HomeMy WebLinkAboutLUA-07-015_MiscMACLEARNSBERRY ENCINEERINC, P.S.
Civil Engineers o Land Planners
TECHNICAL INFORMATION REPORT
( DRAINAGE REPORT)
159 WVatt Way NE
Bainbridge ISiand WA 98110
12061 842-7716
2061 780-2408 <facsimile!
FOR
HOUVENERSHORTPLAT
1719 MORRIS A VE. SOUTH
Prepared for:
PAUL HOUVENER
JANUARY 2007
1(800) 600-4600
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2!$)
Yt::::ARS98365
OF SERVICE
2408 !facsimile!
P.O. BOX 65382
Port Ludlow WA
{360) 437-0430
{2061780-
JOB NO. 26528
TABLE OF CONTENTS
I. PROJECT OVERVIEW
II. PRELIMINARY CONDITIONS SUMMARY
Ill. OFF-SITE ANALYSIS
IV. RETENTION / DETENTION ANALYSIS AND DESIGN
v. CONVEYANCE SYSTEM ANALYSIS AND DESIGN
VI. SPECIAL REPORTS AND STUDIES
VII. BASIN AND COMMUNITY PLANNING AREAS
VIII. OTHER PERMITS
IX. EROSION/ SEDIMENTATION CONTROL DESIGN
X. BOND QUANTITIES WORKSHEET
XI. MAINTENANCE AND OPERATIONS MANUAL
Section I. Project Overview
Houvener Short Plat
I.) Project Overview
The proposed Houvener Short Plat is 0.62 acres in size and is located immediately west
of Morris Avenue So. Between South 171h Street and South 18111 Street in the City of
Renton, WA. The development proposal is to subdivide the property into four single-
family residential lots.
The site is presently developed with an existing house, guest cottage, detached garage,
and a storage shed resulting in an existing impervious surface area of 0.10 ac. The
balance of the site is landscaped including sparse trees. The ground slopes moderately to
the north and southwest and the underlying soils are Beausite, which are classified in
SCS group "C". There are no critical areas onsite, however, the property is located in a
high coal-mine hazard area. ( See attached "Coal Mine Ha:mrd Assessment" prepared by
AESI ).
Approximately 0.51 acres of the site drains to the north. (Basin Pl) The remainder of the
site drains to the southwest. (Basin P2) All existing runoff is un-concentrated and there is
no natural or man-made stormwater conveyance immediately downstream of the site.
The existing house onsite will remain on proposed lot 2 although the other existing
structures will be removed. All four lots will take access from Morris Avenue So. For the
purpose of analysis the total impervious surface is assumed to be 0.40 ac., an increase of
0.26 ac. above existing conditions. It is also assumed that no frontage improvements are
required because the development proposal was reduced from five lots to four.
This project is subject to the design standards of the 1990 King County Surface Water
Design Manual. The Core and Special requirements of this manual are addressed as
follows:
Core Requirement # 1: Discharge at the natural location.
The majority of the site drains to the north as noted above. It appears that most of the
on-concentrated runoff from the site finds it's way to Morris Avenue South and is
conveyed to the north and/or east. In either case, this site is within the Black River
drainage basin. The closest adequate conveyance system is located at the intersection
of Morris Avenue So. and South 17ili St. It is proposed that post-developed runoff
from the site be directed to this public storm drain. A description of the system
downstream of this point can be found in Section III. of this report.
Core Requirement# 2: Offsite analysis
Level 1 analysis is provided in Section III. of this report.
Core Requirement # 3: Runoff control
This project appears to be exempt from runoff control and bio-filtration. See Section
IV. of this report for analysis and justification.
Core Requirement# 4: Conveyance system
See Section V. of this report for a conveyance system analysis
Core Requirement# 5: Temporary erosion and sedimentation control
See Section IX. of this report for a response to the eleven elements of this
requirement.
Of the Special requirements of the Drainage Manual, only Requirements# 11&12 apply
to this project. These are addressed in Section VI. Of this report.
Page 1 of 2
King County Building and Land Development Division
TECHNICAL INFORMATION REPORT (TIR) WORKSHEET
PART 3 TYPE OF PERMIT APPLICATION
D Subdivision
[);6 Short Subdivision
D Grading
D Commercial
D Other
PART 2 PROJECT LOCATION
, AND DESCRIPTION
ProjectNamei/aLvc!;.N'l;fZ J'd,;.,-JLt7
Location
Township 2!
Range S"
Section _ _,/'--'-'I ___ _
Project Size d, 6 ~ AC
Upstream Drainage Basin Size ____ AC
PART 4 OTHER PERMITS
D DOF/GHPA D Shoreline Management
D COE404 D Rockery
D DOE Dam Safety D Structural Vaults
D FEMA Floodplain D Other
D COE Wetlands D HPA
l#\41lUiil·iillPii!1i!ilii·l·hlliltAHfiil=
Community
Drainage Basin
-------"',!J.=~=A~C-=-"'='--------'&('---=-'...:--=;..e:=~'-----------------------
PART 6 SITE CHARACTERISTICS
D River
D Stream
D Critical Stream Reach
D Depressions/Swales
D Lake
D Steep Slopes
D Lakeside/Erosion Hazard
PART7 SOILS .
Soil Type
Bff.AVS,r£
Slo~s
., ~<?
D Additional Sheets Attatched
CJ
D
----·'
~
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r--1 -· D
Floodplain
Wetlands
Seeps/Springs
High Groundwa!erTable
Groundwater Recharge
Other
Erosion Potential
S<-;a.t(t:
FIGURE 1
Erosive Velocities
1/90
Page 2 of 2
King County Building and Land Development Division
TECHNICAL INFORMATION REPORT (TIR) WORKSHEET
PART 8 DEVELOPMENT LIMITATIONS
REFERENCE LIMITATION/SITE CONSTRAINT
D Ch. 4 -Downstream Analysis
D
D
D
D
D
D Additional Sheets Attatched
PART 9 ESC REQUIREMENTS
MINIMUM ESC REQUIREMENTS
DURING CONSTRUCTION
D Sedimentation Facilities
@ Stabilized Construction Entrance
5!l Perimeter Runoff Control
D Clearing and Grading Restrictions
[)!I Cover Practices
[)ZJ Construction Sequence
D Other
PART 10 SURFACE WATER SYSTEM
D Grass Lined Channel
~ Pipe System
D Tank
D Vault
D Open Channel
D DryPond
D WetPond
D Energy Dissapator
D Wetland
D Stream
Brief Description of System Operation
Facility Related Site Limitalions
Reference Facility Limttation
PART 11 STRUCTURAL ANALYSIS
1K]
[X]
~
D
D
(May require special structural review) ·
D Cast in Place Vault D Other
D Retaining Wall
D Rockery> 4' High
D Structural on Steep Slope
MINIMUM ESC REQUIREMENTS
FOLLOWING CONSTRUCTION
Stabilize Exposed Surfaoe
Remove and Restore Temporary ESC Facilities
Clean and Remove All Silt and Debris
Ensure Operation of Permanent Facilities
Flag Limits of NGPES
Other
D Infiltration
D Depression
D Flow Dispersal
D Walver
D Regional Detention
.S/.v/3-t!)v7:S
Method of Analysis
5Bt?t/ef &7/0,.;A:l.
Compensation/Mitigation
of Eliminated Site Storage
D Additional Sheets Attatched
PART 12 EASEMENTS/TRACTS
D Drainage Easement
D Access Easement
D Native Growth Protection Easement
D Tract
D Other
I or a civil engineer under my supe,vision 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. .
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MacLearnsberry Engineering, P .S.
Civil Engineers o f!anoers
159 Wyatt Way NE painhri,lg~ I.Janel, WA 98110
pl,one, (206) 84207716 . ~,Jm;J~, (206) 780-2408
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FIGURE 3A
Paul Houvener
Houvener Short Subdivision
Pre-Developed Conditions
DRAWN BY CAH 1111 26528
MCM 1• m 40• HET
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MacLearnsberry Engineering, P .S.
Civil Engineers ~ Planners
159 Wyatt Way NE l;lamkidge I.land, WA 98110
photte, (206) 842~7716 fu.Jmil., (206) 780-2408
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FIGURE 38
Paul Houvener
Houvener Short Subdivision
Develo ed Conditions
""""' BY CAH o,,. January 23, 2007
MCM 1· • 401
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USDA Nabanl Resources
iliiliill r.enanation Senke
a
SOIL SURVEY OF KING COL ... ( AREA, WASHINGTON
50 100
Houvener-Renton
Meters
200
Web Soil Survey I. 1
National Cooperative Soil Swvcy
0 150 300 600 900
Feet
1,200
7/19/2006
Page 1 of3
Soil Survey of King County Area. Washington
Map Unit Legend Summary
King County Area, Washington
Map Unit Symbol
·--AgD
BeC
BeD
Ur
Map Unit Name Acres in AO!
Alderwood gravelly sandy 12.0
loam, 15 to 30 percent slopes
Beausite gravelly sandy loam, 6 88.6
to 15 percent slopes
Beausite gravelly sandy loam, 8.3
15 to 30 percent slopes
Urban land 0.9
Web Soil Survey 1.1
National Cooperative Soil Survey
Percent of AO!
10.9
80.7
7.6
0.8
Houvener-Renton
7/1912006
Page 3 of3
lJSOA NIMand Resource1
alilli f.4.lltlerratiob Sent«
SOIL SURVEY OF KING ~~UNTY AREA, WASHINGTON
MAP LEGEND
Soll Map Units
e Citle1
c:::::J Oelalled Counties
c:::::J Detailed States
Interstate Highways
Roads
-+--+-Ralls
\l\llter
Hydrography
Oceans
>. f >.,A, A¥ Escarpment, bedrock
vAv,w,-,,.v-. Escarpment, nan-bedrock
~,.-, ,,,,', Gulley
111111111111111 Levee
Slope
" Blowout
0 Borrow Pit
• Clay Spot
• Depression, dosed
Eroded Spot
X Gravel Pit
GraveHy Spot
~-Gulley
A. Lava Flow
@ Landfill .. Marsh or Swamp
® Miscellemeous 1/!Jater
V Rock Outcrop
+ Saline Spot
Sandy Spot
!> Slide or Slip
0 Sinkhole
pl Sodlc Spot .. SpoUArea
0 Stony Spot
Ill vert Stet
@ Perennial Water
t VVl!t Spot
Houvener-Renton
MAP INFORMATION
Source of Map: Natural Resources Conservation Service
Web Soil Survey URL: http://websoilsurvey.nrcs.usda.gov
Coordinate System: UTM Zone 10
Soil Survey Area: King County Area, Washington
Spatial Version of Data: 1
Soil Map Compilation Scale: 1 :24000
Map comprised of aerial images photographed on these dates:
7/10/1990; 7/16/1990
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, so_me_minor shifting of map unit boundaries may be evident.
Web Soil Survey 1.1
National Cooperative Soil Survey
7/19/2006
Page 2 of3
~--
KING COUNTY, WASHINGTON, SURFACE WATER DES I G N MANUAL
(2) CN values can be area weighted when they apply to pervious areas of similar CN's (within 20
CN points). However, high CN areas should not be combined with low CN areas (unless the
low CN areas are less than 15% of the subbasin). In this case, separate hydrographs should be
generated and summed to form one hydrograph.
FlGURE ).5.2A HYDROLOGIC SOIL GROUP OF THE SOILS IN KING COUNTY
HYDROLOGIC HYDROLOGIC
SOIL GROUP GROUP* SOIL GROUP GROUP*
Alderwood C Orcas Peat D
Arents, Alderwood Material C Oridia D
Arents, Everett Material t{-+ Ovall C
Beausite Pilchuck C
Bellingham I U' Puget D
Briscot D Puyallup B
Buckley D Ragnar B
Coastal Beaches Variable Renlon D
Earlmont Silt Loam D Riverv.rash Variable
Edgewick C Salal C
Everett A/8 "Sammamish D
Indianola A Seattle D
Kitsap C Shacar D
Klaus C Si Silt C
Mixed Alluvial Land Variable Snohomish D
Neilton A Sultan C
Newberg B Tukwila D
Nooksack C Urban Variable
Normal Sandy Loam D Woodinville D
HYDROLOGIC SOIL GROUP CLASSIFICATIONS
A. (Low runoff potential). Soils having high infiltration rates, even when thoroughly wetted, and consisting
chiefly of deep, well-to-excessively drained sands or gravels. These soils have a high rate of water
transmission.
B.
c.
D.
•
(Moderately low runoff potential). Soils having moderate infiltration rates when thoroughly wetted, and
consisting chiefly of moderately fine to moderately coarse textures. These sons have a moderate rate of
water transmission.
{Moderately high runoff potential). Soils having slow infiltration rates when thoroughly wetted, and
consisting chiefly of soils with a layer that impedes downward movement of water, or soils with moderately
fine to fine textures. These soils have a slow rate of water transmission.
(High runoff potential). Soils having very slow infiltration rates when thoroughly wetted and consisting
chiefly of clay soils with a high swelling potential, soils with a permanent high water table, sons wtth a
hardpan or clay layer at or near the surface, and shallow soils over nearly impervious material. These sons
have a very slow rate of water transmission .
From SCS, TR-55, Second Edttion, June 1986, Exhib~ A-1. Revisions made from SCS, Soil Interpretation
Record, Form #5, September 1988.
3.5.2-2 11/92
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Section II. Preliminary Conditions Summary
II.) Preliminary Conditions Summary
Memorandum from Mike Dotson to Jill Hall dated August 9, 2005
Water
1. There is an 8" waterline in Morris Ave South.
Response: Informational comment -Acknowledged
2. The modeled fire flow available at the site is approximately 1000 gpm. Static water
pressure is approximately 60psi.
Response : Informational comment -Acknowledged
3. The proposed project is located within the 300-water pressure zone
Response : Informational comment -Acknowledged
4. If fire sprinkler systems are necessary, then a separate fire sprinkler permit will be
required.
Response: Informational comment -Acknowledged. We do not anticipate the
need for sprinkler systems.
5. All new single-family construction must have a fire hydrant capable of delivering a
minimum of 1000 gpm. (home square footage less than 3600) and must be located
within 300 feet of the structures. There may be some hydrant(s) that meets this
requirement. However, any existing sub-standard hydrants will need to be replaced
and/or retrofitted with a quick disconnect Storz fittings.
Response : Existing fire hydrants are located on the east side of Morris Ave South
to the north and south of the site. The new structures will be within 300 feet of these
hydrants. A note has been included on the plan advising the possible need for
replacement and/or retrofitting.
6. If the home square footage is greater than 3600, then minimum fire flow increases
to 1500 gpm, and additional hydrants may be required. A Water System
development Charge of $1,525.00 per new lot is due at time of issuance of a
construction.
Response : A new hydrant is shown between lots 1 and 2 with a note addressing this
issue.
7. All short plats shall provide a separate water service to each building lot prior to
recording of the short plat.
Response : Separate services are shown on the plan with a note addressing this
issue.
Sanitary Sewer
1. There is an existing 8-inch sewer main in Morris Ave. South.
Response : Informational comment -Acknowledged
2. Our records indicate that the existing home at 1719 Morris Ave. South is currently
connected to the sewer system (see attached side-sewer card). The sewer stub may
be reused if it is in adequate condition and location to serve one new home.
Response : The existing house will remain and continue to use this service.
3. All short plats shall provide separate side sewer stubs to each building lot prior to
recording of the short plat. No dual side sewers are allowed. Side sewers shall be a
minimum 2% slope.
Response : Separate side sewers are shown on the plan with notes addressing this
issue.
4. The sanitary Sewer System Development Charges (SDC is $900 per single-family
home. This fee is due at the time of utility construction permit.
Response : Informational comment -Acknowledged. Also, a note addressing this
issue is included on the plan.
Surface Water
1. This site drains to the Black River drainage basin
Response : Informational comment -Acknowledged
2. A drainage analysis and design is required to comply with the requirements and
standards of the 1990 King County Surface Water design manual.
Response : A Technical Information Report is included with this submittal. The
proposed design is in compliance with the standards.
3. The preferred method of drainage control would be infiltration facilities.
Response: Infiltration is not feasible on this site.(see enclosed geotechnical report.
This project is exempt from flow control and water quality treatment. Perforated
stub-outs are proposed on the plan. Justification for the proposal is provided in
Section N. of the T.I.R.
4. The Surface Water System Development Charges (SDC) is $715 per lot. This fee is
due at the time the utility construction permit is issued.
Response : Informational comment -Acknowledged. A noted is included on the
plan addressing this issue.
Street Improvements
1. Transportation Mitigation fees are $75 per additional generated trip generated.
These fees shall be assessed per new single-family home at a rate of9.57 trips.
Response : Informational comment -Acknowledged. A note is included on the
plan addressing this issue.
2. All wire utilities shall be installed underground per the City of Renton Under-
grounding Ordinance. If three or more poles are required to be moved by the
development design, all existing overhead utilities shall be placed underground.
Response : Informational comment -Acknowledged. A note is included on the plan
addressing this issue.
3. According to City of Renton code, projects that are 5 residential lots in size are
required to install half pavement v.,idth per standards. This project requires
installing curb, gutter, sidewalks, and street lights along Morris Ave. South. A
deferral of these improvements may be requested through the Board of Public
Works.
Response : The development proposal has been changed from 5 lots to 4 lots.
Frontage improvements are no longer required.
General Comments
l. Permit application will require separate plan submittals for all proposed
utility, drainage and street improvements. Plans are required to be prepared by a
licensed Civil Engineer according to City of Renton drafting standards.
Response : Separate plans are provided and prepared by a licensed Civil Engineer.
2. Permit application must also include an estimated cost of construction for water,
sewer and roadway/drainage improvements (please see permit application available
at 6th floor Customer Service Counter). Separate permits for water meters, and side
sewers are required. And a separate utility permit to cut and cap existing utilities to
existing structures on site will be required as part of the demolition permit.
Response : See T.I.R. Section X. for cost estimates. Other permits will be applied
for as required.
3. The applicant is responsible for securing any private utility easements.
Response : No private utility easements are required for this project.
Jill Hall
Associate Planner
City of Renton Development Services Division
1055 South Grady Way,
Renton, WA 98055
RE: Houvener Short Plat, Pre-App file no. 05-100
In response to the memorandum from Jill Hall dated August 11, 2005 regarding Pre-
Application file no. 05-100 Land Planning Northwest is offering the following
information:
The proposed short plat has been revised to show 4 lots. This meets current
density requirements for the R-8 zone in which the project lies.
All access panhandles have been deducted from gross lot area in order to calculate
net density of the proposed project.
Minimum lot size, width and depth for the R-8 zone have been met. The
minimum lot size of the proposed project is 5,085 net square feet. All lots are at
least 65 feet deep and at least 50 feet wide.
Gross and net square footage for all lots is provided on the site plan.
Building Height and lot coverage shall be within the limits for the R-8 zone.
The required minimum building setbacks are shown on the site plan for the
proposed project.
All lots shall provide parking for at least two vehicles in driveway and/or garage
spots.
Panhandles to lots 3 and 4 are private, and provide access to one lot only.
Minimum width of20 feet is shown on the site plan.
All addresses shall be visible from Morris Ave at the time of construction.
The maximum driveway grade shall not be exceeded for the proposed project. See
grading plans.
A 5-foot wide landscaped strip is shown along Morris Ave in the front yards of
lots 1 and 2. Planting in this strip shall meet RMC, and is shown on the
conceptual landscape plan. In addition, at least two trees of a minimum caliper of
1.5" shall be planted in the front yard of all new lots.
A Geotechnical report and coal mine hazard letter has been prepared and is
included in this submittal.
This proposed project is consistent with the Residential Single Family (RSF)
Comprehensive Plan Land Use Designation.
The application fee shall be paid at the time of formal land use application. All
other fees shall be paid at their respective required payment dates prior to
recording.
Please do not hesitate to contact us if you have questions or comments.
Thank.you,
Andy McAndrews
Associate Planner/Project Manager
Land Planning Northwest
Phone: (206) 719-7901
Fax: (425) 640-8562
Lpnw@verizon.net
Section Ill. Offsite Analysis
III.) Offsite Analysis
Field inspection was conducted on July 28, 2006. Weather conditions consisted of clear
skies and temperatures in the low 80's. The existing stormwater conveyance system
along South 17th Street and Talbot Rd. South was walked for approximately V. mile from
the site to Williams Ave. South. This system consists of a network of catch basins and
12-inch diameter concrete pipes for the entire length. Exhibit "B" illustrates the
alignment of the system and the contributing drainage basin. Photos were taken to
illustrate the surface features present. No evidence of overtopping or erosion was noted.
As can be seen in the photos, there is no curb and gutter along the entire route limiting
collection of surface-water runoff. This does not limit the capacity of the system to
convey up-stream flows.
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SEISMIC HAZARD AREAS
Technical SeNlces
Plannln9'Bufk:llng/Public Works
R. MacOnle, D. Visneskl
September 2005
-----City Limits
Ill H~h Hazaro
FLOOD HAZARD AREAS
0 3000
-----Oty l.mh
6000 Technical Services
Plannln!)'Bulldlng/Publlc WOfks
R. MaCOnle, D. Vlsflesld
Sep!embef 2005
COAL MINE HAZARD AREAS e Technlcal Services
Plam""""-'""""W<xk, R. MacClnie, 0. Vlsn19$kl
July 2005
. .... """'
-----City Limits
-High Hazard
-Moderale
IBllll!I! Unclassified
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AQUIFER PROTECTION ZONES
e Tedmical---R. MacOnie, o. Vlsneskl --Renton Munldpal Code --, @~%5.l Zone l Modified
[''-·-:·:·-·_--;-j ZoneZ ----=--=-=.. City Ll!rils
EROSION HAZARD AREAS
e Technical SeMCSS
Plannlng/Bulldlfl1J'Publlc Wort<:s
R. MaCOnle, D. vtsneskl
September 2005
-----CJty Limits
0 15<10 3000
l~:3000'
LO.KE WASHINGTON
1014-'-----1--,---l.+,e..lO~,
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LANDSLIDE HAZARD AREAS
• Kinu c-ty Hmo.-d
-----Qyl>nlt,
DOWNSTREAM PHOTOS
Looking south along Morris Ave .
Note lack of drainage conveyance
along site frontage at left in photo
~
Looking west along north line of site
Runoff from majority of site appears to
sheet flow into adjacent driveway and
then drains to Morris Ave .
'
Catch basin at southeast comer of
intersection of Morris Ave. and S 17th St.
Storm drain runs east from this point
CB and storm drain along south side of S 17th St.
Note that little runoff from road is intercepted
CB and storm drain at SW comer of
intersection of S 17th St. and Talbot Rd. S
CB's and storm drain at intersection of
Talbot Rd. S and S 16th St.-looking north
CB in Williams Ave S just north of
intersection with Talbot Rd. S
approx. 1/4 mile downstream of site.
Cover could not be opened to verify
pipe alignment. flows appear to be
towards the north beyond this point
Section IV. Retention I Detention Analysis and Design
IV.) Retention/Detention Analysis and Design
Existing Site Hydrology (Part A)
Basin Pl
Pervious area= 0.41 acres
CN value= 81 ( This is a conservative estimate assuming second growth forest)
Tc = 18.82 min.
Impervious area= 0.10 acres
CNvalue = 98
Tc= 5.00 (assumed)
Q2 = 0.07 cfs.
Q10= 0.14cfs.
Q100 = 0.23 cfs.
BasinP2
Pervious area = 0.11 acres
CN value= 81 (see above)
Tc= 13.00 min.
Q2 = 0.01 cfs.
Q10 = 0.02 cfs.
Q100 = 0.04 cfs.
Developed Site Hydrology (Part B)
Basin DEV
Pervious area= 0.26 acres
CN value= 86 (lawn assumes)
Tc = 5.00 min. (assumed)
Impervious area= 0.36 acres (Portion subject to vehicular traffic= 3840 sf.)
CNvalue=98
Tc= 5.00 min. (assumed)
Q2 = 0.19 cfs.
Q10 = 0.31 cfs.
Q100 = 0.44 cfs.
Hydrologic Analysis (Part C)
The enclosed analysis was performed using the Santa Barbara Urban Hydrograph
Method. Computer software entitled "Waterworks 4.13" as prepared by Engenious
Systems Inc. was used. For the purpose of evaluating the need for on-site peak rate runoff
control, the runoff rates for basins Pl and DEV (listed above) were compared. The
increase in runoff due to development during a 100yr.-24hr. storm event was calculated
to be 0.21 cfs. This is less than the 0.50 cfs. threshold identified on Section 1.2.3 -Core
Requirement# 3. Consequently, this project is exempt from the requirement for runoff
control. In addition. this project will construct less than 5000 sf. of impervious surface
subject to vehicular use or storage of chemicals. Consequently, this project is also exempt
from the requirement for bio-filtration facilities.
Retention/Detention System (Part D)
Retention/detention facilities do not apply to this project due to it's exemption status. The
site has been evaluated for the potential of roof downspout infiltration systems. The
underlying soils were found to be inadequate for this purpose. The proposed lots are also
too small to allow for the installation of dispersal systems. Consequently, perforated stub-
outs designed in conformance with Figure 4.5.6B are proposed for this project. These will
direct runoff to the nearest adequate conveyance system located at the intersection of
Morris Ave. South and South 17th Street.
K I N G C O U N T Y, W A S H I N G T O N. S U R F A C E W A T E R D E S I G N M A N U A L
I
I
FIGURE 3.5.lC 2-YEAR 24-HOUR IS0PLUV1ALS
\-----\'--t4t::i!til-"ai1t
I
,\ l"f-----
lf ......__ ~
lfl-~~~A~
11
111
ltf
,/
I
/
-YEAR 24-HOUR PRECIPITATION
,3.4-ISOPLUVIALS OF 2-YEAR 24-HOUR
TOTAL PRECIPITATION IN INCHES
0 l 2 3 4 5 6 7· B Mlt.s
1: 300,000 1/90
K I N G C O U N T Y, W A S H I N G T O N, S U R F A C E W A T E R D E S I G N M A N U A L
2.1
2.2
<3
2.4
25
2.6
2.?
2.s
2.9
3.0
-YEAR 24-HOUR PRECIPITATION /
, 3.4-ISOPLUVIALS OF 10-YEAR 24-HOUR
TOTAL PRECIPITATION IN INCHES
0 1 2 3 4 5 6 7 8 MIies
I: 300,000 1/90
(
4.0
K I N G C O U N T Y, W A S H I N G T O N, S U R F A C E W A T E R D E S I G N M A N U A L
__ GURE 3.5.lH 100-YEAR 24-HOUR ISOPLUVIALS
11 EAR 24-HOUR PRECIPITATION
3.4 -ISOPLUVIALS OF 100-YEAR 24-HOUR
TOTAL PRECIPITATION IN INCHES
0 1 2 3 4 5 6 7 8 MIies
l: 300,000
r'""-'-__ 6.5
-r-"'--., 6D
5Jf""
1/90
KING COUNTY, WASHINGTON, SURFACE WATER DESIGN MANUAL
FIGURE 4.5.6B PERFORATED S'IUB-OUT DESIGN
RANDOM FILL
TRENCH X-SECTION
PLAN VIEW OF ROOF
NOTE: NOT TO SCALE
4.5.6-4
FILTER FABRIC
4" PERF PIPE
1 /t' -t" WASHED ROCK
SLOPE ---1•-
2' X 10'
CH ----LEVEL TREN
TO ROAD
DRAINAGE
SYSTEM
T W/PE RF PIPE
11/94
1/19/07 10:24:32 am Shareware Release
HOUVENER SHORT PLAT
page 1
================------=----===-----:---=----------------------=====--
BASIN ID: DEV
SBUH METHODOLOGY
TOTAL AREA •...... :
RAINFALL TYPE .... :
PRECIPITATION .... :
TIME INTERVAL .•.• :
BASIN SUMMARY
NAME: 2YR 24HR
0.62 Acres
TYPElA
2.00 inches
10.00 min
BASEFLOWS:
AREA, , :
CN .•.. :
TC .... :
0.00 cfs
PERV
0.26 Acres
86.00
5.00 min
ABSTRACTION COEFF: 0.20
TcReach -Sheet L: 130.00
PEAK RATE: 0.19 cfs VOL:
ns:0.1500 p2yr: 2.00 s:0.0300
0.07 Ac-ft TIME: 480 min
BASIN ID: Pl
SBUH METHODOLOGY
TOTAL AREA .•••..• :
RAINFALL TYPE .... :
PRECIPITATION .... :
TIME INTERVAL .... :
NAME: 2YR 24HR
0.51 Acres
TYPElA
2.00 inches
10.00 min
BASEFLOWS:
AREA .. :
CN .... :
TC .... :
0.00 cfs
PERV
0.41 Acres
81.00
18.82 min
ABSTRACTION COEFF: 0.20
TcReach -Sheet L: 250.00
PEAK RATE: 0.07 cfs VOL:
ns:0.1500 p2yr: 2.00 s:0.0440
0.04 Ac-ft TIME: 480 min
BASIN ID: P2 NAME: 2YR 24HR
SBUH METHODOLOGY
TOTAL AREA ....••. :
RAINFALL TYPE .... :
PRECIPITATION .... :
TIME INTERVAL ...• :
0.11 Acres
TYPElA
2.00 inches
10.00 min
ABSTRACTION COEFF: 0.20
BASEFLOWS:
AREA .. :
CN .... :
TC ..•. :
o.oo cfs
PERV
0.11 Acres
81.00
13.00 min
TcReach -Sheet L: 130.00 ns:0.1500 p2yr: 2.00 s:0.0300
PEAK RATE: 0.01 cfs VOL: 0.01 Ac-ft TIME: 480 min
IMP
0.36 Acres
98.00
5.00 min
IMP
0.10 Acres
98,00
5.00 min
IMP
0.00 Acres
0.00
0.00 min
1/19/07 10:25:8 am Shareware Release
HOUVENER SHORT PLAT
page 1
========================----=--======-===--------=--=-====-----~=====
BASIN ID: DEV
SBUH METHODOLOGY
TOTAL AREA •...... :
RAINFALL TYPE ..•. :
PRECIPITATION ..•. :
TIME INTERVAL .... :
BASIN SUMMARY
NAME: lOYR 24HR
0.62 Acres
TYPElA
2.90 inches
10.00 min
BASEFLOWS:
AREA •• :
CN ..... :
TC •••• :
0.00 cfs
PERV
0.26 Acres
86.00
5.00 min
ABSTRACTION COEFF: 0.20
TcReach -Sheet L: 130.00
PEAK RATE: 0.31 cfs VOL:
ns:0.1500 p2yr: 2.00 s:0.0300
0.11 Ac-ft TIME: 480 min
BASIN ID: Pl NAME: lOYR 24HR
SBUH METHODOLOGY
TOTAL AREA ...••.. : 0.51 Acres BASEFLOWS: 0.00 cfs
RAINFALL TYPE ..•. : TYPElA PERV
PRECIPITATION .•.• : 2.90 inches AREA .. : 0.41 Acres
TIME INTERVAL .... : 10.00 min CN ..... : 81.00
TC ..... : 18.82 min
ABSTRACTION COEFF: 0.20
TcReach -Sheet L: 250.00
PEAK RATE: 0.14 cfs VOL:
ns:0.1500 p2yr: 2.00 s:0.0440
0.06 Ac-ft TIME: 480 min
BASIN ID: P2 NAME: lOYR 24HR
SBUH METHODOLOGY
TOTAL AREA ....•.. : 0,11 Acres BASEFLOWS: 0.00 cfs
RAINFALL TYPE ..•• : TYPElA PERV
PRECIPITATION •.•. : 2.90 inches AREA .• : 0.11 Acres
TIME INTERVAL .... : 10.00 min CN ..... : 81.00
TC .... : 13.00 min
ABSTRACTION COEFF: 0.20
TcReach -Sheet L: 130.00 ns:0.1500 p2yr: 2.00 s:0.0300
PEAK RATE: 0.02 cfs VOL: 0.01 Ac-ft TIME: 480 min
IMP
0.36 Acres
98.00
5.00 min
IMP
0.10 Acres
98.00
5.00 min
IMP
0.00 Acres
0.00
0.00 min
1/19/07 10:23:45 am Shareware Release
HOUVENER SHORT PLAT
page 1
==================-======================---=---====;================
BASIN ID: DEV
SBUH METHODOLOGY
TOTAL AREA ....... :
RAINFALL TYPE .... :
PRECIPITATION .... :
TIME INTERVAL .... :
BASIN SUMMARY
NAME: lOOYR 24HR
0.62 Acres
TYPElA
3.90 inches
10.00 min
BASEFLOWS:
AREA .. :
CN •.... :
TC .•.. :
0.00 cfs
PERV
0.26 Acres
86 .00
5.00 min
ABSTRACTION COEFF: 0.20
TcReach -Sheet L: 130.00
PEAK RATE: 0.44 cfs VOL:
ns:0.1500 p2yr: 2.00 s:0.0300
0.16 Ac-ft TIME: 480 min
BASIN ID: Pl
SBUH METHODOLOGY
TOTAL AREA .•...•. :
RAINFALL TYPE .... :
PRECIPITATION .... :
TIME INTERVAL .... :
NAME: lOOYR 24HR
0.51 Acres
TYPElA
3.90 inches
10.00 min
BASEFLOWS:
AREA .. :
CN •••• :
TC ••.• :
0.00 cfs
PERV
0.41 Acres
81.00
18.82 min
ABSTRACTION COEFF: 0.20
TcReach -Sheet L: 250.00
PEAK RATE: 0.23 cfs VOL:
ns:0.1500 p2yr: 2.00 s:0.0440
0.10 Ac-ft TIME: 480 min
BASIN ID: P2 NAME: lOOYR 24HR
SBUH METHODOLOGY
TOTAL AREA ..•.... : 0.11 Acres BASEFLOWS: 0.00 cfs
RAINFALL TYPE .... : TYPElA PERV
PRECIPITATION .... : 3.90 inches AREA .. : 0.11 Acres
TIME INTERVAL .... : 10.00 min CN ..•. : 81.00
TC .... : 13.00 min
ABSTRACTION COEFF: 0.20
TcReach -Sheet L: 130.00 ns:0.1500 p2yr: 2.00 s:0.0300
PEAK RATE: 0.04 cfs VOL: 0.02 Ac-ft TIME: 480 min
IMP
0.36 Acres
98.00
5.00 min
IMP
0.10 Acres
98.00
5.00 min
IMP o.oo Acres
0.00
0.00 min
Section V. Conveyance System Analysis and Design
I
le
I
I
I
I
I
I
I
·-I
I
I
I
I
I
I
I
II
V. Conveyance System Analysis and Design
The stormwater conveyance system for this project is limited to the roof downspout
collection system and short section (two pipe runs) of offsite stonn drain to be
constructed in Morris Ave. South. The low flows anticipated do not warrant an extensive
analysis. The following analysis uses the Rational method to conservatively estimate
I OOyr. peak flows and the proposed pipes are evaluated for full flow capacity relative to
the entire contributing basin.
Rational Method Check
Due to the small size of the contributing basin, the post-developed 1 OOyr. flow rate will
be calculated using the rational method. To simplify this analysis, the lOOyr. flow for the
entire basin will be compared to most restrictive pipe runs to demonstrate capacity.
Q=CIA
A = 0.62 acres
C = (0.26} (0.25} + (0.36} (0.90}
0.62
I= (P10o)(iR)
Tc= 10 minutes (assumed)
= 0.63
(-0.63)
P 100 -3 .90 inches
(-bR)
iR = (aR) (Tc) = (2.61)(10) = 0.61
I= (3.90) (0.61) = 2.38
Qtoo = (0.61) (2.38)(0.62) = 0.90 cfs.
Minimum design slope-12" pipe= 0.50% (CBI to Ex.) n = 0.012
Per Manning's eq.: Qru11 = 2.73 cfs. > 0.90cfs. OK
Minimum design slope-6" pipe= 4.20 % ( YD4 to YDl), n = 0.012
Per Manning's eq. : Q1u11 = 1.25 cfs. > 0.90 cfs. OK
3.2.1 RATIONALMETHOD
General Land Covers Single Family Residential Areas·
Land Cover· C Land Cover Density C
Dense forest 0.10 0.20 DU/GA (1 unit per 5 ac.) 0.17
Light forest 0.15 0.40 DU/GA (1 unit per 2.5 ac.) 0.20
Pasture ~ 0.80 DU/GA (1 unit per 1.25 ac.) 0.27
Lawns 5 1.00 DU/GA 0.30
Playgrounds 030 1.SODU/GA 0.33
Gravel areas 0.80 2.00 DU/GA 0.36
Pavement and roofs I 0.90 I 2.50 DU/GA 0.39
Open water (pond, 3.00 DU/GA 0.42 1.00
lakes, wetiands) 3.50 DU/GA 0.45
4.00 DU/GA 0.48
4.50 DU/GA 0.51
5.00 DU/GA 0.54
5.50 DU/GA 0.57
6.00 DU/GA 0.60
Based on average 2,500 square feet per lot of impervious coverage.
For combinations of land covers ljsted above, an area-weighted "CcCx A," sum should be computed based on the
equation C.-x A,= (C, x A,)+ (C2 x A2 ) + ... +(C. x A.). where A,= (A 1 + A2 + ... +A.), the total drainage basin area.
Design Storm Return Frequency aR
2 years 1.58
5 years 2.33
10 years 2.44
25 years 2.66
50 years 2.75
100 years 2.61
. --"£~::i~\7r·.,-.. .. . ·
TABLE 3.2.I;C J:_. V AL~R T, USING THE RATIONAL METHOD ·
'-":l''l"t'Cie:f~c
Land Cover Category
Forest with heavy ground litter and meadow
Fallow or minimum tillage cultivation
Short grass pasture and lawns
Nearly bare ground
Grassed waterway
Paved area (sheet flow) and shallow gutter flow
1998 Surface Water Design Manual
3.13
2.5
4.7
7.0
10.1
15.0
20.0
bR
0.58
0.63
0.64
0.65
0.65
0.63
9/1198
Section VI. Special Reports and Studies
01/12/2007 10:47 3606536852
January 9, 2007
Project No. KEOS874A
Mr. Paul Houvener
100 2• Avenue South
Edmonds, Washington 98020
Subject: Geotecimical Evaluation
1719 Morris Avenue South
Renton. Washington
Mr. Houvener:
LPNW
This letter-report p,:esems the resullS of Associated Earth Scie:oces, Inc. 's (AESl's) subsurface
e;11ploralion and geot.echnical assessment for the property located at 1719 Morris Avenue South
in Renton, Washington (Figure 1). The approximate locations of the explorations
accomplished for this study ar:e p(eSC!lted on the Site and Exploration Plan, Figure 2. If any
changes in the nature, design, or location of the structure are planned, the conclusions and
recommendations in this letter-report should be reviewed and modified, or verified, as
necessary.
The purpose of this evaluation was to provide subsurface data and design recommendations for
the on-site infiltration of stonn water and g,:neral geotec:hnical recommendations reguding site
development. This evaluation included a review of available geologic: literature, excavation of
exploration pits, drilliDg hand-auger borings, and performing geologic studies 10 assess the
type, thickness, distribution and physical properties of the subsurface sediments and shallow
ground water conditions. A previous report prepared by AESI, dated January 27, 2006,
addressed !he poumtilll Coal Mine Hazard for the subject site.
Written authoruation to proceed with this evaluation was granted by Mr. Paul Houvener. Our
study was accomplished in general accordance with Olll' proposal dated August 7, 2006. This
letter-report bas been prepared for the exclusive use of Mr. Paul Houvener and his agents for
specific application to this project. Within the limitations of scope, schedule, and budget, our
services have been performed in accordance with generally accepa:d geotecbnical engineering
and engineeting geology praclic:es in effect in Ibis ue:a at lhe time our report was prepared.
No other wauauty, express or Implied, is made. Olll' observations, fiudings, and opinions are
a means to ideJJ.tify and n:duce the inherent risks to tbe owner.
JCidd>,,dOflia,•,11 Rlil>Aw,-,Suioc lOO •Klddand, WA !l80'3•PI (42.S) IIZl-7/UI • Fl (US)827,SU4
E,amOllia,•2911112 Howia.-.-Soirz:Z•S-,,,WA 9112111 •PI (US)2S!M)522• Fl (<US) 252-3408
.... a <Din
PAGE 02
01/12/2007 10:47 3606536852 LPNW
PROJECT AND SITE DESCRIPTION
This lctteT-report was completed with an understanding of the project based on our discussions
with Mr. Larry Deishef of Landplaning Northwest. Present plans call for the development of
several single-family, residential building lobi on the 0.6-acre parcel. The parcel is currently
occupied by three structures im:luding a house:, detached garage, and an accessory dwelling
u.uit. The parce.l is covered with landscape vegetation and grass. Total elevation change
across the property was on the order of 4 feet.
SUBSURFACE EXPLORATION
Our field srudy included ex.cavaliltg three exploration pits and drilliog three band-auger
borings to gain infonnation about the site. The various types of sed.imeots, as weU as the
depths where characreristics of the sediments changed, are indicated on the exploration logs
attached to this letter-report. The depths indicated on the logs where conditions changed may
represent gradational variatioDS between sediment types.
The conclusions and recommendations presented in this letter-report are based on the six
subsurface explorations completc:d for this evaluation. The number, locations, and depths of
the e.xplor111ions were completed within site and budgetary constraints. Because of the nature
of exploratory work below ground, extrapolation of subsurface conditions beyond field
explorations is necessary. Differing subsurface conditions may sometimes be present due to
the random nature of deposition and the alteration of topography by past grading and/or filling.
The oawrc and extent of any variatioGS between the field Cllplorations may not become fully
evident until construction. If variations are obsei:ved at that time, it may be necessary to re-
evaluate specific recommendations in this report and make appropriate changes.
Exploration pits were excavated with a tractor-mounted backhoe. The pits permitted direct,
visual observation of subsurface conditions. Materials encountered in the exploration pits were
studied and classified in the field by a geologist from our firm_ Disturbed soil samples were
selected from the pits, placed in moisture-tight containers, and transported to our laboratory
for further visual classification and testing. Testing was limited to visual-manual classification
of the collected samples in general accordance with American Society for Testing and
Materials (ASTM) standard practices. After logging the exposed soils, all exploration pits
were bacldUled with the excavated soil 1111d lightly tamped with the backhoe bucket.
The exploration borings were completed by advancing a 4-incb-diameter, stainless steel hand
auger. During drilling, samples were obtained at each change in soil type. Due to the density
of the soil and presence of gravel, hand-auger exploration depths were limited to 3 feet or less.
The borings were conliuullUSIY observed and logged by a geologist from our firm.
2
PAGE 03
01/12/2007 10:47 3606536852 LPNW
SUBSURFACE CONDITIONS
Subsurface conditiODS on the parcel were inferred from the subsurface ~lol"3.tioos
accomplished for this study, visual recollllllissance of the site, and review of applicable
geologic literature. As shown on the exploration logs, the subsurface explorations generally
cru:ounten:d dense, fine sand with gravel overlying weathered bedrock. Some of the soil
overlying the weathered bedrock is interpreted as fill. The following section presents more
derailed subsudace infonnation org•ui:rm from the .~hallowest (youngest) to the deepest
(oldest) ft'dimem types.
Fill soils (not naturally placed) were encountered in exploration pill! EP-1, EP-2, and EP-3.
The fill l'3.llged in thickness from 2 to 5 feet. As noted on the exploration logs, the fill
typically consisted of dense, dry, tm to brown, fine sand and silt with trace gravel and cobble_
Some of the material interpreted as fill may be disturbed, natural soils derived from weathering
of the underlying bedrock. Fill/disllu:bed soil should also be expected elsewhere on the site,
particularly adjacent to existing buildings, buried utilities, aud driveway/landscape afeas.
These materials appear to vary in both quality and depth across the site_ Since the quality,
thickness, and compaction of the fill materials is low or variable, the fill is comidered
umuitable for strucrural support without proper compaction.
Natural soils beneath the fill materials, and at the surface where fill materials were absent,
consisted for the most part of weathered bedrock. The weathered bedrock generally consisted
of dense, slightly moist, orange-brown, fine sand witb silt and trace gravel. These materials
are considered rcgolilh, which is rock weathered to such an extent that it behaves like soil but
maintains some features of the parent bedrock, such as bedding planes. This material is
suitable for the support of foundations and pavements.
Bedrock was em:ountered within exploration pit EP-1. The bedrock was encountered at a
depth of approximately 8 feet below the existing site grade and typically consisted of soft,
m.oderarely weathered, orange-tan sa11dstone with some smtification (bedding). The bedroc.lc
is interpreted to repxesent tbe Renton Formation.
We also r«:Viewed the publication Geologic Map of the Rnuon Quadrangle, King ColllllJi,
Washington, by D.R. Mullineaux, dilled 1965. This publication shows the site is underlain by
bedrock of the Tertiaty-age Renton Formation. Our findings are in generally agreement with
those presented in the above-referenced map.
Ground water seepage was not cna.mntered in any of the explorations we completed at the time
of our field srudy in August 2006. Seepage may occur at random depths and localiom in
unsupervised or non-uniform fills_ Fluctuations in tbe level of the ground water may also
occur due to variations in the amount of precipitation and changes in site development-
3
PAGE 04
01/12/2007 10:47 3606536852 LPNW
INFILTRATION EVALUATION
Based on visual observation and our past experience, we evaluated the soils observed within
our subsurface exploraiions for !heir potential to infiltrate storm water. Due to their relative
high density, line-grained narure, and lb.e occurrence of bedrock at relatively shallow dep!hs,
in our opinion, the on-site infiltration of project-geoerat.ed storm water at this sile is not
feasible.
GEOTECHNICAL EVALUATION
Our exploration indicates that, fi'om a geotecbnical standpoint, the parcel is suitable for the
proposed development. The bearing stratum is relatively shallow and spread footing
foundations may be utilized. Foundations bearing on the weathered bedrock or bedroclc are
capable of providing suitable buildin& support. In order to allow foundations to be placed upon
recompacted fill soils, AES[ would have to evaluate foundati011 subgrade soil cond.itiona at the
time the foundalio1111 are excavated.
Existing foundations on the site that are under building areas or not part of future plans should
be removed and disposed of off-site. Any buried utilities should be removed or relocated if
they are under building areas. The resulting depressions should be backfilled with structural
fill.
Site preparation of planned buildiog and road/parking areas should include removal of all trees,
brush, debris, and any other deleierious mat.erial. Additionally, the upper, organic topsoil
should be removed and the remaining roots grubbed. Areas where loose, surficial soils exist
due to grubbing operations should be removed down to firm and unyielding soil then brought
back to desired grade with structural fiU.
Spread footings may be used for building support when founded either directly on the dense,
weathered bedroclc or bedrock, or on structural fill placed over these malerials. For footings
founded directly upon the dense native soils/bedrock, or on structural fiU we reconunend that
an allowable bearing pressure of 2,500 poullds per square foot (psf) be used for design
purposes, includiog both dead and live loads. An increase of one-third may be used for short-
term wind or seismic loading.
Ju S1lllllllaIY, our geotechuical evaluation or the site indicates that the proposed project is
feasible from a gemecbnical standpoint, but on-site infiltration of project-generated storm water
is not recommended. This evaluation is preliminary in nature in that plans filr the projed have
not been finalized. We recommeod that ASEi be allowed to ,:eview the project plans once they
have been completed to docwnent that our geotecbnical rewmnzndations have been
inco(porated or to provide additional recommendations, as appropriate.
4
PAGE 05
01/12/2007 10:47 3606536852 LPNW
We have enjoyed working with you on this project. Should you have any questiom regarding
this letter or other geotechnical aspectS of the site, please call us at your earliest convenience.
Sincerely.
ASSOCIATED EARTH SCIENCES, INC.
Kirkland, Wasllingtoa
Jon N. Sondergaard, P.O., P.E.G.
Principal Engineering Geologist
Attachments: Figure I: Vicinity Map
Figure 2: Site and Exploration Plan
Exploration Logs
cc: Land Plannillg Northwest
100 z..i Avenue South, #170
Edmonds, Washington 98020
AUD: Mr. Larry Deisher -Dmll""-'
Pl.+m;ucmGIM\G\WP
5
Matthew A. Miller, P.E.
Associate Engineer
PAGE 06
01/12/2007 10:47 3606536852 LPNW PAGE 07
.; ~ !
' ,; • V Ill !
V .. .,, Ill .. w • ~ • z<: .. .. .. [I C • z .. • • • • Im • ,c
......... J,llllll \'IIIMW _,_ •i:•
01/12/2007 10:47
I •
3606536852 LPNW
SITE AND EXPLORATION PLAN
HOUVENER RENTON
RENTON, WASHINGTON
PAGE
N
A
FIGURE 2
DATE 1/07
PROJ. NO KE05874A
08
01/12/2007 10:47 3606536852 LPNW PAGE 09
~
LOG OF EXPLORATION PIT NO. EP-1
g This loll Is pall of 111" •=-= i!J A•ocl-E-Solenceo, Inc. (Al/:.Q rw lho no~~ and ollould IHI -" ,_ =::' 11111 ~ lnlelpArlatlon. lJ:le summ,~ only to~ lo on llllo tntnch ,t the i tlrM of n. S.blurfaoo a may cllan119 at l is loal""1 tho -time. The dala presenlad an,
Q a simp-of adual candlllono enoounleNd.
DESCRIPTION
FIii
1 -
Dernie, dry, light orange tennfsh brown, fine SAND end SILT, tmoe gravel, trace cobble~; f.w roots.
2 -
3 -
4 -
5 Weatller9d Bedrock (Ragollth)
6 -
Dense, slightly moist, omnge.bmwn, fine SAND with slit, trace gravel; highly oxidiZed, moWed
texture.
7 -
8 Bedrock
9 -
-en, modelllll,ly weathered, orangish tan. SANDSTONE, some stratification of more oxidized
aler1al and omanic-rich l=er.1 sllohtlv mot!led texture with oxidaUon. trace ara""'s.
10 -
11 -
12 -
13 -
14 -
15 -
18 -
17 -
18 -
19 -
BottDm of up-pit •• deplll 8.5 leel No-·· No ....tng.
Houvener Renton
Renton, WA
r
Loggod by: ALO
APIJl')vod by:
Aseodated Earth Sciences. Inc. Project No. KE06874A
8124106
01/12/2007 10:47 3606536852 LPNW PAGE 10
ft .,
f
i ;
i
~
LOG OF EXPLORATION PIT NO. EP-2
g
i Thll log ii """ ol lhe '"""" -= Alo. I .... Ellllh s_c:1 ...... Inc. (AESI) fur U,9 ~rafo<;( and should be reod 11!9effier wfl!, llud Jll!>I!" foi oo III lnlll'll(lllalto. Thl8 oummuy -Mi), to lho of !his lnlni:11 at 111• tme of =:':qr,· Sublurfam ns may i::hlnge 11 thffl location with 'the passage gf Ume, Tl'la date P'N8nted 111n1 u•,,p1 OfOduolcondllooum:01111-.
DESCRIPTION
FIii
Dense, dry, light orange tannlsh brown, fine SAND and SILT, trace gravels; few root,;. 1 -
2 -
3 +------------,,w.,,..,=-==Bed=ccm:-c:.:k-;("'Reg,:-c--o-.,li"th"'I-----------
Vary den1e, slfghdy moist, orange-brown, fine SAND and SILT to SILT and fin" SAND, little cisy,
highly OJddW!d, mottled texture. 4 -
5
6 -Bottom of ""111.nllon pH at dtplh s feet
No saopage. Na coving.
7 -
8 -
9 -
10 •
11 -
12 -
13 •
14 -
15 -
16 -
17 -
18 -
19 -
~t,y; ALO
App-by:
Houvanar Renton
Renton, WA
Assuciated E.irth Sciences, Inc. Project No. KE0587 4A
8124106
PAGE 11
01/12/2007 10:47 3606536852 LPNW
1 -
LOG OF EXPLORATION PIT NO. EP-3
This leg lo part of lho ra,::J.fl"""'"" l!Y l\11oclalad E8'1ti Sdenooo, Inc. (I\ESI) far the "'"""' oroloct and lllauld ll<II
-d 11!9'1ffior wilh -11 far-~ion. Thia ••mmory a1>1>IIN only to the lcc:allon al 1~19 trench II the time of ucavallon. Subaurf&Q!I wndiflonl may c;ttange at this Jocallon with-the pu1ll9e Of timD. The d.ilt. pm19nted a,v
a 1lmplficati:;:1 Gf acu.,af cnndlions encounterid,
DESCRIPTION
FIii
Oense. dry, slighHy orange tannlsh brown, fine to medium SAND and SILT, trace gravel; few roots,
sllghUy oxidized.
2 -+-------------..W~eatllared-,.,-~Bed~~roc~k~(=Reg-o"'llth,,,..,.)-----------
Very dense, sfightlY moist, orange-brown, nne SAND and SILT to SIL Tand fine SAND, ll!Ue clay,
3 -
4 -
5 -
6 -
7 -
8 -
9 -
10 -
11 -
12 -
13 -
14 -
15 -
16 -
17 -
16 -
19 -
lrace gravels; slight elralification with oxide~on, mottled te)((ura.
Bollom of uplo,otion pll III doplh 3.5 feet
Nosaepage. NoC1Mng.
ij--==-----------------------
" Houvener Renton J Renton, WA
j
Ii Lonod 1!7; AI.D
--by;
Associated Earth Sciences, Inc. Project No. KE05874A
8/24/08
Associated Earth Sciences, Inc.
January 27, 2006
Project No. KE05874A
Mr. Paul Houvener
c/o Land Planning Northwest
100 2"" A venue ,
Edmonds, Washington 98020
111 ~ [I;] ~ lm1
Cefefui~ 2.51fears of Seroit:e
Attention: Mr. Larry Deisher, P.E.
Subject: Coal Mine Hazard Assessment
1719 Morris Avenue
Renton, Washington
Dear Mr. Deisher:
Associated Earth Sciences, Inc. (AESD is pleased to provide this letter-report presenting the
results of our coal mine hazard assessment for the above-referenced site. Authorization to
proceed with this study was granted by Mr. Larry Deisher. Our study was based on our visit
to the site and accomplished in general accordance with our scope of work letter dated
November 21, 2005. This letter-report has been prepared for the exclusive use of the Mr. Paul
Houvener, Land Planning Northwest, and their agents for specific application to this project.
Within the limitations of scope, schedule, and budget, our services have been performed in
accordance with generally accepted geotechnical engineering and engineering geology practices
in effect in this area at the time our letter-report was prepared. No other warranty, express or
implied, is made. It must be understood that no recommendations or engineering design can
yield a guarantee of stable ground or Jack of future settlement or subsidence. Our
observations, findings, and opinions are a means to identify and reduce the inherent risks to the
owner.
INTRODUCTION
The proposed project involves subdividing the ex1stmg approximately 0.6-acre parcel for
residential redevelopment. The property is located south of the city of Renton on a hill just
south of Interstate 405 and east of State Highway 167 (Figure 1). The property is currently
occupied by two houses, one built in 1901 and one built in 1912, and a few associated
Klddarul Oflia, • 911 Blih.Avenue, Suite 100 • Kiddand, WA 98033 •PI (425) 827-7701 •FI (425) 827-5424
&...rt Office • 2911 1/2 HewittAvorue, Suite 2 • Everett, WA 98201 • P I (425) 259-0522 • F I (425) 252-3408
wwwaesgco.com
I
outbuildings. The subject lot is relatively flat and generally cleared of trees. The property is
bordered by other single-family residences to the north, south, and west, and by Morris
A venue South to the east.
The areas to the south and east of the city of Renton are known to have been mined for coal in
the past. Coal was first discovered in the Renton area in about 1853, with mining occurring at
various scales thereafter into the early 1900s. The main coal mine in Renton was the Renton
Mine located east of the subject property in Section 20. However, other smaller mines were
located south of the city in Section 19, in the vicinity of the subject property. The coal seams
are found within the Tertiary age Renton Formation sandstone.
DOCUMENT REVIEW
AESI reviewed the following documents during preparation of this letter-report:
1. Evans, G.W., 1912, The Coal Fields of King County, published by the Washington
Geological Survey, Bulletin 3.
2. Schasse, H.W., et al., 1983, Directory and Users Guide to the Washington State Coal
Mine Map Collection, published by the Washington State Department of Natural
Resources, Division of Geology and Earth Resources.
3. Livingston, V.E., 1971, Geology and Mineral Resources of King County, Washington,
published by the Washington State Department of Natural Resources, Division of Mines
and Geology.
4. Mine Map K32(A), Renton Mine, Renton Coal Company, 1920, shows old Talbot Mine,
Sunbeam Mine and Patton Mine, Washington State Coal Mine Map Collection,
Washington State Department of Natural Resources, Division of Geology and Earth
Resources.
5. Bagley, C., 1929, History of Coal Mining in Washington, in the Breathless Moon, The
Burgess Legacy Genealogy Project.
6. Mullineaux, D.R., 1965, Geologic Map of the Renton Quadrangle, King County,
Washington, United States Geological Survey GQ 405.
Review of the above-referenced documents indicates that the subject property is underlain by
the Old Patton Mine (Figure 2). The Patton Mine was opened in 1872 when a slope was
excavated down one of the Renton coal beds. There were three main coal seams in the Renton
area, the No. l, No. 2, and No. 3. The No. 1 was approximately 17 feet thick, the No. 2
about 13 feet thick, and the No. 3 about 11 feet thick. In the vicinity of the subject site, the
coal seams were gently inclined to the south-southeast at a dip of approximately 7 to 10
2
degrees. Apparently only two levels were worked in this mine. Little information is available
regarding the Patton Mine and its workings.
COAL MINE HAZARD ASSESSMENT
Title 4, Chapter 3, Section 4-3-050(J)(l)(e) of the Renton Municipal Code (RMC) defmes coal
mine hazards within the city of Renton. The coal mine hazards are subdivided into three
categories defined as follows:
Low Coal Mine Hazards (CL): Areas with no know mine workings and no predicted
subsidence.
Medium Coal Mine Hazards (CM): Areas where mine workings are deeper than 200 feet
for steeply dipping seams or deeper than 15 times the thickness of the seam or workings for
gently dipping seams. These areas may be affected by subsidence.
High Coal Mine Hazards (CH): Areas with abandoned and improperly sealed mine
openings and areas underlain by mine workings shallower than 200 feet in depth for steeply
dipping seams or shallower than 15 times the thickness of the seam or workings for gently
dipping seams. These areas may be affected by collapse or other subsidence.
The records for the Patton Mine are scarce and details of the workings are unknown. The coal
mine map (K32) referenced above shows the outline of the mine workings, but does not
provide any elevations for the slopes, gangways, or seams. The location of the mine, as
shown on Figure 2, may also not be quite accurate due to the difference between survey datum
used when the map was made and present day. Based on the site topography, it may be that
the entrance to the mine was north of where it is plotted, on the slope where outcropping seams
would have been more evident. However, with the low dip angle (7 to 10 degrees) of the
seams in this area, the subject property would still be underlain by the workings even if the
entry was actually north of where it is plotted. The maps and records do show that the main
entry to the mine was a slope, which typically means the workings entered directly onto the
seam and drove down the dip of the seam before mining gangways along the strike of the
seam.
The records also do not indicate which seam of the Renton Coal Beds was being mined at the
Patton Mine. Assuming that the shallowest seam (No. I) was worked, then applying the 15
times rule to the thickness of the seam (17 feet) would result in a depth of 255 feet. Since the
topographic relief between the subject site and the base of the slope to the north is only about
100 feet, it seems likely that the mine workings are within a depth of 255 feet from the surface
since the entry was a slope located on the seam that outcropped on the hillside to the north.
Based on this criterion, the vicinity of the subject property would be classified as a High Coal
Mine Hazard Area according to the RMC.
3
During our field reconnaissance of the subject property, we did not identify any surface
features indicative of mine openings, settlement, or subsidence. We also did not observe
obvious indications of these types of features on surrounding streets or property. Although,
based on the low dip angle of the seams, it is likely that the workings occur at relatively
shallow depth beneath the site, the age of the workings (late 1800s) suggests that if the mine
was prone to subsidence manifested by surface settlement, such settlement would have
occurred by the present time.
COAL MINE HAZARD MITIGATION
In our opinion, the proposed development will not increase the threat of settlement or
subsidence on the adjacent properties beyond pre-development conditions, will not adversely
impact other critical areas, and the proposed development can be safely accommodated on the
site. To mitigate for potential future mine-related settlement or subsidence, we recommend
that all building foundations consist of continuous strip footings with no isolated column or pad
footings. It must be understood that, unless the abandoned mine workings are properly closed
and filled, there will always be some risk of mine-related settlement or subsidence at the site.
Sincerely,
ASSOCIATED EARTH SCIENCES, INC.
Kirkland, Washington
Jon N. Sondergaard, P.G., P.E.G.
Principal Engineering Geologist
Attachments: Figure 1: Vicinity Map
Matthew A. Miller, P.E.
Associate Engineer
Figure 2: Approximate Location of the Patton Mine
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RENTON, WASHINGTON
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DATE 1/06
PROJ. NO. KE05874A
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Section VII. Basin and Community Planning Areas
!I/A
I
Section VIII. Other Permits
Section IX. Erosion / Sedimentation Control Design
IX. Erosion I Sedimentation Control Design
There are no onsite roads or frontage improvements associated with this project. The
three new lots may be improved by a single developer or multiple developers. The total
onsite grading quantities are anticipated to be less than 500 cubic yards. Consequently,
the need for erosion control measures are minimal and will most likely be applied
individually to each lot. Standard erosion I sedimentation control BMP's will be
employed in conformance with Core Requirement # 5 as follows :
( 1) Clearing Limits: It is anticipated that the new lots may be entirely cleared as there
are no critical areas onsite. Some trees and other existing vegetation may be
selectively retained depending on the individual plot plans. The minimal grading
necessary to improve the lots will not occur closer than two feet to the property
lines in accordance with UBC.
(2) Cover Measures: Temporary and permanent cover measures are identified on the
plans. The timing for implementation will be subject to City of Renton standards
or in conformance the minimum requirements listed on the plans.
(3) Perimeter Protection: Perimeter protection in the form of silt fencing will be
applied to the down-slope limits of the disturbed area of the lots. These will be
placed along the property lines or immediately up-slope of vegetated areas to be
retained.
( 4) Traffic Area Stabilization: There may be multiple entry points for construction
activities coinciding with the permanent lot entries. Full size gravel construction
entrances may not be possible or warranted. It is anticipated that the extent of
stabilization required will be subject to the direction of the City inspector and also
dependant on the time of year that construction occurs. Minimum stabilization
measures ( as required) are listed on the plans.
(5) Sediment Retention: The limited area(s) of disturbance and grading does not
appear to warrant the need for sediment traps, especially of construction occurs
during the dry season. CB inserts are recommended and specified on the plans.
(6) Surface Water Controls: All surface water control will be provided by the
perimeter protection noted above.
(7) Dust Control: It is not anticipated that dust control will be a factor on this project.
Minimum dust control measures (as needed) are listed on the plans.
(8) Wet Season Construction: Wet season construction limitations and requirements
shall be in accordance with City of Renton requirements.
(9) Construction Within Sensitive Areas and Buffers: Not applicable to this project.
(10&1 l) Maintenance & Final Stabilization: Notes pertaining to maintenance of
TESC measures and final stabilization arc provided on the plans.
Section X. Bond Quantities Worksheet
®
ICiq Couaty l)epartPHld of Dffelopamt amt Eatiro1111H111t&I Slrritfa
3600 136th P!aco SouthCUI
Belle.we, Wubiagton 98006-1<400
Project Name; j/c,ov' e.,-1 ;;!,p, 5;/o,e.,'(' ?£-.l'lr SIERRA Project No.: /V /,,, Date: ------
Location: C:,:f'f e:.z;:::::· ,(:Bi,ua/ --Sierra Activity No. ~~~,_!J'J~~----
-· = -l .~ '/ 1,, k ,, I 11
F:OR ~TIRE Pflci:J~C'f'':}
.t~\.::"' '·:,'..::.; :.
;Q441ntlty,.,:>: /'.~rl~:?
EROSION/SEDIMENT CONTROL --
Fenoe, •HI I 1.30 LV l /00 l /'3Q
HydroHllding ·"° SY
Jut• Mti•h 1.00 SY
Mulch, by hand, straw, 2· deep ••• sv I 5i:¥? I l1C'
Mulch, by machine, straw, 1 • deep ·"° sv
Rook Con,tt Entranc•, 60' JC 15' • 1' 1,030.00 .... I / T 10.10
RoDlc. Constr Entranc•. 100' x 15' IC 1' 1,800.00 E,oh
Seeding. 1:iy hand .3' sv
ESC SUBTOTAL
CIHr/R1move Bru•h~-~ hand .24 sv
SUBTOTAL FOfl.PN.U"
ci~<:i{" ,,,~'-J":t,··
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1
·._Jf~~{P£_ir_Jt_,f_,_,_. f'c,a,,.cuel:'T',;;-.. '""i,,~J!!l:t2\tw.~;!l},,·L
I'' ,h:·u"' ·"'
9l~E'RAL ITEMS jCo~:Ll_
c1 ... rt-1GNbbrna/Remov,1 1, ...
Exo.vatlon -bulk
Excavation -tranch
S.ckfiN & Co-"aotion • embankment
Backfill & Comnactfon • lrt1nch
Fifi 6 Ci:,--aot -common barrow
Fill & c--aot • "raYtll bate
Filf 6 Co-·-ect • •crunl!Nl-1011
Gradin11 fine with nrllcf11r
Gradi--fine b"' hand
F11noi--cedar. 8' hfah
Fencl--oh.In llnk &' hiah
F11nclnn chain link net. :20'
Fencfnn tamnOt"arv lNGPE'I
Sod
Monumant•. 3' to-
SurveU n" lot loc11tlon/llnott
Survttvinn line & nrade
Trait 4" cfl.Jshed cinder
Trail 4" too counie
Gablon 3' 1hlck no Hrrhwotk
_wan, r•talni!!a 1 rook.a~ w/11m,hwork --
I 150.00 .. ,.
1.10 CY
MO CY <?0 oCJ
3.110 CY
5.70 CY '70 ,,41 I
' ' 11.10 CY
15.60 CY
15.40 CY
.70 SY
1.30 SY
25.00 LF
9.20 LF
880.00 ....
1.10 LF
4.82 SY
84.00 Each
830.00 ....
510,00 o-
I.SO SY
e.oo SY
97.00 SY
21,@ __ SF_
SUBTOTAL Potll'MI
c...u*"•· 12.IM4 Paga 2
NP/'t":
;, (
Sl•rra ProJ.ot No. Jw Irr __ _
,9, do z4U
"'-0 :>.>lo
7,0 '2.JO
I 70 l-:3~
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/t,JC,,, WA~, SS "1/40 <S"r~
ROAD IM_PAOVEMENTS
AC Grinding_,_ 4' machine 7.00
AC Aemov-111/0ls-posal/R~r 80.00
Ehirric!lde_,_ type Ill 30.00
B11rricltde_,_ type l 20.00
_Curb, 11xtrud11d -11sph11h 1.80
Cur~, ex!ru~&d conc,ete 1.BO
Curb & Gutter, rolled ~.30
Curl:>_ i _(i1,1n~rL ver1ic111 IS.SO
C11moli1lon/Cl1po~l~~l.lm~ru:~ 10.30
_Q~moli1ionlQ_i11po111l, 11id11w11lk 22.$0
Sawcut,.11spfudt, 3• depth 1.30
S1111wcut, concrete, per 1" depth 1.10
Sealant _,_7:9 __
Shoulder, AC, 111111 AC flo,ad
~houkter, gravel 6.4()
Sldewelk1 ,t" thick. vertical curb 20.80
~!"awalk, 5• thick, rolled curb ~3.80
~~riping, 4" reflectorized line .20
J_!!i_pl_n11,.P~'-patklng 11tt1H 2.90
Thicken~ ~dg~ -t.70
ROAD SURFACING
14" rock • 2.5 bae• & 1.5" top courul
~~ (h,eitay,_1,S• AC 5.4()
AC Owitay_._ 2" AC 6.50
SY
SY
LF
LF
LF
LF
LF
LF
LF
SY
LF
LF
LF
SY
SY
SY
SY
LF
Eeoh
LF
ID':
sy
:\oos~h\; .. , ·-::\i. FUTUR(~'.i<.:::~
~l~H!,OfiWA'(ii (RO~D@/;l!'if#XS,0
;;,yJ;>WH'lt:r.::yg::: IM~OVl!Mf~::-:n ··
.44 "'Z
4-o U?
h I '< '9
SUBTOTAL fOR PAO[
Sle•r• Project No. -------
. ·•.;;.:.•
//1#7 ;5r,,, ....
i..
/1-t::' £_4-
4c> \U-~
ii" s-ioe S.:WetUS 6 WA16.(1.. Sl!=/2-V/CJ:::.
Sierr• Proi-ct No.
Jf, <'t-t )<'·
PrfOI Oi.lentlty
AOAO SURFACING (Can't.}
AC Roed. 2" 4" rock. Rret 2500 SY 13.70 SY
AC Roed r 4" rook a-. over 2500 SY 9.10 SY
AC Road 3" -4• rock Arlt 2500 SY 16.50 SY
AC Road. 3•_ 4" rock-Qtv, O'll'er 2$00 SY 11.00 SY
AC Roed 5• Flrat 2500 SY 16,30 SY I
AC Aoed s· Qh.o, over 2500 SY 10.80 SY ~I / //l
AC Roed 6" Fin11t 2500 SY 19.10 SY ll'Y 1r·
AC Roed l!I" ON. over 2600 SY 12.70 • SY
Arhelt TrHted BHe IA. TB) I Assume 2.05 ton/avd) 30,00 Ton
Gra11.r Road 4" rock Firat 2500 SY 7 . .20 SY
Gravel Road. 4" rock Qtv, ov.r 2500 SY 4.70 SY
PCC Road 5" no bH• 14.30 SY
PC~-B.~~. 5", no ~Ill~~---11!1,SO SY
I
Q_fW_~~O_I
ICPP • ~grr~gated P1111tic Pipe, N· 12 or equlvalentl
Acee11 Ro~.L_f'UO 9.30 SY
~J11rd• -fhu1d 290.00 tM.h
Bollards -remov!!)Je ~75,00 •~•
ICBs include frame and_fu!L_ / EJ .,;·-~@ Q44',,,l"j --2"0.rl' tfAe.;./ d 1,.,,::,0
!;I Typ~ 8~,()Q -z.
~Jype/j._ 1,_000.oQ_ -ca 1'.'YP• 11, 48" ~--1,300.00 4 .. d_
Jor ~anal d'apth OWlf 4' ... ,20.00 ~ ,. dMdh
8U8TOT AL l'Oll l'AOI
CIM'4MN • 12.IIJM Page4
( (
-------------------e e
$i•rr• flfoj9ct No.------
DRAINAG!: (Con't,I --~~·---·--------·--1~~ --1 450.00 4'd••·
+-370.00 ,j,.l' donlh
CB Tvo11 !I, eo· diemeter 1.600.00 4' dee,
for .&ddilionai d"pth over 4' +410,00 + 1' daoth
ca Yvce II ?r diome,.,, 2,200.00 4' deoth
for ado\tionel dll!lpth over 4' +520.00 +i• deoth
Throu11h-c-urb Inlet Fu1rnework lAddl .225,00 E•cn
ctHnOUt PVC 4• BB.00 feeh
Cleanout P\/C. s· 11$.00 ....
C\eani::iut, PVC a-142,00 bch_
Culvert PVC 4" 4.50 LF
Culven CPP'. e:• 9.30 LI'
C1Jlvert PVC 8'" &.40 LF I I I I I ,&a jq,;4-
I I I I I I
Culvert, CMP 13" 9.50 lF
CWvert, concr•te a• 12.110 LF
C1:1lwrt CPP. 8'" 10.00 lF
CWvett PVC S" 8.00 LF
Culv•rt CMP, 12" 14,60 lF
CulV11rt. <10ncrota 1 2" 17.90 LF
Culvert. CPP l 2" 11,50 LI'
Cu1<1t1rt CMP. 1S" 18.70 LF
Cui'Vart ooncf6te 15" 22..50 LF
Cu\vtn. CPP l 5" ,a.so lF
culvert. CMP, ur 21.90 LF ----
S\JllTO"tA.l fOl\l>-._GE
l,,.fi:
I
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C art1 concret•1 1 s• 27.60 LF
Culvart1 CPP1 1 a• 21.00 LF
Culvert1 CMP 1 24• 30.30 LF
C:ulv•rt1 concrata1 24• 39.10 LF
Culvert1 CPP1 24• 29.00 LF
Culvert1 CMP1 30• 38.IO LF
Culvert1 concrete1 30• 84.70 LF
Culvert1 CMP1 36• 92..80 LF
C:ulwrt, concret•, 3g• 83,20 LF
Culv11r_t, __ C::_J'~ 36• 39.00 LF
~i,,lvart, r;::o"_i;t_ret•, _4l:_" 101,80 LF
Culvert, C:MP, 4S-80.80 LF
Culvert, concrete, 48" 113.00 LF
Cul1,ert, CMP, 6()" 112..00 LF
Culvert, concrete, ea• 154,00 LF
Ditching, t;,ara, tpadm• 5.40 CY
Flow Oiepereal Trench 1,100 bu•+ 1s·.oo LF
.fJe~h Orai_n 12.30 LF
Mid-tenk AcceH Rieu, 36• 700.00 .. oh
Pof'!d_ Ovllrflow _SpllJWav 4.70 SY
Rntriotor/Oil Sae-retor1 1.2• 785.00 ....
~111tlctorlOII Separator, 1 s· 115.00 ....
RHttlctor/Oil S-s,eretor,_1_•• 1,c,35.00 -
SUBTOTAi.
~#IH·1:IIWM
--
MUftE_::~c·.:,c::_,_, ·/.
\;;~ME.~~J);t:'.
ti . ;--A,~ ltH
Ouanth'i' Pflc.
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Page 6
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.:t1•rra Pro1acl ...... ------
=
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DRA.IN_AGl;1Con't.)
Rlpra~. pldced 28.00
Tank End Raducar 400.00
Trash Rtick,_ 12~ 160.00
Tra$h Rack, 15" 185.00
Truh Rael<.,_ 18" ;!:JO.QO
Trash Ra_c;k,__t1" 240.00
~~RKING LOT SURFA_Clr,,_g
r...A,~:L !" tO_F!_course rock & 4" aeleot borro~ 8.10
1 _ _._!j;~ IOCI courto rock & _2_._5_'."_~H CO!JIH 4,70
4~ !!lec_t ~Q_rrow 1.75
WRITE-IN ITEM& -. I Li. ,, J./ Jttf?{J--,, ""' ,,
CY
Each
Each
Each
E_ach
Each
SY
SY
SY
l'c,!!,
(~ANAf£\¥%\: }:<i/i{~
''Jl.1.PROVQAENTl·Ig\::,-, ,,-:,:g/{G: ,,
3 i!,D0
I I II W ,dg.£ )#M//c..Ji ~. ex:> /,::: /0 ,.,,,_.,,
6 '1 S1!7C' -1,
.,=; I/ C, &>,
6.,:/o I.P
I J,::, e;'fi
SUBTOTAL ISUM ALL PAGES): ------------
30'% CONTINGENCY & MOBILIZATION: -------------
TOTAL:
' <::>
-;t<Z..t:
:j' ,;,I,<;
Slerre ProJoct No.------
(Al (Bl (Cl
Quantities above w pleted by:
Signature~ Date: --------
PE Registration Numbe,: Tetephone Number: ------
Firm Name:-----------------------
Address: -----------------------
This section to be completed by King County
BONO COM PUT A TJONS:
Stabilization/Erosion Sediment Control [ESCJ
Existing Right-of-Way Improvements
Futwe Public Road Improvements
· Private Improvements
A/D Facilities and Conveyance Systems
PERFORMANCE BONO AMOUNTS
101 ___________ _
IE! ___________ _
IFI ___________ _
TOTAL Im, _________ _
PEflFORMANCE
BOND·AMOUNT
RIGHT-OF,WAV & SITE RESTORATION BONO I 1D+E! ___________ _
(Fl"t '7,500 of bond shaR be calh.J
PERFORMANCE BONO TOTAL AFTER BONO REDUCTIONS
,, ____________ _
. IT·A,B OR Ci j 12, ___________ _
13, ___________ _
Original bond computations
Si•n• Proi•ct No .•
MAINTENANCE BONO AMOUNT DEFECT SONP AMOUNT
IE+FI x 0.26 •
,c 0, 16 • ------------
Signature of Person Preparing Bond Reduction ~OTE: The word •bond~ is used to represent
any financial guarantee acceptable to
King County. prepared by: -----------Date:------
----
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''---------~~ Dote
12: ---------,.= -OaUI
13·---------= °"" NOTE: T°""--_,.,. oft•---.. --301'eldlowlglnll __ ..__., ....
ma&na.nance Md defNI .................... •hid•• .. -·
(
Section XI. Maintenance and Operations Manual
K I N G C O U NT Y, WA S H I N G T O N, S U R F A C E WA TE R D ES I G N MA N U A L
NO. 5 -CATCH BASINS
Malntenanee
Component
General
Defect
Trash & Debris
(Includes
Sediment)
Structural Damage
to Frame and/or
Top Slab
Cracks in Basin
Walla/Bottom
Settlement/
Misalignment
Fire Hazard
Vegetation
Pollution
CondlUona When Maintenance
lo Needed
Trash or debris of more than 1/2 cubic
foot which is located immediately In front
of the catch basin opening or ls blocking
capacity of basin by more than 10%.
Trash or debris (In the basin) that
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
blocking more than 1 /3 of its height.
Dead animals or vegetation that could
generate odors that would cause
complaints or dangerous gases (e.g.,
methane).
Deposits of garbage exceeding 1 cubic
foot in volume.
Corner of frame extends more than 3/4
inch past curb face into the street (if
applicable).
Top slab has holes larger than 2 square
inches or cracks wider than 1 /4 inch
~ntent Is to make sure all material Is
running into the basin).
Frame not sitting flush on top sfab, i.e.,
separation of more than 3/4 inch of the
frame from the top slab.
Cracks wider than 1 /2 inch and longer
than 3 feet, any evidence of soil particles
entering catch basin through cracks, or
maintenance person judges that structure
is unsound.
Cracks wider than 1 /2 inch and longer
than 1 foot at the joint of any inlet/outlet
pipe or any evidence of soil particles
entering catch basin through cracks.
Basin has settled more than 1 inch or has
rotated more than 2 inches out of
alignment.
Presence of chemicals such as natural
gas, oil, and gasoline.
Vegetation growing across and blocking
more than 10% of the basin opening.
Vegetation growing in inlet/outlet pipe
joints that is more than six inches tall and
less than six inches apart.
Nonflammable chemicals of more than
1/2 cubic foot per three feet of basin
length.
A-5
Reaulta E,pected
When Maintenance la Performed
No trash or debris located immediately in
front of catch basin opening.
No trash or debris in the catch basin.
Inlet and outlet pipes free of trash or
debris.
No dead animals or vegetation present
within the catch basin.
No condition present which would attract
or support the breeding of insects or
rodents.
Frame ls even with curb.
Top slab is free of holes and cracks.
Frame is sitting flush on top slab.
Basin replaced or repaired to design
standards.
No cracks more than 1/4 Inch wide at the
joint of inlet/outlet pipe.
Basin replaced or repaired to design
standards.
No flammable chemicals present.
No vegetation blocking opening to basin.
No vegetation or root growth present.
No pollution present other than surface
film.
1/90
KI N G C O U N T Y, WA S H I N G T O N, S U R FA C E WAT E R D E S I G N MA N U A L
>. 5. CATCH BASINS (Continued)
Maintenance Condition• When Maintenance
Component De!Kt lo-ed
Catch Basin Cover Cover Not in Place Cover la missing or only partially In place.
My open catch basin requires
maintenance.
Locking Mechanism cannot be opened by on•
Mechanism Not maintenance parson with proper tools.
Working Bolls Into frame have less than 1 /2 Inch
of thread.
Cover Difficult to One maintenance person cannot remove
Remove lid after applying 80 lbs. of lift; intent la
keep cover from sealing off access to
maintenance.
Ladder Ladder Aunga Ladder is unsafe due to missing runga,
Unsafe misalignment, rust, cracks, or sharp
edges.
Metal Grates Grate with opening wider than 7 /8 Inch.
(if applicable)
Trash and Debris Trash and debris that is blocking more
than 20% of grate surface.
Damaged or Grate missing or broken member(s) of
Missing the grate.
A-6
R•ulta Ex_...i
When Maintenance la Performed
Catch basin cover Is cloud.
Mechaniam opens with proper tools.
Cover can be removed by one
maintenance person.
Ladder mMls design standards and
allows maintenance person safe access.
Grate opening• meet design standards.
Grate frff of trash and debris.
Grata Is In place and meets design
standards.
1/90
K I N G C O U N T Y, WA S H I N GT O N, S U R FA C E WAT E R D ES I G N MA N U A L
NO. 10 • CONVEYANCE SYSTEMS (Pipes & Ditches)
Maintenance
Component
Pipes
Open Ditches
Catch Basins
Debris Barriers
(e.g., Trash Rack)
Defect
Sediment & Debris
Vegetation
Damaged
Trash & Debris
Sediment
Vegetation
Erosion Damage to
Slopes
Rook Uning Out of
Place or Missing (If
Applicable)
Condition• When Maintenance
la Needed
Accumulated sediment that exceeds 20%
of the diameter of the pipe.
Vegetation that reduces free movement of
water through pipes.
Protective coating is damaged; rust is
causing more than 50% deterioration to
any part of pipe.
Arty dent that decreases the cross section
area of pipe by more than 20%.
Trash and debris exceeds 1 cubic foot
per 1,000 square feet of ditch and slopes.
Accumulated sediment that exceeds 20%
of the design depth.
Vegetation that reduces free movement of
water through ditches.
See "Ponds" Standard No. 1
Maintenance person can see native soil
beneath the rock fining.
See "Catch Basins" Standard No. 5
See ~Debris Barriers" Standard No. 6
A-11
Rnultl Expected
When Maintenance Is Performed
Pipe cleaned of all sediment and debris.
All vegetation removed so water flows
freely through pipes.
Pipe repaired or replaced.
Pipe repaired or replaced.
Trash and debris cleared from dit¢les.
Ditch deaned/flushed of alt sediment and
debris so that it matches design.
Water flows freely through ditches.
See "Ponds" Standard No. 1
Replace rocks to design standard.
See "Catch Basins" Standard No. 5
See "Debris Barriers" Standard No. 6