ~gME THE OUTLET WILL G0, PLACE STEEL FENCE POSTS 3 FEET HIGH. POSTS MUST BE A MA%3MUM OF 2 FEET APART AND DRIVEN INTO SOLID GROUND AT LEAST 18 INCHES. OCRS STUMPS ROOTS AND OTHER DEflRIS THAT HILL SSAAy CORRECTIONS AND/OR REPAIRS. TO SBE THAT THE CHANNEL CONSIDERATION: 2 REMOVER , , r NECE OUGHOUT THE TIME IT 7. ATTACH SYNTHETIC FILTER FABRIC TO THE UPHILL SIDE OF TBME WIRE • P INTERFERE WITH THE MULCH CONTACTING THE SOIL AND MARE DSE - ~r pI~ tp THE INLET A(!E FUNCTIONING PROPERLY; iF NOT, T CONNECTIONS ARE irATERTIGHT • THE FILLER STRIP MUST Rpl#IM arDISTORBED THROUGHOUT THE INSTALLATION DIFFICOLT. TME FENCE WITH STAPLES A MAXIMUM 12"INCHES APART, AND PLAC>£ 12 LACE HARDWARE CIATH (WEIAED GALVANIZED SCREEN WITK SQUARE INCHES OF THE FABRIC INTO THE TRENCH WITH THE WIRE FEHRE. USE 1/4 - 1/2-INCH HOLES) ON THE UPHILL SIDE OF THE POSTS TO HOLD 1. AS VEHICLES LEAVING TH6 SITa DRIVE ACROSS THE MAS~D STONE THE NECESSARY MEPSTAKBS AREESECORE; IF NOT, HALE REPAIRS. HILL BE 086D TO TRAP SEDIMEM'i. 3. FOLLOW THE SPECIFICATIONS IN THE LANDSCAPING OR EROSION CONTROL ABRASIVE=7lLTI0M OF !HE M1S® STr~ 1~NLD REMOFL tEDIMENT FROM #ND THAT ~ DEVICES • ROMOIF FROM !HE DTSTURaAMCL MUST BE ABEL TO :E'T'ON TO AND TO FIAN TO AND BE ROLLS OF FABRIC AND CUT TO THE NECESSARY LENGTH IN ORDER TO THE WASHED STONE IN PLACE. PUT 6 INCMES OF TAE BOTTOM OF THE PLAN. SPREAD ENOUGR MULCH TO COr~LETELY COVER THE SURFACE OF THE TIRES: -IT MAY `aa ~ ~ E BHO~L'TO aEMDVE M(TD SEDIMENT-!RAPPING' 2. INSPECT AND MAINTAIN THE DIVERSIONS, ENERGY DISSIPATDR. DISPERSED IN !9E FILTER STRIP DURING TILL STCGES OAF (E'ONS THE SOIL TRAPPED BETNBEN DAL MEaaI,4 ~ ~ INLET OA OUTLET, AND ANY AS THE GRADES AND DRAINRG6 ~ THE DISTURBAN STAGES DF CONSTRUCTION MINIMIZE TAE NUMBER OF JOINTS. wLO~TH IN THE TRENCH AND FASTEN IT TO TAE POSTS WITH LENGTHS OF MANGE CHARGE. g, BACXFILL THE TRENCH AND TAMP THE FILL TO FIRMLY ANCHOR. TME THE MULCH SHOULD FROM TA[ SIla NOS! aL REMOVED DMIlEDIATELY. A TION TO THE DIRE OVER 'IBC PIPE INLET. LOOK • 4. TO PREVENT WIND OR HATER FROM DISiADGING IT, 2. ANY SOIL TR11CiED BOTTOM OF THE FILTER FABRIC AND WIRE FENCE TO PREVENT M101TER • BURY THE BOTTOM OF THE HARDWARE CLOTH AND TAE UPPER EDGE OF THE LED, IT NAY BE FROM FLOWING UNDER THE FENCE; MARE IT GO THROUGH THE FZI.TER FILTER FABRIC BELOW THE OUTLET IN THE TRENCH AND COl~ACT THE . FOLLOWING aL DEED TO RRIDVE AS MUCK BOIL AS 3. GIVB SPECIAL ATTEN EN THE PIPE AND TBE SOIL. IP THIS • IF THESE COMSIDBRATIOMS CJNNOT BE FULFIMEI~ Dtj~pp~YDEVIf BE HELD IN PLACE BY COVERING IT KITH PLASTIC NETTING SHOVEL AND BROOM MOST pOR RUNOFF FLOWING BETWE N T E LANDSCAPING OR EROSION CONTROL PLAN POSSIBLE BEFORE ~?SHIMG 'PEE pAVEIEN'P. NECESSARY TO USE ANOTHER RIND OF SE f-TRAPPI]FG DEVICE. FABRIC. FILL.' THE INSTRUCTIONS I M OCCURS, REMOVE THE SOIL, REPLACE IT IN THIN LAYERS, AND COl~ACT HE INSTRUCTIONS IN IT. g, WHERE IT IS IMPOSSIBLE TO INSTALL THE SILT FENCE ON TAB: • PLACE A FILTER OF 1-INCH DIAMETER WASAED STONE ON THE UPHILL 5. IF PLANTINGS ARE TO BE INTERPLANTED, FOLLOW T MAINTENANCE I~IN!i SL6SBI1tsu. l~BQ.itiCis ~ THE PLAN. • CONTOUR, RUNOFF HILL FLOW ALONG TAE FENCE AND POND AT 35E SIDE OF THE OUTLET. PILE THE STONE UP TO THE TOP OF THE VERSIONS NEEDED TO LOWEST POINT. MHERS THE TOTAL DRAINAGE AREA TO THE PODaT OF HARDWARE CLOTH AND OVER THE JOINT BETWEEN THE OUTLET•AND THE MATERIALS, EQVI!laMT,'A~ t IW! aBI AVAILIBii PDR PROGRESSES CDNSYRUCT ANY DIVERSIONS NEEDED MAIMTBNAMCE AT #LL 3Ltif. REMOVAL 1. AS CLEARING r pONDING IS GREATER THAN 5,000 SQUARE lEET (FOR EXAIlQI,L: A BARRIER. STRIP' SQUARE 70 FEET ON A SIDE), A SILT FENCE OUTLET TS REQU3RED; RSHED HAS BEEN STpgILIEED OR RUNOFF NAS BEEN CAPYURE AMD DIRECT RUNOFF TO THE FILTER STRIP. MAINTENANCE ' • 1. °WHEN'TBE STONE TK TBE BRIT (~1'AMINATED MITR SOIL AND I• DIVERTED TO A PERMANENT STABILISED CHANNEL, THE SLOPE DRAIN CAN - WHERE TAE DRAINAGE AREA IS GREATER THAN 10,000 SQUARE BrEET' (FOR FOR A $jyT FENCE; • EXAMPLE: A SQUARE 100 FEET ON A SIDE), A SEDIMENT TRAP IS IF THE MULCH IS DISTURBED BY CONSTRUCTION ACTIVITY, IT MUST BE ITS FUNCTION TS RaDOCRD IIO MEaaE RDaMEMT iS ~~DKED INTO BE REMOVED. , RESTORED TO ITS ORIGINAL CONDITION SO THAT IT PROVIDES ADEQUATE THE STREET, A i-INQI LARK OT T.7iAM'Ml~1L NOS! 1 NECESSARY. R TRETIHSTOALLATION IN~THEMFIELD WHENLTHE MIRE • ONSTH£E ROOID) TOAPROTECTETHENSO~ PLACE A LAYER OF FILTER FABRIC COVER. iS . ~ - 2. REMOVE THE PIPE AND STARES; UNLESS THEY WILL BE USED AGAIN, L MUST B6 AVAILBBIi FOR R~Y'FROM THE QIT TO 1pTRRIA1i, RQMIPIMIMT, AIID PSRRORME 2. DIVERSIONS USED TO DIRECT awroeF DISPOSE OF THEM PROPERLY. Iaurre~Na AT ALL TIMES. AVAIIABL~ FOR PLAN, BUT IL FROM EROSION B. OUTFLOW FROM FENCE IS ~ OF TEE S~ILTEFENCEOUTLET FOR INSTRUCTIONS~D SEE 7S'HT£~EU~EET,~P RCEDGESNC~BET OF THE UPPER EDGE IN TKE TRENCH. THE DETAILS HE FABRZC TO HOLD IT IN PLACE. SEDIMENT-TRAPPING DaVICES•MDST BE gIMl~AINLD aC00RDING TO • ALONG THE GAP WHERE THE OUTLET WILL G0, PLACE ADDITIONAL SPECIFICATIONS FOR l90SE ORVICaS. 1. INSPBCT THE GRADING AND FILTER STRIP: STEEL FENCE POSTS FOR STRENGTH. THE POSTS MUST BE A MAXIMUM OF 3. THE GRAVEL CONSTRDCTION QI! MIBT !M<MiIN4rATNED BO l1UIT 'HUD AND. . Sb SEE IF RUNOFF WILL lLON TO SHE 1~ DUST ARE KEPT ON-SITE. PIQii~C BBS! 1E ANTICIPATRD rD TILL lLON TO SHE FILTER MAINTENANCE 2 FEET APART AND DRIVEN INTO SOLID GROUND AT LEAST iB INCHES. HOT GET TO esESOTRTaAT !fRl~ 'STRIP AND NOT RY-PASS i!; IF RUNOFF HILL ESE PREVENTIVE MAINTENANCE IpCT ZIE AND BE DISPERSED, INSTALL DIVERSIONS, OR iT HILL. C$A~ GRAD MATERIALS, EQUIPlOSNT, AHD PERSONNEL MUST D6 AVAILABLE FOR • yAIpTENANCE AT ALL TIM68. PLACE HARDWARE CLOTH (WELDED GALVANILED SCREEN WITH SQUARE 1/4 - 1/2-INCH HOLES] ON THE UPHILL SIDE OF THE POSTS TO HOLD REMOVAL . TO SEB THAT RUNOFF IS NOT BY-PASS 1, INSPECT THE SILT FENCE: THE WASHED STONE IN PLACE. PUT 6 INCHES OF THE BOTTOM OF THE t IS I10T HY-PASSING THE CLOTH TN':THE TRENCH AND FASTEN IT TO THE POSTS WITH LENGTHS OF • N THE FeILTER STRIP T SEDIMETNT IS CAUGHT IN TaE STRIP. ' IN THE STRIPTHAT IT • Q1aRI1S QQNSTRUCTION; TO SEE IF MACHINERY OR FALLING TB3EES HAVE 'WIRE. :PS TO ENSURE , pAMAGED THE SILT FENCE; IF DAMAGED, REPAIR IT. TO SEE 'It9AT FILL i. WHEN THE GRAVEL COIISTROClTOM QIT IS MO IANGER~r,T~CKING RUNOFF IS BT-PASSING THE STRIP, TARE STEPS TO EirSULE TH TRAVELWAYS HAVE 86EN STABILIZED AMD TiB POMETM ~ ~ GRAVEL ~ RILL FLOW TO AND THROOGH THE STRIP. IF SLDIl~MT IS GETT iEDIlENT IS GETTING MATERIAL HAS NOT ACCUMULATED AGAINST THE FENCE; IF IT ALAS, • FURY THE BOTTOM OF TAE HARDWARE CLOTH, THE UPPER EDGE OF THE SOIL AND DEBRIS INTO TiM SSRELT LAS amI CONSTRUCTION EXIT TOR BE REMOVED. , REMOVE THE MATERIAL, REPAIR THE FENCE, AND MOVE THE FEtNCE OR LTER FABRIC BELOW THE OUTLET, AND THE WIRE FENCE IN THE FILL SO THAT IT DOES NOT HAPPEN AGAIN. TRENCH AND COMPACT TKE FILL. NE AND ANY 86DIMEMi SHOOED BL RElrOVED ]IMO pR~ERLY THRWGH THE STRIP, ADDITIONAL SEDIMENT-TRAPPING DEVICES 2. THE STO RAPPING DEVICES MAY BE * TO SEE THAT RUNOFF IS NOT FLOWING; ONDER • PLACE A FILTER OF 1-INCH DIAMETER WASAED STONE ON THE UPHILL EB~t( RAINFALL DISPOSED OF WHERE TEST MILL MOT CREATE AN EROSION NAEARD. NECESSARY, OR CHANGES MAY BE NECESSARY TO MORE EVENLY DISTRIBUTE RUNQFf AND SEDIMENT OVER A LARGER KILTER.ARE+ O MORE EVENLY THHEEFENCE; IF IT IS, BURY THE BOTTOM OF THE FENCE CORRECTLY. TO SIDE OF THE OUTLET. PILE THE STONE UP TO THE TOP OF THE. ' RGBA KILTER AREA SEE THAT RUNOFF HAS NOT TOPPED THE FENCE IN LOW POINTS;; IF IT 2. CLEAN OUT ACCUMULATED SEDIMENT WHEN IT ff_£ACHES A DEPTH OF ONE- HARDWARE CLOTH AND OVER TKE JOINT BETWEEN THE OUTLET AND THE HALF THE HEIGHT OF THE OUTLET. PLACE THE SEDIMENT IN A DISPOSA SILT FENCE. AREA, OR MIX IT WITH DRY SOIL ON THE SITE IF APPROPRIATE. STABILIZATION HAS, AN OUTLET NAY BE NEEDED AT THAT POINT TO PREVENT FUTURE DO NOT DISPOSE OF SEDIMEHT'IN A MANNER T93AT WILL CRE,tTE AH AFTER CONSTRUCTION IS COMPLBTLD AND THE DISTURBES~AREANUST, FAILURES. MAINTENANCE EA06ION HAYARD. !ORBED ARBA IS ,TEA STRIP MUST BE CLAN OUT ACCUMULATED SEDIMENT WHEN IT REACHES A DEPTH: OF ONE- STABILISED, ANT SEDIMENT DBPOSITS IN THE FILTER STABILIZED. USE AN APPROPRIATE TYPE OF VEGETATION OR USE A ' 'ATION OR USE A HEAVY 2' F THE HEIGHT OF THE FILTER FABRIC. PLACE THE SEDIMEHR IN A MATERIALS, EQUIPMENT, AND PERSONNEL MUST HE AVAI FOR HAL LABLE 3• WHEN THE STONE FILTER BECOMES CLOGGED, P4lEVENTING FLOW THROUGH LAYER OF NOI.CH. DISPOSAL AREA OR, IF APPROPRIATE, MIX IT WZTH DRY SOIf~ ON THE gAIRTBNAMCE AT ALL TIME. TKE FILTER, REMOVE THE CONTAMINATED STOMA, DISPOSE OF IT PROPERLY, AND REPLACE IT WITH CLEAN WAS~D STONE. SITE. 1. INSPECT THE SZLT FENCE OUTLET: „ DO MOT DISPOSE OF SRDIiENT IN A HANKER THAT WILL CREAZa AH 4. REPAIR THE OUTLET IF DAMAGED BY USE OR DLURING MAINTENANCE. EROSION EAEARD. DO HOT ERECT A NEN GILT PENCE OM TOP O>N • DURING CONSTRUCTION: TO DETERMINE IF MACHINERY, FALLING TREES, REBUILD IT TO THE ORIGINAL CONFIGURATION. ACCUMULATED SEDIMENT HEHIHD THE FENCE. ETC. RAVE DAMrAGED THE BARRIER, FENCE, OR OUTLET; IF DAMAGED, OUTLETS ARE USED REMOVE AND REPLACE THE STONE lrAXE REPAIRS. TO SEE THAT FILL MATERIAL HAS NOT ACCUMULATED 3, IF SILT PENCE , AGAINST THE OUTLET, BLOCKING OUTFLOW; IF IT HAS, REMOVE THE REMOVAL ALL DETAILS ARE ILLUSTRATED FILTER WITH CLEAN, MASHED STONE WHEN THE FILTER BECONE3 MATERIAL, REPAIR THE DAMAGE, AND HOVE THE FENCE OR FILL SO THAT G COUNTY I. WHEN GRADING SN THE DRAINAGE AREA ABOVE TBE SILT FE IN GRAN E FINISHED AND DISTURBED AREAS suFFICIEMTLY STIIBILISf ROVE THE SILT FENCE HAS BEEN CLOGGED. DISPOSE OF ANY CONTAMINATED STONE PROPERLY. IT DOES NOT HAPPEN AGAIN. 1. WHEN GRADING IN THE DRAINAGE AREA ABOVE THE OUTLET HAS BEEN IElITLY STABILIZED TO COMPLETED AND THE DISTURBED AREA SUFFICIENTLY STABILIZED TO OSION CONTROL MANUAL .RESTRAIN EROSION, TBL SILT FENCE AND ANT OUTLETS Mf E R REMOVED. OUTLETS MUST BE q, REPAIR ANY BREAES OR ROTTEN PLACES IN THE FILTER FABRIC. • AfTEB ~ TO DETERMINE IF RUNOFF FLOWING TAROOGH THE RESTRAIN EROSION, TKE OUTLET MUST BE REMOVED. D AHT OUTLET HAS CAOSED DAMAGE BY UNDERHZNING THE FENCE OR OUTLET, OR . 5, IF THE FENCE IS SAGGING BETWEEN POSTS, INSTALL ADDITIdND1I. IF ACCUMULATED WATER HAS COLLAPSED THE OUTLET; IF TT HAS, MAKE CLEAN OUT ACCUMULATED SEDIMENT AND DISPOSE OF IT PROPERLY, DISPOSE OF IT PROPERLY. POSTS. - REPAIRS OR INSTALL A SEDIMENT TRAP IF NECESSARY TO PREVENT ' 2. REMOVE ANY ACCUMULATED SEDIMENT AND DISPOSE OF IT 1 FUTURE FAILURES. 3. REMOVE POSTS, FENCE, FABRIC, WIRE, AND W.bSHED STONE; DISPOSE OF M PROPERLY' 6, WHEN MAKING REPAIRS, ALWAYS RESTORE THE SILT FENCE TO ~ THEM PROPERLY. REMOVE POSTS, FENCE, AND FABRIC; DISPOSE OP THEM P1 SPOSE OP TAE ORIGINAL DESIGN CONFIGURATION. 4. STABILISE THE DISTURBED AREA WHERE THE FENCE NAS Lf THE FENCE MAS LOCATED. 4. GRADE THE LOCATION AS NECESSARY. 5. STABILIZE THE DISTURBED AREA WHERE THE OCTLET WAS LOCATED. -•:?o~= BRUNSSEN ENGINE ~GINEERWG SERVICES, P. A. EROSION CONTROL E- ~ ENGINEERING PLANNING CONSULTING DETAILS s 'y BBUHSS , 56 CHURCHWELL CT. DURHAM, t )URHAM, N.C. 2773 919 544-1159 Metal Stakes End Trench U tream of Storm Drain INSTRUCTIONS FOR TEIOpORARY STABILIZATION USING ~ Hardware Cloth Up Overflow Washed Stone Piled the Sides of tfte Against end on Top Stakes and Laid on VEGETATION otgHardware Cbth the Ground 4-B" Diameter illwa INSTALLATION ~ ~ 4 RI ~ y 1. REFER TO PLANS F~ LOCATION, EXTENT, AND SPECIFICATIONS. IF THERE ARE QUESTIOrS OR PROBLEMS WITH THE LOCATION, EXTENT, OR . 1 l3 Pipe . Prep " Diameter 1 Diameter Washed To METHODS OF INSTALLATION, CONTACT THE ENGINEER, ARCHITECT, OR Top O n~111 RESPONSIBLE PERSONNEL ON THE SITE FOR ASSISTANCE. EROSION ~ _ Thick Filter 1 ar or Cha CONTROL PERSONNEL HAVE QOPIES OF INSTRUCTIONS AND MAY BE ABLE TO o• ; \ :I I~I 18" Min. • • . s ~ t 1 . 1: i.l I la t t ~ 1•MIN. 2:1 ~ ~ T• 2 MW. OFFER ASSISTANCE. O O~y '-~„n~., 1. WHEN GRADING IN THE DRAINAGE AREA ABOVE THE SEDIMENT TRAP HAS ~ BEEN COLLETED AND THE DISTURBED AREAS SOFFICIENTLY STABILIZED Cf~t ~ Z TO RESTRAIN EROSION, THE TRAP MUST BE REMOVED. .a l:, { , MaX.24, - i t MIN. r--~ Min. 12 ~ IJ ~ ti. - ~ t. .I ; , - ~I SPlpWay IF rEE DISrIIRBANCE IS Nor PROPERLI 6TABILIlED THE FIRST TIME SO s - TEAT NROSION IS RESTRAIN7O), !fE NEEDING HILL NAVE TO HE ~ + 2. REMOVE ACCUMULATED SEDIMENT AND DISPOSE OF IT PROPERLY. REPEATED. J. I,. i • i l ' I' 2. USE THE APPLICATION RATES FOR LIME ' 3. REMOVE THE POSTS, FENCE FABRIC AND OUTLET COLONENTS; DISPOSE FERTILIZER, SEED, MULCH,. ' e OF THEM PROPERLY. ~ 3+1 ETC. SPECIFIED IN THE PLAN, ON! UBE THE RATES BELOW FOR THE ' ed Bu Bottom 314" Exterior t ~ , , , . Filter of Hardware loth and Wash r~ _ ~ the Inlet of Plywood Ptywood , ~ / ' ' . . APPROPRIATE SEASON. \ ~ ` Slope .r•, 4. STABILIZE THE DISTURBED AREA WHERE THE TRAP WAS LOCATED AS Stone Is Wrapped Around _~r • ~ • ~ ~ ~ c SPECIFIED IN THE PLAN. Fi¢ure j: Illustration of Plywood Inle[ Protection for Storm Drain Uadcr Construction. FRON7 VIEW y ~ F i ~ 1 ~ ~ ALL SEASONS: ~ ; F;.. .r~.. , :f:: a Existinngg ~ - LIME: 90 POUNDS PER 1000 SQUARE FEET (2 TONS PER ACRE). " y 1 MIN, ::.•tt: FERTILIZER: 10-10-10; 16 POUNDS PEA 1000 SQUARE FEET (700 •,,;.•,.,Y. a - U tream End Channel Banks - a.: i AIIN• Steel Fence o~Storm Drain - - Post POUNDS PER ACRE) _ r .•,r:.:: STRAW MULCH: BO POUNDS PER 1000 SQUARE FEET {1.5 TO 2 TONS PER Cutoff trench tlackfllied Stakes Must Bar The downstream toe ~ the stone fNtermtut with stone to tie filter 2'A/,N. ACRE); OSE ENOU68•STRAW TO COVER 75k OF THE GROUND. ~ r. e No More than 2 - be wkier then the top wktth of the q~Ilway into existing ground and rt to t outflovir the channel banks. ~ ;.;i Pin prevent failure. - INLET ~ Overflow SECTION _ WIRCH -Nil! s'::.~:.r. ~ w'• ~ r:r:r ; c RYE GRAIN: 3 POLRiDS PER 10~ SQUARE FEET (150 POUNDS PER ~ O ACRE), .1 ~.t.'.c. o • !3 Pfpe Diameter Q~ 1~O `a SPRING OATS:, 3 POUNDS PER 1000 SQUARE FEET (125 POUNDS PER ACRE) . MAI - AUGUST •r It 'f'...t MILLET: i POUND PER 1000 SQUARE FEET (40 POUNDS PER , ACRE). I I it !I I I Hardware Cklth u INSTRUCTIONS FOR INSTRUCTIONS FOR QR - iR SORGHUM HYBRIDS: 1 POUND PER 1000 SQUARE FEET (40 POUNDS PER i:. v. Washed Stone ll ~ ~ STONE FILTER TYPE-B SEDIMENT TRAP ~ TRAP Hardware Cloth Washed Stone Filter INSTALIJSTION AUGUST 15 - NOVElOiR 15 ''`'l~' 'inTre j: Illustntioo of a Hardware Cloth and Gravel Filter. AcrOSS Plpe Inlet INSTALLATION 1. REFER TO PLANS FOR LOCATION, EXTENT, AND SPECIFICATIONS. IF 1. REFER TO THE PLANS FOR LOCATION, DIMENSIONS, AND , NSIONS, AND OATS: BEFORE OCTOBER 1: 2.5 POUNDS PER 1000 SQUARE FEET (125 ;y..~.:~.:~: INSTRUCTIONS FOR STORM DRAIN INLET PROTECTION USING A figure 2~ Illustration of Stone Fitter [olct Protection for Storm Drain Under Construction. THERE ARE QUESTIONS OR PROBLEMS WITH THE LOCATION, EXTENT, OR SPECIFICATIONS. IF THERE 'ARE QUESTIONS OR PAOBLEMS.W] S OR PROBLEMS .WITH THE POUNDS PER ACRE). . METHODS OF INSTALLATION, CONTACT THE ENGINEER, ARCHITECT, LOCATION, EXTENT, OR METHODS OF INSTALLATION, CONTAC7 INSTRUCTIONS FOR STORM DRAIN INLET PROTECTION BY OR RESPONSIBLE PERSONNEL ON THE SITE FOR ASSISTANCE. EROSION ENGINEER, ARCHITECT, OR RESPONSIBLE PERSONNEL ON THE HARDWARE CLOTH AND GRAVEL FILTER - CONTROL PERSONNEL HAVE COPIES OF INSTRUCTIONS AND HAY HAVE ASSISTANCE. EROSION CONTROL PERSONNEL HAVE COPIES OF ELATION, CONTACT THE ~ ERSONNEL ON THE SITE FOR WHEAT: AFTER OCTOBER 1: 3 POUNDS PER 1000 SQUARE FEET (1B0 INSTALLATION PROTECTING THE OPEN END OF PIPE PHOTOGRAPHS OF PROPERLY INSTALLED STONE FILTERS AS AN AID TO INSTRUCTIONS AND MAY HAVE PHOTOGRAPHS OF PROPERLY IN; HAVE COPIES OF POUNDS PER ACRE). OF PROPERLY INSTALLED • INSTALLATION. SEDIMENT TRAPS AS AN AID TO INSTALLATION. 1. REFER TO THE PLANS FOR LOCATIONS AND SPECIFICATIONS. IF THERE DURING CONSTRUCTION ION. Firnre 1: 111usUa:ion of i TypaA Scdimcut Trap. NOVEMN6R 15 - FESROARY ARE QUESTIONS OR PROBLEMS WITH THE LOCATION OR METHODS OF IP THE STONE FILTER IS NOT INSTALLED CORRECTLL THB PIRST TIME, IF THE SEDIMENT TRAP I6 NOT INSTALLED CORA6CTLL TAE F CORRECTLI THE FIRST TIME, VEGETATION IS NOT AN APPROPRIATE STABILIZATION DURING THESE INSTALLATION, COEiTACT THE ENGINEER, ARCHITECT, DR RESPONSIBLE INSTALLATION IT HILL HAVE TO BB REBUILT. IT WILL HAVE TO BE REBUILT. PERSONNEL ON THE SITE ;FOR ASSISTANCE. EROSION CONTROL PERSONNEL 1. REFER TO THE PLANS FOR LOCATIONS AND SPECIFICATIONS. IF THERE 2. DETERMINE THE LOCATION ON THE GROUND, TARING INTO 2. DETERMINE THE LOCATION ON THE GROUND TARING INTO SEASONS; USE ANOTHER TYPE OF TELORARY GROUND COVER, SUCH AS INSTRUCTIONS FOR HAVE COPIES OF INSTRUCTIONS AND MAY HAVE PHOTOGRAPHS OF , ARE QUESTIONS OR PROBLEMS WITH TAE LOCATION OR METHODS OF CONSIDERATION: CONSIDERATION: PROPERLY INSTALLED HARDWARE CLOTH AND GRAVEL FILTERS AS AN AID INSTALLATION,, CONTACT THE ENGINEER, ARCHITECT, DR RESPONSIBLE TARING INTO MULCHING. I I TYPE-A SEDIMENT TRAP TO INSTALLATION. ?ERSONNEL ON THE SITE FOR ASSISTANCE. EROSION CONTROL PERSONNEL • WNEAE POSSIBLE, LOCATE THE FILTER WHERE THE STREAM BANKS ARE ALLOW SUFFICIENT SFACE FOR THE PIT AND BERM TO BE BUI 3. SEEDBED PREPARATION: REMOVE ROCKS, STULS, ROOTS, ETC. SINCE INSTALLATION D BERM TO BE BUILT TO THE THEY WILL INTERFERE WITH SEEDING AND MAINTENANCE. THE SMOOTH, IF THE INLET PROTECTION DEVICE IS NOT INSTALLED CORRECTLY THE COPIES OF INSTRUCTIONS AND NAY HAVE PHOTOGRAPHS OF PROTECTED WITH ROCK OR TREES THAT WILL HELP STABILIZE THE BANKS SPECIFIED DIMENSIONS. PROPERLY INSTALLED DEVICES AS AN AID TO INSTALLATION AND HOLD THE C0ilpLETED FILTER IN PLACE. FIRST TIME, IT WILL MVE TO BE REBUILT. * ALLOW ACCESS Y'0 THE TRAP WHEN IT IS FINISHED TO HAINT COLACTED SURFACE OF CUT AND FILL SLOPES IS NOT A GOOD SEED BED;. APPLY LIME AND FERTILIZER, THEN RIP THE SOIL 4-6 INCHES TO MIX 1, REFER TO THE PLANS FOR LOCATION, DIMENSIONS, AND IP T66 INLET PROTECTION D6YIC6 I6 NOT INSTALLED PROPERLL THE • WHERE THE DAM IS TO BE BUILT WITH FENCE POSTS AND HARDWARE REMOVE I_, TARING INTO ACCOITNT FINISHED GRADES 2. DETERMINE THE LOCATION ON THE GROUND, TAKING INTO FIRST TIME IT HILL HAVE TO BA I16BUILT. CIATH TRY TO IACATE THE FILTER WHERE THE STREAM BANKS ARE HIGH BUILDINGS, UTILITIES ETC. ,FILL INISHED TO MAINTAIN AND SPECIFICATIONS. IF THERE ARE QUESTIONS OR PROBLEMS WITH THE THE NUTRIENTS INTO THE SOIL AND TO LOOSEN AND ROUGHEN IT TO LOCATION EXTENT "sD GRADES, FILL SLOPES, RECEIVE THE SEED. ~ , OR METHODS OF INSTALLATION, CONTACT THE CONSIDERATION: ' ~ ~ ENOUGH THAT RUNOFF WILL FLAW THROUGH THE SPILLWAY IN THE CENTER ENGINEER, ARCHITECT, OR RESPONSIBLE PERSONNEL ON THE SITE FOR ASSISTANCE. EROSION CONTROL PERSONNEL HAVE COPIES OF 4. 66EDIN0: APPLY SEED AT THE RE0014lBNDED RATE, AND GO OVER THE INSTRUCTIONS AND DIVERSIONS AND OR BERMS MUST BE USED TO FORCE RUNOFF THROUGH 2• THESE DEVICES ARE USED: OF THE DAM INSTEAD OF FLOWING AROUND THE STONE FILTER AND OVER ALLOW AT LEAST: SURFACE WITH A CULTIPACRER WHERE POSSIBLE TO BRING THE SEED INTO MAY HAVE PHOTOGRAPHS 0 PROPERLY INSTALLED THE FILTER INTO THE INLET SO THAT IT DOES NOT BY-PASS THE INLET * AT NEN OPENINGS TO EXISTING JUt1CTI01i BOXES IHiTIL T8S NEW TME ERODIBLE; STREAM BANKS. 15 FEET BETWEEN THE SEDIMENT TRAP AND SINGLE-STORY 9U AND CAUSE PROBLEMS ELSEWHERE. CONNECTION IS MADE. CONTACT WITH THE SOIL. TYPE-A SEDIt0:NT TRAPS AS AN AID TO INSTALLATION. SINGLE-STORY 9UILDINGS. IF TEE SEDIMENT TRAP IS NOT INSTALLED CORRECTLI THE FIRST TIME • IF THE INLET AND FILTER IS TO BE RAISED IN STAGES AS THE FILL • 3. WHERE TAE DAM IS TO BE BUILT WITH gjgg~!: 25 FEET FOR FORK LIFTS BETWEEN THE SEDIMENT TRAP AND 5. MULCHING: THE UREA SEEDED MUST $E MULCHED TO PROTECT THE BARE IT HILL HAVE TO HE REBUILT. )IMENT TRAP AND MULTIPLE- SOIL UNTIL THE VEGETATION IS iSTABLISHED AND TO RETAIN MOISTURE IS BROtxarr UP ARDtIND IT, THE FILTER MUST BE REMOVED, IF AT THE UPSTREAM END OF NEN SS'OR11 DRAINS UNTIL THE PERMANENT STORY BUILDINGS. NECESSARY, FOR GRADING AND REPLACED ItOtEDIATELY SO TKAT THE INI,E1' IS BUILT.- • PILE RIPRAP ACROSS THE CHANNEL AND SHAPE IT TO TH£ DIMENSIONS TO PROlK)TE SEED GBRMINATION 11ND PLANT GROWTH. APPLY ENOUGH MULCH 2, DETERMINE THE LOCATION ON THE. GROUND, TARING INTO TO COVBR 75$ OF SHE SOIL SURFACE. 1'0 KEEP iT iN PLACE AND CONSIDERATION: INLET SS ALWAYS PROTECTED FR01( TH6 ENTRY OF UNFILTERED RUNOFF. AND CONFIGURATION SHOWN IN TAE ILLUSTRATION. 15 FEET BETWEEN THE SEDIMENT TRAP AND TAE TOE OF :FILL THE TOE OF :FILL SLOPES. PREVENT WIND OR WATER PROM DISLODGING IT, THE MULCH SHOULD BE HELD IN PLACE BY TACKING IT WITH ASPHALT OR COVERING IT WITH A PREFABRICATED 6ILT FENCE SI 3. REFER TO THE ILLUSTRATIONS IN THE PLAN TO ASSIST INSTALLATION. 3• REFER TO THE ILLUSTRttTI0N5 IN TAE PLAN TO ASSIST INSTALLATION. ' PA7 SPECIAL ATTENTION TO SKAPING THE SPILLWAY AS SHOWN IN THE • MAKE SURE RUNOFF FROM THE DISTURBED AREAS ABOVE THE T ILLUSTRATION. FLOW INTO AND THROUGH THE SEDIMENT TRAP AND NOT BY-PA LEAS ABOVE THE TRAP WILL NETTING. + SILT FENCE MUS ( LT HARRIER) CANNOT BE USED TFi 4. PLACE STEEL FENCE POSTS AROUND THE PERIMETER OF THE INLET NO PLACE THE TRAP WHERE DIVERSIONS, SILT FENCE, ETC. CAN 1P AND NOT BY-PASS IT. T BE CONSTRUCTED AS DESCRIBED IN THESE FENCE, ETC. CAN DIRECT INSTRUCTIONS. MORE THAN 2 FEET APART AND DRIVE THEM AT LEAST 18 INCHES INTO ~+T~s AND DISADVANTAGES OF EACH TIPS: • IA~AE NECESSARY TO PROTECT THE CHANNEL BANKS AND BOTTOM BELOW RUNOFF TO THE TRAP LOCATION. TAE DAB, PLACE A LINING OF GEOTExTILE FABRIC AND RIPRAP. THE GROUND. • ej,~: EASILY INSTALLED, BDT DOES NOT ALLON GOOD DRAINAGE ,OF - MJIINTENANCN + ALLOW SUFFICIENT SPACE FOR THE TRAP TO BE BUILT TO THE 5. PLACE HARDWARE CLOTH VERTICALLY AROUND TKE OUTSIDE OF TKE FENCE 4. NAERE THE DAM IS TO BE BUILT WITH POSTS i~ HARDWARE 3. CLEAR THE LOCATION OF THE TRAP, REMOtiING TOP SOIL, ST AREAS MUST BE RESEEDED AND MULCHED MNBRE THE VEGETATION FAILS TO SPECIFIED DIlOiliSIONS. :NG TOP SOIL, STULS, ESTABLISH ITSELF OR IS DAMAGED BY RUNOFF OR CONSTRUCTION + ALLOW ACCESS TO THE TRAP WHEN IT IS FINISHED TO MAINTAIN AND POSTS AHD FLAT ON TKE GROUND. ATTACH THE CLOTH TO THE POSTS ~j~}(: ROOTS, LARGE ROCKS, AND OTHER OBJECTIONABLE MATERIAL. NABLE MATERIAL. ACTIVITY. IF THE TElO?ORARI VEGETATION SHOULD FAIL FOR ANY REASON BEFORE THE PERMANENT STABILISATION IS PROVIDED, IT MOST BE ~ CLEAN IT OUT, TAKING INTO ACCOUNT FINISHED GRADES, FILL SLOPES, WITH LENGTHS OF:NIRE. HARDWARE CLOTH IS WELDED, GALVANIZED WIRE ~ I~ DIFFICULT Yt5 INSTALL, BDT ALLONS DRAINING FABRIC WITH 1/4 TO 1/2-INCH SQUARE BOLES. TtIE FINISHED FILTER ~ • PLACE THE FILTER FABRIC, WHICH WILL PROTECT THE CHANNEL 80TTOM 4. EXCAVATE THE PIT AS NECESSARY TO CREATE :HE REQUIRED ' 'E :HE REQUIRED VOLUME. REPLACED WITH AN APPROPRIATE TIPS OF COVER SUFFICIENT TO BUILDINGS, DTILITIES, ETC. MUST HE AT LEAST 12 INCHES HIGH AND NO MORE THAN 21 INCHES •BELOW TAE SPILLWAY FROM OVERFLON, ACROSS THE BOTTOM OF THE' 'KEEP IN MIND: HIGH. CHANNEL WITH THE UPSTREAM EDGE 6 INCHES ABOVE WHERE THE FENCE S. WHERE PLTNOOD ACROSS THE OPENING IS USED, USE A PIECE OF 3/4- POST WILL BE DRIVEN. (AN ALTERNATIVE IS TO PLACE THE FABRIC • POSITIVE DRAINAGE OUT OF THE PIT MUST BE MAINTAINED Tt RESTRAIN EROSION. ` ALLOW AT LEAST: 6. PILE WASHED STONE (i-INCH DIAMETER) AGAINST AND ON TOP OF THE INCA ~ PLlNtIOD LARC6 ENOTEGH !a ODPER T~ 1fID'1'H OF THE APTER TAE POSTS ARE DRIVEN AND HOLD TAE FABRIC IN PLACE WITH STANDING WATER TO A MTNIMOM AND ALLOW ACCUMULATED SED PIPE OPENING AND iaAV6 A CAP AT !H6 !OP 1/3 OF TA6 PIPE RIPRAP. DRY OUT. BE MAINTAINED TO BEEP 15 FEET BETWEEN THE SEDIMENT TRAP AND SINGLE-STORY BUILDINGS. ACCUMULATED SEDIMENT TO , HARDWARE CLOTH AROUND THE PERIMETER OF THE INLET. ) DIAlQ:'P6R SO TEAT OVBRlrAN CAN BNTAR l1$ PIPE. INSTRUCTIONS FOR PERMA1iENT STABILIZATION USING 25 FEET FOR FORK LIFTS BETWEEN THE SEDIMENT TRAP AND MULTIPLE- • PLACE TKE FENCE POSTS 1 FOOT APART AND DRIVE THEM TBROIX~ 'PRE • NAYIMUM 2.5:1 STAPES ON CUT AND FILL SLOPES, JsxcEeT T1 7. WHERE POSSIBLE, DIG A SMALL PIT AROUND THE FILTER TO STORE 6, WHERE A STONE FILTER ACROSS THE OPENING IS USED DRIVE STEEL FABRIC 2 FEET INTO THE GROtHVD TO HOLD IT IN PLACE. SIDE, MAICH FfUST BE 3:1 OR FLATTER. • SEDIMENT AND REDUCE MAINTENANCE. FENCE POSTS (NOT MORE THAN 1-FOOT APART) INTO TH6 GROUND ACROSS - '.LOPES, ElIS~2T THE OUTLET VEGETATION STORY BUILDINGS. • THE INLET, PLACE HARDWARE CLOTH ON THE tR?STREAiE iIlEE OF TAE . _ 15 FEET BETWEEN THE TRAP AND THE TOE OF FILL SLOPES. INSTALLATION B• IT IS ADVISABLE TO PLACE GUARD STARES AROUND THE FILTER TO PLACE .FENCE POST(S) HORIZONTALLY AT THE LOCATION AND AT THE ALERT EQUIPMENT OPERATORS AND PREVENT DAMAGE TO THE DEVICE. POSTS, ATTACK TAE HARDWARE CLOTH TO THE POSTS iIITH MINE, AND HEIGHT OF THE SPILLWAY AS SHOWN ON THE ILLUSTRATION. ATTACH THE 5. WHERE THE TRAP IS BEING BUILT ON A SLOPE, FI6L AND COlD HORIZONTAL POST TO THE VERTICAL POSTS WITH LENGTHS OF WIRE. EARTH BERM USING GOOD SOIL TART IS FREE 0! VEGETATION 1 ?ILE JIASH6D STONE ON THE CARTH. LEAVE A GAP AT TAE SOP 1/3 OF ROOTS. 'E, FILL AND COLACT THE + MAKE SURE RUNOFF FROM THE DISTURBED AREA ABOVE THE TRAP WILL ' 0! VEGETATION AND 1. REFER TO PLANS FOR LOCATION, EXTENT, AND SPECIFICATIONS. IF 9. DIVERSIONS AND/OR BERMS MUST BE USED 1'0 DIRECT RUNOFF' TO TAE TEffi PIPE D~TME ~ ~ME~ CAN TAE.PIPE• TRER£ ARE 4UESTIONS OR PROBLEMS WITH THE LOCATION, EXTENT, OR FLOW IHTD AND THROUGH THE SEDIMENT TRAP AND NOT BY-PASS IT. METHODS OF INSTALLATION, CONTACT THE ENGINEER, ARCHITECT, OR PLACE THE TRAP WHERE DIVERSIONS, SILT FENCES, ETC. CAN DIRECT FILTER AND INTO TAE INLET. RUNOFF MUST NOT $E ALLOWED TO BY- • PLACE HARDWARE CLOTH VERTICALLY AGAINST TAE FENCE POST AND FOLD PASS !NE INLET AS TT WILL CAUSE PROBLEMS DONNHILL. REFER TO 7• INSTALL TAE 06VIC6 AT 19B END fMr EACH NORR tI~IT. BO HOT LEAVE. 1T OPST'REAN NBERE IT REACHES T9~ lOSSON Ol THE CHANNEL, LEAVING DO MOT U~ 20PSOIL, NOD, STUMPS, BTC. IRON TH6 E6CAVATI ROM TN6 EXCAVATION IN RESPONSIBLE PERSONNEL ON THE CITE FOR ASSISTANCE. EROSION RUNOFF TO THE TRAP LOCATION. CONTROL PERSOW?1EL NAVE'OOPIES OF INSTRUCTIONS AND MAY BE ABLE 3• CLEAR THE LOCATION OF THE TRAY. REMOVE TREES STOMPS ROOTS THE PIPE DNPROTEClED H6TMESU MORE DAYS. 1 !'DOT O! THE #IRE ON THE CHANNEL eoreDM. IF HARDNARE CLOTH !HE aiRM. - _ - IS MOT HIDE ENOUGH TO LAY ON THE GROUND AMD REACH TA6 !OP OF TO OFFER ASSISTANCE. .ETC TB11T MOOED INTERFERE PITH INSTALLING AND N1IINTAINING THE SLOPE, CUT OUT A NOTCH TpAp, SPECIFIC DETAILS IN THE PLAN. MAINTENANCE THE DAM, USE MORE THAN ONE COURSE AMD OVERLAP THE CLOTH. FOLD 6. NA6RE TAE TRAP IS BEING BUILT ACROSS A SLOPE, CUT OUT 1 THE AARDNARE CLOTH OVER TEES HORIZONTAL FENCE POST TO CREATE THE Ili TAE EARTH BERM LARGE ENOUGH TO ACCOMMODATE THE REQU: MODATE THE REQUIRED IF T86 DISTVRBANC6 IS NO! PNpliRLl STABILI36D 770: FIRST lITN: SO SPILLWAY IN TAE CENTER OF TAE DAM. A!lACA THE HARDWARE CLOTH TO IlNGTA OF THE STONE FILTER DOYLEY. MATERIALS, EQUIPMENT, AND PERSONNEL MAST BE AVAILABLE FOR N MAINTENANCE MAINTENANCE AT ALL TIMES. THE POSTS VITA IRE THAT NR06ION IS RESlRAIN3D, !!E SEEDING MILL HAVE TO » t, EXCAVATE A 6 $ 6-INCH TRENCH AROUND THE PERIMETER OF THE TRAP. REPEATED UNTIL IT It iUCCLiSFOL. .USING l •DITCN WITCH• MAY BE HELPFUL. 7. EXCAVATE A CUTOFF TRENCH IN THL BOT'POtl AND SIDES OF TBI MATERIALS, EQUIPMENT, AND PERSONNEL MUST BE AVAILABLE FOR 1. INSPECT THE DEVICE: ' PAY SPECIAL ATTENTION TO SHAPING TM6 SPILLWAY AS SHOWN ON THE STREAM CHANNEL TO AOlO THE FILTER IN PLACE. REFER TO T1 AND SIDES OF TBE BERM OR ACE. REFER TO THE 2. USE TH6 APPLICATION RATES FOR LIME, E ,SEED, MULCH, 5. ALONG THE LOWER OR OUTSIDE EDGE OF THE TRENCH, PLACE STEEL MAINTENANCE AT ALL lIiDSS. ILLUSTRATION. ILLUSTRATION. • 1?YHINSa CONSTRUCTION: TO SEE IF MACHINERY OR CONSTRUCTION ETC. SPECIFIED IH THIFPSEEDING ISESOHHE~DONE IN A~S~6ASONHN0T FENCE POSTS A MAXIMUM OF 4 FEET APART AND DRIVE THEM IB INCHES APPROPRIATE SEASON S. PLACE THE LAYER OP WASHED STONE ON TIES UPSTREAM FACE OF THE DAM e. PLACE RIPRAP IN !HE NOTCH OF TH6 6ARlB B61O1 OA ACROSS ' 1. INSPECT TH£ HARDWARE CLOTH AND GRAVEL FILTER: ACTIVITY RAS DAMAGED IT; TF DAMAGED, HAKE REPAIRS. AND SHAPE IT TO FORM THE SPILLWAY. WEEERE THE DAM IS FENCE POSTS CHANNEL, SHAPING TAE STONE 111Y0 !HE O01TlT AS SHOWN I1T HBNN OR ACROSS TME LISTED HELOM, USE VEGETATION COMPATIBLE MITH THAT SEASON OR 7lT AS SBOMN IN TN8 ANOTHER METHOD OF PERMANENT STAHILIt11TI0N. INTO THE GROUND. DO NOT USE TREES INSTEAD OF POSTS TO SUPPORT • DURING CONSTRUCTION: TO SEE IF MACHINERY OR CONSTRUCTION • ~g 1~ gam,; ~Pp Egg IF RUNOFF HAS DAMAGED IT OR HAS AND HARDWARE CLOTH, .BE SURE THAT THE STONE IS ON TOP OF THE ILLUSTRATION AND TO THE REQUIRED NID'PH. YL11CE STOVE SO PL11CE STONE SO TBAT THE FENCE, R7aT IS PROTECTED FROM 3. TALL FESCUE: 6. ATTACH WIRE FENCE ("HOG WIRE" OF MINIMUM 14 GAUGE WITH MAXIMIJAt HARDWARE CLOTH ON THE BOTTOM OF THE CHANNEL TO PREVENT WASHOUT SOIL IN ?A6 EARTH BERM ANB INII,ON !H6 OUlIaT IS PROT6CT1 ACTIVITY HAS DAMAGED THE FILTER; IF DAMAGED, REPAIR IT. TO SEE CLOGGED TAE INLET; IF S0, MAKE REPAIRS AND/OA CLEAR THE INLET. 1F CONSTRUCTION TRAFFIC AAS DAMAGED OR REDUCED THE CAPACITY OF UNDER THE STONE. EROSION BT O1ITPIAIi. ' THE BERMS AND DIVERSIONS DIRECTING RUNOFF TO THE FILTER; IF S0, 2. IF TAE DEVICE IS DAMAGED, REBUILD IT 10 THE ORIGINAL DESIGN MARE REPAIRS. CONg;GURI?TION 9. PLACE A 1-FOOT LITER OF 1-INCH DIAiHCIBR HASHED STONE q SEEDING Q~,~: FEBRIIARY 15 -MAY, OR AUGUST 15 -OCTOBER 15 MESH OF 6 INCHES) TO THE UPHILL SIDE OR INSIDE OF THE POSTS AND MASSED SSGNB ON TEE PLACE THE BOTTOM 12 INCHES OF THE FENCE INTO THE TRENCH. USE MAINTENANCE UPSTREAM FACE OF THE RIPRAP TO CREATE THE lILT6R. • ilFTEB ~ $ajIIFALL: TO SEE IF RUNOFF IS 8Y-PASSING THE INLET 'ME FILTER. Ll~i: 135 POUNDS PER 1000 SQIIARE FEET (3 'PONS PER ACRE) LENGTHS OF WIRE TO FASTEN ?HE FENCE TO THE POSTS. ~1 ITT •CHIC~ THE COLLETED FENCE MUST BE AT LEAST 3 FEET OR TOPPING THE BERMS OR DIVERSIONS BELOW THE FILTER; IF S0, Rppyu, IQlliRIALi, NQUIliaNT, AND PERSONNEL MUST BE AVAILABLE FOR 10. INSTALL THE BAFFLES AS SPECIFIED IN THE PLAN. REFER TO MARE THE NECESSARY CHANGES TO PREVENT IT. IRINT6NANCE A! ALL LINES. ILLUSTRATIONS AND INSTRUCTIONS FOR BAPFTdS. INSTALL TR PLAN. REFER TO 171E : 10-10-10; 23 POUNDS PER 1000 SQUARE FEET•{1000 HIGH. TdS. INSTALL THE 4-INCH ~ POUNDS PER ACRE). A SPLIT APPLICATION OF'50O POUNDS 1. 1CEP.P TAE DEVICE IN PLACE UNTIL IT IS NECESSARY TO REMOVE IT TO STAKE IN THE CENTER OF TAE PIT SHOWING THE TOP OF TAB 2. WHEN TKE STONE FILTER BECOMES COVERED WITH SEDIMENT AND CLOGGED WpRb OM EXTENDING TAE PIPE OR UNTIL IT CAN BE REPLACED BY TAE STORAGE VOLUME. THE TOP OF TAB SEDIMENT PER ACRE INITIALLY AND ANOTHER 500 POUNDS IN THE 7. ATTACH SYNTRETIC FILTER FABRIC TO THE INSIDE OR UPHILL SIDE OF SPRING OR FALL IS PREFERABLE. ADD 500 POUNDS PER THE WIRE FENCE WITH WIRE STAPLES. LEAVE A GAP IN THE FILTER SO THAT RUNOFF CANNOT £I,OW THROUGH IT, TKE CONTAMINATED STONE PERMANENT INLET STRUCTURE AND PROTECTION AROUND TAE INLET. 1. INSPECT TAE STONE FILTER: ACRE SUPER PHOSPHATE MHERE THE SUBSOIL IS EXPOSED. FABRIC IN T'dE CORNER WHERE THE OUTLET WILL BE LOCATED. PLACE '.STUBBED AREAS AROUND IT - THE STAPLES NO MORE THAN 12 INCHES APART. PLACE THE BOTTOM 12 MUST BE REMOVED, DISPOSED OF PROPERLY, AND REPLACED WITH CLEAN 11. SEED AND MULCH ![Hi SEDIMENT TRAP AND DISTURBED AREAS Al HASHED STONE. • TO SEE THAT MACHINERY, OTHER CONSTRUCTION PUKING SPRING, SUMMER, AND FALL. IN•WINTER, COVER THES1 Q~1Ki fTER, COVER THESE AREAS 1.5 POUNDS PER 1000 SQUARE FEET (60 POUNDS PER ACRE) INCHES OF THE FABRIC INTO THE TRENCH WITH THE BOTTOM OF THE WIRE FENCE. ACTIVITYr OR RUNOFF HAS NOT DAMAGED THB PILTER; IF DAMAGED, WITH A HEAVY LAl6R OF STRAW MULCH. Do NOT DISPOSE OF SEDIMENT IN A HAMMER TART WILL CREATE AN Baffles for Sedimen REPAIR Ir. MULCH: EO POUNDS 6F SMALL GRAIN STRAW PER 1000 SQUARE FEET EROSION 6AEARD. t Traps and Ponds a i1FS~1! ti1eC~ BBS8f8L4: TO SEE THAT RUNOFF RAS NOT DAMAGED THE MAINTENANCE (APPROXIMATELY 2 BALES) OR 1.5 -2 TONS PER ACRE; USE DO MO! USE BIIRLIIP AS A FILTER FABRIC; IT IS NOT ACCEPTABLE. IT ENOUGH STRAM TO COVER 75t OF THE GROUND. IS A POOR FILTBR, IS NOT STRONG ENOUGE, AND DETERIORATES RAPIDLY. lILTIUt OR ERODED TME STREAK BANE Nl16RE THE FILTER TIES INTO IT; 3. WHEN HARING REPAIRS, REBUILD THE FILTER TO ITS ORIGINAL Yep ~ Drive steN fertce post at least 18' into Solid ground. WOOD POSTS ARE NOT - DESIGN CONFIGUifAT~ON. ACCEPTABLE I IF S0, MARE REPAIRS. NATBRIALS, EQUIPIUiNTr AND PERSONNEL MUST BE AVAILABLE FOR AVAILABLE FOR TELDRARY COVER: 0.5 POUNDS OF GERMAN OR BROMN'tOP MILLET PER MAINTENANCE AT ALL lIM6S. 1000 SQUARE FEET (20 POUNDS PER ACAS) USE ROLLS OF FABRIC AND CUT TO THE NECESSARY LENGTH IN ORDER TO MINIMIZE THE NUMBER OF JOINTS. HorilonW metal post wired aecurel o v 2. MAINTAIN THE DAM SO THAT RUNOFF WILL lLOW THROUGH THE WASHEAY Rp,~y~, yt erticelposts STONE OR OVER THE DAM THROUGH TAE SPILLWAY. BEEP THE SPILL 1. INSPECT THE SLDIlHUtT TRAP. 3 ,cEEDBED p$Epn3. ~T34Z1: REMOVE ROCKS, S:UI~S, ROOTS, ETC. SINCE SHAPED SO lAAT RUNOFF WILL GO OVER THE CENTER OF THE DAM, NOT 1. WHEN GRADING IN THE DRAINAGE AREA ABOVE THE INLET IS COMPLETED /Extra post in middle of opening. OVER THE ENDS NAEIUi IT CAN WASH OUT THE MORE ERODIBLE STREAM * pygj~ cONSTRUClLON: TO #EE IF THE TRAP HAS BEEN DAMAi THEY WILL IN:ERFERE WITH SEEDING AND MAINTENANCE. THE SMOOTH, B. BACRFILL THE TRENCH AND TAMP THE FILL TO FIRMLY ANCHOR THE ,P HAS BEEN DAMAGED BY COMPACTED SURFACE OF CUT AND FILL SLOPES IS NOT A GOOD SEEDBED; BOTTOtI OF THE FILTER FABRIC AND WIRE FENCE AND PREVENT WATER RND TKE DISTURBED AREAS STABILIZED, THE FILTER MUST BE REMOVED. BANKS. IF NECESSARY, LINE THE BOTTOM AND SIDES OF THE CHANNEL EQUIPMENT, GRADING, ETC. OR PARTIALLY FILLED BT GRADIGi htirtimum 5' wide opening BELOW TAE SPILLWAY SO THAT FLOW TNROUGK THE SPILLWAY TS ON DAMAGED, REPAIR IT. IF TKE VOLUME IS REDUCED, REMOVE T'. 'ILLED BT GRADING. IF Apply LIME AND FERTILIZER, THEN RIP T1IE SOIL { TO 6 INCHES TO FROM FIAWING UNDER THE FENCE; MARE IT GO THROOGH THE FILTER ;DUCED, REMOVE THE FILL. MIX THE NUTRIENTS INTO THE SOIL AND 7'0 LOOSEN AND ROUGHEN IT TO FABRIC OR TRAP OOTLET. 2. REMOVE ANY ACCUMULATED SEDIMENT AND DISPOSE OF IT PROPERLY. STONE, NOT TAE ERODIBLE CHANNEL. f•---Maximum 4" • AFTER ~g $~yy: TO SBE HOW MUCH SEDIMBNT NAS ACC' RECEIVE THE SEED. g. INSTALL THE FILTER OUTLET IN THE GAP LEFT IN THE FILTER FABRIC. IEDIMENT NAS ACCUMULATED, 3. REMOVE THE STONE, HARDWARE CLOTH, AND FENCE POSTS; DISPOSE OF between 3. WHERE THE DAN IS BUILT WITH FENCE POSTS AND HARDWARE CLOTH, •iF THE STONE lILTER HAS BECOME COVERED OR CIAGGED WITH OR CLOGGED WITH CEDING: APPLY SEED AT THE RECOlOIENDED RATE, AND GO OVER THE FOLLOM THE INSTRUCTIONS FOR THE SILT FENCE OUTLET INCLUDED IN :F RUNOFF IS BY-PASSING SURFACE WITH A CULTIPACKER WHERE POSSIBLE TO BRING THE SEED THE PLAN, THEM PROPERLY. INSPECT TME STRUCTURE TO 8E SURE THAT IT IS NOT DAMAGED DUE TO SEDIMENT, IF THE OUTLET IS ERODED, OR IF RUNOFF IS BY--'. FIAW OVER IT. MANE SURE RTINOFF GOES THROUGH THE SPILLWAY IN THE THE TRAP. IF TIOt OUTLET IS ERODED OR RUNOFF IS BY-PASS 1NOFF IS BY-PASSING THE INTO CONTACT WITH 77Ui SOIL. 10. INSTALL THE INTERNAL BAFFLES IN THE TRAP OSING A SILT FENCE, UtNGES. INSPECT THE 4. STABILIZE THE DISTURBED AREA AS REQUIRED. CENTER, NOT ARO[DD) TAE BNDS WHERE IT CAN WASH OUT THE BANKS AND TRAP, MAKE THE NECESSARY REPAIRS AND CHANGES. INSPECT ' CAUSE FAILURE. MARE ~ THE FABRIC BELOW THE SPILLWAY IS IN BAFFLES .AND REPAIR THEM IF DAMAGED. AND INSTALL IT IN THE SAME MANNER AS THE OTHER SILT FENCE. 5. MULCHING: THE AREA SEEDED MUST BE MULCHED TO PROTECT THE 'BARE FOLLOW THE PATTERN AND DIMENSIONS SHOWN IN THE PLAN. PLACE AND IS ADEQUATELY PROTECTING THE CHANNEL BOTTOM AND SIDES. 2. CLEAN OUT TKE PIT WHEN SEDIMENT HAS ACCUMULATED TO THE ;UMULATED TO THE TOP OF SOIL UNTIL THE VEGETATION IS ESTABLISHED AND TO RETAIN MOISTURE VIEWS 'THE SEDIMENT STORAGE VOLUME AS INDICATED BY TAE TOP OF t.00KING 4. CLEAN OUT ACCUMULATED SEDIMENT AND DEBRIS WHEN IT itEACHE$ A ~ _ :D BY THE TOP OF THE 4- TA PROMOTE SEED GERMINATION AND PLANT GROWTH. APPLY ENOUGH 11. IF IT IS NOT ALREADY IN PLACE, INSTALL THE SILT FENCE, MULCH TO COVER 15t OF THE SURFACE. TO KEEP IT IN PLACE AND DIVERSIONS, ETC. NECESSARY TO CAPTURE AND DIRECT RUNOFF TO THE PREVENT WIND OR WATER FROM DISLODGING IT, THE MULCH SHOULD BE TRAP. _ DOWNHILL DEPTH .OF ONE-HALF THE HEIGHT DF THE WASHED STONE. PLACE TEiE, EMOVE THE SEDIMENT AND HELD IN PLACE BY TACSLVG IT-MITH ASP}IALT, CUTTIIIG IT WITH A SEDIMENT IN A DISPOSAL AREA OR, IF APPROPRIATE, MIX IT WITH DAY INCH STARE IN TAB tiIDDLE OF IEEE TRAP,~REMOVE THE SEDIME " TI SOIL ON THE SITE. PLACE IT IN A DISPOSAL AREA OR, IF APPROPRIATE, MIX IT SOIL ON THE SITE. OPRIATE, MIX IT WITH DRY STRAIGHT-SET DZSK, OR COVERING IT WITH NETTING. MAINTEN111ICE Hog wire" attached to posts with lengths of wire DO NOT DISPOSE OF SEDIMENT IN A MANNER THAT WILL CREATE AN DO NOT DISPOSE 0? SEDIMENT IN A IDINNER THAT WILL CREATE TEAT MILL CREATE AN MAINTENANCE MATERIALS, EQUIPMENT, AND PERSONNEL MUST BL AVAILABLE FOR EROSION HALARe. EROSION HAZARD. Fabrk folded over 5. WHEN THE WASHED STONE BECOMES CLOGGED WITH SEDIMENT AND DEBRIS, MAINTENANCE AT ALL TUNSS. ANY PLACES WHERE THE VEGETATION FAILS TO ESTABLISH ITSELF OR IS honzOntalpost SCRAPE THE CONTAMINATED STONE OFF, DISPOSE OF IT PROPERLY, AND 3. WHEN THE WASHED STONE ON THE FILTER BERM BECOMES COVERS H BECOMES COVERED WITH DAMAGED BY RUNOFF OR CONSTRUCTION ACTIVITY MUST BE RESEEDED. REPLACE IT KITH CLEAN STONE. SEDIMENT SO THItT HATER CANNOT FLOW THROUGH THE FILTER, HorizoMalpost _ THE CONTAMINATED STONE OPF, DISPOSE OF IT PROPERLY, ANI UGH THE FILTER, SCRAPE WHERE THE VEGETATION FAILS TO RESTRAIN EROSION, OTHER EROSION 1. INSPECT THE SILT FENCE: IT PROPERLY, AND REPLACE CONTROL MEASURES MUST BE INSTALLED. ~01,;E, ' QII$IL~S CONSTRUCTION: TO SEE IF MACHINERY OR FALLING TREES HAVE 6. .WHEN MAXLWG REPAIRS, RESTORE THE STONE FILTER TO -THE ORIGINAL IT WITH A 1-FOOT LAYER OF CLEAN WASHED STONE. -Fence and fabric 1' DESIGN CONFIGURATION. DAMAGED THE TRAP; IF DAMAGED, REPAIR IT. TO SEE IF FILL buried in trench 4. MAINTAIN DRAINAGE T'0 THE SEDIMENT TRAP SO TART RUNOFF i Step 2 Use Staples 1' Apart t0 attach a BY-PASS IT. MAINTAIN ALL DIVERSIONS AND SILT FENCE DIRE SO THAT RUNOFF DOES NOT MATERIAL HAS ACCUMULATED IN DIVERSIONS OR AGAINST THE FENCE; IF SILT FENCE DIRECTING IT HAS. REMOVE THE MATERIAL AND MAKE REPAIRS. fdbriC t0 hop wire 6" X 8" trench, II RiJNOFF TO THE TRAP ACCORDING TO REQUIREIHtNTS FOR THOSE REMOVAL PRACTICES. !BiNTS FOR THOSE backfilled and / N 18' . compacted. s i. WHEN GRADING IN THE DRAINAGE AREA ABOVE THE STONE FILTER HAS " b£T:i RAINFALL: TO SEE IF RUNOFF iS FLOWING UNDER THE FENC; IF IT IS, BURY THE BOTTOM OF THE FENCE CORRECTLY. TO SEE BEEN COMPLETED AND DISTURBED AREAS SUFFICIENTLY STABILIZED TO REMOVAL Fabric cut end folded over the RESTRAIN EROSION, TAE FILTER MUST BE REMOVED. IF L+r?OUND=D WATER IS CAUSING THE FENCE TO SAG; IF IT IS, INSTALL AIT7ITIONAL POSTS TO STRENGTHEN IT. TO SEE IF THE OUTLET • the horizontal fence post. • • 2. REMOVE ACCUMULATED SEDIMENT FROM BEHIND THE FILTER AND DISPOSE 1. WHEN THE PROJECT' IS COMPLETE AND THE DRAINAGE AREA ABOV' AINAGE AREA ABOVE THE IS F9NCTIONING PROPERLY; IF NOT, MARE ADJUSTMENTS OR REPAIRS. TRAP IS STABILIZED, THE SEDIMENT TRAP MUST BE RIOSOVED. Top of baffle should be 6' OF IT PROPERLY. DST BE REMOVED. 2. REMOVE ACC~SI7LAinD SEDIMENT WHEN IT REACHES A DEPTH OF ONE-HALF hipherthanihe bottom 2. .REMOVE THE ACCUMOLi1TED SEDIMENT, EARTH BERMS, AND STONE Ofihe spillway. 3. BEHOVE THE STONE AND, IF APPLICABLE, THE FENCE POSTS AND GRADE THE wREA. DISPOSE OF THE SEDIMENT AND TARP COMPOF BERMS, AND STONE, THEN THE acIGHT OF THE OUTLET FILTER. PLACE THE SEDIMENT IN A AND TRAP COLONENTS ALL DETAILS 1 L LU S T R A T E D DISPOSAL AREA, OR, IF APPROPRIATE, MIX IT WITH DRY SOIL ON T:;E SITE. • HARDWARE CLOTH. PROPERLY. • 4. STABILIZE THE DIS'T'URBED CHANNEL WITH A LINING QF FABRIC AND • RIPRAP AND ESTABLISH VEGETATION ON OTHER AREAS, IF APPROPRIATE. 3. STABILIZE TAE DISTURBED AREA KITH VEGETATION OR STONE, IN O R A N G E C O U N T 1 m ITT DISPOSE OF SEDIMENT IN A MANNER THAT HILL CREATE AN ATION OR STONE, AS EROSION EAIARD. SPECIFIED IN THE PLAN. OSION CONTROL MANUAL ' ER 3. REPAIR ANI BREAKS OR ROTTEN PLACES IN THE FILTER FABRIC. 4. MAINTAIN TSE OUTLET FILTER ACCORDING TO THE INSTRUCTIONS INCLADED ffi THE PLAN. Bottom of baffle / in trench and trench~•--- 5. WHEN MAKING REPAIRS, ALWAYS RESTORE THE TRAP AND ITS COLONENTS TO Pis ORF6INAL DESIGN CONFIGURATION. filled with soil and compacted• ,~ttlll aRO .•leln '"BRUNSSEN ENGIN NGINEERING SERVICES, P. A. N6~'~~°.y'J~ly~ ENGINEERING PLANNING CONSULTING EROSION CONTROL E -2 `.;TI H. 8~•~ r DETAILS a 36 CHURCHWELL CT. DURHAM DURHAM, N.C. 27713 (9I9) 544-1159