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Home My WebLink AboutMiscSHORT SUBDIVISION NUMBER _____ _ SE l /4, SW l /4 SECTION 34, TOWNSHIP 24 N, RANGE 5 E, W.M. CITY OF RENTON, KING COUNTY, WASHINGTON i a:; :,... !:j -.:i ' §/ :,... I ~ ki t,:j I ' ,,. I ' I I ,,. •• ,· r l$T-3.~·RICJttrOF /31 WA.y0€ot6ino,.,, i 'L • TAX PARCEL #3424059072 225.:ii ~!!_' Sl_QE!'._ARfl_B~l _ I...J ~ ,. . LOTC 1~ ~~ 17,lMSF la! ""!? [G ls 1s7s!rievAA0BsBL ------.J ~ '11"2l'l9'E 243 !7 l~S~Y~ll~S!!L ii/% 16.79 tr •I 7 l~f . ,., . ~ l' •' '- LOT B 17,6B8Sf -1~ siiiE Y.ii11:Dasei. - 1.f 1; ~ /~ Id', _/~ ·• h Nl"2!'39'E J~· 2H.39 C < "r -e, s, ~, /;/L _15'.§:ID§_YA~!_~ LOTA 16,598SF ls·sioE-v~oBSeC 224.03 -l ,1. -_JftJ t~ t::-. N1"l8'S3°E 3U.13(TOTAL) TAX PARCEL #3424059016 t/!t ~ " .!..!1:.R Nl.21'~9"E S86.J6 TAX PARCEL #3424059117 311.20 NATIVE GROWTH PROTECTION TRACT 11 S,60S SF ~ " 1~ ~ • TAX PARCEL #0323059267 TAX PARCEL #0323059164 I --r FIElD LOCATED CENTERLINE OF MAY CAEBC. (lf\0/2013) NO CORNERS SET THIS VICINITY ----------------------~"~'~'~·00%~-----------;;,;;..;,,,i]l,-------------l "' I e I TAX PARCEL #3424059109 -iiiiioiii,-----Z-~"""""'. '--"-~~ '" '" SCAtE: 1" ~ 40' GOLDSMITH LAND DEVELOPMENT SERVICES 1115 it41l,,..,.,,Sf.Belicv<.:.WA~ I PO&,,cl~S.-.,,..W/198009 T 415 462 1000 F 415 462 n19 -~-.com N ',AC~O\SURY[V\12\l 219G\12196X<l4.<hi,,g Erlu Malm 2013-03·07 2.H PM N1"18'44"E 323.04 (II.U:818LEJ ailv!<o.1£ ··'"'\ ,' ~ () TAX PARCEL f34~~o5'Utfolf:, ( ..... LEGEND @ REBAR & CAP~fl AS PART OF THIS $HOl!.T Pl.AT (L'i 29277,38984,23070) Q RO REBAR & CAP FOUND (AS NOTED) M4R J 6 l!}!.f \}{.,;1j!Q.l,!NDARY / NEW LOT LAYOUT , -,II, ..• ,~.· 'MA\, VALLEY MEADOWS PRELIMINARY SHORT PLAT ITT Df IWffiltl KING COUNTY ~~!- SOU. ,•-40' DAH. 2/1S/l01l JOB NO.: 121!1t; FID8~ PWM. iMA.LM a«:MWo.UGffi s.HEET: 3/6 ~· I I 1 fill i, I• I I - I ; .. ,, .i : ? '! i ~ ·~ 0 I ... !' ' , __ _ 3<-.. s;/---~~-<)---,, .,..i. ,, • ~--. .....__',, ~ ·"'' ,.-',j -'. i ----- On lJ ' ' ! j ! 1~ 1 1 ' 1. \" T.·;:.~-~..:-::--:::;;,':T~. ==·"·-----~··--r '<C-.' . ;;,--.--~:c-,-> ..... -· f----- SHORT SUBDIVISION NUMBER SE l /4, SW l /4 SECTION 34, TOWNSHIP 24 N, RANGES E, W.M. ------CITY OF RENTON, KING COUNTY, WASHINGTON PROPERTY OWNER: MAY VALLEY MEADOWS, LLC 1215114thAven~S.E. Bellevue, WA 98004 Phone (425)462-1080 Fax (425) 462-7719 ENGINEER/SURVEYOR: GOLDSMITH & ASSOCIATES 121 S 114th Avenue S.E. Bellevue, WA 98004 Phone (425) 462-1080 Fax (425) 462-7719 SITE DATA TOTAL AREA 167,843 SF (3.85 ACRES) PROPOSED LOTS: ZONING: R-1 LAND ASSESSMENT PROPOSED LOT AREAS· WITHIN CRITICAL AREA WITHIN BUFFERS: WITHIN PUBLIC ROADS· WITHIN ACCESS EASEMENTS· PERMITIED DENSITY: PROPOSED DENSlli': DECLARATION LOT A: 16,598 SF LOTB: 17,688SF LOTC: 17,164SF TRACT: 115,605 SF 31,871 SF 77,304 SF 788 SF {TO BE DEDICATED) 0 SF l DWEUJNG UNIT PER ACRE 0.77 DWELLING UNITS PER ACRE KNOW' ALL PEOPLE BY THESE PRlSlNTS lHA 1' WE, THE UNUERS/GNED, OWNER(S) IN FEE SIMPLE Of THE LAND HEREIN OESCRIBED 00 HEREBY MAKE A SHORT SUBDIVISION TttEREDF PURSUANT TO RCW S8. 17.060 AND DECLAII.E THIS SHORT SUBDMSIDN TO BE TilE GAAPHIC REPRESENTATION OF SAME. AND THAT SAID BOUNDARY LINE ADJUSTMENT IS MADE WITH TffE FREE CONSENT AND IN ACCORDANCE WITH THE DESIRE OF THE OWNER(S). MAY VALL.£Y MENX>WS. LLC UY GOLDSMITH LAND INVESTMENTS, LLC 1TS c MANAGER "' JOHN D. DULCICH. PRESIDENT ACKNOWLEDGMENTS STATEOFWASHIN(;ffiN l ' " COUNTY OF KING l I CERTIFY THAT I KNOW OI!. HAVE SATISFACTORY EVIDENCE THAT SIGNW THIS IN~TRUMENT ANO ACKNOWU:OGED IT TO Bt: (HIS/Hrn) FRH ANO VOLUNTARY A.CT FOR THE USES AND PURPOSES MENT!ONED IN THE INSTRUMENT. PRINTED NAME or NOTARY PU8llC SIGNATUFIE or NOTAAY PUBLIC DA.fED MY APPOINTMrnT F,~PIRES 'i) GOLDSMITH LAND DEVELOPMENT SERVICES 1)15114thAv.S[.llellevve,WA9000'I I PO!lo>:JISS,l'lele,,.,Je,WA'l8009 r ~)5<167 1000 f4/54h7ITI? VW1Wg,:,l°""1,-.,~oom M \llCA[}\~WYcV\l 2\l l19~\1219tiXC2.<lw\j [rte• Malm 2013-03-0$ ~:2lNA APPROVALS CITY OF RENTON DEl'AATMENT OF PUBLIC WORKS GREGG ZIMMERMAN, OIIU'(T()R. EXMIINED AND APPROVED THIS ............... DAY OF ..•.....•............................... , ZOl 3 "' . ADMINISTRATOR. PlANNING. BUILDING & PUBLIC WOltKS EXAMINED AND APP!lOVED THIS.. . ...... DAY OF .. . .............• 2013 "'·. TAAJolWOIITATION sYSTI:MS MANAGER KING COUNTY DEPARTMENT OF ASSESSMENTS EXAMINED AND APPRO\IEO THIS .. ...... OAYOf .. •• 2013 " ASSESSO!I BY:. DEPUTY ASSESSOR NOTES 1. t!ORIZONTAL OATUM: NAO 1983/91. aOUNDAllY INFORMATION SHOWN HfllEON REFERENCED THE FOLLOWING INFORMATION A) RECORD OF SURVEV AS RECOIi.OED IN VOLUMf. 65 Of SUINEYS, PAGE 171, RECORDS OF KING COUNTY, WASHINGTON i) RECORD Of SURVEY AS RECORD£0 IN VOWME 2S6 Of !iURVEVS, PAGE 073, 11.ECORDS OF KING COUNTY. WASHINGTON CJ HIGHIANDS AT Nl'WCASTLEACCQRDING TO TliE PlAT THEREOF AS RECORDED IN VOLUME 204 OF !'I.ATS. PAGES 91-1 00. RECOR.OS Of KING COUNTY. D> WGS SURVEY DATA WAREHOUSE. E) KING COUNTY ASSESSORS MAP FOR SW 34-24-05 l. BASIS OF f'OSffiON IS TATE PI.ANE COOII.OINATES ANO CAOASTRAI.). HEW SOUTHWEST CORNER OF SECTION 34, TOWNSHIP ll NORTH. RANGE OS EAST (Al.SO KNOWN AS WGS SURVEY COl'ITIKll POINT l70n. FOUND CONCRETE MONUMENT WITH 3/8" 8RASS PLUG WITH PUNCH IN CASE. MONUMENT 15 LOCATED ON THE NORTH BOUNDARY LINE Of THE 1'1.ATOF CALEIX)N ANO IS 1.0' EAST OF TilE CENTERLINE OF 132ND AVENUE SOUTii EAST. OPl'OSITE THE soorn PROl'EllTY LINE OF HOUSE "95SO, MONUMENT IS 1.0• BELOW GllOUNO. SEE WGS SURVEY DATA WAREHOUSE FOR A MrntE OETAllEO DESCII.IPTION. NORTHING (FT).191241.843, EASTING (ffi:1311481. 147 3. BASIS OF BEARING (STATE PLANE COORDINATES AND CADASTRALI: HELD THE BEARING IIETWEEN THE AIIOVI' NOTED BASIS OF POSmON ANO THE SOUTttlAST CORNER or SAID SECTION l4, ( AL.SO KNOW AS WGS SURVEY CONTI\Ol POINT 3705). A FOUND STONE WI™ CHISELED "X" IN CASE TO 8E N 88" 33'1 s·w PEIi DIRECT INVERSE. SEEWCS SURVE'f DATA WAREHOUSE FOR A MORE DETAILED DE501PT10N. NORTttlNG (FT)' 191108.SBZ. F.ASTING (FT):1 ~16760.441 4. MONUMENTATION NOTED AS fOUNO WAS FIELD VIS/TEO ON JANUARY 08, 2013. S. THE LEGAl OESCRIPnOl<I ANO EASf:Mfl'lTS Sl10WN HEREON A.RE PEIi. OLD IID'UBLIC TI TIE. lTD !'I.AT CERTIFICATE ORDER NUMBER 5207110286 DATED FWUARY 8. 201 l, ANO SUPPLEMENTAL COMMITMENTS THERETO. otlLYTHOSE EASEMENTS NOTED IN SCHEDULE B Of SAID RB'ORTTHAT CAN BE PlOTTED ARE SHOWN HEREotl. 6. GRID DISTANCES WERE REUUCED TO GROUND DISTANCES USING A COMBINATION FACTOR OF 0.999985210. WHERE GRID DISTAMCE DIVIDED BY COMBINATION FACTal EQUALS GROUND DISTANCE. THEREfORE THE ONLY TRUE WASHINGTON STATE PlANE COORDINATE !S THE BASIS OF POSITION (STATE PLANE COORDINATES) 7) THAT PORTION OF THE WESTERLY BOUNDARY THAT IS OESCRIDED AS "THE CENTER.LINE OF MAY CREEK" WAS CALCULATED U51NG TliE MIDPOINT OF THE FIELD lOCATED OIIDINARY HIGH WATER MAAKS DEUNEATEO BY WETLAND RESOURCES INC. 8) THE SOUT11 II.IGHT or WAY MA~GIN FOR SE MAY VAi.LEY ROAD IS RASm ON rHE AlllM NOTFD RECORD OF SURVEY (VOLUME 2S6, PAGE 071). 9) WORK Pf.llFORMEU IN CONJUNcnON Willi TlllS SU~VEY UTII IZED ONE OR MORE or Tlif FOLLOWING SURVEY INS'\ll:UMENTS AND PROCEDURES· 11.ECORDER'S CEII.TIFICATE . SURVEYOll.'S (ERTIFICA TE FllW FOR RKORO THIS ..... OAYOf .• 20 ... AT .... MINIIOOK. °'· ... ATPAG<. ATT!iER[QUl:STOF HUGH G. GOlOSMITH & AS$0CtATE<;, INC AUOITOR. KING COONTl' DEf'IJTY CO!l"ITY A.WITOR TH~ MAP (ORREf:TIY R[PRFSFNTS A !URVfY MAD< IV ME OR UNDER M\' OIRKTION l"I CONfORWl"ICl' WITH THE REQUIREMENTS Of THE 5UMaV RKOO!l<NG "Cl Al TH> ROC[U~T QfGQl.QS""T~ LAND IPNESTMl:'NTS. lLC IN A. fl€LO TAAVEltS£ ANO/OR GLOBAL NAVIGATION !.ATELUTE SYSTEM (GNSS). B. ELECTRONIC TOTAL STATIONS, INClUOING TOPCON GPT lOOS, TOPCON GTS-lC, TOPCON GTS Bl SA. NIKON DTM--430 OR NIKON DTM-530. C. LE!CA SYSTEM 300 GNSS EQUIPMENT 0. TOPCON HIPEll. llTE PLUS GNSS EQUIPMEN r. E. TOPCON GR-l GNSS EQUIPMENT. F. ALL FIELD TllAVEl\SE WOR~ COMPLIES WITH CURRENT ST ANDA.ROS AS OUTIJNEU IN WA{. 332-130-070, 080 ANO 090. ALL INSTRUMENTS MAINTAINED TO MANUFACTUREKS SPEOFICATIONS AS REQUIRED BY WAC 332-130-100. 10) VEl\TICAl DATUM. NAVO 19118 PER WGS SURVEY DATA WAREHOUSE. MASTER BENCHMARK: WGS SURVEY DATA WAREHOtJSE (DESIGNATION llENT-#21113). FOUND 3" BRASS DISK STAMPED '"CITY OF BELLEVUE OHl" SET ON TOI' Of CONCRm MONUMENT IN CASE. MON\JM[NT IS LOCATED IN FRONT OF HOUSE #13905 ANO IS 2.0' SOUTH OF THE SOUTH EDGE OF PAVEMENT OF MAY VALL['( ROAD (NAVO 191111) ELEVATION-31 S.55 FEET SITE BM#l. GOlOSMITH WII.YEY CONTROL POINT MV"I -SET l'K NAIL ANO TAG IN THE NORTH ~HOIILDER Of SE MAY VAllEV llDAD 2.7' SOUTH OF THE NORTH EDGE Of ~AVEMENT AND+/-2]' WEST OF THE WEST EDGE OF DRIVEWAY TO HOUSE ,1381 S. ELEVATION -114.l l FUT, SITE BM#2: GOLDSMITH SURVEY CONTROL POINT MV"2 -SET REBAR AND CAP IN BACK YARD +l- 73• SOlfTH OF THl SOUTH EDGE OF ASPHALT ROAD AND +/-100• EAST Of A 6' WOOD FENCE RUNNING ALONG THE WEST BOUNDARY LINE. REMll.15 +/-3' NORIB Of TOPOf SlOPt:. HIVATION a 299.98 FEET. SITE BM"3: GOLDSMITH SURVEY CONTROL POINT MV"3. SET PK NAIL ANO TA.GIN BACK YARD IN ASPHALT ROAD. Pl<. NAIL IS +/· 36• EAST OF 4• WlllE FlNCE RUNNING ALONG THE Wl:ST l!OUNCIARY, 211· SOUTH OF THE SOUTH EAST COIINER OF A SHED ANO s.o· EAST Of THE W£ST EDGE OF PAVEMENT OF SAID ROAD. ELEVATION m 305.48 FEET. 11) PL.ANlMETRIC ANO TOPOGRAPHIC INFORMATION SHQWlol HEIi.EON WAS flELO LOCATED ON JANUARY 8 11, 2013 AND IS CURRENT TO THOSE DATES ONLY. ELEVATIONS WERE TA.KEN ACROSS THE SITT AND ARE AVAILABLE ELECTRONICALLY 8UT AIU NOT AU SHOWN HEREON FOR SAKE Of CIARl1Y, 12) UNDERGROUND UTILITIES SHOWN HEII.EDIII ARE PER A COMBINATION OF FIELD l.OCATtD SURFACE OBSERI/A.BLE FEATUII.ES AND RECOIi.OS OF THE APPUCABl.E UlllfrY PURVEYOR. AU LOCATIONS SHOULD BE VERIAEO PRIOR TO ANY CONSTRUCTION. 13) WETLANDS AND OIi.DiN.UY HIGH WATER MARKS SHOWN WERE DEUNEATEO BY WETLAND RESOURCES INC. AND WERE flELD lOCATIO BV GOLDSMmi AND ASS00ATES IN JANUARY 2013 14) FLDOO ELEVATION DA.TA IS BASED ON THE l'REUMINARY D-flll.M -PRELIMINAII.Y FLOOD INSURANCE RAT!: MAP AHO FLOOD ~SUIIANCE STUDY KING COUNTY, WASHINGTON. MAP #53033C0669 K. PORTIONS OF SITE ARE DESIGNATED AS FLOOD ZONE "X" WHICH ARE AREAS DEEMED TO IE OUTSIDE OF THE S00 YEAR FLOOD PLAJN AND ZONE "AF' WHICH ARE AREAS WHERE TltE SASE FLOOD ELEVATION HAS BEEN OETERMINED. THE APl'ROXIMAT£ BASE HOOD ELEVATION, TilE ELEVATION DEEMED TO BE TllE \00 YEAR FLOOD LIN£. EXTEND'; fl!OM ELEVATION 282 FEET TO ELEVATION 288 FEET ACROSS TiiE WIDTH OF THE PROPERTY AS DEPICTED ON FLOOD PIIOFILE 109P AS ASSOOAT£D WITH SAIO PRELIMINARY D-FlRM. TliE BASE FLOOD PI.AIN HAS NOT BEEN FIELD VERIFIED AS PART OF THIS SUII.YEY. RECORD MATTERS 11 EXCEPTION NO. 4 OF THE ABOVE NOTED PLAT CERTIFICATE IS FOR AN EASEMENTRECOR[lEO UNDER RECal.DING NUM8El\ 30261 81. SAIO EASEMENT ESTABLISHES THE R!CHT TO MAKE NECESSARY SLOPES FOR CUT'i 011. me, UPON THE SUIIJECT PROPERTY ALONG THE STREET MARGIN BUT CANNOT BE PLOTTED HUEON l) EXCEPTION NO. 6 OF THE A80VE NOTED Pl.AT CERTIFICATE IS FOR A SENSITIVE AREA NOTICE RECOIUJW UNDER RECOROING NO. 91 0225 I Sl0 ANO Yl030B0632. THE SlNSITIVE AREA NOTICE NOT1FIE5 THE PUBLIC OF THE SENSITIVE AREAS ON TttE..lln;i,suT IT IS NOT A DELINEATION Of SAID SENSITIVE AREAS. CONCURRENT WITH THIS SHORT SIJl9.Nj6JIN. CRITICAL AREAS HA\IE BEEN IDENTIFIED ANO DELINEATED. THE SENSITIVE AREAS, A.IQ~ BUFFERS AND SETILA.C~, PER Cl1Y OF RENTON MUNIOPAl CODE. ARE SHOWN UERE~. (.' LEGAL 'i:-_,,_<,_ -tfi:,.,, THE WEST UALF OF THE SOLITl-lEAST QIJARTER OF THE SOLITl-lEA~./~fElt,; ;/~(~T QUARTER OF SECTION :i<I. TOWNSHIP 24 NORTH. RANGES EAST. W.M .• IN'Kltit(IQUNTY~--,f"-, WASHINGTON, LYING SOUTHERLY or s.e. MAY VALUjJ.9AD (Al.SO KNOWN AS i~WSE ROAOl; .'lf,4J.) I, EKC£Pr rHE WEST 11 0 fl£T IN WIDTH ~V'.NG NORTHERLY.Or '1r/j.N~UNE OF MAY CREEK. SITUATE !N THE COUNTY OF KING. ~~(~f-t~.l~GTON. !J TRACT NOTES !([:___:.,ti' ... i,~ 1--~ NATIVE GROWTii PROTECTION TRACT: ~E~~n,'.6/~~(i~H 3 WITHIN THIS SHORT Pl.AT INUUOE AN EQUAL ANO UNDIVIDED OWNERSHIP 1lirtgis r..TivE GROWTH PROTECTION TilACT. AND AN EQUAL AND UNOMOl'O RESl'CIN 1'ftioJi .Tlit:¥AINTl'f,jANU or SAID TRACT. : -,. : MAY VALLEY MEADOWS PRELIMINARY SHORT PLAT ITY OF RDITON KlfolC CQIJNTY W.O.SHII S(AL<:N/A ;,,;,~,. 2/11/201) '"l~~-N0-_:-1;,i; ""~ OWN:EMALM CHK. MMAUCD SHEET. 1/~ rt;#: SHORT SUBDIVISION NUMBER _____ _ 1/{JT V!SITH} HEIDPFRPLAT SEE /'/Off ,PC, SI/EH !/6 r ---~h,--/18e'f6'41'W 26~!~------.------,--------T-IJ2?44 I I, •":' '"' I ' J ' I tL, ~:~ •r ~: +· :e N8B'Jll'll'W ,.,t------~--IJU62 ----- l/ ' ' I .• 1, ,, f:~ ., I' 'I' ' I al ~: I '~ •• _ G6JJON88'Jl1'11°111 ~ fJU.6;, 6615 ~ • _ ~= '·' '/" ,. "' ~i •: i~ /IMSTfl?IJII : SEEN<JTf Ii I'-"' . ~,· " 33,t34 ---_ _,,,,_,, _______ le __ __._~,• JSITE L~,., i ~--N88"29'Je"W i'6JMJ -~--- n/0 CONC M<JN II'/ ,/8" 81?4S5 PLUG t/ Pll!K:/1 /N CAS( /BASIS or f'0Sfflr1N/ NOT VIS1Tf0 HHQ~PlATl)f" HIGHLAHD AT 1/EltCASTlE CONTROL SKETCH e ~ LEGEND BM BENCHMARK CONC CONCRETE N fNl.l FOUND ~ MON ldOfflJMENT 0 200 400 800 ..,-,11 ~ 1• • "''"' GOLDSMITH LAND DEVELOPMENT SERVICES 121 ', 1141h A.,._, 5E. ~-WA98004 I PO&,. 3S65. S.I.,.,.,.. WA 98(X)'I T 41', !0) IOSO F ~25 ~~l 7719 wwwf)ld.nvd""'f:«c"',g.<om •t \ACO.D\~UIIV['I"\ 12\ I 2\ 96\ l:l lUXOJ.d,;g Enc,, .... Im .1013-03-01 l 3l PM SE 1 /4, SW 1 /4 SECTION 34, TOWNSHIP 24 N, RANGE 5 E, W.M. CITY OF RENTON, KING COUNTY, WASHINGTON 1/IJrV/S/Tc() HflJ) PER PLAT Sff NOTE 1/C, Sllf:Er 1/6 -------------------N88"46'41'ff Z6J;>8! i ' I ' I, i! ii 34 ,l.,s -Nlll!"J6'Sl'W 26'15.60 -----------~ N98"JJ'/5'1# (RUIS ()F ~ARINt;) 5l6J./!Z ~ -{ 2 FNDSTONf W/ r;ff!SE:L£0 "X" IN CASI: ·::~(J,;, n-r ,,•,- fi/11 '; -,~~ l .5 tJl} , .l_l_l-.i~."<S:,\~fil U~~ij·~;Ji!f1 ~~/.i\'l.}}~~ j. :\\ ;o, \\ "I ,x,~;;i \ • "'J .1.. , , -.. \.',\/.· _ Lit .. ·\-.:..1 .. /---././1 J · --\· . ·. . -\\ -· ·r .. _\ 1 "'"·-, ···</Js \ ' '1~' ·.' 11lJ.\1 \) I \.· '\ lf1·1·;· j il·1··· \,.·I H .• ·.\.\ '. \ .. · .. '· L. '(.,\. ".//. · .. · -. •. \. .\ , i\l\\h IIJlll;\\'~n1f:J \'''<,)';, ') \\ / i \\ \/ I 15:'· ... J. \,1_--f·\:~-1 \'"' \'·\'"--:,_,, . .11-· r · ) 1~r""u.;w,1,\>.1( •.•. 't<':\\ .. %.<. ;')_ 11 :I I •. ' (1 ·'•{f VJ1i\~~Z\'ii<f',t,C, I \~./. I / 1:j/.lJlii 1 ~· w 1 ·1l1)],r.;,~".·~P¥r1r.1 l ,,i, ,,,1 I~ t: I, I -1· IT I. 11:"'.,1;'/"'i'.\, ~\ 1 .. J "' --] ··~· .. .1 · ·1--1 r l~fPII,, IL_~-~>,_--. _/ ~/.1/.11i,l1j rf}1f1J1,~<:.,, · / .·.i·i. _\ I rl-,/1 (:! 111,11, )'-11.c \ _:ll 1,,,-· 1 · /1,r1ifi 1 .~,.,,I, 1Ji 1n0.1 • 1 , Ll' 1' :1111 i/11'ir'1!i i/, , 1.1 1 J; 1 Jltlll 1\lli\lJJJIJ[[f.///TI f\1 l''llj.J'll'f'~ J-1fl, ·ti!·,-l,ilij' \\1.1 'l: .·-.· ., _ rr:i.i:.1n11t,.,1:i, .111,.).'I ·.,,, (il: ·. lJw.l · j\\lY)IJlll•IJ,) ,J'/jl)ll11{!1,\JJll/v,(', J,l\\ 11 J:IJ·~-. 1;,-~1/Y}lr1.1}, _i(:·--u,\Jd)\:x-·,--,/ 1 \.\'· -) ,, I,,. · -'::(.,. _·, , -I \_. 1,_ -/ _ ,._ . -, J , , -, VICINITY MAP N.T.S. SURVEY CONTROL MAY VALLEY MEADOWS PRELIMINARY SHORT PLAT ITY OF ~iNTON KltlGCOl.tlTY WIISHl~OI SCO.U·1"•4DO" ] DATE:2/1S/201l IJOINO. 12196 I AOIII< IJWN·£M.llM CH~: MMA.UGER I SHEET l/6 ~· SHORT SUBDIVISION NUMBER _____ _ SE l /4, SW l /4 SECTION 34, TOWNSHIP 24 N, RANGE 5 E, W.M. CITY OF RENTON, KING COUNTY, WASHINGTON LEGEND ~·-w, "" m CON( ,~ " "' '" '" CJ •• 6 ~- ,_ 0 RU '" _n_ ~, e SlNO-JMARK MRl!ED WIRE Fri.CE CENHRLINE Of DITCH CIWNUNK FENCE (ONCRHl CORllttl! EDct Of PAVEMENT FENCE GRAVEL INTERSECTK)M M/1.ILBOX GOLDSMITH SV!lV~ CONTROL POINT ORDINARY HIGH WATER IMII.K RUAR & CAP fOUNO (AS NOTED) RETAINING "" / l_ I ,,. TAX PARCEL #3424059072 TAX PARCEL 63424059117 '---~..-' ',,., ·~:,u,=-~_: __ -_-:_::__-~"1--'. : 0 J _I r I '>--J--.. )--',\ !' ~cf--------;:;-o I O 'V •=o=m , ' ,._ ,-):(_ "' "<!l, 0 . lOCAT/ONOF/00 ~' "\ • ..........__ OF ' 7' > 't · '~"" ~ I ='"=m , s,. \ 1 sA~swPE'\.. W Jl'lA?.t.rn;onaa PC/t/OVfO! '~~ . I ZONE ~En j ${%-!:§,'." 1 '·i") T>Y POOCU< -<k., " . .----._ --,_,, ;\ u · ~ ""ft \ \i •..._ -f._-....,,.t' ZONE "X" ( TAX PARCEL #3424059016 TAX PARCEL #3424059109 ZONE'?(" ,...._ SlrEB/ql /-.:;, MV-1! -W ~\~ )\ -_-_-, ,wwmAN°"'"' / ~ 1 / > """'7) I \ ti 1_o' . El.EV•29999 '0 I 6' 'IO{!OFNC SffNOTf#f ,.,, ~ ~""'4: -~ oo \ \ I i I l>.l'FROX/UATELOCAT/ON 4 /.'f,':·i'·f'· OF 100 YEAR FLOODPIA/N h -· I i :: ~t :_, .. ... ti · .. -\ /' , /,,-APPfl.OXIMATEI.YIJ.O / • __ '' ' // I. fl S!GNIFICANTTREES J :•, \_ , •• ;// S01.mf0F1'!1YCRffK / \~·i . -I~· (DJDNOTLOCATfJ II i/ • " \ / // '" _I I ' / .,. \ I / , I\/. ,' /'--. ' // I ;._.J<C_··_.:;,:;,: -._ ( '_ ' '\ ' J,~+s;' :,.~ / S'' , 2' \ L" . <-.= .' .• \, '-s~ -, _I ~ /" -/i < " f':'~,;;. ·~ //'/ -' ---;:. .. ·1 ', ~ fl ;, / ~·· '·, "--<;._f ._-/·h "",...•1' -,, ,-...'I;;·-~------:;:;._--~ ~::/ ::, ·, ,'l. __ 'v / ""'"'"'"c:./ ,,,,~--F/8.D I DOI TlD CfNTFRl/NF OFCRIT( /01/11/1013) -/ /-........ ----- TAX PARCEL #3424059086 ;::: , ~ "b~ ; OETENT/ON POND"' -{0/D ,V(JT ~CCf$$/ / [ 9.8'N FNC -iiiiiiit:--Z .I F-~~:·n·:~::-:-:1 .:.:!·.:·, 20 40 " '" TAX PARCEL #0323059267 :U'SFNC COR r- -2.l'NINC TAX PARCEL #0323059164 = {II..LEl;//JlfJ O.!'IIX O.tf SCALE: l" -40' EXISTING CONDITIONS ... t.• GOLDSMITH MAY VALLEY MEADOWS PRELIMINARY SHORT PLAT LAND DEVELOPMENT SERVICES Ill I 11·11', Ave':J., llo1ovu<. WA9E!ClOI I POik»< l'iM, n,,11ev,,,,. WA9800'J l ~lS1t,liCOOf11S4~llll~www~ng.cam ;\I;'>'_ '')' :c \~i u _; !L_.1 ITY OF RENTON ~LEcl"m~O" ·~= WMHINGJ"O~I OAH:l/l~/lOU IJOBOIO,; ll19~ FLDN< M \hChD\SURV>Vlll\ ll1%\ll19&,o~.°"'1J ErluM.im 1013-0J-07 l.JJPM OWN. EMIIUI CH< MIMAUGR Sl<EEf· •16 ~· SHORT SUBDIVISION NUMBER _____ _ SE 1 /4, SW 1 /4 SECTION 34, TOWNSHIP 24 N, RANGES E, W.M, CITY OF RENTON, KING COUNTY, WASHINGTON -I I e Ii I, /l3S• ' ' / / ,,. '•,, o * TREES rn BE RETAINED ) / l.r ~ "' I/ '",, Q9 ~ TREES TO BE REMOVED ..-;· / l '\ : (' I :,, . . \ ,,.----~st.!16] l • ·:;,_c'/::, : . / : I 1 (' , , ', , , o , W•c, I 1 , , / \ · , , 1 \ * il!ISQ r·-\,, · '0/ \ / /i'.: ·'.'s-. / , r ___ ...... :..x_ / \' I / ,, LOTC lK?l~!JH ··-----··· ' · -' :-··~]( '>, , \ ,. / (',, i ~~-\._)Cx) ._.--------,,. ( / . -.'.'--li_ \ APPIWXINATf_/ J-., ) '· I '·, . '!iitu"v:. ', 1 ,, __ , / · '. I.OCATIONOf/00 ,' ', I \ / I \"· ~ i / / I .-™RFLOODPUolN '\ \ ! Sir£ BM/IA ' ft/Y-/ flfV•J/0 I 1 Sff'NOTEµ ~ ' I I I I \, ' ,' ! \ 4k,, i ''v:oNE.AE" :~o-', 1'------=EAOF~\ , -\ \ ~ I ;, ' -/ ~%:~ I STEEPSLOPE r ' I I ' " ' \ ', ·-.,_ ...,,, ' I · / --!-,,' ',, ) ~ ' " i ' . ..._, I "· NATIVE GROWTH ( ' I ' 'i'" I ---. ' "'~ r:,p J . . 1 ' l j \ ·1· I ''fy '>--y PROTECTION TRACT I I I v._ l 1,, 5w'! 1--·1 ZONE :X J\ I / I , ) . . . l -'i 7F"-/ ,'11 ~ ; / / / '-., \ / \. .' / \ • • t 100 WITIANPfJlJffEII I 'I / /ir,._j / / LOTB /(i/!t!J=~~1BMP ·{. \ • ,'/ / )WE~/) I I / / ,-"',:1 , ELEV•l,j,98 \ \ ' ,,/' , • i/' ) I/ I • 1 _/ ' SEE NOTE '6 / MV·lA ~> ~ / / -/ / APPROXIMATllr 130 _,.J t -'o,,. . / ' /· . ,,,, 5/CNIFICAIVTTf/(fS I I / / I S1ruJ1q3 q.<.t. .' I -. , soomOFMArCREEK I / , / 5/?155""'-··,,. _ 111r-3 .---~~ / / ~'"[', . ----// • / (Di{JNQTlOCATEJ 1 / 1 61!U-6 ~ / £LH•JOH8 / -...;:,__~ · , ,•;,··,. f • -10B£/l£TAINEO / I / >.1 1 -52278 \ ' SEE NOTE 16 • / ':-..~-1--.. \ ···:·:.r.. / • / / ' 1 (' 5226/J"~ " ' ' .,.,_ , · / JI-': 1 /;;1, ,,,,~* * ~·-10 ~ LOT A \ 1 0 o -.:;;:1_ ... ·~ii·· .. -· :Y ,<'\ zoNE ·x· I/ 1 Ir fli-'1: 52219 52111 *ii ,'_) ··:.'i:,.'r~\-'}·~.---.-:~. , ,;"" \ I/ : ,: ,'<_ts· r·-----1.\Mv-lA e, _____ µ281! • ,\\.·,:;_ .:"-''.·\:· \ --.._, /1 I c '/1) J > / ',rn, , c\"'\,j \ '\ ~-"" ,' / I !ff [D''\'" :; · ·..:~ , )-_ J, s,,:,.,. ; i 1' !ir-' 0 \ \ o/'"-::--' / '-, / / "'""' ,/-/1 '. /1/' ' .fi..4Y / /, ',;,f;· ' -, __ ,,___ "' 1,, / -f, 1· 'i-----' ' ~1< """' / ' --, __ ....,_ •. ".<._ ,~ii .; , , ;" z c:==s JIPPIIOXIM4TElOCA770N '-·-----/-,,_ -...;_'-.. ,..i;_~ • I I OFIOOl'EARFI.OOOPl.A/IV ,_ >,,....,,./ -~"):,,.._<.::. ~ I ------/ ~~ , O 20 40 80 120 I flf.LDLOC4TEDCTNTRIUNE /--.._ .;..;..,,, "' I ---2S· SCALE: ]"R40' --..._ " , -/I r --~-~, --~~ ;' . / FIELD LOCATED TREES: '· TREE TABLE FIELD LOCATED SIGNIFICANT TREES 17 (OUTSIDE OF CRITICAL AREA) SIGNIFICANT TREES TO BE REMOVED REQUIRED RETENTION (30%) SIGNIFICANT TREES TO BE RETAINED REQUIRED REPLACEMENT TREES 17 5 0 30 NOTE : 1 58 SIGNIFICANT TREES TO BE RETAINED WITHIN NATIVE GROWfH PROTECTION TRACT. GOLDSMITH LAND DEVELOPMENT SERVICES I! I~ I l'llh -~. n.,llevl,e, WA WJ004 I l>O B<o< 3565. Belbue, WA9BOO\I I 'llS-!6l lOOO r'il\4617719 wwwg,;,ld,milhcnp,<"""!1.(0ffi POINT NUMBER S2110 S21S2 '>21;3 12H4 121S'i 12276 122'7 52278 ll279 12280 12281 5228.2 12311 52363 52369 S2:170 52l71 f>IZl/rY!'la DRIP DIAMETER 12.FIR 24' DRIP IS"FIR 30' DRIP 12" FIR 24' DRIP 18" ~NE 36' Ol!IP 10' FIR WORlP 24"FIR 48' Dl!IP 20· FIR SO'ORll' N'FIR 50'0RIP 28" FIR 60' DRIP TWIii! CEOAll 116".12"1 30' 01!11' 18"CEOM 30'0RlP U"CEOAR 24'01!1P DEC.Cl.U'-U'(8"".6".6"J 16' D!tlP DECIDUOUS CLUMP 24"0RIP TWIii! DEC. (6'.•") 20" DRIP OKIDUOUI CLUMP 24' DRIP 12"FIR 24"DRIP ''"",5<,;n MAIi I 5 20/3 ,/Ji~_-, ( "\': i:. __ , f ;- -.; '~-~---L(~/j jki'f_;·-. TREE PRESERVATION PLAN MAY VALLEY MEADOWS PRELIMINARY SHORT PLAT ITY OF RENTON ~!N~ COU~ WMHINGTOI ·~,,-~"(I' I DAH·ll•l/2013 IJOBOI0.:1219& I fll)~---····- M \AC~D\SURV£Y1 I 111 , 19~\ I 219,;xtJl,d>og hl<a Malm 2013--\ll,07 2:l3 PM D'tffic£MALM Oik:MMAUC.ER SlllitT:S/6 ~,: SHORT SUBDIVISION NUMBER _____ _ '/ // l TAX PARCEL #3424059072 Js•' /;' l/ I 2S• I , / ' .-<, \ ') \ ' I HOll~f FOOTl'lll!IIT ,I /.t '·""" ""'! ,.. I.· q '/ 6 /; Ji I !/ .~ ! ( fl) ' "'~ !11 I HOUSE FOOTPRINT 3,~26 Sf (20%) ( ....:, . I ::! I! , I ~·' /) HOUSE rnOTPlllNT 3,ll6SF(2°") ::..~,f I " c,j ;' /. ..,_,, ' "','"' 7 I ( -J (-) V-2 / (/J·tf:f ()·· / I e /;• ~(/ /! 'I I I ,,. I , 2s, TAX PARCEL #3424059016 I ' -r I I '" " SCAU, TAX PARCEL #3424059109 z 80 "' ---1"•40' GOLDSMITH LAND DEVELOPMENT SERVICES •l 1Sll~~,t,,.,;S{,!ldeYuc.WA~OOCl-1 I l'Olh<JS6S,~.WA~ T 471462 I~ H/S-1617719 www~com M \,t,CAD\)l)R~lY\ \2\ 12196\ lll91iX07.dwg Ma Malm 201)-03-07 2 33 I"! / / SE l /4, SW l /4 SECTION 34, TOWNSHIP 24 N, RANGES E, W.M. CITY OF RENTON, KING COUNTY, WASHINGTON I \ ··--.. :009." ~-'ci.}uol'.__ OIUVE'WAY TYPICAL 10' LANDSCAPING PLAN ,0 " SCALE ,. -10' ----z~ (.';·I_}-n,t-' .. ,. ·- .:., :1 t:.· .. , -, R 1 .5 iD/3 0 0 LANDSCAPE PLAN NOTES/ SPECIFICATIONS TREES STREET TREES· BITTER CHERRY (PRUNUS [MARGI NATA) OR OTHER APl'ROVID TREE SPACED 20' APART; 2" MINIMUM CALil'fR. R£PlACEMENT TREES: WESTERN REDCEDAR (THU)A Pl.lCATA) OR OTHER APPROVE!> TilEE !SITE INTERIOR} SPACED 20' APART; 2" MIN/MUM CALIPER. LARGE SHRUBS -SPACED FOUR FEET TO TEN HET APART, ON CENITR· 0 PACIFIC RHODODENDRON !RHODODENDRON MACROPHVLLUM) G MOCK-ORANGE (PH1lAOELPHUS LE'MS!I) 0 OCEANS PRAY (HOLODISCUS OISCOlOR) SMAll SHRUBS -SPACED TWO FEET TO FOUR FEET APART, ON CENTER· 0 HYBRID MAMZANITA (ARCTOSTAPHYlOS JC. MEDIA) (J LOW OREGON CRAPE (MAHOHIA NERVOSA) 0 EVERGREEN HUCKLEBERRY (VACCINIUM OVA TUM) CROUNDCOVER -SPACED ONE TO THREE FEET APART, ON CENTER: 9" DEER FERN (Bl.ECHNUM SPICANT) (.) CAMAS, CREAT (CAMASSIA LElCHTUNII) co FAREWELL-TO-SPfUNC (CLARklA AMOENAJ if COLDEN EYED CRASS (SISY11.1NCHIUM IDAHOENSIS) TREES, SHRUBS ANO GROUNDCOVER PER KINC COUNTY DEPARTMENT OF NATURAL RESOURCES AND PARKS WATER AND LAND RESOURCES DIVISION PUBLICATION "GOING NATIVE". NOTE: THESE l'REUMl~RY sPECIFICATIONS ARE SUBJECT TO CHANGE: FINAL LANDSCAPE PLANS ANO l'I.ANTINC SPECIFICATIONS, INCLUDING Tll.EE, SHRUB AND CROUNDCOVl:.R SELECTIONS WILL BE REVIEWED ANO APPROVED AT TIME OF ENGINEERING OR BUILDING PERMIT APPROVAL. CONCEPTUAL LANDSCAPE PLAN MAY VALLEY MEADOWS PRELIMINARY SHORT PLAT IIYOF•Ufl"ON KING COUNlY WASIIINGT< SCAU r~•I>' DWII· EMAlM CHK; MMJ\\.11,!R DATE,2/15/2013 1)081Kl .. 12_1_~ I FLDiio: I SHE.ET:6/6 ~· .... ...... .... r i! ! 0 ' ' ' .m dv'V\I A.11Nl81/\ -, I NGPA TRACT 115,605 SF \ \ \ \ \ \ " > I CRITICAL AREA STUDY MAP f38f5 SE MAY VALLEY ROAD PORTION OF SECTION 34, TOWNSHIP 24, RANGE 05E, WM ~ ~ 0: SITE VICINITY 1f ilJ SE MAY VALLEY RD w 0: (.) ...J <3 (.) APPROX. SITE LOCATION EX. BLDG (TBR) WA STATE. ROlliE. 900 ...._ --·1 '-. '- j ; I I PROPOSED LOT C ------- 100 FT BUFFER 1 .._ ____ EX. DRIVEWAY (TBR) ~1----EX. BLDG (TBR) SCALE: 1" = 50' I /...._ ® ---·-·-· -----··--· -~ \._ . '---·-· MAY CREEK. CLASS 2 STREAM \. -··-·--··- . --·-· "·· / )/ /·./ ··/ ;/ // /.I -· ---.-.---·---· CATEGORY 1 WETLAND 0 50 100 LEGEND G WETLAND /;; • STREAM BUFFER NGPA SIGNS /· .· / I I I I I //,...,,;.,____STREAM B . / CLASS 4 STREAM e@oATA POINTS I I I I I I I.· ·; I.· !( I ' I I , I I I \ • .1 \ 35 FT \ \ \BUFFER \ \ 100 FT BUFFER / / / // ----------- I / I I I ~ .~~~~~,~~~'::!::'!~ ... "~' 9505 19th Avenue S.E. Suite 106 Everett,Washin!lton 98208 Phone: (425) 337-3174 Fax: (425) 337-3045 Email: mailbox@wetlandresources.com \ \ \ \\ \ \ CRITICAL AREA STUDY MAP 1.1815 SE MAY VAL.LEY ROAD \ \ \ .\ Goldsmith Land Investments, LLC Attn: John Dulcich Sheet 1 /1 Drawn by: MK Date: 02.14.2013 1215 114th Ave. SE Bellevue WA 98004 May Valley Meadows 3 Lot Short Subdivision Technical Information Report February 2013 May Valley Meadows 3 Lot Short Subdivision Technical Information Report Prepared for: May Valley Meadows, LLC February 2013 Job Number: 12196 TABLE OF CONTENTS Chapter 1 Project Overview ................................................................................................. 1-1 Chapter 2 Conditions and Requirements Summary .............................................................. 2-1 Chapter 3 Off site Analysis ..................................................................................................... 3-1 Chapter 4 Flow Control and Water Quality Facility Analysis and Design .............................. 4-1 Chapter 5 Conveyance System Analysis and Design ........................................................... 5-1 Chapter 6 Special Reports and Studies ................................................................................ 6-1 Chapter 7 Other Permits ....................................................................................................... 7-1 Chapter 8 CSWPPP Analysis and Design ............................................................................ 8-1 Chapter 9 Bond Quantities, Facility Summaries, and Declaration of Covenant.. .................. 9-1 Chapter 1 O Operations and Maintenance Manual ................................................................ 10-1 Figure 1 Figure 2 Figure 3 Figure 4 Exhibit 1 Exhibit 2 TIR Worksheet Site Location Developed Conditions Map Soils Existing Conditions Map Developed Conditions Map FIGURES EXHIBITS APPENDIX A. Geotechnical Report, ABPB Consulting, February 18, 2013 12196 Introduction TIR 02252013.doc May Valley Meadows Technical lnfonnation Repolt 1. Project Overview Introduction February 2013 The May Valley Short Plat is a proposed three lot short subdivision of a 3.9 acre site located at 13815 SE May Valley Road (APN 3424059099). The property is zoned Residential -1 dwelling unit per acre. The properties located to the east, west and south of the site are also zoned R-1. Properties north of the site (opposite side of May Valley Road SE), are located within the City of Newcastle. Project Description The site is located within the May Valley Urban Separator Overlay. A cluster development is proposed, with three residential lots having at least 10,000 square feet each. The remainder of the site, approximately 70% of the project area, is proposed to be dedicated open space and would include May Creek which is a Class 2 stream. The 3.9 acre site is bisected by May Valley Creek. Other critical areas include a small Category 1 wetland located south of May Valley Creek; a small, unnamed Class 4 stream which enters the site from the south and flows into May Creek; and also a limited area of steep slopes (over 40%), located south of May Creek. These critical areas and associated buffers will be included within the projects dedicated open space. The site contains a mobile home and a metal outbuilding or shop. These structures will be removed as part of the short plat. The proposed lots are located on the northerly portion of the site, which gently slopes down to the south, towards May Creek. On the south side of May Creek, the site slopes back up to the south. Access to the three lots is proposed by individual driveways to each lot from SE May Valley Road. Per the Pre-Application meeting held with the City of Renton, 3.5' of right-of-way dedication will be required for SE May Valley Road. Improvements associated with the preliminary short plat will be limited, as the proposed lots front SE May Valley Road. The project does not propose frontage improvements to SE May Valley Road, as the surrounding roadway is not improved to urban standards. The proposed short plat will remove approximately 17 trees in the northerly portion of the site, while retaining approximately 158 trees within the dedicated open space. Improvements for the three lots will occur outside of the required 100' buffer from the ordinary high water mark of May Creek. The existing buffer of May Creek is wooded, with shrubs and grasses. Future, proposed homes on the proposed lots would not obstruct views in the area. The site was previously developed with a mobile home and large metal building, and a majority of the land north of the site (across SE May Valley Road) is open space. 12196 Chaptenll TIR 02252013.doc 1-1 KING COUNTY, WASHINGTON, SURFACE WATER DESIGN MANUAL TECHNICAL INFORMATION REPORT (TIR) WORKSHEET Part 1 PROJECT OWNER AND PROJECT ENGINEER Project Owner May Valley Meadows LLC Phone /425) 462-1080 Address 1215 114"' Avenue SE Bellevue, WA 98004 Project Engineer Scott Kim P.E. Company Goldsmith Phone ""' '"_1,wn Part 3 TYPE OF PERMIT APPLICATION rii:I Landuse Services Subdivison I Short Subd. I UPD 1:1 Building Services M/F I Commerical I SFR 1:1 Clearing and Grading 1:1 Right-of-Way Use 1:1 Other Part 5 PLAN AND REPORT INFORMATION Technical Information Report Type of Drainage Review~ Targeted (circle): rge Site Date (include revision February 2013 dates): Date of Final: Part 6 ADJUSTMENT APPROVALS I Part2 PROJECT LOCATION AND DESCRIPTION Project Name May Valley Meadows DDES Permit# _,C"'i,,,ty_,o,,,f,,,Recen.,,t"'on"--------- Location Township 24 N Range , " Section _,e,3~4 ____ _ Site Address 13815 SE May Valley Road Part 4 OTHER REVIEWS AND PERMITS 1:1 DFWHPA 1:1 COE 404 1:1 DOE Dam Safety 1:1 FEMA Floodplain 1:1 COE Wetlands 1:1 Other __ _ 1:1 Shoreline Management 1:1 Structural RockeryNault/ __ 1:1 ESA Section 7 Site Improvement Plan (Engr. Plans) Type (circle one): ~ Modified/ m II Site Date (include revision Fehnrn0: 2Q 13 dates): Date of Final: Type (circle one): Standard / Complex / Preapplication I Experimental/ Blanket Description: (include conditions in TIR Section 2) Date of Annroval: 06710-3 SWDM TIR Worksheet Ch.! 2009.doc FIGURE 1 2009 Surface Water Design Manual 119/2009 1 KING COUNTY, WASHINGTON, SURFACE WATER DESIGN MANUAL TECHNICAL INFORMATION REPORT (TIR) WORKSHEET Part 7 MONITORING REQUIREMENTS Monitoring Required: Yes 1(§) Describe: Start Date: Completion Date: Part 8 SITE COMMUNITY AND DRAINAGE BASIN Community Plan : ---,-------------- Special District Overlays:------------------------ Drainage Basin: May Creek. Cedar River/Lake Washington Watershed. Stormwater Requirements: ----------------------- Part 9 ONSITE AND ADJACENT SENSITIVE AREAS eg River/Stream May Creek & Unnamed Trib. D Lake 1:::81 Wetlands Category I Wetland D Closed Depression _______ _ ~ Floodplain Associated with May Creek D Other ___________ _ Part 10 SOILS Soil Type Slopes Medium Dense, Coarse Grained Approx. 5% iX'l Limited -SE portion of site t;;i Steep Slope --------- 0 Erosion Hazard _______ _ 0 Landslide Hazard-------- 0 Coal Mine Hazard _______ _ D Seismic Hazard _______ _ 0 Habitat Protection _______ _ D _________ _ Erosion Potential Low Saods and Gravels (Plaoned Development Area) 0 High Groundwater Table (within 5 feet) 0 Sole Source Aquifer D Other 0 Seeps/Springs D Additional Sheets Attached 2009 Surface Water Design Manual 1/9/2009 2 KING COUNTY, WASHINGTON, SURFACE WATER DESIGN MANUAL TECHNICAL INFORMATION REPORT (TIR) WORKSHEET Part 11 DRAINAGE DESIGN LIMITATIONS REFERENCE LIMITATION I SITE CONSTRAINT D Core 2 -Offsite Anal~sis l]I Sensitive/Critical Areas l]I SEPA D Other D D Additional Sheets Attached Part 12 TIR SUMMARY SHEET (provide one TIR Summarv Sheet per Threshold Discharge Area) Threshold Discharge Area: (name or descriotion-) Core Requirements (all 8 apply) Discharae at Natural Location Number of Natural Discharne Locations: Offsite Analysis Level: c.J_J 2 I 3 dated: reoruary, ~vu See Exhibit I -Existing Conditions Map Fl ow Control Level: CJ.)' 2 I 3 or Exemption Number fin cl. facilitv su mmarv sheet) Small Site BMPs Conveyance System Spill containment located at: Not Appllcable Erosion and Sediment Control ESC Site Supervisor: To be determined Contact Phone: After Hours Phone- Maintenance and Operation Responsibility: ~I Public If Private, Maintenance ' = Reau ired: Yes UNol Financial Guarantees and Provided: Yes~ Liability Water Quality Type: Basic I Sens. Lake I Enhanced Basicm I Bog (include facility summary sheet) or Exemption No. Landscaoe Manaaement Plan: Yes I No Soecial Reauirements las annlicablel - Area Specific Drainage Type: CDA I SDO I MDP I BP I LMP I Shared Fae. ~ Requirements Name: NIA FloodplainlFloodway Delineation Type: Major I Minor I Exemption I None 1 DO-year Base Flood Elevation (or range): Eh:~ 282 to 288 Datum: NAVD 1988 Flood Protection Facilities Describe:NIA Source Control Describe landuse: NIA (comm./industrial landuse) Describe any structural controls: 2009 Surface Water Design Manual 119/2009 3 KING COUNTY, WASIIINGlON, SURFACE WATER DESIGN MANUAL TECHNICAL INFORMATION REPORT (TIR) WORKSHEET Oil Control High-use Site: Yes (!:!£) Treatment BMP: Maintenance Agreement: Yes ~ with whom? Other Drainaae Structures Describe: Part 13 EROSION AND SEDIMENT CONTROL REQUIREMENTS MINIMUM ESC REQUIREMENTS MINIMUM ESC REQUIREMENTS DURING CONSTRUCTION AFTER CONSTRUCTION !RI Clearing Limits rsl Stabilize Exposed Surfaces D Cover Measures ~ Remove and Restore Temporary ESC Facilities lSJ Perimeter Protection ~ Clean and Remove All Silt and Debris, Ensure D Traffic Area Stabilization Operation of Permanent Facilities D Sediment Retention D Flag Limits of SAO and open space lSJ Surface Water Collection preservation areas D Other D Dewatering Control D Dust Control D Flow Control Part 14 STORMWATER FACILITY DESCRIPTIONS (Note: Include Facilffv Summary and Sketch) Flow Control Type/Description Water Quality Type/Description D Detention D Biofiltration ii Infiltration Trench Infiltration D Wetpool D Regional Facility D Media Filtration D Shared Facility D Oil Control D Flow Control D Spill Control BMPs D Flow Control BMPs D Other !xi Other Exempt 2009 Surface Water Design Manual 1/9/2009 KING COUNTY, WASHINGTON, SURFACE WATER DESIGN MANUAL TECHNICAL INFORMATION REPORT (TIR) WORKSHEET Part 15 EASEMENTS/TRACTS Part 16 STRUCTURAL ANALYSIS Q Drainage Easement CJ Cast in Place Vault CJ Covenant l:J Retaining Wall Q Native Growth Protection Covenant Q Rockery> 4' High 0 Tract l:J Structural on Steep Slope 0 Other CJ Other Part 17 SIGNATURE OF PROFESSIONAL ENGINEER I, or a civil engineer under my supervision, have visited the site. Actual site conditions as observed were incorporated into this worksheet and the attached Technical Information Report. To the best of my knowledge the information provided here is accurate. Signed/Date 2009 Surface Water Design Manual 11912009 5 VICINITY MAP N.T.S. FIGURE 2 NOTES: I. ONLY CONCEPTUAL TESC /UTILITIES/ GRADING/ DRAHIIAGE DESIGN ARE SHOWN ON THIS PLAN. 2. CONSTRUCTION/ IMPLEMENTATION Of UTILITY CONNECTIONS, DESIGN / CONSTltUCTION OF ON-SITE STORM DRAINAGE 8MP'S, ANO INDIVIDUAL LOT GRADING WIU BE COMl'lETED AT THE TIME Of FUTURE BUILDING PERMITS. 3. CONSTil:UCTION ENTRANCE IS NOT SHOWN AS EACH LOT WILL BE CONSTRUCTED/ BUILT INDIVIDUALLY. ADDITIONAL TES( MEASURES CAN BE PROVIDED AS DIRECTED BY THE INSPECTOR. 4. SURFACE RUNOFF FROM PROPOSED IMPERVIOUS SURFACE INCLUDING DRIVEWAY ROOF AND PATIO TO BE DIRECTED TO PROPOSED TRENCH INFILTRATION 5VSTrM. EXTEND DRIVEWAY TO EDCE OF PAVING {TYP.) -- S. SEE SHORT PLAT FOR LANDSCAPING AND TREE PROTECTION. LEGEND: --110-PROPOSED CONTOUR --,o--PROPOSED STORM PIPE ___,,__ PROPOSED SANITARY SIDE '""' --w--PROPOSED DOEMESTIC WATER SERVICE LINE 11!1 PROPOSED WATER METl:R -•--x-FILTER FABRIC FENCE REUSE EX. WATER METER, ROUTE NEW SERVICE LINE AS NECESSARY REUSE EX. SANITARY SEWER SERVICE LINE, ROUTE NEW SERVICE i/1 ' •·--•=, LIMITS OF CLEARING AND CONSTRUCTION LINE AS. NECESSARY ~ PAVEMENT RESTORATION PROPOSED DRIVEWAY z 10 40 ~ 0 ~ ~ SCALE: I " ~ 20' TYPCIAL PATCH FOR ~ R1G!O PAVEMENT RESTORATION (TYP.) INSTALL WATER METER, ROUTE. SERVIC£ LINE A5 NECESSARY (TYP.) INSTALL SANITARY SEWER SERVICE LINE, ROUTE AS NEC ESSA.RY (TYP.) "' 6 "' . it ::f §/ ,_ i/ / t:.t.,. l /. / I' . ', 't. ,,. .' ,' /i .. '· ' . J I i 11 11·· . .!l ·.1·., .I.·. f , .. / / Ii · , ! j :, / ( f~'-: '.I.I" ',,) • . , ,,,, ::;.-: ; ' ~,, e GOLDSMITH LAND DEVELOPMENT SERVICES 12rS1,1t1,1w,;Sc.ee.c"YUC.WA98004 I POSu,;lSe-$.8clk,,uc,WA98009 T 12516! IOSO F 1!516l n19 www ,o I ,0~ 11 Ck: . /! ! '~ ~: ~: ~' ,! ,~, '' ,' • I SE 1 /4, SW l /4 SECTION 34, TOWNSHIP 24 N, RANGE 5 E, W.M. I / Cl1Y OF RENTON, KING COUN1Y, WASHINGTON ·-. / LIMIT Df CLEARING AND CONSTRUCTION (TYP.)1 i ' \ -r,:, -,) .t(;}I --1- \\ PROPOSED HOUSE\ I FILTER FA.BRIC FENCE (TYP.) / I -/- L. ·. :< .--------~ t \. ., !,. ~ I~- /~ ~ i 3360 S,F , FF= 308.S .· If-! .~ ! •. I';.'.· .· . . ~"l"~. ',.,_"--f-,, I I" -; "'i !.., I , so·. ----_'; -J ----/---',.J,_., ,----..,.,, ·., I I I / ... •..; .,'!-Is ~ ;.,,. ' ' • , i / -i .... ,·~ ,; .• _,,., ·' ii O I I i i i · , .r ·1 I ''I"" I . ...._____,_ I II ----f--+ n·, . ----f---,,--. ,-. -.. ' l I . I .. ,. I •I . . /( O I I :· ol'[ i I / \ I LOTC \17, 164 SF 7 I ./ N ·- I! . , I \ . ' I .// -/-----:-t-1L.-,.-f----t I ,,,., ,· 'i•, ) I ,'/'"/"<' -/ j ./ I ----/ · .... I / ··1 PROPOSED ·HouSE , PATIO / LOT B 3~b0-SF-_.' ,; :'4S4 Sf/ , 17,688 SF f~/= 307.~ ·c:.,'i,;;-,··-/ .' / I ( . ( I ;-' I . _ -~80 --so --i-----so/--so -.s-o . , , -~~--'/ _:'so·_/ , , .. , -~~ ·7 ------/---/--·,i ~ .. IVi ( " • • , %' I / I • \ •, ,,, " j C . . ,. I ';' . , . I '''.;111 '· / · . · ,Y '.I!," -+ '--'--T ---- r~ t. n1 1 ~': -~· l I ~ ) I , I \ \ ' '... ·. \ ~ '\ .. . ' ·, \ '· i ..... I .. , i f -'r-il-... tt---. ' ~c-+---C .L ; I / ,,.: .-:.:::;;;--. ;1 · . ; . I / /, '"' e, •1•.,u,es i/ \ ',/ -----·---. ----~--\ ,' / i 2'l<2'l<S0' L NG GRAVEL r :,;.-, . j I / .• I ,;,· INFILTRATl N TRENCH '"~,/ / // -" / ~ '/I (TYP.) ··,/· c/ / / ,' ..• \ ) \ \ ' ;, :) ··~ . --- ,, / ~ ' I ,? ;·; / ' I rPROe(:)SED HOd .--.' _. . . " '. / ' , ,J,•osr s; .,./"J ,}lr,o ·L'o • / / ff, I/ 1/ / I/I ,J 'Ff•j07:0 •. 41/4SF / TA / ff , / I/ / ·. --. 16,59'8 cl i'!.'' ,. I/ 1 ," 1, 1 J,.. . I, I ,, .· VI -if ,,...,, .• ,·, ·/.c',.5(1 1 ,/:7, '. ·._,; ;',, I . · .· / 1 ~I 1··· ·';/{,/ /! , ,_ .. :- I [ ' :\}·· l ' 'l '.:·· I, t I " q II ~ I• ,, \t;i . . I.[, I ·''I •,N.~ • .-,,drf?' 1:, i} I:! ·,r,, I ~ ' I I ' '··'\ \ ', \·:_1' . ,·\ ' ·\ •I \, \. '>J',,, '!"·' ( ..... .,," t. .,,,,,. \'. ;r ·, ,,, ... ·t·~·;;:;J~;,'.' 11!3 /';, . ,.. -,,. ,\(r--/.1: .,-~ . :t-so-7',_ / h ' /1~\/,.; // ,/ I ,.,, • I& ---"' ,},/·,, -,d'. :f-i----x--,-. ; \ . -..-I i -,.f ---.-!J / 1 / / I/ ,,,,·~<f,,; :J-, l . ' I .· . • • ' / I ' , . Y · r-. -~ A,,,, 1 . •=•CqlC• X' ¥ x--H+:t / < · ).. l .·: / b 1'.. 1 . ..'/··· 1 . . f '-t 'l . . !l\y-· 0 r ,-, "i .. ~J;;;-,;·:~ ' --.. ,...Ji Ii'; I I . ' ·r, 7·{;' \ -~>'.. '-\ ;~}OS· .1,1.-1·.,:c ;-:.".'1 .. 1\ I I I I · r-7 .. / i co,,,aTo ,6o, ·· ·11 ·' ii?··.,· , :, 11· ..' '-::. --•L _1 ''; , 1 ;,,,, , , I 'r6~ ~"' r , L;-":1'·Y I ORAIN(TYP.) i ,;' ~1 H'--...,..,-ry ,, ' ;· 1' / ,1/1 ti, _ .. f/ '/' ... ' ; ! • -' /c >' I I / , / / / I F > /. < l. ' ~ / 1 ~~1 1 p ')1,',,, EARTHWORK CALCULATIONS• AREA CALCULATIONS• ''"'.::,'.i,:J::.:;,;J;;,;! /,' f/ . / / / • , /; · ,· ~·-~ I .,,. / / • I , I.'.' ., CUT VOLUME FILL VOLUME NET CUT = 1191 CY -~- = 243 CV NOTE: EARTHWORK TO BE BAlANCED OR RE-SPREAD ON SITE. 1 • SITE AREA: LOTA LOTB LOTC CA TRACT TOTAL 16,861 SF 17,951SF 17,426SF = 1151605 SF = 167,843 SF 2. TOTAL AREA OF WORK~ 56,814 SF 3. LOT IMPERVIOUS AREA: PA TIO = 484 Sf DRIVEWAY = 1 044 Sf HOUSE = 3360 SF TOTAL = 4888 SF : ,~ I j tt I l! ., f/,' / / ~ _,>,.; I i / ,, '-, ; " .•.. ?\·· ·/'" ' . ~-:,-----.~ I / I I I i> I .. l ,, '. / i FIGURE 3 Pl.OTTI:O: lDll/Ol/01 ll:44 MAY VALLEY MEADOWS, LLC _IOBNO 12196 DRAWN: JCJ DESl~NED: SK APPflOVID· KIG flH08(>()1(. •=• M;\ACAO\PlAT'S\ 1211 ll%\I l 1%8'.ll ., PRELIMINARY GRADING, UTILITIES, AND DRAINAGE PLAN FOR MAY VALLEY MEADOWS CITY OF RENTON KING COUNTY, WASHINGTON SHEET C-1 47°3 1' 11" 47° 30' 55" ~ "' "' "' 563280 N A Soil Map-King County Area , Washington (May Valley Mead ows -Figure 4 (Soils)) 563360 563440 563~520 563600 Map Scale: 1 :3.550 if printe d on A size (8 .5" x 11 ") sheet. -----=====----------=========Me1ers 0 4 5 90 180 270 -----=====---------========Fee1 0 150 300 600 900 563680 USDA Natural Resources = Conservation Service Web Soil Survey National Cooperative Soil Survey 5638 40 563920 563~760 563840 563920 FIGURE 4 a> "' N a> "' N 2/27/2013 Page 1 of 3 47 • 3 1' 11 " 47° 30' 55" USDA - Soil Map-King County Area, Washington (May Valley Meadows. Figure 4 (Soils)) MAP LEGEND MAP INFORMATION Area of Interest (AOI) Area of Interest (AOI) Soils Soil Map Units Special Point Features \..~J Blowout 1l!l Borrow Pit * Clay Spot • Closed Depression X Gravel Pit Gravelly Spot li:ll Landfill A Lava Flow .... Marsh or swamp >< Mine or Quarry @ Miscellaneous Water ® Perennial Water V Rock Outcrop + Saline Spot Sandy Spot -=-Severely Eroded Spot {) Sinkhole p Slide or Slip ,. Sadie Spot ii Spoil Area C Stony Spot Natural Resources Conservation Service Q) Very Stony Spot t Wet Spot .. other Special Line Features Gully Short Steep Slope .,._,,. Other Political Features • Cities Water Features Streams and Canals Transportation ..... Rails -Interstate Highways ;'v' US Routes Major Roads /V Local Roads Map Scale: 1 :3,550 if printed on A size (8.5" :,c 11 ") sheet. The soil surveys that comprise your AOI were mapped at 1 :24,000. ~-----------------~ -~ Warning: Soil Map may not be valid at this scale. Enlargement of maps beyond the scale of mapping can cause misunderstanding of the detail of mapping and accuracy of soil line placement. The maps do not show the small areas of contrasting soils that could have been shown at a more detailed scale . ~---- Please rely on the bar scale on each map sheet for accurate map measurements . Source of Map: Natural Resources Conservation Service Web Soil Survey URL: http://websoilsurvey.nrcs.usda.gov Coordinate System: UTM Zone 10N NAD83 This product. is generated from the USDA-NRCS certified data as of the version date(s) listed below. Soil Survey Area: Survey Area Data: King County Area. Washington Version 7, Jul 2, 2012 Date(s) aerial images were photographed: 7/24/2006 The orthophoto or other base map on which the soil lines were compiled and digitized probably differs from the background imagery displayed on these maps. As a result, some minor shifting of map unit boundaries may be evident. Web Soil Survey National Cooperative Soil Survey 2/27/2013 Page 2 of 3 Soil Map-King County Area, Washington USDA - Map Unit Legend Age AgD AkF Bee Eve Map Unit Symbol Totals for Area of Interest Natural Resources Conservation Service I King County Area, Washington (WA633) Map Unit Name Alderwood gravelly sandy loam. 6 to 15 percent slopes Alderwood gravelly sandy loam, 15 to 30 percent slopes Alderwood and Kitsap soils, very steep Beausite gravelly sandy loam, 6 to 15 percent slopes Everett gravelly sandy loam, 5 to 15 percent slopes I Acres inAOI Web Soil Survey National Cooperative Soil Survey 1 22.8 7.1 0.1 1.9, 31.6 63.5 May Valley Meadows -Figure 4 (Soils) Percent of AOI 35.9% 11.2% 0.2% 3.0% 49.8%, 100.0% 2/27/2013 Page 3 of3 May Valley Meadows Technical Infonnation Report 2. Conditions and Requirements Summary February 2013 This report and the proposed infiltration facilities comply with the 2009 King County Surface Water Design Manual (KCSWDM), and the City of Renton Amendments to the KCSWDM, Chapters 1 and 2, as adopted by the City of Renton. 12196 Chaptertl2 TIR 02252013.doc 2-1 ,Way Valley :Ueadows Technical Infonnation Reporl 3. Off-site Analysis February 2013 A site visit was conducted on February 6, 2013 to observe and document field conditions of the .25 mile downstream area from the site. Off-site observation was mainly performed from standing along the west property line where May Valley Creek leaves the site and travels directly under the newly constructed bridge over May Valley Creek (Coal Creek Parkway SE). The .25 mile downstream flow-path from the site follows the May Valley Creek waterway in a westerly direction toward Lake Washington. Proposed flow control, full infiltration, complies with one of the most desirable flow control BMPs because all the runoff from nearly all storm events is infiltrated into the ground without generating any point discharge. Field observations, where possible, did not reveal any areas of significant problems. Field observation at limited locations confirmed that the downstream path and conditions are generally consistent without any reportable issues. This Level 1 analysis field inspection did not reveal any apparent or significant problems in terms of hydraulic capacity, overtopping or flooding, siltation, erosion, or damage within May Valley Creek. 12196 Chapter03 TIR 02252013.doc 3-1 May Valley Meadows Technical Infonnation Report 4. Flow Control and Water Quality Facility Analysis and Design Febroary 2013 The following provides design details for sizing of the required/proposed stormwater control and water quality treatment facilities for the May Valley Meadows Short Plat. Proposed facilities described herein will prevent any potential adverse impacts from the proposed development. The City of Renton adopted the 2009 King County Surface Water Design Manual, with Amendments, to meet the Washington State Department of Ecology's Western Washington Phase II Municipal Stormwater Permit. Per the City's pre-application memo, dated January 16, 2013, the project site falls within the Flow Control Duration Standard, Forested Conditions. Below describes how Core Requirement #3 and #8 are addressed. Core Requirement #3: Flow Control In order to comply with Core Requirement #3, this TIR follows Section 1.2.3.2 Flow Control Facility Implementation requirements. Based on findings in the soils report, full infiltration is proposed as the flow control method for the proposed development. Table 1.2.3.C Flow Control BMP Facility Sizing Credits states that full infiltration design option can subtract impervious areas that are fully infiltrated. Appendix C, Section 2.2 (Small Site Drainage Requirements) is used for full infiltration as the proposed short plat is considered as a single family residential project subject to full drainage review. Full infiltration means the use of BMPs that can fully and reliably infiltrate runoff into the ground. Core Requirement #8: Water Quality In the 2009 KCSWDM, all projects must provide water quality (WO) facilities to treat the runoff from new and replaced impervious surfaces. However, this requirement will be exempted as the combined areas from the proposed driveways are approximately 3,132 sf which is less than the 5,000 sf threshold. Reviewing Section 1.2.8 of the 2009 KCSWDM, the proposed development meets the exemption criteria set forth in "Surface Area Exemption". Part A: Existing Site Hydrology The proposed site is approximately 3.9 acres in size located off of SE May Valley Road. The site is bisected by May Valley Creek flowing west through the central portion of the site. The north area of the site is mostly cleared, with some trees, within the 100 ft creek buffer sloping gently from the road toward the creek. This north half of the site contains a mobile home and a metal building which will be removed as part of the development. On the other hand, the south half of the site is generally covered with the second growth forest sloping moderately toward the creek. The south half of the site contains a small Category I wetland and a small stream merging into May Valley Creek. See Exhibit 1 for an existing conditions map. Part B: Developed Site Hydrology The developed drainage conditions are shown on Exhibit 2. Exhibit 2 shows the developed site conditions including conceptual driveways, conceptual home foot-prints, and the approximate location of conceptual patios. A detailed calculation of the proposed site's impervious areas and the anticipated land use are shown in Exhibit 2, and further described in Part E of this section. 12196 Chapter04 TIA 02252013.doc 4-1 May Valley Meadows Technical InfonnahOn Report February 2013 Developed site conditions propose to collect and capture runoff from these impervious areas to the proposed trench infiltration system to meet the flow control requirement. AREA BREAKDOWN (See Exhibit 2) Total Site Area: 3.9 acres Critical Area Tract: 2.65 acres Development Area: 1.18 acres (less the right-of-way dedication) Development Area Breakdown: Lot# Lot Area A 16,598 sf B 17,688 sf C 17,164sf Part C: Performance Standards Flow Control Standard Driveway House Patio 1,044 sf 3,316 sf 615 sf 1,044 sf 3,526 sf 380 sf 1,044 sf 3,418 sf 488 sf Total Impervious Area 4,975 sf 4,950 sf 4,950 sf As discussed above, sizing of the trench infiltration system follows Section C.2.2 Full Infiltration in Appendix C of the 2009 KCSWDM. Section C.2.2 shows the minimum requirements and design specifications for full infiltration of runoff from impervious surfaces. The soils report, dated February 18, 2013, prepared by ABPB Consulting is enclosed in Appendix A for reference. This soils report states that the medium dense coarse-grained sands and gravels underlying the site are suitable for storm water infiltration. The report also noted that no groundwater was found in the test-pits, to a depth of 9 feet. Conveyance System Capacity Standards Not applicable as full infiltration system is proposed. Water Quality Menu Core Requirement #8: Water Quality is exempted as the proposed pollutant-generating impervious surfaces (PGIS) that are not fully dispersed are less than 5,000 sf, per the 2009 KCSWDM Section 1 .2.8. 12196 ChapterD4 TIR 02252013.doc 4-2 May Valley Meadows Tech11ical bifomiation Reporl Part D: Flow Control System Design of Trench Infiltration System F ebmary 201.1 Design Criteria: Per Section C.2.2.3, infiltration trenches must be at least 20 ft in length per 1,000 sf of impervious served. Assuming the estimated impervious area for each lot would not exceed 5,000 sf, the proposed trench infiltration system is approximately 100 ft. Based on the above assumption and design criteria, two {2) 50 ft long infiltration trenches are shown on Exhibit 2. Part E: Water Quality System As noted above, Core Requirement #8 is exempted. 12196 Chapter04 TIR 02252013.doc 4-3 NOTES \. HORIZONTAL OATUM· r,iACI 19&3{91. llOUNDARY \NFO!lMATION SHOWN HEREON REfERENCEO THE FOLLOWING INfORMATION: A) RECORD OF SURVEY AS RECORDED IN VOWME 65 OF SURVEYS, PAGE 1 71, RECORDS OF KING COUNTY, WASHINGTON. B) RECORD OF SURVEY AS RECORDED IN VOW ME 256 OF SURYEYS, PAGC 07], RECORDS OF KING COUNTY. WASHINGTON. Cl HIGHLANDS AT NEWCASnE ACCOI\OING TO THE PLAT TiiEREOF AS RECORDED !N VOLUME 204 OF PLATS, PACES 91-100, REC OROS OF KING COUNTY D) WGS SURVEY DATA WAREHOUSE. £) KINC COUklTY ASSESSORS MAI' FOR SW 14-24-05 2. BASIS OF POSIT!Of<I (STATE PlAIIIE COORDINATES AND CAOASTRAL): HELD SOUTHWEST CORNER OF SECTION 34, TOWNSHIP 2l NORrH, RANGE OS EAST (Al.SO KNOWN AS WGS SURVEY CONTIWL PO!JiT 370n. -FOUND CONCAfTE MONUMENT WITH ~/&" BRASS PLI.IC WITH PUNCH IN CASE. MONUMENT IS LOCATED ON fflE NORTH BOUNDARY LINE OF THE PLAT OF CALEDON AND IS 1.0' WT OF THE CENTERLINE OF I 32ND AIIENUE SOUTH EAST, OPPOSITE THE SOUTH PltOPERTY Lll>IE OF HOUSE f9S50. MONUMENT IS 1.0' BELOW GROUND. SEE WGS SURVEY DATA WAREHOUSE FOR A MORE Off AILED DESOIIPTION. NORTHING <m:191141.843. EASTIN(; 1m·1 ]11481.l 47 3. BASIS OF BEARINC (STATE PLANE COORDINATES AND CADAST~L). HEW THE BEAR.ING BETWEEN THE ABOVE NOTED llASIS OF POSITION AND THE SOUTHEAST CORNER OF SAID SECTION 34, ( ALSO KNOW AS WCS SURVEY CONTROL POINT 3705), A FOUND STONE WITH CHls.ELEO ")(" IN CI\SE TO BEN gs• H'l ;• W PER DIRECT INVERSE. SEE WGS SURVEY DATA WAREHOUSE FOR A MORE DETAILED DESCRIPTION. NORTHING (FTI:1 911 08.582, EASTING (m:1316760.441 4. '-'ONUMENTATION NOTED AS FOUND WAS FIELD VISITED ON JANUARY 08, 2013. ;. THF, LEGAL DESCRIPTION AND EASEMENTS SHOWN HEREON ARE PER OLD REPUBLIC TITLE, LTD. PLAT CERTIFICATE ORDER NUMBER 'i107110286 OIi.TEO FEBRUARY 8, 201 l. ONLY THOSE EASEMENTS NOTED IN SCHEDULE B OF SAID REPORT THAT CAN BE PLOTTED ARE SHOWN HEREON. 6. GRID DISTANCES WERE REDUCED TO GROUND DISTANCES USING A COMBINATION FACTOR Of 0.999985210, wtlERE GR!D DISTAJIICE OlVIDEO BY COMBINATION FACTOR EQUAl5 GROUND DISTANCE. THEREFORE THE ONLY TRUE WASHINGTON STATE PLANE COORDINATE IS THE l!ASIS OF POSITION {STATE PI..ANE COORDINATES). 7) THAT PORTION OF THE WESTERLY BOUNDARY THAT IS DESCRIBED /15 "THE CENTERLINE OF MAY CREEK" WAS CALCULATED USING THE MIDPOINT OF THE FIELD l.OCATl:D ORDINARY HIGH WATER MARKS DELINEATED av WfTlAND RESOURCES INC. 8J THE 'iOUTH RIGITT OF WAY MARGIN FOR SE MAY VALLEY ROAD IS BASED ON THE ABOVE NOTED REC ORO OF SURVEY (VOLUME 256. PAGE 073). 9) WORK PERFORMED IN CONJUNCTION WrTH THIS SURVEY UTILIZED ONE OR MORE OF THE FOLLOWING SURVEY INSTRUMENTS AND PROCEDURES: A. flELO TRAVERSE ANO/OR GLOBAL NAVIGATION SATEUITI: SYSTEM (GNSS). B. ELECTIIONIC TOTAL STATIONS, INCLUDING TOPCON CPT lOOS. TOl'CON GTS·1C, TOPCON CTS 81 ~A. NIKON DTM-430 OR NIKON OTM-S30. C. LEICA SYSTEM 300 GNSS EQUIPMENT. D. TOPCON HIPER LITE PlUS GNSS EQU!PMENT. E. TOPCON CR-3 GNSS EQUIPMENT. f. All FIELD TRAVERSE WORK COMPLIES WITH CURRENT STANDARDS AS OllTUNEO IN WAC 332-130--070, 080 ANO 090. ALL INSTRUMENTS MAINTAINED TO MANUFACTURER'S Sf'EOFICATIONS AS REQUIRED BY WAC 332-130-100. 10) VERTICAL DATUM: NAVO 19118 PER WGS SURVEY DATA WAR£HOUS£. MASTER BENCHMARK: WGS SURVEY DATA WAREHOUSE (DES(GNATION RENT #2183). FOUND 3" BRASS DISK STAMPED "CIT'/ OF IEUEVUE 0341" SET ON TOP OF COIIICRETE MONUMENT !N CASL MONUM'i:NT IS LOCATED !Ill FRONT OF HOUSE #13905 AND IS 2.0' SOUTH OF THE SOUTH EDGE OF PAVEMENT Of MAY VALLEY ROAD (IIIAVD 198Bl ELEVATIOIII c 315.SS FEET SITE BM#I: GOLOSMIT!i 5URYH CONTROL POINT MV'l -SET PK NAIL ANO TAG IN THE NORTH SHOULDER Of SE MAY VALL.EV ROAD 2.7' SOUTH Of THE NORTH EOCE OF PAVEMENT ANO+/-2)' WEST OF THE WEST EDGE OF DRIVEWAY TO HOUSE #1381 S. ELEVATION~ 314.11 FEIT. SITE B""'2c COLDSMITH SURVEY CONTROL POINT M\f'2 -SET REBAR ANO CAP IN BACK YARD 1-/--73' SOUTH OF THE SOUTH EOG!: OF ASPHALT ROAD AND +/-100' EAST OF A 6' WOOD FEMCE RUNNING ALONG THE WEST SOUN DARY LINE. REBAR IS +/-3' NORTH Of TOP OF SLOl'E. ELEVATION ~ 299.98 FEET SITE !IMl3. COLDSMITH WRVEY CONTROL POINT MV"). SET PK NAIL AND TAG IN BACK YARD IN ASPHALT RO/\D. PK NAIL IS +/-36' EAST OF 4' WIRE FENCE RUNNING ALONG THE WEST BOUNDARY, 28' SOUTH OF THE SOUTH EAST CORNER OF A SHED AND s.o· EAST OF THE WEST EDGE OF PAVEMENT OF SAID ROAD. ELEVATION ~ 30S.48 FEET. 11) PlANlMETRIC AND TOPOGRAPHIC INFORMATION SHOWN HEREON WAS FIELD LOCATED ON JANUARY 8-11, 2013 ANO IS CUMENT TO THOSE DATES ONLY_ EUVATIONS WERE TAKEN ACROSS THE SITE ANO ARE AVAILABLE ELECTRONICALLY BUT AR.E NOT ALL SHOWN HEREON FOR SAKE OF CLARrrY. 12) UNDERGROUND UTILITIES SHO~ HERWN ARE PER A COMBINATION OF FIB.D lDCATEO SU!IFACE OBSERVABLE FEATURES AND RECORDS Of THE APPLICABLE UTIUTY PURVEYOR. ALL LOCATIONS 'iHOULD BE VERIFIED PRIOR TO ANY CONSTRUCTION. I 3) WETLANDS AND OROlNARY HIGH WAHR MARKS SHOWN WERE OELINEATEO BY WETLAND RESOURCES INC. ANO WERE FIELD LOCATED BY GOLDSMITH Am> ASSOCIATES IN JANUARY Ul13. 14) FLOOD ELEVATION DATA IS 8ASED ON THE PRELIMINARY D-FIRM -PRELIMINARY FLOOD INSURANCE RATE MAP ANO FlOOO INSURANCE STUDY KING COUNTY, WASHINGTON. MAP #'iJ033C0669 K. PORTIONS OF SITE ARE DESIGNATED AS FLOOD ZONE "X" WHICH ARE AREAS DEEMED m BE OUTSIDE OF THE ~00 YEAR Fl ODO l'LAIN AND ZONE "AE' WHlCH ARE AREAS WHERE THE BASE FLOOD ELEVATION HAS BEEN DETERMINED. THE APPROXIMATE BASE FLOOO ELEVATION, THE ELEVATION DEEMED TO BE THE 100 ~R FLOOD LINE, EXTENDS FROM ElEVATION 282 FEET TO EI.EVll."llON 290 FEET ACROSS THE WIDTH OF THE PROPERTY AS DEPICTED ON Fl..OOD PR.OFllE !09P M /15SOCIAT£0 WITii SAID PRELIMINARY 041RM_ THE SASE FLOOO PLAIN HAS NOT BEEN FIELD VERIFIED AS PART OF THIS SURVEY. e GOLDSMITH LAND DEVELOPMENT SERVICES ll151111hAvoSE,lle-.O,WA'ijj()(M I F'Qflo>:3161.~.WA98009 T 12.1162 1080 F 4251617719 www.g,;,ld!'I~ com RECORD MATTERS 1) EXCEPTION NO. 4 OF THE A!KM 11101 tD l'LA T CtRTlflCATE IS FOR AN EASEMENT RECORDED UNDER RECORDING NUMBER 3026181. SAID EASEMENT ESTAIIUSHES THE RJGHT TO MAIIE Nt:CES.SARY SLOPES FOR CUTS Oil FILLS UPON THE SUBJECT PIIOPERTY ALONG THI: STREET MARGIN BUT CANNOT BE PLOTTED HEREON. 2) EXCEPTION NO. 6 OF THE AIIOVt r«:>TEO PLAT CERTIFICATE IS FOR A SENSITIVE AREA NOTICE RECORDED UNDER RECORDING NO. 91 022'il510 ANO 91030ll0632. THE SENSITIVE AREA NOTICE r«>TIFIES TiiE PUBLIC Of THE SENSITIVE AREAS ON THE SITE, BUT ff IS OOT A DELINEATION OF SAID SENSITIVE AREAS. CONCURRENT WITH THJS SHORT SU6UIVISl0N, CRITICAL AREAS HAVE BEEN IDENTIFlfD ANO DELIH£ATEO. TH£ SENSITIVE AREAS, AND REQUIRED BIJFFERS AND SETBACKS, P!:R CIT'/ OF RENTON MUNICIPAL COOE, ARE SHOWN HEREON. SE 1 /4, SW l /4 SECTION 34, TOWNSHIP 24 N, RANGE 5 E, W.M. CITY OF RENTON, KING COUNTY, WASHINGTON LEGAL THE WEST HALf OF THE SOUTHEAn QUARTER OF THE SOUTHEAST QUARTER. OF THE SOUTHWEST QUARTER OF S.ECTION 34. TOWNSHIP 24 NORTI-1, RANGE 5 EAST, W.M., IN KING COUNTY, W/15HINGTON, LYING SOUTHERLY OF S.E. MAY VALLEY ROAD (Al.SO KNOWN AS THOMAS ROWSE ROAD); EXCEPT THE WEST 110 FEET !N WIDTH LYING NORTHERLY OF THE CENTERLINE OF MAY CREEK. SrTUATE IN THE COUNT'/ OF KING, STATE OF WASHINGTON. TAX PARCEL #3424059072 i w-;q_ ONii:-_7'.~~~:.>{ ~ ~ <// //.-,-------. \\ ' ( ,' ~ ./ -- . lltCC!.P I ,' . 1"21'19E S86.!6 ::C· I r ,' r-· -;~---i ,, ____ 24'1)111/' \ -1 , y \ / \ t r·----l!~~<J / .,>' rll=.' ·.' ''/,V','J I :}::;_,, ', JJ1"DS!lf0 '"' ----iiiiiiiiii:'---Z " SCALE: i / /,---,,, ,/ ',,,;_ !:"/ I J i O r~/Jf:' \ ··--·::;: -I , • /& .4, . .---•• I \ /·po'Dflli' J.-' i. ~ '•,,f._/ / . g i / / PARCEL #3424059099 / \ cl MJ'Oml'/ 1 TAX ' . ~,i,,; ' 13815 SE MAY VALLEY ROAD \ l,· 16 .::::,-zy:. ;~:;:IP: AtoCLP RENTON, WA 98059 \ .Jc'l)lltP '·>, \o"l.ll'c ~· ,s'/JR/f' ', j / ,~'30'[)(/11' ,\ &"AUl-._( ', ·, rrno,,,.7(fl'\·: I\ i/0'()111!>" • 9~ ,1, ~ / / I / f--,,O<C CL!' itQ ,e',G',61 \ ,.W.f!Rit!. ·-,{I! 11;i:·g;;;, __ )\ \ / \ ~w;:: .. ' .. ) ' ; rm,7: /1\ / \ / \ 9'AiJ '\, i \ // •; SO'DR~ii< '-t---t ___ >{ \ 4i·:;: ::..2 BMft \ \ -----( \ \_,;; ~:::c:. flel/~9.tNI "' ""',<>,,, \ ~ ---~-::~{ • /' / ,,e '. 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'"' GRAVEL BUILDING '"' INTERSECTION B(NCHI\IIARK CJ "' MAILBOX BARBED WIRE FENCE = MAPLE CEDAR 6 ~-GOLDSMITH SURVH CONTROL POINT CENlcRLINE OF DITCH O><WM OftOINARY HIGH WATER MARK CIWNLINK FENCE 0 "" REBAR II, CAP FOUND (AS NO TEO) CLUMP m RfTAININC CONCRETE _n_ "" SIGN COIINER ® '"" SANITARY SEWER MANHOLE DECIDUOUS "" "'" TREe Oll!P L!NE DIA'-'ETER m T'IPICAL ELECTRIC METER -0-"' UTILTYPOU EDGE Of PAVEMENT !ll •• WATER METER FIRE HYDRANT 0 wse WATER SP!GOT FENCE M w; WATER VALVE TAX PARCEL #3424059117 i r ·.1) i,I I/// ///t> I .. 'T '/' I / / \ / '1-··/.' y '. ' ' / I ·, / /, < . i// /;-( . -, //I: " i '' I / I / ea ~ .,, r;, " '" '" "" 0 1':l " 0 "' "' N a, " "':~11, K«;.%, i '-.;; •. ·x lJ' r:- I / tt~~-;,:~ - ', > .,./' l '+-\ OC~IITl(JNPQ}I!) ,,.-:...._ .• \ f{Jl(}l«JrACCCSS/ '<>.i-\ '\_ / \ I r _,r •' .... _ ' ~~0--,,,---7 = /11.i.E/il/Jlf/ Cr"N~O.l'f ea ~ .,, ~ "' '" "" 0 " N " 0 "' "' ~ "' .. EXHIBIT 1 MAY VALLEY MEADOWS, LLC TOPOGRAPHIC EXHIBIT FOR JORN() 12196 HtElT MAY VALLEY MEADOWS, LLC 1/1 1381 5 SE MAY VALLEY ROAD, CITY OF RENTON KING COUNTY, WASHINGTON NOTES: 1 _ ONLY COl'KEPTIJAL TESC / UTILITTES /GRADING/ DRAINAGE DESIGN AAE SHOWN ON THIS Pt.AN. 2. CONSTRUCTION/ IMPLEMENTATION OF UTILITY CONNECTIONS, DESIGN / CONSTRUCTION OF ON-SITE STORM DRAINAGE !IMP'S, AND INDIVIDUAL LOT GRADING Will BE COMPLETED AT THE TIME. OF FUTURE BUILDING PERMITS. 3. CONS.Tl!.UCTION ENTRANCE IS NOT SHOWN AS EACH LOT WILL 8E CONSTRUCTED/ 8UILT INDIVJDUA!.LV. ADDITIONAL TESC MEASURES. CAN BE PROVIDED AS DIRECTED 8\' THE INSPECTOR. 4. SURFACE RUNOFF FROM PROPOSED IMPERVIOUS SURFACE !NCLUDING DRIVEWAY ROOF AND PATIO TO 8E DIRECTED TO PROPOSED TRENCH INFILTRATION SYSTEM. 5 SEE SHORT PLAT FOR LANDSCAPING AND TREE PROTECTION. LEGEND: ---,.o~-PROPOSED CONTOUR EXTEND DRIVEWAY TO EDGE OF PAVING (JYP.) ----5D-PROPOSED STORM PJPE RE.USE EX. WATER METER, ROlJTI NEW SERVICE LINE AS NECESSARY ----------..__ -SS-PROPOSED SANITARY SIDE ,,.,,,, --w--PROPOSED DOEMESTIC WATIR SERVICE LINE 11'1 PROPOSED WATER METER -•--x-FILTER FABRIC FENCE .. .._ _...,. ~ .... , LIMITS OF CLEARING ANO CONSTRUCTION PAVEMENT RESTORATION j:.'.::·· :-I PROPOSED DRIVEWAY z c::::s 10 40 ,0 60 SCALE: 1" ~ 20' REUSE EX. SANITARY SEWER SERVICE LINE, ROUTE NEW SERVICE UNEAS. NECESSARY~ TYPCIAL PATCH FOR / / ~ RIGID PAVEMENT ~/ L_ RESTORATION (JYP.) - INSTALL WATER f.1ET£R, ROOTE SERVICE LINE AS NECESSARY (TYP.) INSTAU SANITARY SEWER S.ERVICE LINE, ROUTE AS NECESSARY ITTP.) e GOLDSMITH LAND DEVELOPMENT SERVICES 121Sll4thAwS£.BeleYu,,,WA'!aro! I l'Olk»:3S65,Betewe.WA9800':I T '125 462 1060 f 4!54617719 www.g_.._-" I I t /t' I / t~ I: /// // ,/ I.' I !';J ,,i, '" .! .~/H (~"n/,.; ·,, SE 1 /4, SW l /4 SECTION 34, TOWNSHIP 24 N, RANGE 5 E, W.M. CITY OF RENTON, KING COUNTY, WASHINGTON -...J / LIMIT OF CLEARING . AND CONSTRUCTION (JYP.)1 "_J,,,,,,,, -·--.I ---·r--· ,-,r::i"li FILTER FABR~~ FENCE (TYP.) -/ \ ·~ 'I [ . Jr/ ~.---'-Jl~ i't(,..,.I "'.._''.''· ',JI • j l -•--x · n 1 ' '"-.,,,, ""'?,.1rr) , I !," -~-'";'.:';:!-/ ! ! ', • . r~ 4·,~i//P , /--/,0:__"11,,f ( ' ------, ~ ._ -----,c_:r r-1· / i / i.{,. \cJ //:J I ,·-; .... ,-. ,' . ... \ \ ·\ -... ef : i -~-~~ij; 2-r ;/.,.,,,/-,\(~-,. ' • ft ,, ' " .,.,, ,,\ ' ' ' ' ' '"' ' J' / ·-•·\ \ \ / 'y ;;,,, c· ,..-) :Z'rit ~ f., -,//"' \ I._\ ;,.::,t,~,-:, '.:' I ,. I 1.\ I ,\ ---... ' .1F-">"O):J.U1 re Lele .. r•ON or '!!U YtAP.ti.UODI'/ 1/•I' ' I PATIO/\ ' \ LOT '" .,;, "''j ' ~' rj' > --~" \ \ PROPOSED HOUSE. \. . \ 484 Sf \1 7, 1 64 SF (' ._ 1 ~ / : ( , I O """"' ,,,;-\ \ t -, 3360 S[ \. I \ \ I ~ I . ,.,,,, / I \ -FF• aqa.5 I \ \ \ --so--/--,, I "";'''' / I : ' . 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''°"' "',,, ............. ~ ~ _JL .J 7),'.'{t:o --;, ( /'· -·~-,.._ EARTHWORK CALCULATIONS: CUT VOLUME FIU VOLUME NET ClJT = Jl91 CV = .MUY_ = 243 CY NOTE: EARTHWORK TO BE BALANCED OR RE-SPREAD ON SITE. --.-- -.·ww,·,-·( I ') ', '---.,/ I CONNECT TO RboF DRAIN (JYP.) / AREA CALCULATIONS: 1. SITE AREA: LOT A ~ 16,861 SF LOT B 17,951 Sf LOT C = l 7,426 SF CA TRACT = 11 S1605 SF TOTAL = 167,S43SF 2. TOTAL AREA OF WORK -S6,B14 SF 3. LOT IMPERVIOUS AREA: PATIO ORIVfWAV HOlJSE TOTAL ~ 484 SF = 1044Sf ~ 3360SF = 4B88 SF I -.,;;,·ur" )::·i,./;·1 .,.,__, ' ;.;:-;,,. I ' "''" \ \,.c~."2 ! (~-, •!, -11~"'•7~ •• ·--(\1"1 / 1 If' c" ~/,.>II,' on,,;,.,. f, /I ~ ;::~?;~r /' \ I I l ,o·mn 1 ' .. ,)7 , , ', -ry \ / ,' ( \ / \\11 r I ( ' "'"" , ,, . .,,,,,. 'I . I I /' ,.,,,,,.,_,, . • • \ ' , • ' .-I ' I I / / ~ ~ 1;·"'' /;/ . _.!, "'" ' . .\ ' ; -, / I " , " . . , --I , . i. , . ca~souo ----"'l/, 1/_; >•~. I J :. / ' \ (\ // /\ \\,/ i 1; -/~ .l.f f-I • I -•,, .. ~ . " ,,,, ·;t /· .' h , · ··,r 1 ,m,uu,w, ',,f;,,,,, -·"" ,..._, I \ \ I I \ ''! "'""·' _, "': ti ·. ·· --·\ I I ;· J '1- : I . --.--! I I ). I ,. I I I ! ( ' ! I I I ' n l f / u j f . ~ ?r," .-.. EXHIBIT 2 PLOTTED: 1013/03/01 ll:H Jl"'C< MAY VALLEY MEADOWS, LLC JOBNO 12196 DRAWN: JCJ O~!Gf>EO SK APPROVED: l(JG FIELD 100~ P.-\Gt;t: 1.1:\ACAD\Pi.ATS\ 12\ \ 1196\ 11196E01,0W(;I PRELIMINARY GRADING, UTILITIES, AND DRAINAGE PLAN FOR MAY VALLEY MEADOWS CITY OF RENTON KING COUNTY, WASHINGTON ss= C-1 May Valley Meadows Technical lnfonnafum Report 5. Conveyance System Analysis and Design February 2013 This section of the report is not applicable as full infiltration utilizes infiltration of runoff into the ground. Runoff from the proposed impervious suliaces will be captured and conveyed to the proposed trench infiltration system so that all runoff from nearly all storm events is infiltrated into the ground as shown on Exhibit 2. 12196 ChapterlJ5 TIR 02252013.doc 5-1 May Valley Meadows Technical Jnfonnation Report 6. Special Reports and Studies • Critical Area Study, Wetland Resources, Inc. -February 2013 • Geotechnical Report, ABPB Consulting -February 2013 12196 Chapter06 TIR 02252013.doc 6-1 February 2013 May Valley Meadows Technical Infonnation Report 7. Other Permits The May Valley Meadows 3 lot short subdivision may require these additional permits: • Preliminary/ Final Short Plat • City of Renton Engineering Plan Approval • Building Permits -Residential • Possible ROW Use Permit • Demolition Permits (by Owner) 12196 Chapter07 TIR 02252013.doc 7-1 February 2013 May Valley Meadows Technical Infonnation Reporl 8. CSWPPP Analysis and Design Part A -ECS Analysis and Design Purpose and Scope February 2013 As stated in the King County Surface Water Design Manual, "The purpose of erosion and sediment control (ESC) is to prevent the transport of sediment to streams, wetlands, lakes, drainage systems and adjacent properties." This section of the TIR outlines the site specific strategies to minimize erosion and transportation of sediment throughout construction of the May Valley Meadows Short Plat. ESC Implementation Requirements The May Valley Meadows Short Plat erosion and sediment control implementation requirements are detailed below by construction sequence, ESC measures, inspection and maintenance contingency plan, and final site stabilization. These requirements, accompanied by the ESC Plans, shall serve as the principle guidelines for control of erosion and sediment transport. Construction Sequence The following is a construction sequence which identifies required ESC measures and implementation requirements. Although site specific, the construction sequence is general in nature. This provides the owners and the City of Renton some flexibility while still achieving the intent of the ESC requirements. Construction Sequence 1. Hold the pre-construction meeting. 2. Post sign with name and phone number of ESC Supervisor (may be consolidated with the required notice of construction sign). 3. Flag or fence clearing limits (limit of disturbance/grubbing) and sensitive areas. 4. Install catch basin protection in existing structures, if required. 5. Grade and install on-site construction entrances as shown on ESC plans. 6. Install perimeter protection where specified on ESC plans and/or required by the inspector. 7. Construct sediment trap, if required by the inspector. 8. Grade and stabilize construction roads. 12196 Chapter08 TIR 02252013.doc 8-1 May Valley Meadows Teclmical fofomration Report Febn,ary2013 9. Construct surface water quality controls (interceptor swales, cut-off trenches, check dams, gravel filter dikes) simultaneously with clearing and grading for project development. 10. Maintain erosion control measures in accordance with City of Renton standards and manufacturer's recommendations. 11. Relocate erosion control measures, or install new measures so that as the site conditions change, the erosion and sediment control is always in accordance with the King County Erosion and Sediment Control Standards. 12. Any areas of exposed soils, that will not be disturbed for seven (7) days during the dry season or two (2) days during the wet season, shall be immediately stabilized with the approved ESC methods (e.g. straw, wood fiber mulch, compost, plastic sheeting or equivalent). 13. Stabilize all areas within seven (7) days of reaching final grade. 14. Seed, sod, stabilize, or cover any areas to remain unworked for more than 30 days. 15. Upon completion of the project, stabilize all disturbed areas and BMP's removed if appropriate. The construction sequence is supported by the following ESC plan notes. Erosion and Sediment Control Notes 1. Approval of this erosion and sedimentation control (ESC) plan does not constitute an approval of permanent road or drainage design (e.g., size and location of roads, pipes, restrictors, channels, retention facilities, utilities, etc.). 2. The implementation of these ESC plans and the construction, maintenance, replacement, and upgrading of these ESC facilities is the responsibility of the ApplicanVESC Supervisor until all construction is approved. 3. The boundaries of the clearing limits shown on this plan shall be clearly flagged by survey tape or fencing, if required, prior to construction (SWDM Appendix D). During the construction period, no disturbance beyond the clearing limits shall be permitted. The clearing limits shall be maintained by the ApplicanVESC Supervisor for the duration of construction. 4. Stabilized construction entrances shall be installed at the beginning of construction and maintained for the duration of the project. Additional measures, such as constructed wheel wash systems or wash pads, may be required to ensure that all paved areas are kept clean and track out to road right-of-way does not occur for the duration of the project. 5. The ESC facilities shown on this plan must be constructed prior to, or in conjunction with, all clearing and grading so as to ensure that the transport of sediment to surface waters, drainage systems, and adjacent properties is minimized. 12196 Chapter()8 TIR 02252013.doc 8-2 May Valley Meadows Technical lnfom1ati011 Reporl February 2013 6. The ESC facilities shown on this plan are the minimum requirements for anticipated site conditions. During the construction period, these ESC facilities shall be upgraded as needed for unexpected storm events and modified to account for changing site conditions (e.g. additional cover measures, additional sump pumps, relocation of ditches and silt fences, perimeter protection, etc.) as directed by the City of Renton. 7. The ESC facilities shall be inspected daily by the Applicant/ESC Supervisor and maintained to ensure continued, proper functioning. Written records shall be kept of weekly reviews of these ESC facilities. 8. Any areas of exposed soils, including roadway embankments, that will not be disturbed for two (2) consecutive days during the wet season or seven (7) days during the dry season shall be immediately stabilized with the approved ESC cover methods (e.g., seeding, mulching, plastic covering, etc.). 9. Any area needing ESC measures, not requiring immediate attention, shall be addressed within seven (7) days. 10. The ESC facilities on inactive sites shall be inspected and maintained a minimum of once a month during the dry season, bi-monthly during the wet season, or within twenty-four 24 hours following a storm event. 11. At no time shall more than one (1) foot of sediment be allowed to accumulate within a catch basin. All catch basins and conveyance lines shall be cleaned prior to paving. The cleaning operation shall not flush sediment-laden water into the downstream system. 12. Any permanent retention/detention facility used as a temporary settling basin shall be modified with the necessary erosion control measures and shall provide adequate storage capacity. If the permanent facility is to function ultimately as an infiltration system, the temporary facility must be rough graded so that the bottom and sides are at least three (3) feet above the final grade of the permanent facility. 13. Cover measures will be applied in conformance with Appendix D of the Surface Water Design Manual. 14. Prior to the beginning of the wet season (Oct. 1), all disturbed areas shall be reviewed to identify which ones can be seeded in preparation for the winter rains. Disturbed areas shall be seeded within one (1) week of the beginning of the wet season. A sketch map of those areas to be seeded and those areas to remain uncovered shall be submitted to the City inspector for review. WET SEASON NOTES Wet Season Special Provisions 1. The allowed time that a disturbed area may remain unworked without cover measures is reduced to two (2) consecutive working days, rather than seven (Section D.3.2). 12196 Chapter08 TIR 02252013.doc 8-3 May Valley Meadows Tech11ical lnfonnation Report Febmary 2013 2. Stockpiles and steep cut and fill slopes are to be protected if unworked for more than twelve (12) hours (Section D.3.2). 3. Cover materials sufficient to cover all disturbed areas shall be stockpiled on site (Section D.3.2). 4. All areas that are to be unworked during the wet season shall be seeded within one (1) week of the beginning of the wet season (Section D.3.2.5). 5. Mulch is required to protect all seeded areas (Section D.3.2.1 ). 6. Fifty (50) linear feet of silt fence (and the necessary stakes) per acre of disturbance must be stockpiled on site (Section D.3.3.1 ). 7. Construction road and parking lot stabilization are required for all sites unless the site is underlain by coarse-grained soil (Section D.3.4.2). 8. Sediment retention is required unless no off-site discharge is anticipated for the specified design flow (Section D.3.5). 9. Surface water controls are required unless no off-site discharge is anticipated for the specified design flow (Section D.3.6). 10. Phasing and more conservative BMP's must be evaluated for construction activity near surface waters (Section D.5.3). 11. Any runoff generated by dewatering may be required to discharge to the sanitary sewer (with appropriate discharge authorization), portable sand filter systems, or holding tanks. 12. The frequency of maintenance review increases from monthly to weekly (Section D.5.4). Critical Areas Special Provisions 1. Whenever possible, phase all or part of the project so that ij occurs during the dry season. If this is impossible, November through February shall be avoided since this is the most likely period for larger, high-intensity storms. 2. All projects shall be completed and stabilized as quickly as possible. Limiting the size and duration of a project is probably the most effective form of erosion control. 3. Where appropriate, sandbags or an equivalent barrier shall be constructed between the project area and the surface water in order to isolate the construction area from high water that might result due to precipitation. 4. Additional perimeter protection shall be considered to reduce the likelihood of sediment entering the surface waters. Such protection might include multiple silt fences with a higher AOS, construction of a berm, or a thick layer of organic mulch upslope of a silt fence. 12196 Chaptenl8 TIR 02252013.doc 8-4 May Valley Meadows Technical lnfonnatiOn Reporl Maintenance Requirements February 2013 During the wet season, weekly reviews shall be carried out every six (6) to eight (8) calendar days. During the dry season, monthly reviews shall be carried out within three (3) days of the calendar day for the last inspection (e.g., if an inspection occurred on June 6, then the next inspection must occur between July 3 and July 9), reviews shall also take place within 24 hours of significant storms. In general, a significant storm is one with more than 0.5 inches of rain in 24 hours or less. Other indications that a storm is "significant" are if the sediment ponds or traps are filled with water, or if gullies form as a result of the runoff. ESC Measures ESC measures represent Best Management Practices (BMP's) for the control of erosion and entrained sediment. This section details the BMP's to be followed throughout the construction of the May Valley Meadows short subdivision. 1. Clearing Limits: Prior to any site clearing / grubbing or grading, areas to remain undisturbed during the project construction shall be delineated. Temporary orange silt fencing shall be placed at the edges of the sensitive area buffers and shall remain in place until construction activities are completed. Permanent sensitive area / wetland signs shall be installed along the sensitive area buffers. 2. Cover Measures: Temporary and permanent cover shall be provided where necessary to protect disturbed areas. Temporary cover shall be installed if any areas is to remain unworked for more than seven (7) days during the dry season (May 1 to Sept. 30) or for more than two (2) days during the wet season (Oct. 1 to April 30), unless otherwise determined by the City. Any area to remain unworked for more than 30 days shall be seeded or sodded, unless the City determines that winter weather makes vegetation establishment unfeasible. During the wet season, slopes and stockpiles 3H:1 V or steeper with more than ten (10) feet of vertical relief shall be covered if they remain unworked for more than twelve (12) hours. The intent of these measures is to prevent erosion by having as much area as possible covered during any period of precipitation. 3. Perimeter Protection: Perimeter protection to filter sediment from sheet flow shall be provided downstream of all disturbed areas. Silt fencing shall be used as primary sediment treatment, along the site boundary and sensitive area buffers. Installation of the silt fencing shall occur prior to any upstream grading. 4. Traffic Area Stabilization: Unsurtaced entrances, roads and parking areas used by construction traffic shall be stabilized to minimize erosion and tracking of sediment off-site. 5. Sediment Retention: Runoff control for clearing and grading is based on the Rational Method holding the 10-year developed discharge (the 10-year flow rate analysis is based on 15-minute intervals). 6. Surface Water Control: Interceptor swales shall be constructed to collect and convey surtace water runoff from disturbed areas. Gravel check dams shall be installed in the interceptor swales at appropriate intervals in the swales. The cut-off trenches will discharge into gravel filter dikes prior to release into undisturbed areas. 12196 ChapterllB TIR 02252013.doc 8-5 May Valley Meadows Technical lnfomiation Report February 2013 9. Bond Quantities, Facility Summaries, and Declaration of Covenant Not provided for short plat application. These will be provided during the engineering design submittal. May Valley Meadows Technical fofomiatimr Reporl 10. Operation and Maintenance Manual February 2013 Operation and Maintenance Manual for the private, on-site infiltration facilities is not required. 12196 ChapterJO TIR 02252013.doc 10-1 Appendix A Geotechnical Report ABPB Consulting, February 18, 2013 ABPB CONSUL TING GtEOTECHNICALfEARTH SCIENCES ANIL BuTAtL, P.E. PAUL BoNtFAct, P.E.G. Mr. John Dulcich Goldsmith Land Development Services 1215 -1141h Avenue SE Bellevue, Washington 98004 Subject: Geotechnical Report May Creek Short Plat (#12196) 13815 SE May Valley Road Renton, Washington Dear Mr. Dulcich: 12525 Willows Road. Suite 80 Kirkland, WA 98034 Phone:425-820-2544 Fax 206-418-6448 February 18, 2013 Project No. 1358 As requested, we have conducted a geotechnical engineering study for the subject short plat project in north Renton, Washington. The attached report presents our findings and recommendations for the geotechnical aspects of project design and construction. SUMMARY Our field exploration indicates the planned building areas of the site are generally underlain by medium dense to dense native glacial outwash sands and gravels. No peat or other compressible soils were encountered in any of the test pits on the north side of the creek in the planned lot areas. No groundwater was encountered at the time of exploration in the test pits which extended to a maximum depth of nine feet below the existing ground surface. In our opinion, the site conditions encountered are suitable for the planned residential short plat development. The undisturbed native soils are suitable for supporting the proposed residences, provided the recommendations presented in this report are incorporated into project design and construction. Mr. John Dulcich February 19, 2013 Some localized site soils encountered in the upper foot or two are fills and contain excessive amounts of fine-grained material. These soils are moisture-sensitive and may not be suitable for use as structural fill during the wet winter months. The near surface soils are generally granular and moderately well drained. We have not been provided with stormwater detention/disposal details for the project but some infiltration of roof runoff is a potential option for the proposed lots. The geotechnical recommendations presented in this report should be incorporated into project design and construction. PROJECT DESCRIPTION A proposed lot layout has been developed for the site and is shown on the Goldsmith Land Development plan dated February 1, 2013, which was used as a site plan for this report. This plan indicates that the north side of the property, north of the creek, will be developed into three residential lots. Based on the site plan, these lots will be located between Elevation 300 and 315 feet. The lots will be set back at least 100 feet from the May Creek channel passing through the south central side of the site near Elevation 286 feet. Lots A, B, and C will encompass about 17,000 square feet. The south side of the irregular shaped property includes some steep slopes and wetlands and is not included in the current development plans. Detailed building plans for the residences have not been prepared. However, we expect the new residences will have conventional spread footing foundations and concrete slab-on-grade garage floors. Building loads are expected to be light, on the order of one to two kips along building walls and 10 kips at columns. We expect that new houses will be two-story wood frame construction with no basements and that the ground floor level will be established at or near the existing grades. The preliminary recommendations contained in the following sections of this report are based on our general understanding of design concepts provided by our client. When actual layouts have been prepared, we should review them in order to modify our recommendations as required. SCOPE OF WORK We excavated five test pits on February 13, 2013, using a small backhoe. The test pits were dug to a maximum depth of about 9 feet below the existing ground surface. Using the information obtained from the subsurface exploration, to develop geotechnical recommendations for project design and construction. Project No. 1358 Page No. 2 Mr. John Dulcich February 19, 2013 Specifically, this report addresses the following: • Site Hazard Evaluation • Soil and groundwater conditions • Site preparation and grading • Foundation design • Slab-on-grade floors • Storm water Infiltration Assessment • Drainage • Utilities It should be noted that the recommendations outlined in this report regarding drainage are associated with soil strength, design earth pressures, erosion and stability. Design and performance issues with respect to moisture and seepage as it relates to structure environment (i.e., humidity, mildew, and mold) are beyond the scope of our study. A building envelope specialist or contractor should be consulted to address these potential issues. SITE CONDITIONS Surface The property is an irregular shaped parcel located along the south side of the SE May Valley Road in north Renton, Washington. The approximate site location is shown on the Vicinity Map, Figure 1. The property measures about 586 feet in a north-south direction and is between 225 and 329 feet wide in the east-west direction. May Creek flows down to the west through the south central portion of the 3.85 acre property. The area north of the creek in the planned development area covers a gently sloping plateau area between Elevation 300 and 315 feet near the road, based on the topographic survey. The area south of May Creek includes streams, slopes and some wetlands. The northern development area contains some cleared land and includes a small shop/shed and an old residence (#13815 SE May Valley Road). The land slopes gently southward down to the creek from the road. No ponded surface water or flows were noted in this area during our site work. Surrounding properties include large single family residential sites to the east and west of the subject property. A small depression exists in the southern portion of the planned Lot B. Based on our conversation with a nearby resident, it appears that there was an old pool in this area. The pool was apparently constructed by lining an excavation with corrugated sheeting and placing a plastic liner on the sides and bottom. The pool area was reportedly backfilled many years ago. Project No. 1358 Page No. 3 Mr. John Dulcich February 19, 2013 On February 13, 2013, we conducted our subsurface exploration by excavating five test pits with a small backhoe. The test pits were dug to depths of up to 9 feet below existing grades. The approximate test pit locations are shown on the Exploration Location Plan, Figure 2. The test pit locations were approximately determined by pacing from known landmarks. The Test Pit Logs are presented as Figures 3 through 7. An engineering geologist maintained a log of each test pit as it was excavated, classified the soil conditions encountered, and obtained representative soil samples. All soil samples were visually classified in accordance with the Unified Soil Classification System. Representative soil samples obtained from the test pits were placed in sealed plastic bags and returned to a laboratory for further examination and testing. The moisture content of each sample was measured and is reported on the Test Pit Logs. The Test Pit logs are presented with this report as Figures 3 through 7. The soils encountered in the test pits in the central and northern parts of the lot areas generally consist of about 8 to 18 inches of fill, sod/duff, and topsoil. The soils below that level are slightly silty to silty gravelly Sands and sandy gravels. With depth, the soils grade into medium dense clean sandy gravel with occasional cobbles and a few boulders. The southern portion of the lot areas (test pit areas TP-3 and TP-4) are underlain by about a foot of fill/topsoil overlying about 2.5 to 3.5 feet of clayey silt soil. The fine- grained silt is in a stiff condition and contains a few pebbles and small roots. The silt soil overlies several feet of slightly silty sandy Gravel soil in a medium dense condition. This silty gravel grades with depth into clean sandy Gravel with occasional cobbles. The test pit logs present more detailed descriptions of the subsurface conditions encountered in the test pit exploration. Site Geology The Geologic Maps of the Mercer Island and Issaquah Quadrangles, King County, Washington shows the soils in the vicinity of the site as younger glacial outwash consisting of sands and gravels deposited by a recessional glacial environment after the last Ice Age glacier retreated into Canada about 12,000 years ago. Meltwater streams carried clean sand and gravel away from the retreating ice front and deposited it in terraces such as in the site vicinity. Project No. 1358 Page No. 4 Mr. John Dulcich February 19, 2013 The U.S. Soil Conservation Service (SCS) mapped the soils in this area as Everett Series soils. These are recessional outwash soils and match with the quadrangle soil maps of the area. The native sand and gravel which were encountered in the test pits are generally consistent with these classifications. We did not encounter peat or significant thicknesses of fine-grained compressible soils in any of the test pits. The coarse grained sands and gravels underlying the site are in a medium dense condition. These soils are not susceptible to liquefaction during an earthquake. Groundwater No groundwater was encountered in the pits to a depth of 9 feet. However, seasonal fluctuations of groundwater levels at this site will occur. The deeper subsurface sand and gravel layer is fairly permeable and will transmit shallow perched water from the May Creek basin laterally at depth. We anticipate that the low groundwater levels will occur during the dry summer months and that a water level of greater than 10 feet may exist during the wet winter months. Minor fluctuations in the water levels at the site would also be expected following periods of heavy precipitation. Based on our experience in the area, we believe the high groundwater level will be at depths of ten to 15 feet or slightly less below the ground surface. GEOLOGIC HAZARDS Seismic Based on our site specific findings, the area of the site should not be classified as a Seismic Hazard Area. Based on the soil conditions encountered and the local geology, per Chapter 16 of the 2012 International Building Code (IBC), Site Class "D" should be used in structural design. The following parameters should be used in structural design, as needed: Seismic Design Parameters (IBC 2012) Spectral Response acceleration ( Short Period), Ss Spectral Response acceleration ( 1 -Second Period). Sl Site Coefficient. Fa Site Coefficient. Fv Five percent damped .2 second period. Sds Five percent damoed 1.0 second, Sdl 1.40 0.53 1.00 1.50 0.94 0.53 Project No. 1358 Page No. 5 Mr. John Dulcich February 19, 2013 Liquefaction is a phenomenon where there is a reduction or complete loss of soil strength due to an increase in water pressure induced by vibrations. Liquefaction mainly affects geologically recent deposits of fine-grained sands that are below the groundwater table. Soils of this nature derive their strength from intergranular friction. The generated water pressure or pore pressure essentially separates the soil grains and eliminates this intergranular friction; thus, eliminating the soil's strength. Due to the medium dense and well-drained nature of the soils that will support the planned houses, it is our opinion that there is little or no risk for liquefaction to occur at this site affecting house construction during an earthquake. Erosion The site near-surface soils are mostly all alluvial outwash or glacial pond deposits in nature. The site silt soil layer is relatively thin and lies on gently sloping grades. These soils have a low potential for site erosion based on the existing shallow slope gradients. Best Management Practices (BMPs) should be used during construction to mitigate the potential erosion hazard. If the erosion control measures are properly implemented and maintained, it is our opinion that the planned residential development will not adversely impact the erosion potential for the site or adjacent properties. As a minimum, we recommend implementing erosion and sediment control BMPs prior to, during, and immediately following clearing and grading activities at the site. Application of BMPs should conform to the standards and specifications presented in the King County Storm Water manual as well as City of Renton requirements. Steep Slope/Landslide Hazards Generally, the lot areas are gently sloping to the south over low gradients. A single band of 40 percent slopes about 12 feet in height exists south of Lots A and B nearer May Creek. This limited area of slope lies 50 to 60 feet south of the planned southern lot lines for Lots A and B. Based on the lot topography, there are no steep slope or Landslide Hazards in the proposed lot areas to be developed in the northern zone of the 3.85 acre property. No setbacks or buffers from steep slopes will be needed for the planned Lots A, B, and C. Steeper and higher slopes and other geologic hazards may exist south of the creek in the southern portion of the subject property but those areas are presently not slated for any disturbance or development. Project No. 1358 Page No. 6 Mr. John Dulcich February 19, 2013 DISCUSSION AND RECOMMENDATIONS General Based on our study, the site is suitable for the proposed development. The planned residences can be supported on conventional spread footings bearing on competent native soils below the topsoil and any localized old fill or utility installations. If required, spread footings can also be supported on structural fill or clean rock placed and compacted above the competent native soils. Garage floor slabs and pavements can be similarly supported. The following sections provide detailed recommendations regarding the above issues and other geotechnical design considerations. These recommendations should be incorporated into the final design drawings and construction specifications. Site Preparation and Grading To prepare the site for construction within the new house or driveway areas, all vegetation, organic surface soils, uncontrolled fill, building debris, old abandoned utility installations and other deleterious materials should be stripped from below the crawlspace excavation, slab-on-grade areas, and new pavement areas. Soils containing organic material will not be suitable for use as structural fill, but may be used in non-structural areas or for landscaping purposes. The on-site soils generally appear suitable for use as structural fill. However, some of the near-surface soils are silty and will be difficult to compact as structural fill when too wet. The ability to use these upper silty sands and fills from site excavations as structural fill will depend on their moisture content and the prevailing weather conditions at the time of construction. The relatively clean sands and gravels found beneath the site will generally be suitable for use as structural fill. If grading activities must take place during wet weather or on a wet subgrade, the owner should be prepared to use wet weather structural fill as needed. For this purpose, we recommend using a granular soil which meets the following grading requirements: Maximum Aggregate Size Minimum Retained on the No. 4 Sieve Maximum Passing the No. 200 Sieve 3 inches 25 percent 5 percent* Project No. 1358 Page No. 7 Mr. John Dulcich February 19, 2013 *Based on the 3/4 inch fraction Prior to use, ABPB Consulting should examine and test all on-site or imported materials proposed for use as structural fill. Alternatively, railroad ballast or clean small quarry spalls may be used over wet subgrades or in any old utility area over-excavations as structural fill material. Structural fill should be placed in uniform loose layers not exceeding 12 inches and then compacted to a minimum of 95 percent of the soil's maximum dry density as determined by ASTM Test Designation D-698 (Standard Proctor). The moisture content of the soil at the time of compaction should be within two percent of its optimum, as determined by this ASTM standard. In non-structural areas or for backfill in utility trenches below a depth of four feet, the degree of compaction could be reduced to 90 percent. Excavations All excavations at the site associated with confined spaces, such as utility trenches, must be completed in accordance with local, state, or federal requirements. Based on current Occupational Safety and Health Administration (OSHA) regulations, the on-site soils would generally be classified as Group C soils. Caving of trench sidewalls in the clean sand and gravel will occur in almost all trench areas where excavations are deeper than about four feet. The contractor should use appropriate safety precautions and trench boxes. While the test pits did not encounter groundwater at the time of excavation in the winter, we expect that some groundwater seepage in excavations extending below the groundwater level may occur based on the depth of the planned utility. Dewatering should be anticipated if excavations will extend below the high groundwater level, which is anticipated to be about 10 feet. For excavations above the water table or for those adequately dewatered, side slopes should be laid back at a slope of 1:1 (Horizontal: Vertical) or flatter. Shoring will be required where site excavations cannot be completed to the recommended inclination due to site constraints or groundwater conditions. The above information is provided solely for the benefit of the owner and other design consultants, and should not be construed to imply that ABPB Consulting assumes any responsibility for job site safety. It is understood that job site safety is the sole responsibility of the project contractor. Project No. 1358 Page No. 8 Mr. John Dukich February 19, 2013 Foundations The new houses may be supported on conventional spread footings bearing on competent native soils or on structural fills placed above competent native soils. Foundation subgrades should be prepared as recommended in the Site Preparation and Grading section. Perimeter foundations should extend at least 1.5 feet below final exterior grades. Interior foundations can be constructed at any convenient depth. All footing excavations should be thoroughly recompacted with hand equipment following excavation disturbance. Some of the future home foundation areas in a crawlspace excavation may encounter the old septic tank, drain lines, or old pool excavation. It appears the existing septic tank may be near the future lot line between Lot A and B just behind the existing old house. The drain lines would be just south of the tank and are thought to be about three feet deep. If these lines and tank are found in the crawlspace excavations, they should be over-excavated and removed and replaced by clean small rock such as railroad ballast. The ballast rock will provide suitable foundation support for the homes. Based on comments by a neighbor, an old pool area had existed behind the vacant residence on the site. The pool was located just below a small retaining wall south of the house. The approximate location of the pool is shown on the Exploration Location Plan, Figure 2. The dimensions of the pool are not known. We understand that it was about five or six feet deep and was enclosed by metal sidewalls and had a liner base. It this old excavation is encountered in any of the foundation holes, the area should be over-excavated to its base and sides and subsequently backfilled with compacted and test structural fill or by clean railroad ballast rock. Footings should have a minimum width of 18 inches or be in accordance with the IBC standards. We recommend designing foundations for a net allowable bearing capacity of 2,000 pounds per square foot (psf). For short-term loads, such as wind and seismic, a 1/3 increase in this allowable capacity can be used. For the anticipated loads and bearing stresses, estimated total settlements should be 1/2 to 3/4 inch, of which 1/4 to 1/2 inch would be differential. For designing foundations to resist lateral loads, a friction coefficient of 0.4 can be used. Passive earth pressures acting on the sides of the footings and buried portions of the foundation stem walls can also be considered. We recommend calculating this lateral resistance using an equivalent fluid weight of 300 pounds per cubic foot (pcf). We recommend not including the upper 12 inches of soil in this computation because they can be affected by weather or disturbed by future grading activity. This value assumes the foundations will be constructed neat against competent soil or backfilled with structural fill as described in the Site Preparation and Grading section. The values recommended include a safety factor of 1.5. Project No. 1358 Page No. 9 Mr. John Dulcich February 19, 2013 Retaining Walls It is not anticipated that any retaining walls will be needed. However, if walls are needed, the magnitude of earth pressures developing on any proposed retaining walls will depend on the quality of the wall backfill. We recommend placing and compacting wall backfill as structural fill. Below improved areas such as pavements or floor slabs, the backfill should be compacted to a minimum of 95 percent of its maximum dry unit weight, as determined by ASTM Test Designation D-698 (Standard Proctor). In unimproved areas, the relative compaction can be reduced to 90 percent. To prevent hydrostatic pressure development, wall drainage must also be installed. With wall backfill placed and compacted as recommended and drainage properly installed, we recommend designing unrestrained walls for an active earth pressure equivalent to a fluid weighing 35 pcf. For restrained walls, an additional uniform lateral pressure of 100 psf should be added. These values assume a horizontal backfill condition and that no other surcharge loading, such as traffic, sloping embankments, or adjacent buildings, will act on the wall. If such conditions will exist, then the imposed loading must be included in the wall design. For seismic loading conditions, a uniform pressure of SH psf should be added, where H is the wall height. Friction at the base of foundations and passive earth pressure will provide resistance to these lateral loads. Values for these parameters are provided in the Foundations section. Slab-on-grade Floors We anticipate that the only slab-on-grade areas will be within the house garage areas. Slab-on-grade floors may be supported on the subgrade prepared as recommended in the Site Preparation and Grading section. If moisture intrusion is a concern, the garage slabs should be provided with a four-inch thick capillary break layer of clean, free- draining sand or gravel that has less than three percent fines passing the No. 200 sieve. This material will reduce the potential for upward capillary movement of water through the underlying soil and subsequent dampening of the garage floor slab. Where moisture by vapor transmission is undesirable, a durable plastic membrane should be placed below the slab above the capillary break. This membrane is commonly covered with one to two inches of clean, moist sand to protect damage during construction and to aid in curing of the concrete. Other methods are available for preventing or reducing water vapor transmission through the slab. We recommend consulting with a building envelope specialist for additional assistance regarding this issue. Project No. 1358 Page No. 10 Mr. John Dulcich February 19, 2013 Drainage Storm Water Infiltration In our opinion, the medium dense coarse-grained sands and gravels underlying the site are suitable for some storm water infiltration. Additional infiltration design information can be determined in the future, if needed, once individual house designs are available. The deeper permeable sand and gravel soils under the silty surficial materials and the clay silt soils can be used for stormwater infiltration as permitted/required by local regulations. For preliminary sizing of the stormwater infiltration facilities, an allowable infiltration rate of 10 inches per hour may be used. This value is based on our knowledge of the site soils, testing of similar sites and a review of the grain size analyses of representative site soils. Surface Final exterior grades should promote free and positive drainage away from the house areas at all times. Water must not be allowed to pond or collect adjacent foundations or within the immediate building areas. We recommend providing a gradient of at least three percent for a minimum distance of ten feet from the building perimeters, except in paved locations. In paved locations, a minimum gradient of one percent should be provided, unless provisions are included for collection and disposal of surface water adjacent the structures. Subsurface We recommend installing continuous drains along the outside lower edge of the perimeter house foundations. The foundation drains and roof downspouts should be tightlined separately to approved discharge facilities. Subsurface drains must be laid with a gradient sufficient to promote positive flow to a controlled point of approved discharge. Lower level drainage should be installed as noted above at the level of the lowest wall footing. All drains should be provided with cleanouts at easily accessible locations. These cleanouts should be serviced regularly. Utilities Utility pipes should be bedded and backfilled in accordance with American Public Works Association (APWA) or City of Renton specifications. As a minimum, trench backfill should be placed and compacted as structural fill as described in the Site Preparation and Grading section. Project No. 1358 Page No. 11 Mr. John Dulcich February 19, 2013 If the soils excavated on-site are free of excessive deleterious material or debris and are not excessively moist, they can be suitable for use as backfill material. If construction takes place during winter or spring, it may be necessary to import structural fill for backfilling purposes. If proposed elevations of buried utilities will extend beneath the water table, dewatering will be necessary and excavations may need to be provided with temporary shoring support. It may also be necessary to provide measures for uplift resistance of buried utilities if they are located below the groundwater table. Pavements Driveway pavements should be constructed on subgrades prepared as described in the Site Preparation and Grading section. However, regardless of the relative compaction achieved, the subgrade must be in a firm and relatively unyielding condition prior to paving. The subgrade should be proofrolled with heavy construction equipment to verify this condition. The appropriate pavement section depends upon the supporting capability of the subgrade soils and the traffic conditions to which it will be subjected. We expect that traffic will mainly consist of light passenger and commercial vehicles with occasional heavy traffic in the form of trash removal vehicles. Based on this information, with a stable subgrade prepared as recommended, we recommend the following pavement sections for light automobile traffic: • Two inches of asphalt concrete (AC) over four inches of crushed rock base (CRB) • Two inches of AC over 3 inches of asphalt treated base (ATB) The paving materials used should conform to the Washington State Department of Transportation (WSDOT) specifications for Class B asphalt concrete, ATB, and CRB. Long-term pavement performance will depend on surface drainage. A poorly-drained pavement section will be subject to premature failure as a result of surface water infiltrating into the subgrade soils and reducing their supporting capability. To improve pavement performance, surface drainage gradients of no less than two percent are recommended. Also, some longitudinal and transverse cracking of the pavement surface should be expected over time. Regular maintenance should be planned to seal cracks when they occur. Project No. 1358 Page No. 12 Mr. John Dulcich February 19, 2013 The following figures are included and complete this report: Figure 1 Figure 2 Figures 3 through 7 Vicinity Map Exploration Location Plan Test Pit Logs We prepared this report in accordance with generally accepted geotechnical engineering practices. This report is the property of ABPB Consulting, LLC and is intended for specific application to the May Creek S.P. project in Renton, Washington. This report is for the exclusive use of Mr. John Dulcich and his authorized representatives. No other warranty, expressed or implied, is made. We appreciate the opportunity to be of service during this phase of project development and design and look forward to working with you during the final design and construction phases. We trust the information presented in this report is sufficient for your current needs. If you have any questions or need additional information, please call. Sincerely yours, ABPB CONSUL TING Paul K. Bonifaci Project Engineering Geologist Anil Butail, P.E. Principal Engineer Project No. 1358 Page No. 13 NTS Ref: Google Map Satellite ABPB Consulting Geotechnical Consultants Kirkland, Wash. Vicinity Map May Creek Short Plat Renton Washin ton Proj. No. 1358 Date : 2-13 Figure 1 ' _., __ ----...'-} ()-i'1 . ..-,.' -·~-· ... ~-------,_~~-,· ~ :1· ..... . .;.· ·.~ .. :~ C," • I I ' •-. .,. ·•·;;; .. ·TP"'"" ··. •. TP ·4 I I ·I: ~ r i ~ t " ~-fq ~ '"' fir j' ,/! i' ) .... -·~ r.; :ri-t· r,;• ~- '! :'t ' . :/ '!,/ ' :[ • /j .·.1. l.:,• ' ,,, . ~J: 'Jf"' .· ' '}f l ,_, ' .;f J i • ..• . . ;;JI •. • • -. . , '~ ' .. , LOT C . ,\. \ : c• ~ . . • ;i. ·--. ···-""'" "•"'['" ', 11:J . <'¥.· 1 ..• , -,,,..._ ,; ..•• ,,, .•. ,4 w., , Lil . .J I J :·· • . . .. ...• .. I ,I } 1 • ·,.,,.___._,,, "iff.:a' f -°t ,1 .. -=::...--~-....i.;~----~-r-····i ,' ) / '~,,;, :~ { (} () ~::;>!. ·.,, .'.J::::· ~ ! . . ; ··7 • ;. • • ' I ~ • • ,•' 1 , . . ./ ~--',.,.,,.~c. LOT s ,,· . 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' I . ; !;~ .J J . ·' !~I t) ::/; '.!_ ,.. . ,, fl;: t· ..... ifi.t:A -~-!11,'.'1,,s;,~- ..... tt,;,; __ ,......_z-----'!' L.llr ~ 4 • -r~:M' LEGEND ~ TP-1 Approx. Test Pit Locations Ref: Preliminary Layout by Goldsmith Land Development dated 2-1-13 " J ~ I ,., C· !/AA'f~'( ~~ TOT,t.L, F-.AF:CEJ,. A.i'l;.4. :=: --:~,8-e (~~ J;.G;£a; QE"..i'ELOP,11,ELE .i..~E;-J..:lf. 52,8!.0 8~ (1.21 ;!£;;"5°S) ,, -., r: i ""~ .... ,t / ~ ,1 ·, •, ' ',, lh.~ ""> ' ' l,,...... ,_Wm-,_, __ ,,.:-.,' --; ---------~ ' ., "\ ~~-: '· / ., '· , \ :, , '\ ' \ \ . ' } /;' / .t ,/' CA TRACT· ~~Ill:' _..._.._..,.. _.._..,.,...,..., ..... 'II' f:)T>".t. iJJ~ ,r,.'11(.r,~t 'Ui.t)!-::.1-· ,, ·~;~ ..... ,, \" -~ ,:i;~-. ~~'..; .. ··--~ l1\ !'" \ \ \ \\ .... .--~·-,., -j .•. ., ·--s.. •.. '1J.i .E'J!,l!Ql,i .pt.RV;lttll':J-,S .. t. ~· '-" .... ..; ·~ -...... i-,,.." * '···-~-.. ~t.r,_:,;~ Proj. No. 1358 , ? Vi 'i ,. -' 1 ~· ,,. ' ' , ..,~- .' ""·:! ABPB Consulting Geotechnical Consultants Kirkland, Wash. Exploration Location Plan May Creek Short Plat (#12196) Renton, Washington Date : Feb. 2013 Figure 2 Project : May Creek SP Proiect No. 1358 Date: Client : Goldsmith Elevation Location: May Valley Rd. Logged By: V -1 - -2- -3- -4-·~·ci·~. 0 0 ··o·· . . . . .. •5 -ci <<0 ··o·· . . . . .. . . . . -6-0>> 0 . o·· . . . . . . . . -7-0·-·.·0· . . . . ··o· . . . _8 _ 0>> 0 ··o···· . . . . 0 . ·O· . . . . SUBSURFACE PROFILE Soil Description Silty Sand: (12 inches Fill,SodfTopsoil) Tan brown, silty gravelly SAND to silty sandy GRAVEL, with roots, loose, moist Sandy Gravel: Tan to tan grey, clean to slightly silty, sandy GRAVEL, occasional cobbles, and a few roots, medium dense, moist No groundwater encountered 2-13-13 310 feet PKB SAMPLE CJ) (.) CJ) :J SM ABPB Consulting Geotechnical Consultants Test Pit TP -1 Laboratory Results Field Strength Tests Moisture Content 4.7% 12525 Willows Road, Suite 80, Kirkland, Washington (425) 820-2544 Date Feb. 2013 / Project Name : May Creek SP I Figure 3 Proiect :· Mav Creek SP Proiect No. 1358 Date: 2-13-13 Test Pit TP-2 Client: Goldsmith Elevation 308 feet Location: May Valley Rd. Logged By: PKB I SUBSURFACE PROFILE SAMPLE Laboratory Results ~ >, g! Q) Field Strength Tests "' ~ C. (/J .c ~ .Q Soil Description ..., E (.) Moisture Content a. (/J _g .!l m (/J Q) ;!! (/J 0 "' :::> ..J u ~;+;:-r.;.T. :.;:-r.:r.;r.:-r.:r:-r. Silty Sand: (18 inches Fill,Sod/Topsoil) -1- ~:-r.;:r.;,..:; Tan brown, silty gravelly SAND to silty -:T. :r. :T. :r. :r. :T. sandy GRAVEL, with roots, loose, §~~~~~§ moist -2- SM "-..) . . . . "-..) Sandy Gravel: Tan to tan grey, clean to -3-0 . . . . 00 slightly silty, sandy GRAVEL, . . . occasional cobble and a boulder, a few 0 -4-. . . . .. roots, medium dense, moist . . . . GP 0 0 0 . . . . .. No groundwater encountered -5-. . . . ~TI o·o 5.2% ·o . . . . . . . . . -6-0 0 . . . . ·o·· .. -7-0 0 . . . . 'O 1-0>> 0 -8 . . . . ··o·· . . . . 00 ABPB Consulting Geotechnical Consultants 12525 Willows Road, Suite 80, Kirkland, Washington (425) 820-2544 Date Feb. 2013 / Project Name : May Creek SP I Figure 4 Pro"ect: Ma Creek SP Pro·ect No. 1358 Date: 2-13-13 Client: Goldsmith Elevation 302 feet Location: May Valley Rd. Logged By: PKB SUBSURFACE PROFILE SAMPLE '!:;, >, 1 Q) Cl ~ Q. .c :g .Q -' E Cl) 0. Soil Description ~ (.) Cl) _g 2 m Cl) Q) ~ Cl) Cl ·"' ::) ....J Clayey Silt: (14 inches Fill,Sodffopsoil) Tan, clayey SILT, a few roots, stiff, moist, a few pebbles, moist ML JJI! silty Gravel: Tan, slightly silty to silty, sandy Gravel, medium dense, moist GM 0 sandy Gravel: Tan, clean, sandy . . . . . Gravel, a few cobbles, medium dense, . . . . -6 0 0 moist GP . . . . o< o·o No groundwater seepage -7 ... ·. . 0 . . . . . . -8 0>>0 Im ·o . . . . . . . . . 0 0 . . . . ABPB Consulting Geotechnical Consultants Test Pit TP -3 Laboratory Results Field Strength Tests Moisture Content 35.0% 9.5% 12525 Willows Road, Suite 80, Kirkland, Washington (425) 820-2544 Date Feb. 2013 I Project Name : May Creek SP I Figure 5 Pro·ect: Ma Creek SP Pro·ect No. 1358 Date: Client : Goldsmith Elevation Location: May Valley Rd. Logged By: -5 0 <0 >>o >> -s O >0 << 0 < 0>>0 -7 > o<< O»O -s .· o<< 0<<0 SUBSURFACE PROFILE Soil Description Clayey Silt: (8 inches Fill,Sod/Topsoil) Tan, clayey SILT, a few roots, stiff, moist, a few pebbles Silty Gravel: Tan, slightly silty to silty, sandy Gravel, a few cobbles, medium dense, moist Sandy Gravel: Tan, clean, sandy Gravel, a few cobbles, medium dense, moist No groundwater seepage 2-13-13 302 feet PKB SAMPLE ML GM GP ABPB Consulting Geotechnical Consultants Test Pit TP -4 Laboratory Results Field Strength Tests Moisture Content 12525 Willows Road, Suite 80, Kirkland, Washington (425) 820-2544 Date Feb. 2013 1 Project Name : May Creek SP I Figure 6 --··-,· Proiect: Mav Creek SP Proiect No. 1358 Date: 2-13-13 Test Pit TP-5 Client: Goldsmith Elevation 309 feet Location: May Valley Rd. Logged By: PKB SUBSURFACE PROFILE SAMPLE Laboratory Results ~ >, ~ II) Field Strength Tests "' ~ a. (J) .c == 0 ..., E a. o-Soil Description (J Moisture Content (J) _g i "' (J) II) (J) :::) Cl 5 5' u \J. C) .'-/ (! '- I'.) . I'.) i Silty Gravel: (12 inches -1 -:::> (! 0 c:? ( Fill,Sodffopsoil) Tan brown, silty sandy Gravel with scattered roots, loose, I'.) . I'.) i moist -2-:::> (! 0 c:? ( GM c'.>. I'.) I -3-Oc:JOc:J( c'.> I'.) I 0 ]l[ 3.8% . . . . .. Sandy Gravel: Tan to tan grey, clean to -4-. . . 0 0 slightly silty, sandy GRAVEL, . . . . 0 occasional cobbles, and a few roots, . . . . .. . . . . -5-0 0 medium dense, moist GP 0 . . . . .. . . . No groundwater encountered -6-0 0 ·o . . . . . . . -7-0 0 . . . . 0 . . . . . 0 0 ~ . ·. . . ABPB Consulting Geotechnical Consultants 12525 Willows Road, Suite 80, Kirkland, Washington (425) 820-2544 Date Feb. 2013 I Project Name : May Creek SP I Figure 7 ABPB CONSULTING GEOTECHNICALfEARTH SCIENCES ANIL BUTAIL, P.E. PAUL B0N1FAc1, P.E.G. Mr. John Dulcich Goldsmith Land Development Services 1215 -114th Avenue SE Bellevue, Washington 98004 Subject: Geotechnical Report May Creek Short Plat (#12196) 13815 SE May Valley Road Renton, Washington Dear Mr. Dulcich: 12525 Willows Road, Suite 80 Kirkland, WA 98034 Phone:425-820-2544 Fax 206-418-6448 February 18, 2013 Project No. 1358 As requested, we have conducted a geotechnical engineering study for the subject short plat project in north Renton, Washington. The attached report presents our findings and recommendations for the geotechnical aspects of project design and construction. SUMMARY Our field exploration indicates the planned building areas of the site are generally underlain by medium dense to dense native glacial outwash sands and gravels. No peat or other compressible soils were encountered in any of the test pits on the north side of the creek in the planned lot areas. No groundwater was encountered at the time of exploration in the test pits which extended to a maximum depth of nine feet below the existing ground surface. In our opinion, the site conditions encountered are suitable for the planned residential short plat development. The undisturbed native soils are suitable for supporting the proposed residences, provided the recommendations presented in this report are incorporated into project design and construction. Mr. John Dulcich February 19, 2013 Some localized site soils encountered in the upper foot or two are fills and contain excessive amounts of fine-grained material. These soils are moisture-sensitive and may not be suitable for use as structural fill during the wet winter months. The near surface soils are generally granular and moderately well drained. We have not been provided with stormwater detention/disposal details for the project but some infiltration of roof runoff is a potential option for the proposed lots. The geotechnical recommendations presented in this report should be incorporated into project design and construction. PROJECT DESCRIPTION A proposed lot layout has been developed for the site and is shown on the Goldsmith Land Development plan dated February 1, 2013, which was used as a site plan for this report. This plan indicates that the north side of the property, north of the creek, will be developed into three residential lots. Based on the site plan, these lots will be located between Elevation 300 and 315 feet. The lots will be set back at least 100 feet from the May Creek channel passing through the south central side of the site near Elevation 286 feet. Lots A, B, and C will encompass about 17,000 square feet. The south side of the irregular shaped property includes some steep slopes and wetlands and is not included in the current development plans. Detailed building plans for the residences have not been prepared. However, we expect the new residences will have conventional spread footing foundations and concrete slab-on-grade garage floors. Building loads are expected to be light, on the order of one to two kips along building walls and 10 kips at columns. We expect that new houses will be two-story wood frame construction with no basements and that the ground floor level will be established at or near the existing grades. The preliminary recommendations contained in the following sections of this report are based on our general understanding of design concepts provided by our client. When actual layouts have been prepared, we should review them in order to modify our recommendations as required. SCOPE OF WORK We excavated five test pits on February 13, 2013, using a small backhoe. The test pits were dug to a maximum depth of about 9 feet below the existing ground surface. Using the information obtained from the subsurface exploration, to develop geotechnical recommendations for project design and construction. Project No. 1358 Page No. 2 Mr. John Dulcich February 19, 2013 Specifically, this report addresses the following: • Site Hazard Evaluation • Soil and groundwater conditions • Site preparation and grading • Foundation design • Slab-on-grade floors • Storm water Infiltration Assessment • Drainage • Utilities It should be noted that the recommendations outlined in this report regarding drainage are associated with soil strength, design earth pressures, erosion and stability. Design and performance issues with respect to moisture and seepage as it relates to structure environment (i.e., humidity, mildew, and mold) are beyond the scope of our study. A building envelope specialist or contractor should be consulted to address these potential issues. SITE CONDITIONS Surface The property is an irregular shaped parcel located along the south side of the SE May Valley Road in north Renton, Washington. The approximate site location is shown on the Vicinity Map, Figure 1. The property measures about 586 feet in a north-south direction and is between 225 and 329 feet wide in the east-west direction. May Creek flows down to the west through the south central portion of the 3.85 acre property. The area north of the creek in the planned development area covers a gently sloping plateau area between Elevation 300 and 315 feet near the road, based on the topographic survey. The area south of May Creek includes streams, slopes and some wetlands. The northern development area contains some cleared land and includes a small shop/shed and an old residence (#13815 SE May Valley Road). The land slopes gently southward down to the creek from the road. No ponded surface water or flows were noted in this area during our site work. Surrounding properties include large single family residential sites to the east and west of the subject property. A small depression exists in the southern portion of the planned Lot B. Based on our conversation with a nearby resident, it appears that there was an old pool in this area. The pool was apparently constructed by lining an excavation with corrugated sheeting and placing a plastic liner on the sides and bottom. The pool area was reportedly backfilled many years ago. Project No. 1358 Page No. 3 Mr. John Dulcich February 19, 2013 On February 13, 2013, we conducted our subsurface exploration by excavating five test pits with a small backhoe. The test pits were dug to depths of up to 9 feet below existing grades. The approximate test pit locations are shown on the Exploration Location Plan, Figure 2. The test pit locations were approximately determined by pacing from known landmarks. The Test Pit Logs are presented as Figures 3 through 7. An engineering geologist maintained a log of each test pit as it was excavated, classified the soil conditions encountered, and obtained representative soil samples. All soil samples were visually classified in accordance with the Unified Soil Classification System. Representative soil samples obtained from the test pits were placed in sealed plastic bags and returned to a laboratory for further examination and testing. The moisture content of each sample was measured and is reported on the Test Pit Logs. The Test Pit logs are presented with this report as Figures 3 through 7. The soils encountered in the test pits in the central and northern parts of the lot areas generally consist of about 8 to 18 inches of fill, sod/duff, and topsoil. The soils below that level are slightly silty to silty gravelly Sands and sandy gravels. With depth, the soils grade into medium dense clean sandy gravel with occasional cobbles and a few boulders. The southern portion of the lot areas (test pit areas TP-3 and TP-4) are underlain by about a foot of fill/topsoil overlying about 2.5 to 3.5 feet of clayey silt soil. The fine- grained silt is in a stiff condition and contains a few pebbles and small roots. The silt soil overlies several feet of slightly silty sandy Gravel soil in a medium dense condition. This silty gravel grades with depth into clean sandy Gravel with occasional cobbles. The test pit logs present more detailed descriptions of the subsurface conditions encountered in the test pit exploration. Site Geology The Geologic Maps of the Mercer Island and Issaquah Quadrangles, King County, Washington shows the soils in the vicinity of the site as younger glacial outwash consisting of sands and gravels deposited by a recessional glacial environment after the last Ice Age glacier retreated into Canada about 12,000 years ago. Meltwater streams carried clean sand and gravel away from the retreating ice front and deposited it in terraces such as in the site vicinity. Project No. 1358 Page No. 4 Mr. John Dulcich February 19, 2013 The U.S. Soil Conservation Service (SCS) mapped the soils in this area as Everett Series soils. These are recessional outwash soils and match with the quadrangle soil maps of the area. The native sand and gravel which were encountered in the test pits are generally consistent with these classifications. We did not encounter peat or significant thicknesses of fine-grained compressible soils in any of the test pits. The coarse grained sands and gravels underlying the site are in a medium dense condition. These soils are not susceptible to liquefaction during an earthquake. Groundwater No groundwater was encountered in the pits to a depth of 9 feet. However, seasonal fluctuations of groundwater levels at this site will occur. The deeper subsurface sand and gravel layer is fairly permeable and will transmit shallow perched water from the May Creek basin laterally at depth. We anticipate that the low groundwater levels will occur during the dry summer months and that a water level of greater than 10 feet may exist during the wet winter months. Minor fluctuations in the water levels at the site would also be expected following periods of heavy precipitation. Based on our experience in the area, we believe the high groundwater level will be at depths of ten to 15 feet or slightly less below the ground surface. GEOLOGIC HAZARDS Seismic Based on our site specific findings, the area of the site should not be classified as a Seismic Hazard Area. Based on the soil conditions encountered and the local geology, per Chapter 16 of the 2012 International Building Code (IBC), Site Class "D" should be used in structural design. The following parameters should be used in structural design, as needed: Seismic Design Parameters (IBC 2012) Soectral Resoonse acceleration ( Short Period'-Ss Soectral Response acceleration ( 1 -Second Period). Sl Site Coefficient. Fa . Site Coefficient. Fv Five percent damped .2 second oeriod. Sds Five percent damped 1.0 second, Sdl 1.40 0.53 1.00 1.50 0.94 0.53 Project No. 1358 Page No. 5 Mr. John Dulcich February 19, 2013 Liquefaction is a phenomenon where there is a reduction or complete loss of soil strength due to an increase in water pressure· induced by vibrations. Liquefaction mainly affects geologically recent deposits of fine-grained sands that are below the groundwater table. Soils of this nature derive their strength from intergranular friction. The generated water pressure or pore pressure essentially separates the soil grains and eliminates this intergranular friction; thus, eliminating the soil's strength. Due to the medium dense and well-drained nature of the soils that will support the planned houses, it is our opinion that there is little or no risk for liquefaction to occur at this site affecting house construction during an earthquake. Erosion The site near-surface soils are mostly all alluvial outwash or glacial pond deposits in nature. The site silt soil layer is relatively thin and lies on gently sloping grades. These soils have a low potential for site erosion based on the existing shallow slope gradients. Best Management Practices (BMPs) should be used during construction to mitigate the potential erosion hazard. If the erosion control measures are properly implemented and maintained, it is our opinion that the planned residential development will not adversely impact the erosion potential for the site or adjacent properties. As a minimum, we recommend implementing erosion and sediment control BMPs prior to, during, and immediately following clearing and grading activities at the site. Application of BMPs should conform to the standards and specifications presented in the King County Storm Water manual as well as City of Renton requirements. Steep Slope/Landslide Hazards Generally, the lot areas are gently sloping to the south over low gradients. A single band of 40 percent slopes about 12 feet in height exists south of Lots A and B nearer May Creek. This limited area of slope lies 50 to 60 feet south of the planned southern lot lines for Lots A and B. Based on the lot topography, there are no steep slope or Landslide Hazards in the proposed lot areas to be developed in the northern zone of the 3.85 acre property. No setbacks or buffers from steep slopes will be needed for the planned Lots A, B, and C. Steeper and higher slopes and other geologic hazards may exist south of the creek in the southern portion of the subject property but those areas are presently not slated for any disturbance or development. Project No. 1358 Page No. 6 Mr. John Dulcich February 19, 2013 DISCUSSION AND RECOMMENDATIONS General Based on our study, the site is suitable for the proposed development. The planned residences can be supported on conventional spread footings bearing on competent native soils below the topsoil and any localized old fill or utility installations. If required, spread footings can also be supported on structural fill or clean rock placed and compacted above the competent native soils. Garage floor slabs and pavements can be similarly supported. The following sections provide detailed recommendations regarding the above issues and other geotechnical design considerations. These recommendations should be incorporated into the final design drawings and construction specifications. Site Preparation and Grading To prepare the site for construction within the new house or driveway areas, all vegetation, organic surface soils, uncontrolled fill, building debris, old abandoned utility installations and other deleterious materials should be stripped from below the crawlspace excavation, slab-on-grade areas, and new pavement areas. Soils containing organic material will not be suitable for use as structural fill, but may be used in non-structural areas or for landscaping purposes. The on-site soils generally appear suitable for use as structural fill. However, some of the near-surface soils are silty and will be difficult to compact as structural fill when too wet. The ability to use these upper silty sands and fills from site excavations as structural fill will depend on their moisture content and the prevailing weather conditions at the time of construction. The relatively clean sands and gravels found beneath the site will generally be suitable for use as structural fill. If grading activities must take place during wet weather or on a wet subgrade, the owner should be prepared to use wet weather structural fill as needed. For this purpose, we recommend using a granular soil which meets the following grading requirements: Maximum Aggregate Size Minimum Retained on the No. 4 Sieve Maximum Passing the No. 200 Sieve 3 inches 25 percent 5 percent* Project No. 1358 Page No. 7 Mr. John Dulcich February 19, 2013 *Based on the 3/4 inch fraction Prior to use, ABPB Consulting should examine and test all on-site or imported materials proposed for use as structural fill. Alternatively, railroad ballast or clean small quarry spalls may be used over wet subgrades or in any old utility area over-excavations as structural fill material. Structural fill should be placed in uniform loose layers not exceeding 12 inches and then compacted to a minimum of 95 percent of the soil's maximum dry density as determined by ASTM Test Designation D-698 (Standard Proctor). The moisture content of the soil at the time of compaction should be within two percent of its optimum, as determined by this ASTM standard. In non-structural areas or for backfill in utility trenches below a depth of four feet, the degree of compaction could be reduced to 90 percent. Excavations All excavations at the site associated with confined spaces, such as utility trenches, must be completed in accordance with local, state, or federal requirements. Based on current Occupational Safety and Health Administration (OSHA) regulations, the on-site soils would generally be classified as Group C soils. Caving of trench sidewalls in the clean sand and gravel will occur in almost all trench areas where excavations are deeper than about four feet. The contractor should use appropriate safety precautions and trench boxes. While the test pits did not encounter groundwater at the time of excavation in the winter, we expect that some groundwater seepage in excavations extending below the groundwater level may occur based on the depth of the planned utility. Dewatering should be anticipated if excavations will extend below the high groundwater level, which is anticipated to be about 10 feet. For excavations above the water table or for those adequately dewatered, side slopes should be laid back at a slope of 1:1 (Horizontal: Vertical) or flatter. Shoring will be required where site excavations cannot be completed to the recommended inclination due to site constraints or groundwater conditions. The above information is provided solely for the benefit of the owner and other design consultants, and should not be construed to imply that ABPB Consulting assumes any responsibility for job site safety. It is understood that job site safety is the sole responsibility of the project contractor. Project No. 1358 Page No. 8 Mr. John Dulcich February 19, 2013 Foundations The new houses may be supported on conventional spread footings bearing on competent native soils or on structural fills placed above competent native soils. Foundation subgrades should be prepared as recommended in the Site Preparation and Grading section. Perimeter foundations should extend at least 1.5 feet below final exterior grades. Interior foundations can be constructed at any convenient depth. All footing excavations should be thoroughly recompacted with hand equipment following excavation disturbance. Some of the future home foundation areas in a crawlspace excavation may encounter the old septic tank, drain lines, or old pool excavation. It appears the existing septic tank may be near the future lot line between Lot A and B just behind the existing old house. The drain lines would be just south of the tank and are thought to be about three feet deep. If these lines and tank are found in the crawlspace excavations, they should be over-excavated and removed and replaced by clean small rock such as railroad ballast. The ballast rock will provide suitable foundation support for the homes. Based on comments by a neighbor, an old pool area had existed behind the vacant residence on the site. The pool was located just below a small retaining wall south of the house. The approximate location of the pool is shown on the Exploration Location Plan, Figure 2. The dimensions of the pool are not known. We understand that it was about five or six feet deep and was enclosed by metal sidewalls and had a liner base. It this old excavation is encountered in any of the foundation holes, the area should be over-excavated to its base and sides and subsequently backfilled with compacted and test structural fill or by clean railroad ballast rock. Footings should have a minimum width of 18 inches or be in accordance with the IBC standards. We recommend designing foundations for a net allowable bearing capacity of 2,000 pounds per square foot (psf). For short-term loads, such as wind and seismic, a 1/3 increase in this allowable capacity can be used. For the anticipated loads and bearing stresses, estimated total settlements should be 1/2 to 3/4 inch, of which 1/4 to 1/2 inch would be differential. For designing foundations to resist lateral loads, a friction coefficient of 0.4 can be used. Passive earth pressures acting on the sides of the footings and buried portions of the foundation stem walls can also be considered. We recommend calculating this lateral resistance using an equivalent fluid weight of 300 pounds per cubic foot (pcf). We recommend not including the upper 12 inches of soil in this computation because they can be affected by weather or disturbed by future grading activity. This value assumes the foundations will be constructed neat against competent soil or backfilled with structural fill as described in the Site Preparation and Grading section. The values recommended include a safety factor of 1.5. Project No. 1358 Page No. 9 Mr. John Dulcich February 19, 2013 Retaining Walls It is not anticipated that any retaining walls will be needed. However, if walls are needed, the magnitude of earth pressures developing on any proposed retaining walls will depend on the quality of the wall backfill. We recommend placing and compacting wall backfill as structural fill. Below improved areas such as pavements or floor slabs, the backfill should be compacted to a minimum of 95 percent of its maximum dry unit weight, as determined by ASTM Test Designation D-698 (Standard Proctor). In unimproved areas, the relative compaction can be reduced to 90 percent. To prevent hydrostatic pressure development, wall drainage must also be installed. With wall backfill placed and compacted as recommended and drainage properly installed, we recommend designing unrestrained walls for an active earth pressure equivalent to a fluid weighing 35 pcf. For restrained walls, an additional uniform lateral pressure of 100 psf should be added. These values assume a horizontal backfill condition and that no other surcharge loading, such as traffic, sloping embankments, or adjacent buildings, will act on the wall. If such conditions will exist, then the imposed loading must be included in the wall design. For seismic loading conditions, a uniform pressure of SH psf should be added, where H is the wall height. Friction at the base of foundations and passive earth pressure will provide resistance to these lateral loads. Values for these parameters are provided in the Foundations section. Slab-on-grade Floors We anticipate that the only slab-on-grade areas will be within the house garage areas. Slab-on-grade floors may be supported on the subgrade prepared as recommended in the Site Preparation and Grading section. If moisture intrusion is a concern, the garage slabs should be provided with a four-inch thick capillary break layer of clean, free- draining sand or gravel that has less than three percent fines passing the No. 200 sieve. This material will reduce the potential for upward capillary movement of water through the underlying soil and subsequent dampening of the garage floor slab. Where moisture by vapor transmission is undesirable, a durable plastic membrane should be placed below the slab above the capillary break. This membrane is commonly covered with one to two inches of clean, moist sand to protect damage during construction and to aid in curing of the concrete. Other methods are available for preventing or reducing water vapor transmission through the slab. We recommend consulting with a building envelope specialist for additional assistance regarding this issue. Project No. 1358 Page No. 10 Mr. John Dulcich February 19, 2013 Drainage Storm Water Infiltration In our opinion, the medium dense coarse-grained sands and gravels underlying the site are suitable for some storm water infiltration. Additional infiltration design information can be determined in the future, if needed, once individual house designs are available. The deeper permeable sand and gravel soils under the silty surficial materials and the clay silt soils can be used for stormwater infiltration as permitted/required by local regulations. For preliminary sizing of the stormwater infiltration facilities, an allowable infiltration rate of 10 inches per hour may be used. This value is based on our knowledge of the site soils, testing of similar sites and a review of the grain size analyses of representative site soils. Surface Final exterior grades should promote free and positive drainage away from the house areas at all times. Water must not be allowed to pond or collect adjacent foundations or within the immediate building areas. We recommend providing a gradient of at least three percent for a minimum distance of ten feet from the building perimeters, except in paved locations. In paved locations, a minimum gradient of one percent should be provided, unless provisions are included for collection and disposal of surface water adjacent the structures. Subsurface We recommend installing continuous drains along the outside lower edge of the perimeter house foundations. The foundation drains and roof downspouts should be tightlined separately to approved discharge facilities. Subsurface drains must be laid with a gradient sufficient to promote positive flow to a controlled point of approved discharge. Lower level drainage should be installed as noted above at the level of the lowest wall footing. All drains should be provided with cleanouts at easily accessible locations. These cleanouts should be serviced regularly. Utilities Utility pipes should be bedded and backfilled in accordance with American Public Works Association (APWA) or City of Renton specifications. As a minimum, trench backfill should be placed and compacted as structural fill as described in the Site Preparation and Grading section. Project No. 1358 Page No. 11 Mr. John Dulcich February 19, 2013 If the soils excavated on-site are free of excessive deleterious material or debris and are not excessively moist, they can be suitable for use as backfill material. If construction takes place during winter or spring, it may be necessary to import structural fill for backfilling purposes. If proposed elevations of buried utilities will extend beneath the water table, dewatering will be necessary and excavations may need to be provided with temporary shoring support. It may also be necessary to provide measures for uplift resistance of buried utilities if they are located below the groundwater table. Pavements Driveway pavements should be constructed on subgrades prepared as described in the Site Preparation and Grading section. However, regardless of the relative compaction achieved, the subgrade must be in a firm and relatively unyielding condition prior to paving. The subgrade should be proofrolled with heavy construction equipment to verify this condition. The appropriate pavement section depends upon the supporting capability of the subgrade soils and the traffic conditions to which it will be subjected. We expect that traffic will mainly consist of light passenger and commercial vehicles with occasional heavy traffic in the form of trash removal vehicles. Based on this information, with a stable subgrade prepared as recommended, we recommend the following pavement sections for light automobile traffic: • Two inches of asphalt concrete (AC) over four inches of crushed rock base (CRB) • Two inches of AC over 3 inches of asphalt treated base (ATB) The paving materials used should conform to the Washington State Department of Transportation (WSDOT) specifications for Class B asphalt concrete, ATB, and CRB. Long-term pavement performance will depend on surface drainage. A poorly-drained pavement section will be subject to premature failure as a result of surface water infiltrating into the subgrade soils and reducing their supporting capability. To improve pavement performance, surface drainage gradients of no less than two percent are recommended. Also, some longitudinal and transverse cracking of the pavement surface should be expected over time. Regular maintenance should be planned to seal cracks when they occur. Project No. 1358 Page No. 12 Mr. John Dulcich February 19, 2013 The following figures are included and complete this report: Figure 1 Figure 2 Figures 3 through 7 Vicinity Map Exploration Location Plan Test Pit Logs We prepared this report in accordance with generally accepted geotechnical engineering practices. This report is the property of ABPB Consulting, LLC and is intended for specific application to the May Creek S.P. project in Renton, Washington. This report is for the exclusive use of Mr. John Dulcich and his authorized representatives. No other warranty, expressed or implied, is made. We appreciate the opportunity to be of service during this phase of project development and design and look forward to working with you during the final design and construction phases. We trust the information presented in this report is sufficient for your current needs. If you have any questions or need additional information, please call. Sincerely yours, ABPB CONSUL TING Paul K. Bonifaci Project Engineering Geologist Anil Butail, P. E. Principal Engineer Project No. 1358 Page No. 13 NTS Ref: Google Map Satellite ABPB Consulting Geotechnical Consultants Kirkland, Wash. Vicinity Map May Creek Short Plat Renton Washin ton Proj. No. 1358 Date : 2-13 Figure 1 ! ifj ,, q;li ; ,r /~ ;:,.. !~ Oi .; .. . ·' .,..""' ---..;,,&"lrt~ ~Ji> ;i,. 11/1>" ..;,:, , ··· ~: ·· ·· TP-5 -1 '!MO .• ,, ,, ~ LOTC . ~ "' .,.,. " ;,, :t: /'-...._ ~m .... Lo-~1;,,.c:xiu~ C .] ~ ' . 'f 'f ;f ' ' ' I · ,' J BiJI C4\ii. ' " I } TP-4 .~·, ,, f-~ () - i l I • •. ....._ __ _ '" ' ~"";1,nmf, 1 "' l · · ./ ,,,.,-::.:=,. LOT B ) t· (I. ', -----I ""'' "''" J;.JF I/ . ..,. /~1-2 ~~v~Lii;~~~ Of t,~·f }/_,., BL,_....,.,. • , ~. ca.. -. . ~ --.. -·-· .1 _ .13 . . -I~' ··-"cir• Poor ,, 1 "'-••.:..r.l'lll!. . . 'if: .. r·c'~. , : f '"0,'-• ;)' ~~ I. ·~-., ', ! • ·--• LOTA . ,, · ·~ f I / .. ·-,&,;:::Zdt~i',j. 3.'/ I .. st·--.! ' ' ··~. '.;.;: .... --~ i ,, ' . 111'.:ii'. 1. t,;;,.._ ?~ :;(- .i • ' ~ ~ ' --;· ,:,:,;, ~ ~· .',, i '/ ' ff' ' ' ,~ ' ' ' • <,·,L,J OH .. , !·'.. ... ..,,,,,... , (> . 1 -~--' >; ,: .. , TP,~ · ,_, , • , , · • •• . , • . • ,, ' ,,.. ·.··.;·/. ,i . , ,. .,,.,. -· . . . W:fGmV! -, • . -;% 4l% 11,·· ··-"· ,. .. J"[i' / ' 'Ti> • . . [l.irl) , ; ; ., • ',F ir;.:; --, !'i TOToiJ... PARCEL AREA . .:.1i'87 ,-&.4S 11.!:ris: ACNE:8} CEVELOPABLE Ni!EA ~ 52,&&I 8F (1.21 ,ICRES'J ,, ' • ';,: \ ; l$il)")\)1)'4\ , -----~-----:;'---·--· / 1 .... \,,..·· / ~. , '.:.. \ \ \ \\\ ~. ' ,· ' ' ,• ·,. ,· i -·~ ------,it'E"· CA TM.CT "Cf Ji _-J' l\'1ll'r' I :di:{)5. ~ '· ', ,:.: .. ... 4',,i ~~'. ,· " ? :z 'i I ,.. \ ··-'.;:~ ·:, .. T I~ ,· ' ,.. ----.... --·-IM.\"'11'"nJ- -lilml."-1 ' \: \ I.ii Pat:llt fr8j.l:lllliiOUI >• . ·-- ·-·- ,. .. '"'-···-------------·-----w---·----¥~----·Y. . .. .,' f· ; . ~ ------~-W--"'>-. Ta py:car, ,a!I.QllMlff t'-91..~ 'l.U: P.6JK'.&I ,pf-RtotHIOftS -------,z --- ____Q_ ,.,._ • ,. =· r~w LEGEND ~ TP-1 Approx. Test Pit Locations Ref: Preliminary Layout by Goldsmith Land Development dated 2-1-13 Proj. No. 1358 ,· • .. :j ABPB Consulting Geotechnical Consultants Kirkland, Wash. Exploration Location Plan May Creek Short Plat (#12196) Renton, Washington Date : Feb. 2013 Figure 2 Proiect: MavCreekSP Project No. 1358 Date: 2-13-13 Client: Goldsmith Elevation 310 feet Location: May Valley Rd. Logged By: PKB SUBSURFACE PROFILE SAMPLE ~ g! Q) $ >, 'ls j ~ a. Cl) .c -' E 0. Soil Description ~ u Cl) _g .i!! .. Cl) Q) ~ Cl) C "' :::i ..J V ~!$.$$.!$. Silty Sand: (12 inches Fill,Socl/Topsoil) Tan brown, silty gravelly SAND to silty -1-~;;;,;;; sandy GRAVEL, with roots, loose, ~ :r. T. ;,r, :T: :T: :T: ~$;$;;;. moist -2-. :T: :T: :T: :T: T. :T: SM i ~(~~; ; ~(i. . :T: :T: :T: :T. :T: :T. -3-:$,ffi$ffi$.$ -···-· 0 Sandy Gravel: Tan to tan grey, clean to -4-. . . . .. . . . . I I 11 GP O··O . . . . ·o . . . . .. -5-. . . . O· ·O . . . . 0 . . . . .. . . . . ~-Q· .. Q . . . . 0 . . . . .. . . . . -7-Q·.·O· . . . . 0 . . . . . . . . -8-0 0 . . . . 0 . . . . .. . . . . 0 0 Q . . . . slightly silty, sandy GRAVEL, occasional cobbles, and a few roots, medium dense, moist No groundwater encountered ABPB Consulting Geotechnical Consultants Test Pit TP-1 Laborat;;,ry Results Field Strength Tests Moisture Content 4.7% 12525 Willows Road, Suite 80, Kirldand, Washington (425) 820-2544 Date Feb. 2013 I Project Name : May Creek SP I Figure 3 Proiect: Mav Creek SP Project No. 1358 Date: 2-13-13 Test Pit TP-2 Client: Goldsmith Elevation 308 feet Location: May Valley Rd. Logged By: PKB SUBSURFACE PROFILE SAMPLE Laboratory Results g >, 1 ..9l Field Strength Tests sf !l a. CJ) ,;;; Soil Description E u Moisture Content ii jj '" CJ) C1) ~ CJ) 0 ,t: ::i ...J V ~;;;,;~; Silty Sand: (18 inches Fill,Sod/Topsoil) r: :T. :T. :T. :'T': :"I': :T.: Tan brown, silty gravelly SAND to silty -1 - JHH~I sandy GRAVEL, with roots, loose, moist -2-SM -3- ':-" ... '-/ Sandy Gravel: Tan to tan grey, clean to ··o·· . . . . slightly silty, sandy GRAVEL, 0 0 . . . . occasional cobble and a boulder, a few 0 -4-. . . . .. roots, medium dense, moist . . . . GP Q.Q . . . . 0 . . . . .. No groundwater encountered -5-' . . . 0 0 1111 5.2% . . . . 0 . . . . . . . . . . -6-0 0 . . . . 0 . . . . .. . . . . -7-0 0 . . . . 0 . . . . ' . . . . _8 _0->0 0 >> o·o 0 .. ABPB Consulting Geotechnical Consultants 12525 Willows Road, Suite 80, Kirkland, Washington (425) 820-2544 Date Feb. 2013 I Project Name : May Creek SP I Figure 4 Pro'ect: Ma Creek SP Pro·ect No. 1358 Date: Client : Goldsmith Elevation Location: May Valley Rd. Logged By: SUBSURFACE PROFILE Soil Description Clayey Silt: (14 inches Fill.Sod/Topsoil) Tan, clayey SILT, a few roots, stiff, moist, a few pebbles, moist silty Gravel: Tan, slightly silty to silty, sandy Gravel, medium dense, moist sandy Gravel: Tan, clean, sandy Gravel, a few cobbles, medium dense, moist No groundwater seepage 2-13-13 Test Pit TP -3 302 feet PKB SAMPLE Laboratory Results Field Strength Tests Moisture Content ML nn 35.0% GM GP I Ill 9.5% >>o > -s O <<0 << o< > -7 0 <0 >>o :< -8 0: :0 >>O :< 0::0 o__i_;=..c_;_;-=...;J_------------~~---'---~-----------'------_J ABPB Consulting Geotechnical Consultants 12525 Willows Road, SUlte 80, Kirkland, Washington (425) 820-2544 Date Feb. 2013 I Project Name : May Creek SP I Figure 5 Pro·ect: Ma Creek SP Pro·ect No. 1358 Date: Client : Goldsmith Elevation Location: May Valley Rd. Logged By: -5 0:<<0 > ·o<< .e 0> <0 < o< > 0>: 0 -7 << 0 > o.o -8 <<o<> 0><0 SUBSURFACE PROFILE Soil Description Clayey Silt: (8 inches Fill,SodfTopsoil) Tan, clayey SILT, a few roots. stiff, moist, a few pebbles Silty Gravel: Tan, slightly silty to silty, sandy Gravel, a few cobbles, medium dense, moist Sandy Gravel: Tan, clean, sandy Gravel, a few cobbles, medium dense, moist No groundwater seepage 2-13-13 302 feet PKB SAMPLE j .SI 3 0. (J) E () .!! <II (J) ~ Cl) :::) ML GM GP ABPB Consulting Geotechnical Consultants Test Pit TP -4 Laboratory Results Field Strength Tests Moisture Content 12525 Willows Road, Suite 80, Kirkland, Washington (425) 820-2544 Date Feb. 2013 I Project Name : May Creek SP I Figure 6 Proiect: Mav Creek SP Proiect No. 1358 Date: 2-13-13 Client: Goldsmith Elevation 309 feet Location: May Valley Rd. Logged By: PKB SUBSURFACE PROFILE SAMPLE ~ "ii ~ !!:. 'o j j Cl) .i::. Soil Description E u a Cl) _g ~ (U Cl) 4) ~ Cl) C "' :::l _, V '-./ " '--./ " '-i'.) i'.) i Silty Gravel: (12 inches -1 - ~c!~r!~ Fill,Sod/Topsoil) Tan brown, silty sandy Gravel with scattered roots, loose, moist -2-C>i:,OrJ( i'.) i'.) i GM -3-~ci~i:,( . . . I 0 UTI . . . . .. Sandy Gravel: Tan to tan grey, clean to -4-. . . 0 0 slightly silty, sandy GRAVEL, . . . . 0 occasional cobbles, and a few roots, . . . . .. . . . . -5-0-0 medium dense, moist GP . . . . 0 . . . . .. . . . . No groundwater encountered -6-0 0 ' . ' . 0 . . . . .. . . . . -7-0 0 . . . . 0 . . . . ' . . . . . 0 0 Q . . . . ABPB Consulting Geotechnical Consultants Test Pit TP-5 Laboratory Results Field Strength Tests Moisture Content 3.8% 12525 Willows Road, Suite 80, Kirkland, Washington (425) 820-2544 Date Feb. 2013 I Project Name : May Creek SP I Figure 7