The URL can be used to link to this page

Home My WebLink AboutSWP272341 y TECHNICAL INFORMATION REPORT g�r 6 h � OUR JOB NO. 5734 GRUe SEPTEMBER 1996 Of REVISED NOVEMBER 25, 1997 �v ss 0 AL Prepared By: EXPIRES io BARGHAUSEN CONSULTING ENGINEERS, INC. 18215 72ND AVENUE SOUTH KENT, WASHINGTON 98032 (206) 251 -6222 Q�GFl.4 VSF m 2 i CIVIL ENGINEERING, LAND PLANNING, SURVEYING, ENVIRONMENTAL SERVICES LPGC g• �� .�e TABLE OF CONTENTS 1.0 PROJECT OVERVIEW 2.0 PRELIMINARY CONDITIONS SUMMARY 3.0 DRAINAGE ANALYSIS 3.1 Upstream Drainage Analysis 3.2 Downstream Drainage Analysis 4.0 RETENTION/DETENTION ANALYSIS 5734.005 [DD/jss] 1.0 PROJECT OVERVIEW The proposed project is located within the northeast quarter of Section 18, Township 23 North, Range 5 East of the Willamette Meridian in King County. More specifically,it is located on the northeast corner of the intersection of South Grady Way and Talbot Road South. The site is irregular in shape and is 1.51 acres in size. Grady Way provides approximately 460 feet of frontage along the south side of the property, Talbot Road South provides approximately 270 feet of frontage to the west, and South 7th Street provides 140 feet of frontage to the north. The adjacent property to the north also provides approximately 280 feet of frontage along the property. The property is an abandoned railroad line with no existing tracks on site. A portion of the property is vacated right-of-way for South 7th Street. Main overhead power lines run across the site, with some poles located in the center of the property. The relocation of these lines will be coordinated with Puget Power. The proposed project includes construction of a new Texaco Star Mart facility with a convenience retail market,car wash,mini-lube, and gasoline sales. This facility will include one 2,300 square foot mini- market building, one 38-foot by 52-foot gasoline pump island canopy with eight dispensers, one 1,450 square foot mini-lube, one 2,000 square foot drive-through car wash, vacuum island, stormwater detention pond,new landscaping,paving,lot lights,and signage. Additionally,the proposed project will include the installation of two new 12,000-gallon and one 15,000-gallon fiberglass underground gasoline storage tanks and product piping. This underground system is double-containment type with associated leak detection devices. All systems meet or exceed 1988 USC, NAPA, and state and local regulations. The project also includes construction of sidewalks along the property frontages with South Grady Way and Talbot Road South where they do not already exist. 2.0 PRELIMINARY CONDITIONS SUMMARY Not applicable. 3.1 UPSTREAM DRAINAGE ANALYSIS This site is essentially isolated from off-site runoff. The site is basically surrounded by roadways that do not drain onto the site with the exception of the northeast corner of the project. This corner is connected to an existing parking area and building that utilize their own storm drainage system as well as the existing drainage system that runs through the property. 3.2 Downstream Drainage Analysis The project proposes the construction of an on-site detention system which ultimately discharges into the existing public storm drainage system located on the property. This system flows westerly into South 7th Street and continues through the City's mainline for a minimum of one mile downstream (see attached City of Renton Manhole and Pipe Inventory Map). 5734.005 [DD/jss] 4.0 RETENTION/DETENTION ANALYSIS Storm drainage detention calculations for the project were based on current requirements for the City of Renton using the SBUH based methods established by the 1990 King County Storm Drainage Manual. The detention criteria established by the City of Renton is to release the existing 2-year, 10-year and 100-year/24-hour storms while detaining their respective post-developed storms. The required detention volume will be achieved with a detention pipe. Current on-site conditions of the property consist mostly of a mixture of low to high grassy areas with some trees. Also located on the site are some existing concrete pads and areas of gravel surfacing that were ignored when computating the existing conditions hydrographs. The current Soils Conservation Maps have identified this region as urban development. A Type "D" soil is assumed on the site based on the geotechnical report and respective valley location. A conservative predeveloped curve number of 87.5 was selected rather than the 89 that is shown for meadow and pasture to ensure that existing conditions are more closely met before the railroad line was established. This will provide a bit of a safety factor in the sizing of the detention facility. 5734.005 [DD/jss] I. PROJECT OVERVIEW —z--- COPYRIGHI 1991, TF7xaj?.ze4 Ay,- (i SEE ;�: MAP ...__. - , N057`� v �t.�•A, AV Y2 SN 1__-________-__ - r 3� A5/.YS7NDYN " �,^ % alto, es .: PONELL Y--SN A [t Ar k�•r`iu ` r -. ie �p �. 700 y. �r 2 nn_ - R4E RA NO AV SW yroNAs v 700 r sAY ire: 17 s S NEU AV SW - SENEU A G Ar � L I J Ao0 AV SN l ND V AV SW b. Ztr u iNN_ vkw f=t /t.I - z 1900 r-' N Cpt/+ 700 A -A V .'_S�.. i Tt[vEM AY�'NY �. '�' I• l(� AV�S 3 Y£ n r g INS AY S. L - x _ I•- D! ^• � `oy ��y � _�i� NMLI A_v l� NM Al F iA, E VA LEY R AY SY � 1 J AY w AY -- AY o roa S AV'p. j T Ib° ,e ^r InVO v Q A u .OD Tj. 1300 u T i XDRRIS u �AY �_ ICON J r^(�1} Jar «wl ASA rtSLr 7A[90~MORRNS AY S00 ILOGAN AV h tM^ Av y 40 '^ u rTM 0 a Vt S .� q �.N•1 A n - It" n,•s --I AV $ �FusyvY ¢�-AD s aat L HELL$ '^ _ Av a AY ''o.. st Av -^ a •-I --'t' s AY ! S t y�_' ..A auMR N s I MAI WELLS AV S� -� �"X \Mc .s Q 'L C,( A N ll AY S •4 N � � �'^ NI RfILY V SE 104r CEOAR AY Q - } 0 CEDA0. AY S � 'r- _ y 100 AV N E - n - PARK'-= 1 i3-- �txr— —_—_nEf N �AV .. -:->- . se'AV-r•� -'N,_'�� F .30 105TH AV'' SE I^ S („ 5 GRAM AV 0 Ooo / 81 ~GARD (g g m 10I AV E I� 1 '^OOlT MFA A AV -N_•i.... -• 16600 �' I o-, GRANT. ,t -HIGH AY $ �: Aj ,F = AY N 00 0,,1 t '1800 Y 7DO lu R FACTOR AY>! JONESS AY S °� 4. H 1 x . tc rV ~ u 'fie�fQ.l ,S •'yi; '1 i 1 ��Y1 st k � N y� In n u •�..i � •Q �. B(y0'VC _ \* \ II(nu s lIK0U/ C Y I Qf —_ `ef _ -IIITNL AV SE _wttwt Iu Nn xA u -...-_. _ _ .._ _ ERFY N� :AV;['.A i t ... IOaOU - i..,., , w(m� . �Cvwt'� D4D r - GVRT i - - �$ 18 As a`f_ o ,'4'p cr .''SS _ _V r 0 8 I / 4r AV.._.SE... i IIDiN AV S[ nu zA`<«.� !NI"L CT SE �0 �B4 A^ /,y Ic 'I:niN AYP IIIiNi AV St \\ � \ I ''� SE• �,.g�..._-_...F z•n- `v\y\ `C I16rH AV ilI� SE I ^I -- u AV E •"qA : �� -�'-I I /<^'1 r v�7��"•m IP j Ilan Ar s(N q+ 0Y• ��/ a�� '��- EDMONDS� u AV N^ b di r4 ��' V\ 'Y vq ILr, x I161 Al S[ i\{../ 6T IOC U 1207 X � AV 15E trl4�/ ' p AAI M tJ .l I L2N0 Sl-/"� r v` 12lRD,Av SC I� -•r_wJF vows a // nn sir• s[ r•'� R f I I`,{/s \ I < :2A tX AY Iv Yi I I[JWI�} .>~ Z 'u n s7o r-•'- } i Page 1 of 2 King County Building and Land Development Division TECHNICAL INFORMATION REPORT (TIR) WORKSHEET PART 2 • • . • PROJECT PART 1 - • DESCRIPTION Project Owner /1n G S a �a Project Name Address 4'509 / C, f'k �L S� Location NE GoI. of Z a G Township 2 3 N Phone 1 l04 I - 4242- E-1 1 G�K 6b Range 5 Project Engineer � Section g Company IAX4� Project Size �• $ AC i Address Phone 11 Zr '� Upstream Drainage Basin Size AC 2oL 251- 6222- OF • OTHER Q Subdivision Q DOF/G HPA Q Shoreline Management Q Short Subdivision Q COE 404 Rockery Q Grading Q DOE Dam Safety Structural Vaults Commercial Q FEMA Floodplain Q Other Q Other Q COE Wetlands HPA COMMUNITYPART 5 SITE - I Community G f'-e-r-&A Drainage Basin G� � Cr Q River Q Floodplain Q Stream Q Wetlands 0 Critical Stream Reach Q Seeps/Springs t Q Depressions/Swales High Groundwater Table i Q Lake Q Groundwater Recharge j 0 Steep Slopes Q Gther 0 Lakeside/Erosion Hazard SOILSPART 7 Soil Ty pe Slopes Erosion Potential Erosive Velocities �] Additional Sheets Attatched Page 2 of 2 King County Building and Land Development Division TECHNICAL INFORMATION REPORT (TIR) WORKSHEET eART 8 DEVELOPMENT LIMITATIONS REFERENCE LIMITATION/SITE CONSTRAINT Ch.4-Downstream Analysis C + o� /t jfo ti L I o 5 t a� C,n v f- a.K CC-. 5 5t�m-- 0 a a - 0 Additional Sheets Attatched REQUIREMENTSPART9 ESC MINIMUM ESC REQUIREMENTS MINIMUM ESC REQUIREMENTS DURING CONSTRUCTION FOLLOWING CONSTRUCTION [� Sedimentation Facilities Stabilize Exposed Surface Stabilized Construction Entrance 0 Remove and Restore Temporary ESC Facilities Perimeter Runoff Control Clean and Remove All Silt and Debris Clearing and Grading Restrictions Ensure Operation of Permanent Facilities 0 Cover Practices 0 Flag Limits of NGPES Construction Sequence Other 0 Other Grass Lined Channel ED Tank 0 Infiltration McSQ V Analysis Pipe System 0 Vault 0 Depression 0 Open Channel 0 Energy Dissapator 0 Flow Dispersal Compensation/Mitigation Dry Pond 0 Wetland 0 Waiver of Eliminateq Site Storage 0 Wet Pond 0 Stream 0 Regional Detention A) '4- Brief Description of System Operation �P�r^ Pe^� S ' Z ed -p r 2 _/O - /O 0 �JJZArl Z!� �., o U r s fo �.�, S w 1 Q;o�; /f•-.,t, o-c .Sc,,��/� Facility Related Site Limitations Additional Sheets Attatched Reference Facility Limitation PART 12 EASEMENTS/TRACTS PART 11 STRUCTURAL ANALYSIS (May require special structural review) 0 Drainage Easement 0 Cast in Place Vault 0 Other 0 Access Easement Retaining Wall 0 Native Growth Protection Easement K Rockery>4'High 0 Tract Structural on Steep Slope 0 Other ART 14 SIGNATURE OF • • I or a civil engineer under my supervision have visited the site. Actual site conditions as observed were incorporated into this worksheet and the attatchments. To the best of my knowledge the information provided here is accurate. 1/90 II. PRELEVIINARY CONDITION SUMMARY III. OFF SITE ANALYSIS D0 I I OFF-SITE ANALYSIS DRAINAGE SYSTEM TABLE Surface Water Design Manual, Core Requirement #2 Basin: Subbasin Name: Subbasin Number: ?:: .. .. - .. :. ::•v'h}•i^'•}?:S}: }•.iv7{;:''x:ii ^%•'{:'4F+':i•4iYti; /• Cr1;i } S,Ct• @, ,Si 'i ;+,p Y ri. Si.•+•v _ - . . . . :..:; � '. .,. >:'• �.r �. st : �: .� ` ��..x�: t��i1 �:bs!�tvat�0�sxt�f:f..ield,inspector •,:�+.::. � e . :.r.. ;ata .e� Is��t�c.�rr h. . i��,.fz� >. ...fix+�}>..�.,.... . _.......:::::..... .........................+........... ..... :::::::.,•:. yr,...:...,� > 9 : i;}.. . .;,::. �� i'� i ftYy+r, 'Y$i� i '•. .�!' .; .;. ..; <:<K:.�.;:;•:a::.;:;;:;::.;;::::::.:.:: :. ..';:::.:.:...:.:.:..;;: <�::.::a:<:>:::::>:>;;}:.::.>}:.S Y:•}:,:k;.:�..�:�'.sa, .%' Y�'i`S >.;r.>:: � � `•::: ix }; .}}: ^. <S1 g : '. . k:.r� tsp.ktC'. '••.tgu18. �r,.:.:Dr,:Y6S h Comps ne........ :.�v.;}#Ki i .I:l.i1A:• .i�k�Ma:�. •:i '�.a�• :.Y'�+.,2}a � < Type::�hCet....;swats >:<'>.>:>':<>::;.•,, : } Y Id dtt��jT :.<�"iY�: g.YSi i? ,+,,}..:.;;•+.:.;y ..,..� a ..:f:i:: :crlpg eee map << M, h �11.;� r> <.;y:}}:;:....:.; } .. k� .; /rryry : , yr..}o. ..:.,;yi::.e•:.I•. ..; ,; ..... ..p.}•.:"' ., }.:;• y� pOt r1t el:ampac#s ti,1 .1fa ate.. .,,�....{ •..ice �ium ; :� r• ti: ri> 1YPs.{�r � VY� �90�.; ..4,r i;}. yyy ?/i ..Y �•... .O R .}'•:•:n.jm.;a..:.}}}}:•>`;<:;:::{'.•'>;' .... ..::.:....::... ...:....................... :.....:•::::..,..r .r, r +. ,i '�%}.�v:. '�• •-0rr +1 •' {�.'4�:.:., i{•r � .. .�•¢ .•:��.}''.$ 'h.•:i• y:4 + ::%�`.'........:.:•i. _..:'.:...............:.:......................:: .,..::•>:•:<:•};:,>};•:<::•:}::::f::::::r.. .�/,.u"i.:...:.+:: •'•r.•Y, i ,y��¢�f¢ �y� y�}.'l►��jd "c:•'•�4•.i,ry�'. .+.o.,. `' .::::a:•;:}:.::: .,r��'#N.S}.i•::i:•.:•�•�...'w}ni: : k, +:Si.,...}C#,.tn: .}'li::, efd�aUC��SIt7 f�B� [oSI �.•ae . ."5... ";;}a, '. •: L1Table,doc 11/2/92 K vKrrwm 1 � � z cry TM ^ AV t I AV 4� s>cr�txs r AV i w r t x•tOETT AV y ' � S � Downr s rR��4�► DRAINAGE MAP IV. RETENTION/DETENTION ANALYSIS AND DESIGN U. S. DEPARTMENT OF AGRICULTURE SOIL CONSERVATION SERVICE KING COUNTY AREA, WA 0 SOIL LEGEND Tl.e first capitol letter ;s the initial one of the soil no me. A second co o.,cl lener• A, B.C, D, E, or F. indicates the class of slope. Syn�ols..ithou,a slo-e letter a e those of nearly level soils. SYMBOL NAME „ A98 Alderwood grovelly sandy loom,0 to 6 percent slopes .na.. AgC Alde,—d gravelly sandy loom,6 10 15 percent slopes . AgD Alderwood gravelly sandy loam, 15 to 30 percent slopes AkF Alderwood and Kitsop soils,very steep - ,v• AmB Arents,Alderv,00d enotefiel,0 to 6 percent slopes Ame Arents,Aldcrwood material,6 to IS percent slopes* - r.- An Arents, Everett materiol• F!.-.. BeC -Beousite gravelly sandy loam,6 to 15 percent slopes Be Beousae gravelly sandy loom, 15 to 30 percent slopes ReF Be,s.::re g,—I!;sc,c Ica-,40:a 7.e.H:cc:::clo,.as. _ 1.•�: Bh 8e11inghom silt loam T 81 Briscoe silt loom au Buckley silt loom I.v s• Cb Coastal Beaches 4.t.. Eo Eorlmont silt loom Ed Edge—eck(;r.e sandy loam �..,._,•.. EvB Everett gravelly sandy loom,0 to 5 percent slopes EvC Everett gravelly sandy loom,5 to 15 percent slopes EvD Everett gravelly sandy loom, 15 to 30 percent slopes. E-C Everett-Akk cvvood gravelly sandy looms,6 to 15 percent slopes c t InA Indionsolo loamy fine sond,0 to 4 percent slopes Inc Indionob loony fine sand,4 to 15 percent slopes ......I InD Indianola loomy fine sand, 15 to 30 percent slopes ` KpB Kitsop silt loom,2 to 8 percent slopes li...ld,.. KpC Kitsop silt loom,8 to 15 percent slopes KpO Kirsap silt loom, 15 to 30 percent slopes Se Ir..l• KsC Klous gravelly loamy sand,6 to 15 percent slopes h4o Mixed allwiol land •µme t Nee Neilton verygravelly loony sand,2 to 15 percent slopes Ng Newberg silt loom Nk Nooksock silt loom '••'II• - No Noreno sandy loom Or Orcas pear • Os Or;dio silt loom Ove Oval)gravelly loom,O to 15 percent slopes OvD 0v011 gravelly loom, 15 to 25 percent slopes - OvF Ovall gravelly loom,40 to 75.percent slopes ' Pc Pikhuck loony fine sand -• Pk Pilchuck fine sandy-loam is'°•• Pu Puget silty clay loom Py Puyallup fine sandy loom ' RoC Rognor fine sandy loom,6 to 15 percent slopes RoD Rognwr first wady loom, 15 to 25 percent slopes . RdC Rognor-Ind;onetle,association,sloping RdE Rognor.Indionalo association,moderately steep* -' Re Renton sill loam Rh R;verv.ash So Solol sill loom Sh So—mash s;l, loom Sk Seattle muck Sm Sho kor nuc k Sn S:silt loom _ So Snol.om;sh salt loom Sn Snohomish s,h loom, thick s-face var;om Su Svl.on s;h loan I1, (}bon lord W. 1':ood.nv,lle t.1, loam - Tl.r rompos•r.o..of -sr •s n., vJ.:uhl.•.Ib„,ha,.•1 ..., ..t .. hey •.v,t.all,-a:'—11.,-7h......t e•r .•, I.i e.,r,trd.•se of -e— KING C O U N*T Y, WASHINGTON, SURFACE WATER DESIGN MANUAL TABLE 3.5.2B SCS WESTERN WASHINGTON RUNOFF CURVE NUMBERS 0 - SCS WESTERN WASHINGTON RUNOFF CURVE NUMBERS (Published by SCS in 1982) Runoff curve numbers for selected agricultural, suburban and urban land use for Type iA rainfall disifibution, 24-hour storm duration. CURVE NUMBERS BY HYDROLOGIC SOIL GROUP LAND USE DESCRIPTION A B C D Cultivated land(1): winter condition 86 91 94 95 Mountain open areas: low growing brush and grasslands 74 82 \1 89 92 Meadow or pasture: 65 78 85 9 Wood or forest land: undisturbed 42 64 76 U• =S�.5 Wood or forest land: young second growth or brush 55 72 81 (86) Orchard: with cover crop 81 88 92 2� Open spaces, lawns, parks, golf courses, cemeteries, landscaping. good condition: grass cover on 75% or more of the area 68 80 86- 90 fair condition: grass cover on 50% to 75% of the area 77 85 90 92 Gravel roads and parking lots 76 85 89 91 *(Dirt roads and parking lots .72 82 87 89 Impervious surfaces, pavement, roofs, etc. 98 98 98 98 Open water bodies: lakes,wetlands, ponds, etc. 100 100 100 Too Single Family Residential (2) Dwelling Unit/Gross Acre % Impervious (3) 1.0 DU/GA 15 Separate curve number 1.5 DU/GA 20 shall be selected 2.0 DU/GA 25 for pervious and 2.5 DU/GA 30 impervious portion 3.0 DU/GA 34 of the site or basin 3.5 DU/GA 38 4.0 DU/GA 42 4.5 DU/GA 46 5.0 DU/GA 48 5.5 DU/GA 50 6.0 DU/GA 52 6.5 DU/GA 54 7.0 DU/GA 56 r Planned unit developments, % impervious - condominiums, apartments, must be computed commercial business and industrial areas. (1) For a more detailed description of agricultural land use curve numbers refer to National Engineering Handbook, Section 4, Hydrology, Chapter 9, August 1972. (2) Assumes roof and driveway runoff is directed into street/storm system. (3) The remaining pervious areas (lawn) are considered to be in good condition for these curve numbers 3.5.2-3 1/90 • • r � ' for 60 rap pow�(�M-0220 A MW �:�:�.e�`�� r ��. �� •,� `� ' \ it ili�!q� �'� A►.o�► NOprism . bra of ' it/i�R II►wsti� _. ��il � •�, �-- Min v M IFr ail -!I1 ��5 \ � • al J L IRS =�.h,11� ► ��, `, �� ter►' ti� fir- •� �f •, �� . .k ►—Ma - r , 12/4/97 12 : 20 : 55 am Barghausen Engineers page 1 MICK SANTA TEXACO BCE#5734 FILE No . 5734-WET BASINSUMMARY=====_______________________ BASIN ID : Al NAME : 2YR PRE-DEV RUNOFF SBUH METHODOLOGY TOTAL AREA. . . . . . . : 1 . 50 Acres BASEFLOWS : 0 . 00 cfs RAINFALL TYPE. . . . : TYPElA PERV IMP PRECIPITATION. . . . : 2 . 00 inches AREA. . : 1 . 50 Acres 0 . 00 Acres TIME INTERVAL. . . . : 10 . 00 min CN. . . . : 87 . 50 0 . 00 TC. . . . . 43 . 10 min 0 . 00 min ABSTRACTION COEFF: 0 .20 PEAK RATE : 0 . 18 cfs VOL: 0 . 12 Ac-ft TIME : 490 min BASIN ID: A2 NAME: 10YR PRE-DEV RUNOFF SBUH METHODOLOGY TOTAL AREA. . . . . . . : 1 . 50 Acres BASEFLOWS : 0 . 00 cfs RAINFALL TYPE. . . . : TYPElA PERV IMP PRECIPITATION. . . . : 2 . 90 inches AREA. . : 1 . 50 Acres 0 . 00 Acres TIME INTERVAL. . . . : 10 . 00 min CN. . . . : 87 . 50 0 . 00 TC. . . . . 43 . 10 min 0 . 00 min ABSTRACTION COEFF: 0 . 20 PEAK RATE : 0 . 36 cfs VOL: 0 . 21 Ac-ft TIME : 490 min BASIN ID: A3 NAME: 100YR_PRE-DEV RUNOFF SBUH METHODOLOGY TOTAL AREA. . . . . 1 . 50 Acres BASEFLOWS : 0 . 00 cfs RAINFALL TYPE . . . . : TYPElA PERV IMP PRECIPITATION. . . . : 3 . 90 inches AREA. . : 1 . 50 Acres 0 . 00 Acres TIME INTERVAL. . . . : 10 . 00 min CN. . . . : 87 . 50 0 . 00 TC. . . . . 43 . 10 min 0 . 00 min ABSTRACTION COEFF: 0 . 20 PEAK RATE: 0 . 58 cfs VOL: 0 . 32 Ac-ft TIME : 490 min BASIN ID: B1 NAME : 2YR POST-DEV RUNOFF SBUH METHODOLOGY TOTAL AREA. . . . . . . : 1 . 54 Acres BASEFLOWS : 0 . 00 cfs RAINFALL TYPE. . . . : TYPElA PERV IMP PRECIPITATION. . . . : 2 . 00 inches AREA. . : 0 . 25 Acres 1 . 29 Acres TIME INTERVAL. . . . : 10 . 00 min CN. . . . : 90 . 00 98 . 00 TC. . . . : 12 . 39 min 5 . 00 min ABSTRACTION COEFF: 0 . 20 PEAK RATE : 0 . 58 cfs VOL: 0 . 21 Ac-ft TIME : 480 min 12/4/97 12 : 20 : 55 am Barghausen Engineers page 2 MICK SANTA TEXACO BCE#5734 FILE No. 5734-WET BASIN SUMMARY BASIN ID: B2 NAME: 10YR POST-DEV RUNOFF SBUH METHODOLOGY TOTAL AREA. . . . . . . : 1 . 54 Acres BASEFLOWS : 0 . 00 cfs RAINFALL TYPE . . . . : TYPElA PERV IMP PRECIPITATION. . . . : 2 . 90 inches AREA. . : 0 . 25 Acres 1 .29 Acres TIME INTERVAL. . . . : 10 . 00 min CN. . . . : 90 . 00 98 . 00 TC. . . . . 12 . 39 min 5 . 00 min ABSTRACTION COEFF: 0 . 20 PEAK RATE : 0,. 87 cfs VOL: 0 . 33 Ac-ft TIME : 480 min BASIN ID: B3 NAME: 100YR POST-DEV RUNOFF SBUH METHODOLOGY TOTAL AREA. . . . . . . : 1 . 54 Acres BASEFLOWS : 0 . 00 cfs RAINFALL TYPE. . . . : TYPElA PERV IMP PRECIPITATION. . . . : 3 . 90 inches AREA. . : 0 . 25 Acres 1 .29 Acres TIME INTERVAL. . . . : 10 . 00 min CN. . . . : 90 . 00 98 . 00 TC. . . . . 12 . 39 min 5 . 00 min ABSTRACTION COEFF: 0 . 20 PEAK RATE : 1 . 20 cfs VOL: 0 .45 Ac-ft TIME : 480 min BASIN ID : Cl NAME : 1/3 2YR POST DEV RUNOFF SBUH METHODOLOGY TOTAL AREA. . . . . . . : 1 . 54 Acres BASEFLOWS : 0 . 00 cfs RAINFALL TYPE. . . . : TYPElA PERV IMP PRECIPITATION. . . . : 0 . 66 inches AREA. . : 0 . 25 Acres 1 .29 Acres TIME INTERVAL. . . . : 10 . 00 min CN. . . . : 89 . 00 98 . 00 TC. . . . : 12 . 39 min 5 . 00 min ABSTRACTION COEFF: 0 . 20 PEAK RATE : 0 . 14 cfs VOL: 0 . 05 Ac-ft TIME : 480 min 12/4/97 12 : 20 : 55 am Barghausen Engineers page 3 MICK SANTA TEXACO BCE#5734 FILE-No. -5734=WET____________________________________________________ HYDROGRAPH SUMMARY PEAK TIME VOLUME HYD RUNOFF OF OF Contrib NUM RATE PEAK HYDRO Area cfs min. cf\AcFt Acres --------------------------------------------- --------------------------------------------- 1 0 . 179 490 5091 cf 1 . 50 2Y1z rF�-7 2 0 . 359 490 9205 cf 1 . 50 I0(2 Pc 3 0 . 576 490 14105 cf 1 . 50 1boYe- PF�-- 4 0 . 577 480 9302 cf 1 . 54 ZY1= SST 5 0 . 874 480 14214 cf 1 . 54 1l)YF?- P°Sr 6 1 . 203 480 19727 cf 1 . 54 16bW- �T 7 0 . 140 480 2274 cf 1 . 54 I/3 PaST 8 0 . 179 560 9302 cf 1 . 54 ZY2. Rsul'EQ 9 0 . 359 530 14214 cf 1 . 54 toYR C-b6_1 S�b 10 0 . 581 590 19727 cf 1 . 54 JcVye- PnL -Q 12/4/97 12 : 20 : 55 am Barghausen Engineers page 4 MICK SANTA TEXACO BCE#5734 FILE-No. -5734=WET____________________________________________________ STAGE STORAGE TABLE CUSTOM STORAGE ID No. 1 Description: DETENTION PIPE �C-lV� Srbrk( �) STAGE <----STORAGE----> STAGE <----STORAGE----> STAGE <----STORAGE----> STAGE <----STORAGE----> (ft) ---cf--- --Ac-Ft- (ft) ---cf--- --AC-Ft- (ft) ---cf--- --Ac-Ft- (ft) ---cf--- --Ac-Ft- -------------------------------------------------------------------------------------------------------- -------------------------------------------------------------------------------------------------------- 25.27 0.0000 0.0000 26.30 1426 0.0327 27.40 2829 0.0650 26.50 3951 0.0907 25.30 41.880 0.0010 26.40 1559 0.0358 27.50 2945 0.0676 28.60 4032 0.0926 25.40 181.48 0.0042 26.50 1691 0.0388 27.60 3060 0.0703 28.70 4113 0.0944 25.50 321.08 0.0074 26.60 1824 0.0419 27.70 3176 0.0729 28.80 4184 0.0960 25.60 460.68 0.0106 26.70 1957 0.0449 27.80 3287 0.0755 28.90 4229 0.0971 25.70 600.28 0.0138 26.80 2088 0.0479 27.90 3389 0.0778 29.00 4275 0.0981 25.80 739.28 0.0170 26.90 2214 0.0508 28.00 3490 0.0801 29.10 4320 0.0992 25.90 876.86 0.0201 27.00 2339 0.0537 28.10 3592 0.0825 29.20 4366 0.1002 26.00 1014 0.0233 27.10 2465 0.0566 28.20 3693 0.0848 29.27 4398 0.1010 26.10 1152 0.0264 27.20 2591 0.0595 26.30 3788 0.0870 26.20 1290 0.0296 27.30 2714 0.0623 26.40 3870 0.0888 12/4/97 12 :27 : 34 am Barghausen Engineers page 1 MICK SANTA TEXACO BCE#5734 FILE No. 5734-WET UNDERGROUND PIPE ID No. 2 Description: DETENTION PIPE Diameter: 8 . 00 ft . Length: 175 . 00 ft . Slope . . . : 0 . 0000 ft/ft upstr: dnstr: STAGE <----STORAGE----> STAGE <----STORAGE----> STAGE <----STORAGE----> STAGE <----STORAGE----> (ft) ---cf--- --AC-Ft- (ft) ---cf--- --Ac-Ft- (ft) ---cf--- --Ac-Ft- (ft) ---cf--- --AC-Ft- 9PI44%21.20 0.0000 0.0000 23.30 1842 0.0423 25.40 4444---4,1-& 4 27.50 �43t- 7706 21.30 20.792 0.0005 23.40 1966 0.0451 25.50 -4a44- nz,o 27.60 754-4--'�-2732 21.40 58.584 0.0013 23.50 2092 0.0480 25.60 l45a--9-tYS$ #�27.70 2 � 21.50 107.22 0.0025 23.60 2219 0.0510 k25.70 Z,Z8,9 27.80 �-fs3-0--Y'78Z 21.60 164.43 0.0038 $,23.70 2349 0.0539 25.80 523�1--..1-2 27.90 21.70 228.91 0.0053 23.80 2479 0.0569 25.90 ILa-7 1 __ 28.00 49-69--9�829 21.80 299.73 0.0069 23.90 2611 0.0599 26.00 .5511--_r) 1-26r 28.10 896? 0.165i 21.90 376.21 0.0086 24.00 2744 0.0630 26.10 44"--4.124& �,28.20 %3013 22.00 457.80 0.0105 24.10 2878 0.0661 426.20 (p'1 ( 28.30 -9252-8•,4894 22.10 544.07 0.0125 ,24.20 3013 0.0692 26.30 ____ ____ 28.40 Q939 ; i9it +22.20 634.64 0.0146 24.30 3149 0.0723 26.40 645- � mo 28.50 9420-ff79 22.30 729.17 0.0167 24.40 3286 0.0754 26.50 a4-& 28.60 Y499- -395'� 22.40 827.40 0.0190 24.50 3423 0.0786 26.60 6117-a.14S-0 28.70 22.50 929.05 0.0213 24.60 3561 0.0818 *i26.70 _I14-Z 28.80 -R632 0.198 22.60 1034 0.0237 24.70 3700 0.0849 26.60 -6-s 0 28.90 -TF9,9 4 -t.22.70 1142 0.0262 24.80 3839 0.0881 26.90 29.00 g7-48 n 2nn6, 22.80 1252 0.0288 24.90 3979 0.0913 27.00 .6839 9-.i568 29.10 9 1106- 0-:Z0S5 22.90 1366 0.0314 25.00 4118 0.0945 27.10 a9, -0-i�9"1 �Y 29.20 431? 23.00 1481 0.0340 25.10 4258 0.0978 *27.20 (7 W 23.10 1600 0.0367 25.20 �O 4398 0.1010 27.30 r 23.20 1720 0.0395 25.30 .653Ss--0.1042- 27.40 2315---6-.4679 (%WO LIVE 5TD► � _ GF • (►.1fbF-KA A-1 oil usn1 Ai�6vE 12/4/97 12 : 20 : 55 am Barghausen Engineers page 6 MICK SANTA TEXACO BCE#5734 FILE-No. -5734=WET____________________________________________________ STAGE DISCHARGE TABLE MULTIPLE ORIFICE ID No. 1 Description: STANDPIPE FOR CB#2 Outlet Elev: 25 . 27 Elev: 23 . 27 ft Orifice Diameter: 2 . 3262 in. = 2 /4 � Elev: 26 . 87 ft Orifice 2 Diameter: 2 .4609 in. STAGE <--DISCHARGE---> STAGE <--DISCHARGE---> STAGE <--DISCHARGE---> STAGE <--DISCHARGE---> (ft) ---Cfs-- ------- (ft) ---Cfs-- ------- (ft) ---Cfs-- ------- (ft) ---Cfs-- ------- -------------------------------------------------------------------------------------------------------- 25.27 0.0000 26.50 0.1629 27.80 0.3921 29.10 0.5328 25.30 0.0254 26.60 0.1693 27.90 0.4049 29.20 0.5420 25.40 0.0529 26.70 0.1756 28.00 0.4173 29.30 0.5510 25.50 0.0704 26.80 0.1816 28.10 0.4293 29.40 0.5598 25.60 0.0844 26.90 0.2159 28.20 0.4409 29.50 0.5685 25.70 0.0963 27.00 0.2524 28.30 0.4521 29.60 0.5771 25.80 0.1069 27.10 0.2775 28.40 0.4631 29.70 0.5855 25.90 0.1166 27.20 0.2984 28.50 0.4737 29.80 0.5938 26.00 0.1255 27.30 0.3170 28.60 0.4841 29.90 0.6020 26.10 0.1338 27.40 0.3340 28.70 0.4943 30.00 0.6101 26.20 0.1416 27.50 0.3497 28.80 0.5042 26.30 0.1490 27.60 0.3646 28.90 0.5139 26.40 0.1561 27.70 0.3786 29.00 0.5235 12/4/97 12 : 20 : 55 am Barghausen Engineers page 7 MICK SANTA TEXACO BCE#5734 FILE-No. -5734=WET____________________________________________________ STAGE DISCHARGE TABLE NOTCH WEIR ID No. 2 Description: STANDPIPE FOR CB#2 Weir Length: 0 . 2080 ft . Weir height (p) : 2 . 2900 ft . Elevation 27 . 56 ft . Weir Increm: 0 . 10 STAGE <--DISCHARGE---> STAGE <--DISCHARGE---> STAGE <--DISCHARGE---> STAGE <--DISCHARGE---> (ft) ---CfS-- ------- (ft) ---CfS-- ------- (ft) ---CfS-- ------- (ft) ---CfS-- ------- 27.56 0.0000 27.80 0.0623 28.10 0.1335 28.40 0.1052 27.60 0.0052 27.90 0.0924 28.20 0.1385 28.50 0.0626 27.70 0.0311 28.00 0.1172 28.30 0.1298 28.60 0.0000 12/4/97 12 : 20 : 56 am Barghausen Engineers page 8 MICK SANTA TEXACO BCE#5734 FILE-No. -5734=WET____________________________________________________ STAGE DISCHARGE TABLE COMBINATION DISCHARGE ID No. 3 Description: 1+2 Structure : 1 Structure : Structure : 2 Structure : Structure : STAGE <--DISCHARGE---> STAGE <--DISCHARGE---> STAGE <--DISCHARGE---> STAGE <--DISCHARGE---> (ft) ---CfS-- ------- (ft) ---Cfs-- ------- (ft) ---CfS-- (ft) ---Cfs-- ------- 25.27 0.0000 26.50 0.1629 27.80 0.4544 29.10 0.5328 25.30 0.0254 26.60 0.1693 27.90 0.4973 29.20 0.5420 25.40 0.0529 26.70 0.1756 28.00 0.5345 29.30 0.5510 25.50 0.0704 26.80 0.1816 28.10 0.5628 29.40 0.5598 25.60 0.0844 26.90 0.2159 28.20 0.5794 29.50 0.5685 25.70 0.0963 27.00 0.2524 28.30 0.5820 29.60 0.5771 25.80 0.1069 27.10 0.2775 28.40 0.5683 29.70 0.5655 25.90 0.1166 27.20 0.2984 28.50 0.5363 29.80 0.5938 26.00 0.1255 27.30 0.3170 28.60 0.4841 29.90 0.6020 26.10 0.1338 27.40 0.3340 28.70 0.4943 30.00 0.6101 26.20 0.1416 27.50 0.3497 28.80 0.5042 26.30 0.1490 27.60 0.3698 28.90 0.5139 26.40 0.1561 27.70 0.4097 29.00 0.5235 12/4/97 12 : 20 : 58 am Barghausen Engineers page 9 MICK SANTA TEXACO BCE#5734 FILE No. 5734-WET LEVEL POOL TABLE SUMMARY MATCH INFLOW -STO- -DIS- <-PEAK-> STORAGE <--------DESCRIPTION---------> (cfs) (cfs) --id- --id- <-STAGE> id VOL (cf) 2YR ROUTED .. .... ........ ..... 0.18 0.58 1 1 26.75 8 2022.30 cf 10YR ROUTED .. ... . ... ......... 0.36 0.87 1 1 27.56 9 3017.94 cf 100YR ROUTED .... ........... .. 0.58 1.20 1 3 28.75 10 4148.51 cf VI. SPECIAL REPORT AND STUDY VII. BASIN AND COMMUNITY PLAN AREAS i i C_ SKYKOMISH .sCM - .,�. RIVER A MIE U -J 7 Fw CM* G. BIN tc-: �_ - ,,n. RIVER PUG ll a Q / � Tyt twM ,- rC. BASIN u aae F«aRi- -" swa - OUN �`' on MOYei _N., i rfF --I -� South Fork JI S 1 (F ` �! Figure E-7 WWI t� SnoV�Wm+e DRAINAGE BASINS — — } 4. King County :DRAINAG ; " , - ` { aTVocsEimw E ��ItSHE0 _ 985 `• �'-_- / �� '� ✓. .� Y` \tom � "", 'ice_ - ai`l -�T� , -.- ,. Major Basin Boundary _ UPWSub-Basin Boundary jCC.*Cl k Source: King County Sensitive Areas t ��'•. " ��' Map Folio,Wetlands Supplement f - _! ` UTT OF TACO1IANATEP5FIf0 ." . _ \FIVER BASIN 0 1 2 1 BEAR = - "�✓` f CREEK-, cza-- +§140QUALM I E _ f 44. AST L).- j ( �� -, w�t f � _ .mil �:_— •G"_ S CC �� '—��! -16 STL 70 40 .L �..,. AVEN HEI :'-_+ Figure 1 ��l 4 -� �.. ` � awucu.a.�r .•. , ..:— .; KING COUNTY - , COMM �� UNITY PLANNING AREAS i ! 6: King County \ :? �� 1985 1/ TACOMA C W -- - - -- -- % .,` \ r 0 1 2 3 4 5 6 7 8 Mlles VM. OTHER PERMITS IX. EROSION/SEDEI ENTATION CONTROL DESIGN MAINTENANCE AND OPERATION MANUAL XI. MAINTENANCE AND OPERATION MANUAL This is a description of the proper maintenance needed for the detention/wet ponds for this project. The detention and wet ponds within this project are open ponds which will have a dead water storage depth of approximately three to six feet with the possibility of live storage of approximately two to three feet. To obtain access to the control structure, a 15-foot wide gravel road has been provided. It is necessary to unlock the lid and remove the cover in order to access the catch basins. Once access is obtained into the manhole, it will be necessary to remove the accumulated silt and debris within these structures. The maintenance of this facility, as well as the bottom of the pond and wetpond should occur at least on a bi-annual basis. Inspect/remove any debris that might be deposited before and after the rainy season or major storms. To remove sediment from the cells that have standing water in it, it will be necessary to pump the water from the ponds. Pumps can be set in the access structures which are located between the cells. A minimum three horse power sized pump should be used to remove the water from the dead storage areas of the pond facility. The pump should be up to pump from these access manholes and discharge into the biofiltration swale area. It may be necessary to set straw bales within the swale area to keep sedimentation from migrating downstream of this system. A minimum two sets of bales should be included within the bioswale prior to this pump water discharging into the stream. The on-site storm drainage pipe conveyance system will need to be inspected periodically in accordance with the 1990 King County Drainage Manual (see attached). Remove any trash, debris, or sedimentation build-up which could block free flow of surface water runoff on an annual basis as a minimum, as well as in the event of any unusual conditions such as a blockage or flooding conditions. The biofiltration swale will also need scheduled maintenance in accordance with the 1990 King County Drainage manual. Trash and debris exceeding one cubic foot per 1,000 square feet of the ditch shall be cleared and removed from the biofiltration swale. All accumulated sediment which exceeds 20 percent of the design depth, approximately 0.1 feet of accumulated depth shall be removed from the biofiltration swale. Inspection and maintenance of the biofiltration swale should be completed using the same schedule as for the ponds. -12- 3313.015 [HPG/tbi KING COUNTY, WASHINGTON, SURFACE WATER DESIGN MANUAL MAINTENANCE REQUIREMENTS FOR PRIVATELY MAINTAINED DRAINAGE FACILITIES NO. 1 - PONDS Maintenance Conditions When Maintenance Results Expected Component Defect is Needed When Maintenance is Performed General Trash &Debris Any trash and debris which exceed 1 Trash and debris cleared from site. cubic foot per 1000 square feet (this is about equal to the amount of trash it would take to fill up one standard size office garbage can). In g6.-ieral, there should be no visual evidence of dumping. Poisonous Any poisonous vegetation which may No danger of poisonous vegetation where Vegetation constitute a hazard to County personnel County personnel or the public might or the public. Examples of poisonous normally be. (Coordination with vegetation include: tansy ragwort, poison Seattle/King County Health Department) oak, stinging nettles, devils club. Pollution Oil,gasoline, Dr other contaminants of No contaminants present other than a one gallon or more or any amount found surface film. (Coordination with that cou,d: 1)cause damage to plant, Seattle/King County Health Department) animal,or marine life; 2)constitute a fire hazard;or 3) be flushed downstream during rain storms. Unmowed Grass/ if facility is located in private residential When mowing is needed,grass/ground Ground Cover area, mowing is needed when grass cover should be mowed to 2 inches in exceeds 18 inches in height. In other height. areas,the general policy is to make the pond site match adjacent ground cover and terrain as long as there is no interference with the function of the facility. Rodent Holes Any evidence of rodent holes if facility is Rodents destroyed and dam or berm acting as a dam or berm,or any evidence repaired. (Coordination with Seattle/ of water piping through dam or berm via King County Health Department) rodent holes. Insects When insects such as wasps and hornets Insects destroyed or removed from site. interfere with maintenance activities. Tree Growth Tree growth does not allow maintenance Trees do not hinder maintenance access or interferes with maintenance activities. Selectively cultivate trees such activity (i.e.,slope mowing, silt removal, as alders for firewood. vactoring or equipment movements). If trees are not interfering with access, leave trees alone. Side Slopes of Erosion Eroded damage over 2 inches deep Slopes should be stabilized by using Pond where cause of damage is still present or appropriate erosion control measure(s): where there is potential for continued e.g., rock reinforcement, planting of erosion. grass, compaction. Storage Area Sediment Accumulated sediment that exceeds 10% Sediment cleaned out to designed pond of the designed pond depth. shape and depth; pond reseeded if necessary to control erosion. Pond Dikes Settlements Any part of dike which has settled 4 Dike should be built back to the design inches lower than the design elevation. elevation. Emergency Rock Missing Only one layer of rock exists above native Replace rocks to design standards. Overflow/Spillway soil in area five square feet or larger, or any exposure of native soil. A-1 1/90 KING COUNTY, WASHINGTON, SURFACE WATER DESIGN MANUAL NO. 2 - INFILTRATION Maintenance Condttlons When Maintenance Results Expected Component Defect Is Needed When Maintenance Is Performed General Trash &Debris See 'Ponds" Standard No. 1 See "Ponds Standard No. 1 Poisonous See 'Ponds" Standard No. 1 See 'Ponds Standard No. 1 Vegetation Pollution See "Ponds'Standard No. 1 See"Ponds Standard No. 1 Unmowed Grass/ See"Ponds"Standard No. 1 See "Ponds Standard No. 1 Ground Cover Rodent Holes See "Ponds'Standard No. 1 See"Ponds Standard No. 1 Insects See"Ponds'Standard No. 1 See "Ponds Standard No. 1 Storage Area Sediment A percolation test pit or test of facility Sediment is removed and/or facility is Indicates facility is only working at 90%of cleaned so that infiltration system works Its designed capabilities. according to design. Sheet Cover Sheet cove.Is visible and has more than Sheet cover repaired or replaced. (If Applicable) three 1/4-inch holes in it. Sump Filled With Any sediment and debris filling vault to Clean out sump to design depth. Sediment and 10%of depth from sump bottom to Debris (H bottom of outlet pipe or obstructing flow Applicable) into the connector pipe. Filter Bags Filled with Sediment and debris fill bag more than Replace filter bag or redesign system. Sediment and 1/2 full. Debris Filters Sediment and By visual inspection little or no water Replace gravel in rock filter. Debris flows through filter during heavy rain storms. A-2 1/90 KING COUNTY, WASHINGTON, SURFACE WATER DESIGN MANUAL NO. 3 - CLOSED DETENTION SYSTEMS (PIPES/TANKS) Maintenance Conditions When Maintenance Results Expected Component Defect Is Needed When Maintenance Is Performed Storage Area Plugged Air Vents One-half of the cross section of a vent is Vents free of debris and sediment. blocked at any point with debris and sediment. Debris and Accumulated sediment depth exceeds All sediment and debris removed from Sediment 10%of the diameter of the storage area storage area. for 1/2 length of storage vault or any point depth exceeds 15%of diameter. Example: 72-inch storage tank would require cleaning when sediment reaches depth of 7 inches for more than 1/2 length of tank. Joints Between Any crack allowing material to be All joints between tank/pipe sections are Tank/Pipe Section transported into facility. sealed. Tank/Pipe Bent Any part of tank/pipe is bent out of shape Tank/pipe repaired or replaced to design. Out of Shape more than 10%of its design shape. Manhole Cover not in Place Cover is missing or only partially in place. Manhole is closed. Any open manhole requires maintenance. Locking Mechanism cannot be opened by one Mechanism opens with proper tools. Mechanism Not maintenance person with proper tools. Working Bolts into frame have less than 1/2 inch of thread (may not apply to self-locking lids). Cover Difficult to One maintenance person cannot remove Cover can be removed and reinstalled by is Remove lid after applying 80 pounds of lift. Intent one maintenance person. is to keep cover from sealing off access to maintenance. Ladder Rungs IGng County Safety Office and/or Ladder meets design standards and Unsafe maintenance person judges that ladder is allows maintenance persons safe access. unsafe due to missing rungs, misalignment, rust,or cracks. Catch Basins See `Catch Basins' Standard No. 5 See "Catch Basins"Standard No.5 A 3 1/90 KING COUNTY, WASHINGTON, SURFACE WATER DESIGN MANUAL O. 4 - CONTROL STRUCTURE/FLOW RESTRICTOR Maintenance Conditions When Maintenance Results Expec ted Component Defect Is Needed When Maintenance Is Performed General Trash and Debris Distance between debris build-up and All trash and debris removed. (Includes bottom of orifice plate is less than 1-1/2 Sediment) feet. Structural Damage Structure is not securely attached to Structure securely attached to wall and manhole wall and outlet pipe structure outlet pipe. should support at least 1,000 pounds of up or down pressure. Structure is not in upright position (allow Structure in correct position. up to 10%from plumb). Connections to outlet pipe are not Connections to outlet pipe are watertight; watertight and show signs of rust. structure repaired or replaced and works as designed. Any holes—other than designed holes— Structure has no holes other than in the structure. designed holes. Cleanout Gate Damaged or Cleanout gate is not watertight or is Gate is watertight and works as designed. Missing missing. Gate cannot be moved up and down by Gate moves up and down easily and is one maintenance person. watertight. Chain leading to gate is missing or Chain is in place and works as designed. damaged. Gate is rusted over 50% of its surface Gate is repaired or replaced to meet area. design standards. Orifice Plate Damaged or Control device is not working properly Plate is in place and works as designed. Missing due to missing,out of place,or bent orifice plate. Obstructions Any trash,debris,sediment, or vegetation Plate is free of all obstructions and works blocking the plate. as designed. Overflow Pipe Obstructions Any trash or debris blocking (or having Pipe is free of all obstructions and works the potential of blocking) the overflow as designed. pipe. Manhole See 'Closed Detention Systems' Standard See 'Closed Detention Systems" Standard No. 3. No.3. Catch Basin See 'Catch Basins"Standard No.5. See 'Catch Basins'Standard No. 5. A-4 1/90 KING COUNTY, WASHINGTON, SURFACE WATER DESIGN MANUAL NO. 5 - CATCH BASINS Maintenance Conditions When Maintenance Results Expected Component Defect Is Needed When Maintenance is Performed General Trash &Debris Trash or debris of more than 1/2 cubic No trash or debris located immediately in (Includes foot which is located immediately in front front of catch basin opening. Sediment) , of the catch basin opening or is blocking capacity of basin by more than 10%. Trash or debris (in the.basin) that No trash or debris in the catch basin. exceeds 1/3 the depth from the bottom of basin to invert of the lowest pipe into or out of the basin. Trash or debris in any inlet or outlet pipe Inlet and outlet pipes free of trash or blocking more than 1/3 of its height. debris. Dead animals or vegetation that could No dead animals or vegetation present generate odors that would cause within the catch basin. complaints or dangerous gases (e.g., methane). Deposits of garbage exceeding 1 cubic No condition present which would attract foot in volume. or support the breeding of insects or rodents. Structural Damage Corner of frame extends more than 3/4 Frame is even with curb. to Frame and/or inch past curb face into the street (if Top Slab applicable). Top slab has holes larger than 2 square Top slab is free of holes and cracks. inches or cracks wider than 1/4 inch (intent is to make sure all material is running into the basin). Frame not sitting flush on top slab, i.e., Frame is sitting flush on top slab. separation of more than 3/4 inch of the frame from the top slab. Cracks in Basin Cracks wider than 1/2 inch and longer Basin replaced or repaired to design Walls/Bottom than 3 feet, any evidence of soil particles standards, entering catch basin through cracks, or maintenance person judges that structure is unsound. Cracks wider than 1/2 inch and longer No cracks more than 1/4 inch wide at the than 1 foot at the joint of any inlet/outlet joint of inlet/outlet pipe. pipe or any evidence of soil particles entering catch basin through cracks. Settlement/ Basin has settled more than 1 inch or has Basin replaced or repaired to design Misalignment rotated more than 2 inches out of standards. ' alignment. Fire Hazard Presence of chemicals such as natural No flammable chemicals present. gas, oil, and gasoline. Vegetation Vegetation growing across and blocking No vegetation blocking opening to basin. more than 10%of the basin opening. Vegetation growing in inlet/outlet pipe No vegetation or root growth present. joints that is more than six inches tall and less than six inches apart. Pollution Nonflammable chemicals of more than No pollution present other than surface 1/2 cubic foot per three feet of basin film. length. A-5 1/90 KING COUNTY, WASHINGTON, SURFACE WATER DESIGN MANUAL NO. 5 - CATCH BASINS (Continued) Maintenance Conditfona When Maintenance Reaulta Expected Component Defect la Needed When Malntenance is Performed Catch Basin Cover Cover Not in Place Cover is missing or only partially in place. Catch basin cover is closed. Any open catch basin requires maintenance. Locking Mechanism cannot be opened by one Mechanism opens with proper tools. Mechanism Not maintenance person with proper tools. Working Bolts into frame have less than 1/2 inch of thread. Cover Difficult'o One maintenance person cannot remove Cover can be removed by one Remove lid after applying 80 lbs.of lift; intent is maintenance person. keep cover from sealing off access to maintenance. Ladder Ladder Rungs Ladder is unsafe due to missing rungs, Ladder meets design standards and Unsafe misalignment, rust,cracks, or sharp allows maintenance person safe access. edges. Metal Grates Grate wit`' opening wider than 7/8 inch. Grate openings meet design standards. (if applicable) Trash and Debris Trash and debris that is blocking more Grate free of trash and debris. than 20%of grate surface. Damaged or Grate missing or broken member(s) of Grate is in place and meets design Missing the grate. standards. • A-6 1/90 KING COUNTY, WASHINGTON, SURFACE WATER DESIGN MANUAL NO. 6 - DEBRIS BARRIERS (e.g. Trash Racks) Maintenance CondMons When Maintenance Resutts Expected Component Defect Is Needed When Maintenance Is Performed General Trash and Debris Trash or debris that is plugging more Barrier clear to receive capacity flow. than 20%of the openings in the barrier. Metal Damaged/ Missing Bars are bent out of shape more than 3 Bars in place with no bends more than Bars inches. 3/4 inch. Bars are missing or entire barrier is Bars in place according to design. missing. Bars are loose and rust is causing 50% Repair or replace barrier to design deterioration to any part of barrier. standards. A-7 1/90 KING COUNTY, WASHINGTON, SURFACE WATER DESIGN MANUAL NO. 7 - ENERGY DISSIPATORS Maintenance Conditions When Maintenance Results Expected Component Defect is Needed When Maintenance Is Performed External: Rock Pad Missing or Moved Only one layer of rock exists above native Replace rocks to design standard. Rock soil in area five square feet or Jarger,or any exposure of native soil. Dispersion Trench Pipe Plugged with Accumulated sediment that exceeds 20% Pipe cleaned/flushed so that it matches Sediment of the design depth. design. Not Discharging Visual evidence of water discharging at Trench must be redesigned or rebuilt to Water Properly concentrated points along trench (normal standard. condition is a'sheet flow'of water along trench). Intent is to prevent erosion damage. Perforations Over 1/2 of perforations in pipe are Clean or replace perforated pipe. Plugged plugged with debris and sediment. Water P.,ws Out Maintenance person observes water Facility must be rebuilt or redesigned to Top of"Distributor" flowing out during any storm less than standards. Catch Basin the design storm or it is causing or appears likely to cause damage. Receiving Area Water in receiving area is causing or has No danger of landslides. Over-Saturated potential of causing landslide problems. Internal: Manhole/Chamber Worn or Damaged Structure dissipating flow deteriorates to Replace structure to design standards. Posts, Baffles, 1/2 or original size or any concentrated Sides of Chamber worn spot exceeding one square foot which would make structure unsound. Other Defects See'Catch Basins"Standard No. 5 See "Catch Basins" Standard No. 5 A-8 1/90 KING COUNTY, WASHINGTON, SURFACE WATER DESIGN MANUAL NO. 8 - FENCING Maintenance Conditions When Maintenance Results Expected Component Defect Is Needed When Maintenance is Performed General Missing or Broken Any defect in the fence that permits easy Parts in place to provide adequate Parts entry to a facility. security. Parts broken or missing. Broken or missing parts replaced. Erosion Erosion more than 4 inches high and 12- No opening under the fence that exceeds 18 inches wide permitting an opening 4 inches in height. under a fence. Wire Fences Damaged Parts Posts out of plumb mo.e than 6 inches. Posts plumb to within 1-1/2 inches. Top rails bent more than 6 inches. Top rail free of bends greater than 1 inch. My part of fence (including posts,top Fence is aligned and meets design rails,and fabric) more than 1 foot out of standards. design alignment. Missing or loose tension wire. Tension wire in place and holding fabric. Missing or loose barbed wire that is Barbed wire in place with less than 3/4- sagging more than 2-1/2 inches between inch sag between posts. posts. Extension arm missing, broken, or bent Extension arm in place with no bends out of shape more than 1-1/2 inches. larger than 3/4 inch. Deteriorated Paint Part or parts that have a rusting or scaling Structurally adequate posts or parts with or Protective condition that has affected structural a uniform protective coating. Coating adequacy. Openings in Fabric Openings in fabric are such that an 8- No openings in fabric. inch-diameter ball could fit through. A-9 1/)o KING COUNTY, WASHINGTON, SURFACE WATER DESIGN MANUAL NO. 9 - GATES Maintenance Conditions When Maintenance Results Expected Component Defect Is Needed When Maintenance Is Performed General Damaged or Missing gate or locking devices. Gates and locking devices in place. Missing Members Broken or missing hinges such that gate Hinges Intact and lubed. Gate is working cannot be easily opened and closed;by a freely. maintenance person. Gate Is out of plumb more than 6 inches Gate is aligned and vertical. and more than 1 foot out of design alignment. Missing stretcher bar, stretcher bands, Stretcher bar, bands, and ties in place, and ties. Openings In Fabric See'Fencing"Standard No.8 See 'Fencing" Standard No. 8 A-10 1/90 KING COUNTY, WASHINGTON, SURFACE WATER DESIGN MANUAL NO. 10 - CONVEYANCE SYSTEMS (Pipes & Ditches) Maintenance Conditions When Maintenance Results Expected Component Defect Is Needed When Maintenance Is Performed Pipes Sediment& Debris Accumulated sediment that exceeds 20% Pipe cleaned of all sediment and debris. of the diameter of the pipe. Vegetation Vegetation that reduces freq movement of AJI vegetation removed so water flows water through pipes. freely through pipes. Damaged Protective coating is damaged; rust is Pipe repaired or replaced. causing more than 50%deterioration to any part of pipe. Any dent that decreases the cross section Pipe repaired or replaced. area of pipe by more than 20%. Open Ditches Trash &Debris Trash and debris exceeds i cubic foot Trash and debris cleared from ditches. per 1,000 square feet of ditch and slopes. Sediment Accumulated sediment that exceeds 20% Ditch cleaned/flushed of all sediment and of the design depth. debris so that it matches design. Vegetation Vegetation that reduces free movement of Water flows freely through ditches, water through ditches. Erosion Damage to See'Ponds' Standard No. 1 See 'Ponds' Standard No. 1 Slopes Rock Lining Out of Maintenance person can see native soil Replace rocks to design standard. Place or Missing (If beneath the rock lining. Applicable) Catch Basins See'Catch Basins' Standard No. 5 See 'Catch Basins' Standard No. 5 Debris Barriers See 'Debris Barriers' Standard No.6 See 'Debris Barriers' Standard No.6 (e.g., Trash Rack) A-11 1/90 KING COUNTY, WASHINGTON, SURFACE WATER DESIGN MANUAL NO. 11 - GROUNDS (Landscaping) Aluk Maintenance Conditions When Maintenance Resutts Expected Component Defect Is Needed When Maintenance Is Performed General Weeds Weeds growing in more than 20% of the Weeds present in less than 5% of the (Nonpoisonous) landscaped area (trees and shrubs only). landscaped area. Safety Hazard Any presence of poison Ivy or other No poisonous vegetation present in a poisonous vegetation. landscaped area. Trash or Litter Paper,can, bottles,totalling more than 1 Area clear of litter. cubic foot within a landscaped area (trees and shrubs only)of 1,000 square feet. Trees and Shrubs Damage Limbs or parts of trees or shrubs that are Trees and shrubs with less than 5%of the split or broken which affect more than total foliage with split or broken limbs. 25%of the total foliage of the tree or shrub. Trees or shrubs that have been blown Tree or shrub in place free of injury. down or knocked over. Trees or shrubs which are not adequately Tree or shrub in place and adequately supported or are leaning over,causing supported; remove any dead or diseased exposure of the roots. trees. 0 A-12 1/90 KING COUNTY, WASHINGTON, SURFACE WATER DESIGN MANUAL NO. 12 - ACCESS ROADS/EASEMENTS Maintenance Conditions When Maintenance Results Expected Component Defect Is Needed When Maintenance Is Performed General Trash and Debris Trash and debris exceeds 1 cubic foot Trash and debris cleared from site. per 1,000 square feet,i.e., trash and debris would fill up one standard size garbage can. Blocked Roadway Debris which could damage vehicle tires Roadway free of debris which could (glass or metal). damage tires. Any obstructions which reduce clearance Roadway overhead clear to 14 feet high. above road surface to less than 14 feet. Any obstructions restricting the access to Obstruction removed to allow at least a a 10-to 12-foot width for a distance of 12-foot access. more than 12 feet or any point restricting access to less than a 10-foot width. Road Surface Settlement, When any surface defect exceeds 6 Road surface uniformly smooth with no Potholes, Mush inches in depth and 6 square feet in area. evidence of settlement, potholes, mush Spots, Ruts In general, any surface defect which spots, or ruts. hinders or prevents maintenance access. Vegetation in Road Weeds growing in the road surface that Road surface free of weeds taller than 2 Surface are more than 6 inches tall and less than inches. 6 inches apart within a 400-square-foot area. Shoulders and Erosion Damage Erosion within 1 foot of the roadway more Shoulder free of erosion and matching Ditches than 8 inches wide and 6 inches deep. the surrounding road. Weeds and Brush Weeds and brush exceed 18 inches in Weeds and brush cut to 2 inches in height or hinder maintenance access. height or cleared in such a way as to allow maintenance access. A-13