HomeMy WebLinkAboutF_Boun Short Plat_Technical Information Report_180504
BOUN SHORT PLAT
SITE ADDRESS: 1024 Duvall Ave NE, Renton, Washington
SECTION 10/TOWNSHIP 23 NORTH, RANGE 5 EAST, W.M.
Technical Information Report
U16-006297__
Associated Permit Number
Prepared For: Warring Properties
Contact: Socheat “Kent” Khnor
845 106th Ave, Suite 200
Bellevue, WA 98003
Date Prepared: November 21, 2016
Date Revised: March 15, 2018
Prepared By: Drew T. Young, P.E.
Reviewed By: Brandon M. Loucks, P.E.
Beyler Consulting LLC
7602 Bridgeport Way W, #3D
Lakewood, WA 98499
253.301.4157
CONTACT phone: 253-301-4157
fax: 253-336-3950
info@beylerconsulting.com
beylerconsulting.com
LAKEWOOD OFFICE
5920 100th St. SW, Ste #25
Lakewood, WA 98499
ISSAQUAH OFFICE
455 Rainier Blvd N Issaquah, WA 98027
Plan. Design. Manage.
CIVIL & STRUCTURAL ENGINEERING | LAND SURVEYING | PLANNING
PROJECT MANAGEMENT | FEASIBILITY | PERMIT EXPEDITING
DEVELOPMENT ENGINEERING
IFitz-James 04/30/2018
SURFACE WATER UTILITY
krevans 05/04/2018
Page 1
Boun Short Plat
TABLE OF CONTENTS
I. PROJECT OVERVIEW ................................................................ 2
Project Description ...................................................................... 2
Figure 1. TIR Worksheet ............................................................ 4
Figure 2. Location Map .............................................................. 10
Figure 3. Drainage Basins, Subbasins, and Site Characteristics ....... 11
Figure 4. Soils Map ................................................................... 14
II. CONDITIONS AND REQUIREMENTS SUMMARY ....................... 15
III. OFFSITE ANALYSIS ................................................................ 20
3.1.1 Task 1 - Study Area Definition and Maps ......................... 20
3.1.2 Task 2 - Resource Review ............................................. 20
3.1.3 Task 3 - Field Inspection ............................................... 21
3.1.4 Task 4 - Drainage System Description and Problem
Descriptions ............................................................................. 32
3.1.5 Task 5 - Mitigation of Existing or Potential Problems .......... 32
IV. FLOW CONTROL AND WATER QUALITY FACILITY ANALYSIS
AND DESIGN ................................................................................... 33
V. CONVEYANCE SYSTEM ANALYSIS AND DESIGN ...................... 65
VI. SPECIAL REPORTS AND STUDIES ........................................... 69
VII. OTHER PERMITS ..................................................................... 69
VIII. CSWPPP ANALYSIS AND DESIGN ........................................... 69
IX. BOND QUANTITIES, FACILITY SUMMARIES, AND DECLARATION
OF COVENANT ................................................................................. 69
X. OPERATION AND MAINTENANCE MANUAL .............................. 69
XI. APPENDICES .......................................................................... 70
APPENDIX A – OFFSITE STUDY MAPS...............................................
APPENDIX B – DOWNSTREAM SYSTEM TABLE AND MAPS ...................
APPENDIX C – BOND QUANTITIES WORKSHEETS/COST DATA AND
INVENTORY ..................................................................................
APPENDIX D – GEOTECHNIAL REPORT .............................................
APPENDIX E – CSWPPP REPORT ......................................................
APPENDIX F – OPERATION AND MAINTENANCE WORKSHEETS ............
Page 2
Boun Short Plat
I. PROJECT OVERVIEW
Project Description
The proponent of the Boun Short Plat proposes to subdivide an undeveloped parcel, with the
exception of an abandoned shed building that is to be removed as part of this project, located
in the City of Renton, King County Washington. The King County parcel number for the
property is 102305-9139. The project parcel is approximately 57,677 sf, 1.32 acres in size.
The parcel is zoned Residential 8 (R-8) according to the City of Renton Zoning Map effective
as of July 1, 2015. The allowed density range in the R-8 zone is a minimum of 4.0 dwelling
units per net acre (DUA) to a maximum of 8.0 DUA. The Boun Short Plat proposes to subdivide
the current parcel into 7 single-family lots equating to a proposed density of 5.29 DUA. The
proposed lots range in size from the smallest being 5,172 sf in size and the largest being
6,553 sf in size. A single tract will be created with this subdivision for the purpose of
stormwater treatment and mitigation and open space area for the development. The
remaining area will be dedicated to the City of Renton for public right-of-way use.
The property is adjacent to Duvall Ave NE to the east, single family parcels to the south and
north, and Chelan Ave NE to the west. The proposed project is keeping consistent with
neighboring land use characteristics.
The site will be accessed through two separate access points. The first access will be an
extension of Chelan Place NE, an existing 20’ alleyway, from the south boundary to the north
boundary of the project parcel. This access way will be developed into a 12’ paved alley within
a 16’ wide right-of-way dedication which meets the current City of Renton street standards
for alleys. An additional access point to Chelan Ave NE will be provided in the east to west
direction through a 12’ paved alley within a 16’ public access and utilities easement.
Half street frontage improvements will be included along the west boundary of the project
site. Chelan Avenue NE will be improved to two separate variations of the current City of
Renton Standards for Residential Access Streets. Starting from the south boundary of the
project site, the east half of Chelan Avenue NE will be improved to provide a 15-foot travel
lane, vertical curb and gutter, an 8-foot wide planter strip, and a 5-foot wide sidewalk for
approximately 120 feet. At this point, the Residential Access Street will transition into a
Limited Residential Access Street which consists of a 20-foot paved roadway, vertical curb
and gutter, an 8-foot wide planter strip, and a 5-foot sidewalk. This road section will be
constructed north until it reaches the north boundary line of the project. To incorporate these
improvements, an 18’ right of way dedication will be necessary along a portion of the
northwest boundary of the project parcel. An 18’ wide section of right-of-way north of the
project site will not be improved as part of this project. As a condition of preliminary plat
approval (LUA16-00124), a road standards modification will be submitted concurrently with
the Utility Construction Permit to allow for the 18’ wide section of right-of-way to remain
undeveloped.
This project is subject to the 2009 King County Surface Water Design Manual (King Manual)
and the City of Renton amendments to the Manual (Renton Manual). Per Figure 1.1.2.A of the
Renton Manual, the Boun Short Plat project is subject to a full drainage review meeting core
requirements #1 through #8 and special requirements #1 through #6.
It has been determined that the site consists of two separate threshold discharges areas.
Threshold Discharge Area #1 (West Basin) consists of a majority of the project site area that
naturally discharges stormwater to the southwest corner of the parcel. Threshold Discharge
Page 3
Boun Short Plat
Area #2 (A-East Basin, B-North basin) consists of a small portion of land along the east
boundary which naturally discharges stormwater east to an existing swale within Duvall Ave
NE (TDA 2.A) and the 18’ wide panhandle section of land located north of the project site that
naturally discharges stormwater to the northwest (TDA 2.B). A drainage adjustment, per
Section 1.4 of the Renton Manual, is proposed to combine a portion of threshold discharge
area #2.A with threshold discharge area #1. See section III and IV of this report for further
details.
Page 4
Boun Short Plat
Figure 1. TIR Worksheet
KING COUNTY, WASHINGTON, SURFACE WATER DESIGN MANUAL
TECHNICAL INFORMATION REPORT (TIR) WORKSHEET
2009 Surface Water Design Manual 1/9/2009
1
Part 1 PROJECT OWNER AND
PROJECT ENGINEER Part 2 PROJECT LOCATION AND
DESCRIPTION
Project Owner ________________________
Phone ______________________________
Address ____________________________
____________________________________
Project Engineer ______________________
Company ___________________________
Phone ______________________________
Project Name _________________________
DDES Permit # ________________________
Location Township ______________
Range ________________
Section ________________
Site Address __________________________
_____________________________________
Part 3 TYPE OF PERMIT APPLICATION Part 4 OTHER REVIEWS AND PERMITS
Landuse Services
Subdivison / Short Subd. / UPD
Building Services
M/F / Commerical / SFR
Clearing and Grading
Right-of-Way Use
Other _______________________
DFW HPA
COE 404
DOE Dam Safety
FEMA Floodplain
COE Wetlands
Other ________
Shoreline
Management
Structural
Rockery/Vault/_____
ESA Section 7
Part 5 PLAN AND REPORT INFORMATION
Technical Information Report Site Improvement Plan (Engr. Plans)
Type of Drainage Review
(circle):
Date (include revision
dates):
Date of Final:
Full / Targeted /
Large Site
___________________
___________________
___________________
Type (circle one):
Date (include revision
dates):
Date of Final:
Full / Modified /
Small Site
__________________
__________________
__________________
Part 6 ADJUSTMENT APPROVALS
Type (circle one): Standard / Complex / Preapplication / Experimental / Blanket
Description: (include conditions in TIR Section 2)
____________________________________________________________________________________
____________________________________________________________________________________
____________________________________________________________________________________
Date of Approval: ______________________
KING COUNTY, WASHINGTON, SURFACE WATER DESIGN MANUAL
TECHNICAL INFORMATION REPORT (TIR) WORKSHEET
2009 Surface Water Design Manual 1/9/2009
2
Part 7 MONITORING REQUIREMENTS
Monitoring Required: Yes / No
Start Date: _______________________
Completion Date: _______________________
Describe: _________________________________
_________________________________________
_________________________________________
_________________________________________
_________________________________________
Part 8 SITE COMMUNITY AND DRAINAGE BASIN
Community Plan : _________________________________
Special District Overlays: __________________________________________________________
Drainage Basin: ___________________________________
Stormwater Requirements: ________________________________________________________
Part 9 ONSITE AND ADJACENT SENSITIVE AREAS
River/Stream _______________________
Lake _____________________________
Wetlands ___________________________
Closed Depression ___________________
Floodplain __________________________
Other ______________________________
___________________________________
Steep Slope ______________________
Erosion Hazard ___________________
Landslide Hazard __________________
Coal Mine Hazard __________________
Seismic Hazard ___________________
Habitat Protection __________________
_________________________________
Part 10 SOILS
Soil Type
_________________
_________________
_________________
_________________
Slopes
_________________
_________________
_________________
_________________
Erosion Potential
_________________
_________________
_________________
_________________
High Groundwater Table (within 5 feet)
Other ________________________
Sole Source Aquifer
Seeps/Springs
Additional Sheets Attached
KING COUNTY, WASHINGTON, SURFACE WATER DESIGN MANUAL
TECHNICAL INFORMATION REPORT (TIR) WORKSHEET
2009 Surface Water Design Manual 1/9/2009
3
Part 11 DRAINAGE DESIGN LIMITATIONS
REFERENCE
Core 2 – Offsite Analysis_________________
Sensitive/Critical Areas___________________
SEPA________________________________
Other_________________________________
_____________________________________
LIMITATION / SITE CONSTRAINT
_______________________________________
_______________________________________
_______________________________________
_______________________________________
_______________________________________
Additional Sheets Attached
Part 12 TIR SUMMARY SHEET (provide one TIR Summary Sheet per Threshold Discharge Area)
Threshold Discharge Area:
(name or description)
Core Requirements (all 8 apply)
Discharge at Natural Location Number of Natural Discharge Locations:
Offsite Analysis
Level: 1 / 2 / 3 dated:__________________
Flow Control
(incl. facility summary sheet)
Level: 1 / 2 / 3 or Exemption Number ____________
Small Site BMPs ___________________________________
Conveyance System
Spill containment located at: _________________________
Erosion and Sediment Control
ESC Site Supervisor:
Contact Phone:
After Hours Phone:
Maintenance and Operation
Responsibility: Private / Public
If Private, Maintenance Log Required: Yes / No
Financial Guarantees and
Liability
Provided: Yes / No
Water Quality
(include facility summary sheet)
Type: Basic / Sens. Lake / Enhanced Basicm / Bog
or Exemption No. ______________________
Landscape Management Plan: Yes / No
Special Requirements (as applicable)
Area Specific Drainage
Requirements
Type: CDA / SDO / MDP / BP / LMP / Shared Fac. / None
Name: ________________________
Floodplain/Floodway Delineation Type: Major / Minor / Exemption / None
100-year Base Flood Elevation (or range): ______________
Datum:
Flood Protection Facilities
Describe:
Source Control
(comm./industrial landuse)
Describe landuse:
Describe any structural controls:
KING COUNTY, WASHINGTON, SURFACE WATER DESIGN MANUAL
TECHNICAL INFORMATION REPORT (TIR) WORKSHEET
2009 Surface Water Design Manual 1/9/2009
4
Oil Control
High-use Site: Yes / No
Treatment BMP: ________________________________
Maintenance Agreement: Yes / No
with whom? ____________________________________
Other Drainage Structures
Describe:
Part 13 EROSION AND SEDIMENT CONTROL REQUIREMENTS
MINIMUM ESC REQUIREMENTS
DURING CONSTRUCTION
Clearing Limits
Cover Measures
Perimeter Protection
Traffic Area Stabilization
Sediment Retention
Surface Water Collection
Dewatering Control
Dust Control
Flow Control
MINIMUM ESC REQUIREMENTS
AFTER CONSTRUCTION
Stabilize Exposed Surfaces
Remove and Restore Temporary ESC Facilities
Clean and Remove All Silt and Debris, Ensure
Operation of Permanent Facilities
Flag Limits of SAO and open space
preservation areas
Other ______________________
Part 14 STORMWATER FACILITY DESCRIPTIONS (Note: Include Facility Summary and Sketch)
Flow Control Type/Description Water Quality Type/Description
Detention
Infiltration
Regional Facility
Shared Facility
Flow Control
BMPs
Other
________________
________________
________________
________________
________________
________________
Biofiltration
Wetpool
Media Filtration
Oil Control
Spill Control
Flow Control BMPs
Other
________________
________________
________________
________________
________________
________________
________________
KING COUNTY, WASHINGTON, SURFACE WATER DESIGN MANUAL
TECHNICAL INFORMATION REPORT (TIR) WORKSHEET
2009 Surface Water Design Manual 1/9/2009
3
Part 11 DRAINAGE DESIGN LIMITATIONS
REFERENCE
Core 2 – Offsite Analysis_________________
Sensitive/Critical Areas___________________
SEPA________________________________
Other_________________________________
_____________________________________
LIMITATION / SITE CONSTRAINT
_______________________________________
_______________________________________
_______________________________________
_______________________________________
_______________________________________
Additional Sheets Attached
Part 12 TIR SUMMARY SHEET (provide one TIR Summary Sheet per Threshold Discharge Area)
Threshold Discharge Area:
(name or description)
Core Requirements (all 8 apply)
Discharge at Natural Location Number of Natural Discharge Locations:
Offsite Analysis
Level: 1 / 2 / 3 dated:__________________
Flow Control
(incl. facility summary sheet)
Level: 1 / 2 / 3 or Exemption Number ____________
Small Site BMPs ___________________________________
Conveyance System
Spill containment located at: _________________________
Erosion and Sediment Control
ESC Site Supervisor:
Contact Phone:
After Hours Phone:
Maintenance and Operation
Responsibility: Private / Public
If Private, Maintenance Log Required: Yes / No
Financial Guarantees and
Liability
Provided: Yes / No
Water Quality
(include facility summary sheet)
Type: Basic / Sens. Lake / Enhanced Basicm / Bog
or Exemption No. ______________________
Landscape Management Plan: Yes / No
Special Requirements (as applicable)
Area Specific Drainage
Requirements
Type: CDA / SDO / MDP / BP / LMP / Shared Fac. / None
Name: ________________________
Floodplain/Floodway Delineation Type: Major / Minor / Exemption / None
100-year Base Flood Elevation (or range): ______________
Datum:
Flood Protection Facilities
Describe:
Source Control
(comm./industrial landuse)
Describe landuse:
Describe any structural controls:
2 (TDA #2) North and East Basins
2
07/18/2016
1.2.3.1.B
N/A
tbd
1.2.8.1.A
N/A
N/A
N/A
N/A
KING COUNTY, WASHINGTON, SURFACE WATER DESIGN MANUAL
TECHNICAL INFORMATION REPORT (TIR) WORKSHEET
2009 Surface Water Design Manual 1/9/2009
4
Oil Control
High-use Site: Yes / No
Treatment BMP: ________________________________
Maintenance Agreement: Yes / No
with whom? ____________________________________
Other Drainage Structures
Describe:
Part 13 EROSION AND SEDIMENT CONTROL REQUIREMENTS
MINIMUM ESC REQUIREMENTS
DURING CONSTRUCTION
Clearing Limits
Cover Measures
Perimeter Protection
Traffic Area Stabilization
Sediment Retention
Surface Water Collection
Dewatering Control
Dust Control
Flow Control
MINIMUM ESC REQUIREMENTS
AFTER CONSTRUCTION
Stabilize Exposed Surfaces
Remove and Restore Temporary ESC Facilities
Clean and Remove All Silt and Debris, Ensure
Operation of Permanent Facilities
Flag Limits of SAO and open space
preservation areas
Other ______________________
Part 14 STORMWATER FACILITY DESCRIPTIONS (Note: Include Facility Summary and Sketch)
Flow Control Type/Description Water Quality Type/Description
Detention
Infiltration
Regional Facility
Shared Facility
Flow Control
BMPs
Other
________________
________________
________________
________________
________________
________________
Biofiltration
Wetpool
Media Filtration
Oil Control
Spill Control
Flow Control BMPs
Other
________________
________________
________________
________________
________________
________________
________________
x
x
x
x
x
x
x
x
x
x
KING COUNTY, WASHINGTON, SURFACE WATER DESIGN MANUAL
TECHNICAL INFORMATION REPORT (TIR) WORKSHEET
2009 Surface Water Design Manual 1/9/2009
5
Part 15 EASEMENTS/TRACTS Part 16 STRUCTURAL ANALYSIS
Drainage Easement
Covenant
Native Growth Protection Covenant
Tract
Other
Cast in Place Vault
Retaining Wall
Rockery > 4’ High
Structural on Steep Slope
Other
Part 17 SIGNATURE OF PROFESSIONAL ENGINEER
I, or a civil engineer under my supervision, have visited the site. Actual site conditions as observed were
incorporated into this worksheet and the attached Technical Information Report. To the best of my
knowledge the information provided here is accurate.
Signed/Date
Page 10
Boun Short Plat
Figure 2. Location Map
Page 11
Boun Short Plat
Figure 3. Drainage Basins, Subbasins, and Site Characteristics
Figure 3.1 – Existing Conditions Map
Figure 3.2 – Proposed Conditions Map
MBMBSS~SHEET OFJOB NUMBERNO. DESCRIPTION INIT. DATE
DRAWN BY:CHECKED BY:SCALE:
HORZ:VERT:
DATE:CIVIL & STRUCTURAL ENGINEERING | LAND SURVEYING | PLANNING
PROJECT MANAGEMENT | FEASIBILITY | PERMIT EXPEDITING
LAKEWOOD OFFICE7602 Bridgeport Way W #3D
Lakewood, WA 98499
phone: 253-301-4157
fax: 253-336-3950
SNOQUALMIE OFFICE
35312 SE Center St
Snoqualmie, WA 98065
phone: 425-392-8055
fax: 425-392-0108
beylerconsulting.com
BEYLER
CONSULTING
Plan. Design. ManageFIGURE 3.11EXISTING BASIN MAP
BOUN SHORT PLAT
BASIN MAPS
CITY OF RENTON,WASHINGTON16-2061A PORTION OF SECTION 10, TOWNSHIP 23 NORTH, 5 WEST, W.M.DUVALL AVE NE
CHELAN AVE NE
THRESHOLD DISCHARGEAREA #1(WEST BASIN)(46,236 SF)(1.06 ACRES)THRESHOLD DISCHARGEAREA #2.A(EAST BASIN)(8,771 SF)(5,760 SF TO BEDISCHARGED TO TDA1THROUGH DRAINAGEADJUSTMENT)(0.20 ACRES)BOUN SHORT PLATEXISTING BASIN MAPSCALE: 1" = 40'2040040THRESHOLD DISCHARGE AREA #2.B(NORTH BASIN)(2,669 SF)(0.061 ACRES)TO REMAIN UNDEVELOPED ANDDEDICATED TO CITY OF RENTONAS PUBLIC RIGHT OF WAY(MODIFICATION REQUEST #LUA16-000897, MOD)NATURAL DISCHARGELOCATION #1(EXISTING CATCH BASIN)NATURAL DISCHARGELOCATION #2.A(EXISTING SWALE)NATURAL DISCHARGELOCATION #2.B(SHEET FLOW TO NATIVEVEGETATION- NO APPARENTDISCHARGE LOCATION)BASIN AREA CALCULATIONSTHRESHOLD DISCHARGE AREA #1ONSITE (WEST BASIN)TOTAL BASIN AREA: 46,236 SF (1.06 ACRES)IMPERVIOUS (EXISTING SHED): 330 SFPERVIOUS (LAWN/GRASS): 45,906 SFOFFSITE (CHELAN AVE NE)TOTAL BASIN AREA: 2,528 SF (0.058 ACRES)PERVIOUS (LAWN/GRASS): 2,528 SFTHRESHOLD DISCHARGE AREA #2.AONSITE (EAST BASIN)TOTAL BASIN AREA:8,771 SF (0.20 ACRES)DRAINAGE ADJUSTMENT TO TDA #1: 5,760 SFPERVIOUS (LAWN/GRASS):3,011 SFTHRESHOLD DISCHARGE AREA #2.BONSITE (NORTH BASIN)TOTAL BASIN AREA: 2,669 SF (0.06 ACRES)IMPERVIOUS (GRAVEL DRIVEWAY): 789 SFPERVIOUS (LAWN/GRASS): 1,880 SFTHRESHOLD DISCHARGE AREA #1(OFFSITE)(2,528 SF)(0.058 ACRES)
LOT 55,731 SFLOT 76,553 SFLOT 65,718 SFLOT 36,168 SFLOT 26,121 SFLOT 46,245 SFLOT 15,172 SFTRACT A7,277 SF102+00103+00104+00105+00MBMBSS~435434436
437437 437438438
438439439435434
SHEET OFJOB NUMBERNO. DESCRIPTION INIT. DATE
DRAWN BY:CHECKED BY:SCALE:
HORZ:VERT:
DATE:CIVIL & STRUCTURAL ENGINEERING | LAND SURVEYING | PLANNING
PROJECT MANAGEMENT | FEASIBILITY | PERMIT EXPEDITING
LAKEWOOD OFFICE7602 Bridgeport Way W #3D
Lakewood, WA 98499
phone: 253-301-4157
fax: 253-336-3950
SNOQUALMIE OFFICE
35312 SE Center St
Snoqualmie, WA 98065
phone: 425-392-8055
fax: 425-392-0108
beylerconsulting.com
BEYLER
CONSULTING
Plan. Design. ManageFIGURE 3.21PROPOSED BASIN MAP
BOUN SHORT PLAT
BASIN MAPS
CITY OF RENTON,WASHINGTON16-2061A PORTION OF SECTION 10, TOWNSHIP 23 NORTH, 5 WEST, W.M.DUVALL AVE NE
CHELAN AVE NE
THRESHOLDDISCHARGE AREA #1(WEST BASIN)(48,397 SF)(1.11 ACRES)BOUN SHORT PLATPROPOSED BASIN MAPSCALE: 1" = 40'2040040THRESHOLD DISCHARGE AREA #2.B(NORTH BASIN)(2,669 SF)(0.061 ACRES)TO REMAIN UNDEVELOPED ANDDEDICATED TO CITY OF RENTONAS PUBLIC RIGHT OF WAY(MODIFICATION REQUEST #LUA16-000897. MOD)NATURAL DISCHARGELOCATION #1(EXISTING CATCH BASIN)NATURAL DISCHARGELOCATION #2.A(EXISTING SWALE)THRESHOLD DISCHARGEAREA #2.A(EAST BASIN)(3,011 SF)(0.069 ACRES)BASIN AREA CALCULATIONSTHRESHOLD DISCHARGE AREA #1ONSITE (WEST BASIN)TOTAL BASIN AREA: 48,397 SF (1.11 ACRES)IMPERVIOUS (PGIS: ASPHALT ROAD): 4,485 SFIMPERVIOUS (PGIS: CONC. DRIVEWAYS):3,500 SF*IMPERVIOUS (PGIS: GRAVEL ACCESS ROAD): 535 SFIMPERVIOUS (ROOFTOPS): 19,113 SF*PERVIOUS (LAWN/GRASS): 20,764 SF*SEE RESTRICTED FOOTPRINT TABLE FOR LOT AREABREAKDOWN CALCULATIONSONSITE (VAULT BY-PASS)TOTAL BASIN AREA: 3,599 SF (0.083 ACRES)IMPERVIOUS (PGIS: ASPHALT/SWALK): 1,904 SFPERVIOUS (PLANTER STRIP/LAWN): 1,695 SFOFFSITE (VAULT BY-PASS)TOTAL BASIN AREA: 2,528 SF (0.058 ACRES)IMPERVIOUS (PGIS: ASPHALT): 2,050 SFPERVIOUS (PLANTER STRIP): 478 SFVAULT SIZING CALCULATIONS:TO DETENTION/WQ VAULT:TOTAL IMPERVIOUS: 27,633 SF (0.6344 ACRES)TOTAL PERVIOUS: 20,765 SF (0.4767 ACRES)VAULT BYPASS AREA CALCULATIONS:TO BYPASS DETENTION/WQ VAULT:TOTAL IMPERVIOUS: 3,954 SF (0.09 ACRES)TOTAL PERVIOUS: 2,173 SF (0.05 ACRES)THRESHOLD DISCHARGE AREA #2.AONSITE (EAST BASIN)TOTAL BASIN AREA: 3,011 SF (0.069 ACRES)PERVIOUS (LAWN/LANDSCAPE BUFFER): 3,011 SFTHRESHOLD DISCHARGE AREA #2.BONSITE (NORTH BASIN)TOTAL BASIN AREA: 2,669 SF (0.06 ACRES)IMPERVIOUS (GRAVEL DRIVEWAY): 789 SFPERVIOUS (LAWN/GRASS): 1,880 SFNATURAL DISCHARGELOCATION #2.B(SHEET FLOW TO NATIVEVEGETATION- NO APPARENTDISCHARGE LOCATION)THRESHOLD DISCHARGE AREA #1(ONSITE- VAULT BYPASS)(3,599 SF)(0.083 ACRES)THRESHOLD DISCHARGE AREA #1(OFFSITE-VAULT BYPASS)(2,528 SF)(0.058 ACRES)RESTRICTED FOOTPRINT TABLE (PER C.2.9.2 2009 KCSWDM)FOR SITES/LOTS THAT ARE SMALLER THAN 22,000 SQUARE FEET, ANY RECORDED LIMIT ON TOTAL IMPERVIOUS SURFACE LESS THAN A NORM OF 4,000 SQUARE FEET OR THEMAXIMUM ALLOWED BY THE SITE/LOT'S ZONING, WHICHEVER IS SMALLER, QUALIFIES FOR A RESTRICTED FOOTPRINT CREDIT EQUAL TO THE DIFFERENCE IN SQUARE FOOTAGE.LOT #SIZE (SF)MAX. IMPERV.PER ZONING(65%) (SF)10% OF LOTAREAMAX.IMPERV.ALLOWED(SF)EST.DRIVEWAY(SF)EST. ROOFTOP(SF)LOT 15,1723,3625172,8455002,345LOT 26,1213,9796123,3675002,867LOT 36,1684,0096173,3835002,883LOT 46,2454,0596253,3765002,876LOT 55,7313,7255733,1525002,652LOT 65,7183,7175723,1455002,645LOT 76,5534,2596553,3455002,845TOTAL AREAS3,50019,1131 REVISED PER CITY REVIEW #1 DTY 5/19
2 REVISED PER CITY REVIEW #2 KRD 7/27
Page 14
Boun Short Plat
Figure 4. Soils Map
Page 15
Boun Short Plat
II. CONDITIONS AND REQUIREMENTS SUMMARY
The Boun Short Plat, File No. LUA16-000124; SHPL-A, is APPROVED WITH
CONDITIONS and subject to the following conditions:
1. The width of Lot 7 shall be increased to comply with the minimum 50-foot lot width
requirement of the R-8 zone.
2. A demolition permit shall be obtained for the removal of the detached accessory structure,
and all required inspections shall be completed prior to the recording of the short plat.
3. A detailed landscape plan shall be submitted at the time of Utility Construction Permit
Review. The detailed landscape plan shall include an 8-foot wide landscaping strip between
the curb and sidewalk along the full length of the Chelan Avenue NE and Duvall Avenue
NE frontages or a modification request to reduce the landscape strip shall be submitted
and approved in accordance with RMC 4-9-250D at the time of Utility Construction Permit
Review.
4. A Final Tree Retention Plan shall be submitted at the time of Utility Construction Permit
Review. The Final Tree Retention Plan shall include minimum 2-inch caliper replacement
trees within the onsite 10-foot landscape strip. The Final Tree Retention Plan shall be
submitted to the Current Planning Project Manager for review and approval.
5. A modification request shall be submitted and approved for the proposed waiver of
frontage improvements along the 18-foot wide panhandle north of the project site. The
modification request shall be submitted at the time of Utility Construction Permit Review.
6. Access for Lots 1-7 shall be provided via the alley (Chelan Place NE). The front façade of
the houses to be constructed on Lots 1-4 shall Duvall Avenue NE and the front façade of
the houses to be constructed on Lots 5-7 shall face Chelan Avenue NE. A note to this effect
shall be recorded on the face of the Short Plat map.
7. The width of the alley shall be revised to comply with the City’s adopted street standards,
or a modification to these standards shall be requested at the time of Utility Construction
Permit Review.
Page 16
Boun Short Plat
Review of Eight Core Requirements and Six Special Requirements
The following comments are a review of the Core and Special Requirements per the 2009 King
County Surface Water Stormwater Manual with City of Renton Amendments (where
applicable).
Core Requirement No. 1 Discharge at the Natural Location
Threshold Discharge Area #1
Under existing conditions, the site’s topography suggests that stromwater runoff within
threshold discharge area #1 sheet flows to the southwest over densely vegetated land cover
consisting of various types of grass and brush. Any accumulated runoff is allowed to overflow
onto Chelan Ave NE into an existing catch basin near the southwest corner of the project
parcel. Under developed conditions, stormwater will sheet flow over impervious surfaces and
be collected within a closed conveyance system. Rooftop runoff will be directly tightlined to
this conveyance system. The closed conveyance system will route stormwater to a combined
water quality and detention vault. The proposed stormwater vault will ultimately discharge
stormwater to the catch basin located in Chelan Avenue NE near the southwest corner of the
project site, matching the current natural discharge location.
Threshold Discharge Area #2-A
Under existing conditions, threshold discharge area #2-A which is located along the east
boundary of the project parcel allows stormwater to sheet flow towards an existing
conveyance swale located along the west side of Duvall Ave NE. This swale flows north along
the western portion of Duvall Avenue NE. Under developed conditions, a portion of threshold
discharge area #2-A will be allowed to sheet flow towards Duvall Ave NE. Accumulated runoff
will be allowed to sheet flow to the existing conveyance swale, meeting the natural discharged
location of threshold discharge area #2-A. The remaining portion of threshold discharge area
#2-A will sheet flow west towards the closed conveyance system of Threshold Discharge Area
#1. This stormwater will be collected, mitigated and released at the natural discharge location
of Threshold Discharge Area #1. A drainage has been submitted to the City of Renton at time
of Utility Construction Permit Review and has been approved.
Threshold Discharge Area #2-B
Currently, there are no planned improvements to this TDA. Therefore, this requirement is not
applicable at this time.
Core Requirement No 2 Offsite Analysis
The project proposes to discharge stormwater within both threshold discharge areas to the
May Creek drainage basin. A Level 1 offsite analysis has been completed for each of the two
threshold discharge areas. Further narrative of this analysis can be found in Section III of this
report.
Core Requirement No 3 Flow Control
Flow Control Facility Analysis and Design has been broken into two parts, part 1: Threshold
Discharge Area #1 discussing the threshold area tributary to proposed onsite vault system,
and Threshold Discharge Area #2, discussing the north and east portions of the onsite and
offsite tributary area and improvements. Please refer to the Basin Maps in Figure 3, depicting
areas as described herein.
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Boun Short Plat
Threshold Discharge Area #1
Flow Control Facility (1.2.3.1.B):
The proposed project is located within the Flow Control Duration Standard – Matching
Forested Site Conditions area. This level of flow control requires new impervious and pervious
surfaces, that are not fully dispersed, to flow to a flow control facility that matches the flow
durations of predeveloped rates for forested (historic) site conditions over the range of flows
extending from 50% of the 2-year up to the full 50-year flow. To satisfy this requirement, an
underground detention vault is proposed to detain onsite runoff to historic flow control levels
per Section 1.2.3.1.B. See Section IV of this report for forested site conditions flow control
performance standards and detention analysis.
Flow Control BMPs (1.2.3.2):
In addition to flow control facility requirements, implementation of flow control BMPs as part
of this “subdivision” project is incentive-based per Section 1.2.3.3 of the Renton Manual.
However, if the applicant wishes to implement or make provision for implementation of BMPs
as part of the subdivision project for purposes of receiving the BMP credits then the
requirements outlined in Section 5.2.2.1 must be met depending on the site location of the
proposed BMPs. Based on a site evaluation, it has been determined that dispersion and
infiltration is infeasible based on proposed lot size and existing soil conditions. The applicant
proposes to implement a restricted footprint for the seven (7) lots following section C.2.9.2
of the King Manual. See Part C of Section IV of this report for the Small Lot BMP performance
standards and further analysis of the proposed BMPs.
Flow Control Bypass (1.2.3.2.E):
A flow control bypass facility per Section 1.2.3.2.E of the Renton Manual is also proposed.
The project proposes to bypass a small amount of targeted onsite impervious area within
Tract A which provides access to Chelan Ave NE as well as the proposed offsite improvements
of Chelan Ave NE. The bypass of this target area is necessary due to grading constraints of
the site. The onsite flow control facility was sized to incorporate a reduction in allowed flow
release to match historic durations for 50% of the 2-year through 50-year peaks at the
downstream point of compliance, existing Catch Basin located west of Catch Basin #1 in
Chelan Ave NE. See Section IV for further detail.
Threshold Discharge Area #2 (2-A & 2-B)
Flow Control Facility (1.2.3.1.B):
The proposed project is located within the Flow Control Duration Standard – Matching
Forested (Historic) Site Conditions area. This is required unless an exception applies to the
proposed site conditions.
Per Section 1.2.3.1.B – Exemption #2 of the Renton Manual, the facility requirement in Flow
Control Duration Standard Matching Forested Site Conditions Areas is waived for any
threshold discharge area in which there is less than a 0.1 cfs difference in the sum of
developed 100-year peak flows for those target surfaces subject to this requirement and the
sum of forested (historic) site conditions 100-year peak flows for the same surface areas. The
developed conditions for this Threshold Discharge Area do not exceed a 0.1 cfs difference in
the sum of developed 100-year peak flows for those target surfaces subject to the flow control
facility requirement and the sum of historic (forested) site conditions 100-year peak flows for
the same surface areas. Thus, flow control is not required for this threshold discharge area
per section 1.2.3.1.B of the Renton Manual. See Section IV of this report for details and a
table of the target areas.
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Boun Short Plat
Core Requirement No. 4 Conveyance System
New pipes systems will be designed with sufficient capacity to convey and contain, at
minimum, the 25-year peak flow. See Section V of this report for the conveyance analysis.
Core Requirement No. 5 Erosion and Sediment Control
This development is expected to be constructed in a single phase. Please see Appendix E for
the prepared CSWPPP, and sheets C2-C3 in the prepared Construction Plans.
Core Requirement No. 6 Maintenance and Operations
It is anticipated that the proposed stormwater system will be owned and operated by the City
of Renton. Therefore, operations and maintenance recommendations can be made upon
request by the City of Renton.
Core Requirement No. 7 Financial Guarantees and Liability
Financial guarantees can be made available to the City upon request.
Core Requirement No. 8 Water Quality
Water Quality Facility Analysis and Design has been broken into two parts, part 1: Threshold
Discharge Area #1 discussing the threshold area tributary to proposed onsite vault system,
and Threshold Discharge Area #2, discussing the north and east portions of the onsite and
offsite tributary area and improvements. Please refer to the Basin Maps in Figure 3, depicting
areas as described herein.
Threshold Discharge Area #1
Treatment Facility (1.2.8)
This TDA is located within a Basic Water Quality treatment area as designated by the City of
Renton and is not subject to the requirements of Enhanced Water Quality as it is not a
Commercial, Industrial or Multifamily land use or a road project with an expected average
daily traffic (ADT) count of 7,500. The developed conditions of TDA #1 exceed the 5,000 sf
of proposed pollution generating impervious (PGIS) surface area exemption per Section
1.2.8.1 of the Renton Manual. Therefore, the project proposes to satisfy the basic water
quality treatment requirement through the use of an onsite combined detention/wetvault
located near the southwest corner of the project parcel to provide treatment for onsite runoff.
See Section IV of this report for further description of the treatment system.
Untreated Discharge (Treatment Bypass) (1.2.8.2)
This TDA proposes to bypass a small portion of the proposed onsite and the entire offsite
target pollution-generating surface that would need to be pumped to be treated by the
required water quality facility. Per Section 1.2.8.2 of the Renton Manual, the following criteria
must be met; 1) treatment of the constrained area by filter strip, biofiltration, or a linear sand
filter is not feasible, and a treatment trade as described above is not possible. 2) The
untreated target surface is less than 5,000 square feet of new PGIS and is less than 5,000
square feet of new plus replaced PGIS on a redevelopment. 3) Any target PGPS within the
area to be released untreated shall be addressed with a landscape management plan.
The project proposes 4,022 sf of target PGIS which is less than the 5,000 sf threshold to allow
for Untreated Bypass. See Section IV of this report for further description of the untreated
discharge.
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Boun Short Plat
Threshold Discharge Area #2 (2-A & 2-B)
Treatment Facility (1.2.8)
This TDA is located within a Basic Water Quality treatment area as designated by the City of
Renton and is not subject to the requirements of Enhanced Water Quality as it is not a
Commercial, Industrial or Multifamily land use or a road project with an expected average
daily traffic (ADT) count of 7,500. The developed conditions of TDA #2 do not exceed the
5,000 sf of proposed pollution generating impervious (PGIS) surface area exemption per
Section 1.2.8.1 of the Renton Manual. Therefore, a treatment facility is not required within
threshold discharge area #2.
Special Requirement No. 1 Other Adopted Area-Specific Requirements
This project is not in a designated Critical Drainage Area. This special requirement is not
applicable.
Special Requirement No. 2 Flood Hazard Area Delineation
The project does not contain or is not adjacent to a flood hazard area for a river, stream,
lake, wetland, closed depression, or marine shoreline that is within the 100-year floodplain
according to King County and FEMA.
Special Requirement No. 3 Flood Protection Facilities
This project does not rely on any flood protection facility such as a levee or revetment nor
will construct a new flood protection facility.
Special Requirement No. 4 Source Control
This project does not require a commercial building or commercial site development permit.
This special requirement is not applicable.
Special Requirement No. 5 Oil Control
This project is not defined as a high-use site nor is a redevelopment project proposing
$100,000 or more of improvements to an existing high-use site. This special requirement is
not applicable.
Special Requirement No. 6 Aquifer Protection Area
This project is not in a designated Aquifer Protection Area (APA). This special requirement is
not applicable.
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Boun Short Plat
III. OFFSITE ANALYSIS
An offsite analysis report has been prepared per Section 1.2.2, Core Requirement #2. This
is to identify and evaluate offsite flooding, erosion, and water quality problems that may be
created or aggravated by the proposed project. The primary component of this offsite analysis
report is the downstream analysis. The second component of the report is to evaluate the
upstream drainage system to verify that significant flooding and erosion impact will not occur
as a result of the project.
3.1 DOWNSTREAM ANALYSIS
The following Level 1 downstream analysis is a review of the drainage system up to a mile
downstream of the site.
The four tasks outlined under this review are:
Task 1 – Define and map the study area
Task 2 – Review all available information on the study area
Task 3 - Field inspect the study area
Task 4 - Drainage System Description and Problem Descriptions
Task 5 – Mitigation of Existing or Potential Problems
3.1.1 Task 1 - Study Area Definition and Maps
The project is located in the May Creek Drainage Sub-Basin within the Lake Washington/Cedar
River Watershed. The drainage study area is approximately a mile-long path encompassing
the site's downstream corridor. See Appendix A for maps of the basic study area.
The site is currently unimproved, with the exception of an abandoned shed, surrounded by
single family residential uses on all sides.
3.1.2 Task 2 - Resource Review
The following resources have been reviewed for the downstream analysis. This is a review of
available information on the downstream area at least a mile downstream. Sources include
the City of Renton GIS maps, King County GIS maps, and geotechnical studies.
Adopted Basin Plan
• The site is located in the May Creek Drainage Sub-Basin within the Cedar
River/Lake Washington Watershed (WRIA Cedar Sammamish (8))
Sensitive Area (See Appendix A for Sensitive Area Maps)
• Erosion- None Mapped
• Seismic – None Mapped
• Landslide – None Mapped
• Coal Mine – None Mapped
• Streams and Wetlands Map – None Mapped
• Susceptible to Groundwater Contamination – None Mapped
• 100-year flood plain – According to King County iMAP and the FEMA Flood Maps,
the 100-year flood plain is not located near the project property.
Drainage Complaints and Studies
King County –Relevant DNRP drainage complaints within 1 mile of the downstream
corridor of each threshold discharge area within the last 10 years were
searched.
TDA #1 There are currently no open complaints within the downstream corridor
nor are there any relevant drainage complaints that were made within
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Boun Short Plat
the last 10 years. Going beyond a Level 1 analysis (within the last 15
years), a single complaint pertaining specifically to a water quality cross
connection was made in regards to the regional stormwater pond in
2004. See Appendix A for a drainage complaint map of the downstream
corridor.
TDA #2 There are currently no open complaints within the downstream corridor
nor are there any relevant drainage complaints that were made within
the last 10 years. Going beyond a Level 1 analysis (within the last 15
years), a single complaint was made in 2003 in regards to a potential
septic tank dumping that was leaching into the roadside swale along
Duvall Ave NE, just north of the site. See Appendix A for a drainage
complaint map of the downstream corridor.
3.1.3 Task 3 - Field Inspection
A site visit was performed on July 18, 2016 for the purpose of analyzing the proposed project
site and its upstream and downstream corridor. The weather and conditions were light rain
and cloudy. A description of the drainage path is described below. See Appendix B for
downstream reach locations.
THRESHOLD DISCHARGE AREA #1 (West Basin)
Upstream
The subject site sits on a high point with very little runoff crossing the site from adjacent
properties. The site’s topography suggests that stormwater runoff from the site is divided
and sheets flows to the southwest and to the northeast. The westerly portion of the site
drains to the southwest into an existing catch basin within public right of way (Chelan Ave
NE).
Downstream
Runoff contributing to the downstream corridor from the project site consists of the generated
runoff from the improved roadway and rooftop of the project site. The following is a discussion
of the downstream corridor from threshold discharge area #1’s natural discharge location.
See Appendix B for a Summary of each reach including: pipe size, length, and material as
well as a map of each reach’s location.
Downstream Legend
- Surface Flow Arrow
- Closed Conveyance Flow Arrow
- Closed Conveyance Flow Arrow (Tributary)
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Boun Short Plat
Reach 1
0’ The runoff generated from the project parcel sheet flows southeast and is
collected within a Type 1 Catch Basin (Facility ID# 178992) within Chelan Ave
NE.
Photo 1: Site topography facing northeast from Chelan Ave NE towards Project Site.
Reach 2
0’ – 31’ Stormwater is collected within an existing Type 1 Catch Basin (Facility ID#
178992) and conveyed west within a 12-inch CPEP Storm Main sloped at
3.21% (R-332511). At time of site visit, the pipe did not seem to be flowing
at capacity nor were flooding problems observed.
Photo 2: Facing North on Chelan Ave NE. Stormwater flows south within closed conveyance system.
Project Site
Ex. CB - Type 1
ID: 178992
Ex. CB - Type 1
ID: 178992
Ex. CB - Type 1
ID: 116933
N
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Boun Short Plat
Reach 3
31’ – 180’ Stormwater is collected within an existing Type 1 Catch Basin (Facility ID#
116931) and conveyed southwest within a 12-inch CPEP Storm Main sloped
at 0.52% (R-332511). At time of site visit, the pipe did not seem to be flowing
at capacity nor were flooding problems observed.
Photo 3: Facing northwest on Chelan Ave NE. Stormwater flows southwest within closed conveyance system.
Reach 4
180’ – 275’ Stormwater is collected within an existing Type 2-54” Catch Basin (Facility
ID# 175753) and conveyed west within a 60-inch CMP WQ Tank (R-332511).
This WQ facility is privately owned and operated.
Photo 4: Facing north on NE 10th Street. Stormwater flows west within closed conveyance system/WQ Facility.
Ex. CB - Type 1
ID: 116931
N
Ex. WQ Facility
ID: 175753
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Boun Short Plat
Reach 5
275’ – 395’ Stormwater is discharged to an existing Type 2 Catch Basin (Facility ID#
116930) and conveyed west within a 12-inch of unknown material storm main
(R-332511). It should be noted that per as-built R-332511, the storm main
connection is incorrectly shown to connect to the existing sanitary sewer
within NE 10th Street.
Photo 5: Facing West on NE 10th Street. Stormwater flows west within closed conveyance system.
Reach 6
395’ – 477’ Stormwater is collected within a Type 2 Catch Basin (Facility ID# 116927)
and conveyed north within a 12-inch CPEP Storm Main (D-22661A) sloped at
4.86%. This portion of pipe discharges into a regional stormwater facility
which was developed as part of the NE 10th Street/Anacortes Ave NE
Detention Pond and Storm System Improvement Project.
Photo 6: Facing West on NE 10th Street. Stormwater is collected within Type II Catch Basin and conveyed north
within closed conveyance system.
Ex. CB - Type 2
ID: 116930
Ex. CB - Type 2
ID: 116930
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Boun Short Plat
Reach 7
477’ – 825’ Stormwater is detained within a combined water quality and detention pond.
Stormwater is then released at a controlled flow rate from an existing Type
II-54” Catch Basin (Facility ID# 115504) and conveyed south within an 18-
inch CPEP Storm Main (D-22661A) sloped at 0.20%. Stormwater is collected
within a Type 2-48” Catch Basin (Facility ID# 115505) and conveyed
southwest within an 18-inch CPEP Storm Main (D-22661A) sloped at 0.20%.
From this location, stormwater is convey back into NE 10th Street public right
of way to a Type 2-48” Catch Basin (Facility ID# 116923) (D-226618).
Reach 8
825’ – 1,003’ Stormwater is conveyed west from the Type 2 Catch Basin within an 18-inch
CPEP Storm Main (D-226618) sloped at 0.24%.
Photo 7: Facing Northwest on NE 10th Street. Stormwater is collected in Type II catch basin and conveyed west
within closed conveyance system.
Ex. CB - Type 2
ID: 116923
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Boun Short Plat
Reach 9
1,003’ – 1,038’ Stormwater is collected within a Type 2 Catch Basin and conveyed west within
an 18-inch CPEP Storm Main (D-226618) sloped at 0.14%.
Photo 8: Facing Northeast on NE 10th Street. Stormwater is collected in Type II catch basin and conveyed west
within closed conveyance system. Additional flow enters the conveyance system from a type I catch basin located to
the north of the type 2 catch basin.
Reach 10
1,038’ – 1,138’ Stormwater is collected within a Type 2 Catch Basin located at the intersection
of NE 10th Street and Anacortes Ave NE and conveyed north within a 30-inch
CPEP Storm Main (D-226617) sloped at 0.39%.
Photo 9: Facing Northwest at intersection of NE 10th Street and Anacortes Ave NE. Stormwater is collected in Type
II catch basin and conveyed north within closed conveyance system. Additional flow enters the conveyance system
from storm main east of this location.
Ex. CB - Type 2
ID: 116903
Ex. CB - Type 2
ID: 116902
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Boun Short Plat
Reach 11
1,138’ – 1,258’ Stormwater is collected within a Type 2 Catch Basin located approximately
100 feet north of the intersection of NE 10th Street and Anacortes Ave NE.
Stormwater is conveyed north within a 30-inch CPEP Storm Main (D-226617)
sloped at 0.40%.
Photo 10: Facing North along Anacortes Ave NE. Stormwater is collected in Type II catch basin and conveyed north
within closed conveyance system.
Reach 12
1,258’ – 1,333’ Stormwater is collected within a Type 2 Catch Basin (Facility ID# 116900)
within Anacortes Ave NE and conveyed north within a 30-inch CPEP Storm
Main (D-226617) sloped at 0.41%. Completing the downstream analysis ¼
of a mile downstream from the project site natural discharge location.
Photo 11: Facing North along Anacortes Ave NE. Stormwater is collected in Type II catch basin and conveyed north
within closed conveyance system.
Ex. CB - Type 2
ID: 116901
Ex. CB - Type 2
ID: 116900
N
N Ex. CB - Type 2
ID: 116895
¼ mile downstream
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Boun Short Plat
THRESHOLD DISCHARGE AREA #2.A (East Basin)
Upstream
The subject site sits on a high point with very little runoff crossing the site from adjacent
properties. The site’s topography suggests that stormwater runoff from the site is divided and
sheets flows to the southwest and to the northeast. The easterly portion of the site drains to
the northeast into an existing conveyance swale within public right of way (Duvall Ave NE).
Downstream
Runoff contributing to the downstream corridor from the project site consists of the generated
runoff from the existing asphalt within Duvall Ave NE and proposed sidewalk. The following
is a discussion of the downstream corridor from threshold discharge area #2.A’s natural
discharge location. See Appendix B for a Summary of each reach including: pipe size, length,
and material as well as a map of each reach’s location.
Reach 1
0’ The runoff generated from the project parcel sheet flows northwest and is
collected within an existing roadside conveyance swale (Facility ID# 450085)
located along the east boundary of the project parcel. Stormwater is conveyed
north.
Photo 12: Facing northwest along Duvall Ave NE. Stormwater sheet flows east within project parcel and enters
existing conveyance swale along the east boundary of the site.
Project Site
Ex. Conveyance Swale
ID: 450085
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Boun Short Plat
Reach 2
0’- 695’ Stormwater is conveyed north within the conveyance swale along Duvall Ave
NE. Stormwater passes through a series of CMP culverts that were installed
under various driveways along this segment of flow path. The swale is well
established with various land covers. No evidence erosion or flooding were
observed at time of site visit. Garbage and other types of debris were found
at various locations along the swale which could cause potential issues if not
cleaned.
Photo 13: Facing northwest along Duvall Ave NE. Stormwater shallow channel flows within the swale. Stormwater
flows north.
Reach 3
695’- 753’ Stormwater is collected within a 12-inch concrete culvert (Facility ID#
700093). The inlet to concrete culvert had a small amount of sedimentation
build up and leaf debris.
Photo 14: Facing west along Duvall Ave NE. Shallow channel flow enters concrete culvert.
Debris that could
potential disrupt
channel flow
Ex. Conc. Culvert
(Facility ID #700093)
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Boun Short Plat
Reach 3
753’- 835’ Stormwater is collected within a Type 1 Catch Basin (Facility ID# 130734).
Stormwater is convey north within a 12-inch concrete pipe.
Photo 15: Facing west along Duvall Ave NE. Stormwater is conveyed north within a Type 1 CB.
Reach 4
835’- 883’ Stormwater is collected within a Type 1 Catch Basin (Facility ID# 130735).
Stormwater is convey north within a 12-inch concrete pipe.
Photo 16: Facing west along Duvall Ave NE. Stormwater is conveyed north within a Type 1 CB.
Ex. CB - Type 1
ID: 130734
Ex. CB - Type 1
ID: 130735
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Boun Short Plat
Reach 5
883’- 1103’ Stormwater is collected within a Type 1 Catch Basin (Facility ID# 130736).
Stormwater is convey north within a 12-inch concrete pipe. The 12-inch
concrete pipe is sloped at 3.4% (R-147402).
Photo 17: Facing northwest along Duvall Ave NE. Stormwater is conveyed north within a Type 1 CB.
Reach 6
1103’- 1402’ Stormwater is collected within a Type 1 Catch Basin (Facility ID# 130794).
Stormwater is convey north within a 12-inch concrete pipe. The 12-inch
concrete pipe is sloped at 1.3% (R-147402). Completing the downstream
analysis ¼ of a mile downstream from the project site natural discharge
location.
Photo 18: Facing southwest along Duvall Ave NE. Stormwater is conveyed north within a Type 1 CB.
Ex. CB - Type 1
ID: 130736
Ex. CB - Type 1
ID: 130794
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Boun Short Plat
3.1.4 Task 4 - Drainage System Description and Problem Descriptions
There are no apparent drainage complaints in the vicinity of the project site. However,
during the downstream analysis, a problem was identified with releasing stormwater within
Threshold Discharge Area #1 to an existing water quality facility that was installed to treat
stormwater for the Vuong Short Plat (Project R-332511). Any increase in stormwater above
the design water quality flow rate would cause the facility to improperly function. Mitigation
of this downstream problem is necessary to allow the project vault to discharge to the
downstream network.
3.1.5 Task 5 - Mitigation of Existing or Potential Problems
To mitigate the downstream issue identified in Task 4, a flow splitter is proposed to bypass
flows higher than the water quality flow rate of the existing water quality facility to the
downstream network. See Section IV of this report for further details.
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Boun Short Plat
IV. FLOW CONTROL AND WATER QUALITY FACILITY ANALYSIS
AND DESIGN
The stormwater flow control and water quality facilities were designed in accordance with the
2009 King County Surface Water Design Manual (King Manual) and the City of Renton
amendments to the Manual (Renton Manual).
Threshold Discharge Area #1
Existing Site Hydrology (Part A-1)
Threshold Discharge Area #1 is comprised of approximately 80% (46,236 sf) of the project
parcel. Under existing conditions, the site is currently undeveloped with exception to an
abandoned barn that is located near the northern boundary line of the parcel. The site’s
topography suggests that stormwater runoff within threshold discharge area #1 sheet flows
to the southwest over densely vegetated land cover consisting of various types of grass and
brush. There is approximately six (6) feet of vertical relieve across the site with an average
slope around 5%. Any accumulated runoff is allowed to overflow onto Chelan Ave NE into an
existing catch basin near the southwest corner of the project parcel.
Developed Site Hydrology (Part B-1)
Under developed conditions, a drainage adjustment will allow for nearly the entire site (50,746
sf) to drain to Threshold Discharge Area #1. Stormwater will sheet flow over impervious areas
and be collected within a closed conveyance system. Rooftop runoff will be directly tightlined
to this conveyance system. The closed conveyance system then will route stormwater to a
combined water quality and detention vault for treatment and flow control.
The disturbance on site will include construction clearing and grading, construction of 1 public
alley way, 1 private alley way, associated utilities (sewer, water, storm, power, etc.), required
landscaping buffers and tree replacement, and eventually seven single-family houses with an
associated driveway. To account for this future development, an estimated impervious area
equating to the maximum impervious allowed per table 4-2-110A was utilized to size
stormwater facilities. It is proposed that each driveway and roof drain connection will be
collected and conveyed to the stormwater facility.
Tables 4.1 and 4.2 break down the historic site conditions and developed site conditions
TABLE 4.1 – Historic Site Conditions – Threshold Discharge Area #1
Sub-basin Total
sf (ac)
Impervious
sf (ac)
Till Grass
sf (ac)
Till Forest
sf (ac)
Threshold Discharge Area
#1 (On-site)
46,236
(1.06) 0 0 46,236
(1.06)
Threshold Discharge Area
#1 (Off-site)
2,528
(0.06) 0 0 2,528
(0.06)
Portion of Threshold
Discharge Area #2.A that
will drain to TDA 1 (Onsite)
(Drainage Adjustment Area)
(8,771-3,011=5,760 sf)
5,760
(0.13) 0 0 5,670
(0.13)
TOTAL AREAS 54,524
(1.25) 0 0 54,524
(1.25)
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Boun Short Plat
TABLE 4.2 – Developed Conditions – Threshold Discharge Area #1
Sub-basin Total
sf (ac)
Impervious
sf (ac)
Till Grass
sf (ac)
Till Forest
sf (ac)
Threshold Discharge Area
#1 (to Vault)*
(includes TDA 2.A area
(5,670 sf) per Drainage
Adjustment)
48,397
(1.11)
27,633
(0.634)
20,764
(0.476) 0
Threshold Discharge Area
#1 (On-site Bypass)
3,599
(0.083)
1,904
(0.044)
1,695
(0.039) 0
Threshold Discharge Area
#1 (Off-site Bypass)
2,528
(0.058)
2,050
(0.047)
478
(0.011) 0
TOTAL 54,524
(1.25)
31,587
(0.725)
22,937
(0.527)
0
(0)
* The area reflects the site area after ROW dedication
Performance Standards (Part C-1)
Flow Control Facility:
Performance standards for flow control design use Table 1.2.3.1 of the Manual. The site is
located in the Flow Control Duration Standard – Matching Forested Site Conditions as
designated by the City of Renton Flow Control Applications Map. This level of control is
necessary for runoff from target surfaces (new impervious and pervious surfaces not fully
dispersed) within the threshold discharge area. An underground detention vault has been
proposed to detain runoff to the historic flow control levels per the Manual.
Table 1.2.3.2 of the Manual indicates the level of flow control required based on the flow
control area and the identified downstream problems, if any. This project did not identify any
downstream problems and being located in the Flow Control Duration Standard Matching
Forested Site Conditions (conservation flow control area) shall apply: historic site conditions
Level 2 flow control standard, which matches historic durations for 50% of 2-year through
50-year peaks and matches historic 2-year and 10-year peaks.
Target surfaces: new impervious, new pervious per Section 1.2.3.1 page 1-34 of the Manual.
Flow Control BMPs:
In addition to flow control facility requirements, implementation of flow control BMPs as part
of this “subdivision” project is optional per Section 5.2.2.1 of the Manual. However, if the
applicant wishes to implement or make provisions for implementation of BMPs as part of the
subdivision project for purposes of receiving the BMP credits, then the requirements outlined
in Section 5.2.2.1 must be met depending on the site location of the proposed BMPs.
Based on a site evaluation, it has been determined that full dispersion/infiltration and basic
dispersion/partial infiltration is not feasible. Per Section 5.2.1.1 Small Lot BMP Requirements
of the Manual, one or more BMPs must be applied to (or used to mitigate for) an impervious
area equal to at least 10% of site/lot for site/lot sizes up to 11,000 square feet. The project
proposes to utilize a restricted footprint to satisfy the Small Lot BMP implementation
requirement. Utilizing Section C.2.9.2 – Restricted Footprint of the manual, the following lot
coverage areas were determined.
Page 35
Boun Short Plat
TABLE 4.3 – Restricted Footprint (C.2.9.2)
Lot Number Lot Size
(sf)
Allowed Impervious
(sf per Zoning – 65%)
Restricted Imp. Area
(55% or 4,000 sf -10%
site area, whichever is
smaller) (sf)
Lot 1 5,172 3,362 2,845
Lot 2 6,121 3,979 3,367
Lot 3 6,168 4,009 3,383
Lot 4 6,245 4,059 3,376
Lot 5 5,731 3,725 3,152
Lot 6 5,718 3,717 3,145
Lot 7 6,553 4,259 3,345
Water Quality
The project is located within a Basic Water Quality treatment area as designated by the King
County 2009 Water Quality Application Maps and is not subject to the Enhanced Basic WQ
menu per Section 1.2.8.1.A of the Manual. The goal of Basic WQ treatment is 80% removal
of total suspended solids. To satisfy this treatment requirement, the project proposed a
combined detention/wetvault located in the southwest corner of the project to provide
treatment for onsite. See Part E of this section for analysis of the water quality facilities.
Stormwater Conveyance
The conveyance system capacity standards require that new conveyance systems contain the
25-year peak flow and ensure that the 100-year event does not create a severe flooding or
erosion problem. See Section V of this report for the conveyance analysis per Core
Requirement #4.
Flow Control Systems (Part D-1)
To address the increased runoff impact of the parcel, stormwater runoff from the proposed
development will be mitigated by an underground detention vault in the southwest corner of
the property within a dedicated Tract. As identified in Section III – Downstream Analysis of
this report, a modification to the downstream drainage network is necessary to allow for the
vault to discharge to the existing storm main within Chelan Ave NE. The existing type 1 catch
basin near the northwest corner of the intersection of Chelan Ave NE and NE 10th Street will
be replaced with a larger type 2 – 60” solid lid catch basin to allow for the use of an orifice
flow splitter. A new type 1 catch basin will be installed just to the north of the new type 2
catch basin to in order to collect runoff from Chelan Ave NE.
Vault
The detention portion of the combination detention and water quality facility was designed
under Section 5.3.3.1 of the Manual. The vault was designed to discharge flow under the Flow
Control Duration Standard – Matching Forested Site Conditions as discussed in Part C of this
section.
The facility was sized according to HSPF methodology using King County Runoff Time Series
(KCTRS) software per Section 3.2.2 of the Manual. The vault will have a primary control
structure designed to discharge stormwater per the flow control requirements. The flow
control system utilizes a flow-restrictor tee with multiple orifices as shown in Figure 5.3.4.D
of the Manual. The detention portion of the vault is 4.5 feet deep. The vault is broken into a
two detention chambers due to site constraints. The first chamber (combined WQ and
Page 36
Boun Short Plat
Detention) is 17.25’Wx107.5’L, approximately a 6:1 length to width ratio. The second
chamber (detention only) is approximately 17.25’Wx107.5’L, having a total surface area of
3,708 sf (3,380 sf required) The total provided volume within the detention vault is 16,677
cf.
This volume is based on several factors. The size of the contributing basin, the type of ground
cover, and any applicable flow control BMP facility sizing credits listed in Table 5.2.2.A of the
Manual. See Table 4.4 for the vault basin areas used for input into KCTRS. As part of flow
control BMP requirements, at least 10% of each individual lot size must be mitigated using
an applicable Flow Control BMP type to receive Flow Control Sizing Credits. Due to site
constraints, a restricted footprint of the allowed impervious for each lot will be incorporated
into the site design to meet the Flow Control BMP requirement. These credits are reflected in
the table below.
Due to grading constraints of the site, portions of Tract A target pervious and impervious
surfaces as well as off-site right of way improvements of Chelan Ave NE target surfaces cannot
be collected within the proposed stormwater vault. A mitigation of target surfaces that bypass
the facility was incorporated into the sizing the detention vault, as allowed per section
1.2.3.2.E of the manual. Per Section 1.2.3.2.E of the manual, the following conditions are met
and approved by the City’s Surface Water Utility:
Requirement #1 - The point of convergence for runoff discharged from the bypassed
target surfaces and from the project’s flow control facility must be within a quarter-
mile downstream of the facility’s project site discharge point.
Requirement #1 Satisfied, the point of convergence for the runoff discharged from the
bypassed target surfaces and from the project’s flow control facility meet at proposed
CB#1 of the development. This is the natural discharge location for Threshold
discharge area #1.
Requirement #2 – The increase in the existing site conditions 100-year peak
discharge from the area of bypassed target surfaces must not exceed 0.4 cfs.
Requirement #2 Satisfied, KCRTS was utilized to analyze the peak flow of the existing
site conditions of the proposed bypass area. This area equates to a total of 6,127 sf
(3,599 sf + 2,528 sf) (0.141 acres) of Till Lawn. When analyzed in KCRTS, the 100-
year storm event peak flow was found to be 0.030 cfs which is less than the maximum
allowed 0.4 cfs. See KCRTS Flow Frequencies below.
Flow Frequency Analysis
Time Series File:existing_bypass.tsf
Project Location:Sea-Tac
---Annual Peak Flow Rates--- -----Flow Frequency Analysis-------
Flow Rate Rank Time of Peak - - Peaks - - Rank Return Prob
(CFS) (CFS) Period
0.013 3 2/09/01 2:00 0.030 1 100.00 0.990
0.006 7 1/05/02 16:00 0.016 2 25.00 0.960
0.016 2 2/27/03 7:00 0.013 3 10.00 0.900
0.003 8 8/26/04 2:00 0.013 4 5.00 0.800
0.007 6 1/05/05 8:00 0.012 5 3.00 0.667
0.013 4 1/18/06 16:00 0.007 6 2.00 0.500
0.012 5 11/24/06 3:00 0.006 7 1.30 0.231
Page 37
Boun Short Plat
0.030 1 1/09/08 6:00 0.003 8 1.10 0.091
Computed Peaks 0.025 50.00 0.980
Requirement #3 – Runoff from the bypassed target surfaces must not create a
significant adverse impact to downstream drainage systems, salmonid habitat, or
properties as determined by RDSD.
Requirement #3 Satisfied, the bypassed target surface runoff will not create a
significant adverse impact to the downstream drainage system. The bypassed runoff
has been accounted for within the release rate of the proposed detention vault to
match historic flow durations from ½ of the 2-year storm event up to the 50-year
event.
Requirement #4 – Water quality requirements applicable to the bypassed target
surfaces must be met.
Requirement #4 Satisfied, the bypassed target surface runoff meets the requirements
of Section 1.2.8.2.D for Untreated Discharges. See Part E-1 of this report for further
detail on water quality treatment requirements.
Requirement #5 – Compensatory mitigation by a flow control facility must be
provided so that the net effect at the point of convergence downstream is the same
with or without bypass. The mitigation may be waived if the existing site conditions
100-year peak discharge from the area of bypassed target surfaces is increased by
more than 0.1 cfs and flow control BMPs as detailed in Appendix C are applied to all
impervious surfaces within the area of bypassed target surfaces. One or combination
of the following methods may be used to provide compensatory mitigation by a flow
control facility subject to permission/approvals from other parties as deemed
necessary by RDSD:
a) Design the project’s flow control facility or retrofit offsite flow control facility as
needed to achieve the desired effect at the point of convergence, OR
b) Design the project’s flow control facility or provide/retrofit an offsite flow control
facility to mitigate an existing developed area (either onsite or offsite) that has
runoff characteristics (i.e. peak flow and volume) equivalent to those of the
bypassed target surfaces but is currently not mitigated or required to be mitigated
to the same flow control performance requirement as the bypassed target surfaces.
Requirement #5 Satisfied, the method described in option a was utilized to size the
onsite flow control facility. A point of compliance (point of convergence) analysis was
completed within KCRTS to ensure that the controlled stormwater release of the vault
combined with the uncontrolled bypass flow equates to less than or equal to historic
site stormwater durations from ½ of the 2-year storm event through the 50-year storm
event.
Page 38
Boun Short Plat
TABLE 4.4 – Design Vault Basin Areas
Sub-basin
Total Area
sf
(ac)
Impervious
sf
(ac)
Till Grass
sf
(ac)
Till Forest
sf
(ac)
Threshold
Discharge Area #1
- Onsite
48,397
(1.11)
27,633
(0.634)
20,764
(0.476) -
Threshold
Discharge Area #1
– Onsite (Bypass)
3,599
(0.083)
1,904
(0.044)
1,695
(0.039) -
Threshold
Discharge Area #1
– Offsite (Bypass)
2,528
(0.058)
2,050
(0.047)
478
(0.011) -
TOTAL Area to
Vault
48,397
(1.11)
27,633
(0.634)
20,764
(0.476) -
TOTAL Area to
Bypass Vault
6,127
(0.141)
3,954
(0.091)
2,173
(0.050) -
TABLE 4.5 – Vault Volume Summary
Vault Function Storage
Interval
Required
Volume
(cf)
Provided
Volume (cf)
Sediment Storage 422.06–423.7 - -
Water Quality 423.7-428.7 3,607 9,406
Detention 428.7-433.8 18,092 18,641
Freeboard 433.8-434.3 - 1,854
Control Structure (Primary Discharge Control)
The control structure was designed to use multiple orifices in order to discharge flow at a
conservative flow control release rate.
Flow through these offices may be determined at any given elevation through the following
equations listed in Section 5.3.4.2 of the Manual:
ghCAQ2, (Orifice)
Where C = 0.62, A is the area of the orifice in square feet, g is the gravity constant,
and h is the headwater in feet, and
2/3739.9 DHQweir, (Weir)
Where D equals the diameter of the riser (18 inches)
Page 39
Boun Short Plat
TABLE 4.6 – Flow Summary
Vault Stage
Elevation
Head, h
(ft)
Flow Rate,
Q (cfs)
428.7 0.0 0.000
429.7 1.0 0.008
430.7 2.0 0.011
431.7 3.0 0.014
432.7 4.0 0.016
433.7 5.0 0.071
433.8 5.1 0.074
Primary Overflow
The primary overflow is the overflow weir on the 18-inch diameter control riser. The weir is
intended as a safety measure if any of the orifices are plugged. The bottom of the weir (top
of riser) is set at the peak detention volume storage depth. Per Table 3.2 of the Manual,
KCRTS with 15-minute time steps is to be used to calculate the peak flow if the majority of
the tributary area is detained. Per section 5.3.1.1 of the Manual, the 100-year, 15-minute
developed peak must be able to bypass the control structure.
The developed 100-yr, 15-minute peak flow = 0.989 cfs. See the following pages for KCRTS
output.
The freeboard necessary above the top of the riser to allow for primary overflow is determined
from the weir equation as shown above.
))(5.1(739.9989.0 2/3Hcfs, H = 0.166 ft = 2.0”
Six inches of freeboard have been provided above the top of riser in the vault.
KCRTS Peak Flow Output (15-minute time steps)
Flow Frequency Analysis
Time Series File:dev15min.tsf
Project Location:Sea-Tac
---Annual Peak Flow Rates--- -----Flow Frequency Analysis-------
Flow Rate Rank Time of Peak - - Peaks - - Rank Return Prob
(CFS) (CFS) Period
0.302 6 8/27/01 18:00 0.989 1 100.00 0.990
0.220 8 1/05/02 15:00 0.676 2 25.00 0.960
0.676 2 12/08/02 17:15 0.425 3 10.00 0.900
0.244 7 8/23/04 14:30 0.408 4 5.00 0.800
0.408 4 11/17/04 5:00 0.369 5 3.00 0.667
0.369 5 10/27/05 10:45 0.302 6 2.00 0.500
0.425 3 10/25/06 22:45 0.244 7 1.30 0.231
0.989 1 1/09/08 6:30 0.220 8 1.10 0.091
Computed Peaks 0.885 50.00 0.980
Page 40
Boun Short Plat
KCRTS Vault Output
Page 41
Boun Short Plat
KCRTS Design Input Time Series Peak Flows
Predeveloped Conditions TSF
Flow Frequency Analysis
Time Series File:pre.tsf
Project Location:Sea-Tac
---Annual Peak Flow Rates--- -----Flow Frequency Analysis-------
Flow Rate Rank Time of Peak - - Peaks - - Rank Return Prob
(CFS) (CFS) Period
0.079 2 2/09/01 18:00 0.101 1 100.00 0.990
0.021 7 1/06/02 4:00 0.079 2 25.00 0.960
0.058 4 2/28/03 3:00 0.061 3 10.00 0.900
0.002 8 3/24/04 20:00 0.058 4 5.00 0.800
0.035 6 1/05/05 8:00 0.051 5 3.00 0.667
0.061 3 1/18/06 21:00 0.035 6 2.00 0.500
0.051 5 11/24/06 4:00 0.021 7 1.30 0.231
0.101 1 1/09/08 9:00 0.002 8 1.10 0.091
Computed Peaks 0.094 50.00 0.980
Page 42
Boun Short Plat
Developed Conditions (To Vault) TSF
Flow Frequency Analysis
Time Series File:dev.tsf
Project Location:Sea-Tac
---Annual Peak Flow Rates--- -----Flow Frequency Analysis-------
Flow Rate Rank Time of Peak - - Peaks - - Rank Return Prob
(CFS) (CFS) Period
0.196 6 2/09/01 2:00 0.401 1 100.00 0.990
0.157 8 1/05/02 16:00 0.243 2 25.00 0.960
0.236 3 2/27/03 7:00 0.236 3 10.00 0.900
0.167 7 8/26/04 2:00 0.208 4 5.00 0.800
0.202 5 10/28/04 16:00 0.202 5 3.00 0.667
0.208 4 1/18/06 16:00 0.196 6 2.00 0.500
0.243 2 10/26/06 0:00 0.167 7 1.30 0.231
0.401 1 1/09/08 6:00 0.157 8 1.10 0.091
Computed Peaks 0.348 50.00 0.980
Page 43
Boun Short Plat
Bypass TSF
Flow Frequency Analysis
Time Series File:bypass.tsf
Project Location:Sea-Tac
---Annual Peak Flow Rates--- -----Flow Frequency Analysis-------
Flow Rate Rank Time of Peak - - Peaks - - Rank Return Prob
(CFS) (CFS) Period
0.027 6 2/09/01 2:00 0.053 1 100.00 0.990
0.021 8 1/05/02 16:00 0.034 2 25.00 0.960
0.032 3 2/27/03 7:00 0.032 3 10.00 0.900
0.023 7 8/26/04 2:00 0.028 4 5.00 0.800
0.028 4 10/28/04 16:00 0.028 5 3.00 0.667
0.028 5 1/18/06 16:00 0.027 6 2.00 0.500
0.034 2 10/26/06 0:00 0.023 7 1.30 0.231
0.053 1 1/09/08 6:00 0.021 8 1.10 0.091
Computed Peaks 0.047 50.00 0.980
Page 44
Boun Short Plat
Retention/Detention Facility
Type of Facility: Detention Vault
Facility Length: 59.56 ft
Facility Width: 59.56 ft
Facility Area: 3548. sq. ft
Effective Storage Depth: 5.10 ft
Stage 0 Elevation: 0.00 ft
Storage Volume: 18092. cu. ft
Riser Head: 5.10 ft
Riser Diameter: 18.00 inches
Number of orifices: 3
Full Head Pipe
Orifice # Height Diameter Discharge Diameter
(ft) (in) (CFS) (in)
1 0.00 0.54 0.018
2 4.00 1.27 0.046 4.0
3 4.70 0.80 0.011 4.0
Top Notch Weir: None
Outflow Rating Curve: None
Stage Elevation Storage Discharge Percolation
(ft) (ft) (cu. ft) (ac-ft) (cfs) (cfs)
0.00 0.00 0. 0.000 0.000 0.00
0.01 0.01 36. 0.001 0.001 0.00
0.02 0.02 71. 0.002 0.001 0.00
0.03 0.03 106. 0.002 0.001 0.00
0.04 0.04 142. 0.003 0.002 0.00
0.14 0.14 497. 0.011 0.003 0.00
0.24 0.24 851. 0.020 0.004 0.00
0.34 0.34 1206. 0.028 0.005 0.00
0.44 0.44 1561. 0.036 0.005 0.00
0.54 0.54 1916. 0.044 0.006 0.00
0.64 0.64 2270. 0.052 0.006 0.00
0.74 0.74 2625. 0.060 0.007 0.00
0.84 0.84 2980. 0.068 0.007 0.00
0.94 0.94 3335. 0.077 0.008 0.00
1.04 1.04 3689. 0.085 0.008 0.00
1.14 1.14 4044. 0.093 0.008 0.00
1.24 1.24 4399. 0.101 0.009 0.00
1.34 1.34 4754. 0.109 0.009 0.00
1.44 1.44 5108. 0.117 0.009 0.00
1.54 1.54 5463. 0.125 0.010 0.00
1.64 1.64 5818. 0.134 0.010 0.00
1.74 1.74 6173. 0.142 0.010 0.00
1.84 1.84 6527. 0.150 0.011 0.00
1.94 1.94 6882. 0.158 0.011 0.00
2.04 2.04 7237. 0.166 0.011 0.00
2.14 2.14 7592. 0.174 0.011 0.00
2.24 2.24 7946. 0.182 0.012 0.00
2.34 2.34 8301. 0.191 0.012 0.00
Page 45
Boun Short Plat
2.44 2.44 8656. 0.199 0.012 0.00
2.54 2.54 9011. 0.207 0.012 0.00
2.64 2.64 9365. 0.215 0.013 0.00
2.74 2.74 9720. 0.223 0.013 0.00
2.84 2.84 10075. 0.231 0.013 0.00
2.94 2.94 10430. 0.239 0.013 0.00
3.04 3.04 10784. 0.248 0.014 0.00
3.14 3.14 11139. 0.256 0.014 0.00
3.24 3.24 11494. 0.264 0.014 0.00
3.34 3.34 11849. 0.272 0.014 0.00
3.44 3.44 12203. 0.280 0.014 0.00
3.54 3.54 12558. 0.288 0.015 0.00
3.64 3.64 12913. 0.296 0.015 0.00
3.74 3.74 13268. 0.305 0.015 0.00
3.84 3.84 13622. 0.313 0.015 0.00
3.94 3.94 13977. 0.321 0.015 0.00
4.00 4.00 14190. 0.326 0.016 0.00
4.01 4.01 14225. 0.327 0.016 0.00
4.03 4.03 14296. 0.328 0.017 0.00
4.04 4.04 14332. 0.329 0.019 0.00
4.05 4.05 14367. 0.330 0.021 0.00
4.07 4.07 14438. 0.331 0.024 0.00
4.08 4.08 14474. 0.332 0.028 0.00
4.09 4.09 14509. 0.333 0.029 0.00
4.11 4.11 14580. 0.335 0.030 0.00
4.21 4.21 14935. 0.343 0.036 0.00
4.31 4.31 15290. 0.351 0.040 0.00
4.41 4.41 15644. 0.359 0.044 0.00
4.51 4.51 15999. 0.367 0.048 0.00
4.61 4.61 16354. 0.375 0.051 0.00
4.70 4.70 16673. 0.383 0.053 0.00
4.71 4.71 16709. 0.384 0.054 0.00
4.72 4.72 16744. 0.384 0.055 0.00
4.73 4.73 16780. 0.385 0.056 0.00
4.74 4.74 16815. 0.386 0.058 0.00
4.75 4.75 16851. 0.387 0.059 0.00
4.76 4.76 16886. 0.388 0.059 0.00
4.77 4.77 16922. 0.388 0.060 0.00
4.87 4.87 17276. 0.397 0.065 0.00
4.97 4.97 17631. 0.405 0.070 0.00
5.07 5.07 17986. 0.413 0.073 0.00
5.10 5.10 18092. 0.415 0.074 0.00
5.20 5.20 18447. 0.423 0.540 0.00
5.30 5.30 18802. 0.432 1.390 0.00
5.40 5.40 19157. 0.440 2.480 0.00
5.50 5.50 19511. 0.448 3.780 0.00
5.60 5.60 19866. 0.456 5.260 0.00
5.70 5.70 20221. 0.464 6.680 0.00
5.80 5.80 20576. 0.472 7.220 0.00
5.90 5.90 20930. 0.480 7.710 0.00
6.00 6.00 21285. 0.489 8.170 0.00
6.10 6.10 21640. 0.497 8.610 0.00
6.20 6.20 21995. 0.505 9.030 0.00
6.30 6.30 22349. 0.513 9.430 0.00
Page 46
Boun Short Plat
6.40 6.40 22704. 0.521 9.810 0.00
6.50 6.50 23059. 0.529 10.180 0.00
6.60 6.60 23414. 0.538 10.540 0.00
6.70 6.70 23768. 0.546 10.880 0.00
6.80 6.80 24123. 0.554 11.210 0.00
6.90 6.90 24478. 0.562 11.540 0.00
7.00 7.00 24833. 0.570 11.850 0.00
Hyd Inflow Outflow Peak Storage
Stage Elev (Cu-Ft) (Ac-Ft)
1 0.40 0.05 4.50 4.50 15957. 0.366
2 0.20 0.05 4.56 4.56 16164. 0.371
3 0.24 0.05 4.45 4.45 15800. 0.363
4 0.24 0.01 3.86 3.86 13676. 0.314
5 0.21 0.01 2.89 2.89 10244. 0.235
6 0.20 0.01 2.65 2.65 9399. 0.216
7 0.16 0.01 2.65 2.65 9402. 0.216
8 0.17 0.01 1.43 1.43 5065. 0.116
Hyd R/D Facility Tributary Reservoir POC Outflow
Outflow Inflow Inflow Target Calc
1 0.05 0.05 ******** ******* 0.07
2 0.05 0.03 ******** 0.09 0.06
3 0.05 0.03 ******** ******* 0.06
4 0.01 0.03 ******** ******* 0.04
5 0.01 0.03 ******** ******* 0.04
6 0.01 0.03 ******** ******* 0.03
7 0.01 0.02 ******** ******* 0.03
8 0.01 0.02 ******** ******* 0.03
----------------------------------
Route Time Series through Facility
Inflow Time Series File:dev.tsf
Outflow Time Series File:rdout
POC Time Series File:dsout
Inflow/Outflow Analysis
Peak Inflow Discharge: 0.399 CFS at 6:00 on Jan 9 in Year 8
Peak Outflow Discharge: 0.049 CFS at 21:00 on Feb 9 in Year 1
Peak Reservoir Stage: 4.56 Ft
Peak Reservoir Elev: 4.56 Ft
Peak Reservoir Storage: 16164. Cu-Ft
: 0.371 Ac-Ft
Add Time Series:bypass.tsf
Peak Summed Discharge: 0.066 CFS at 6:00 on Jan 9 in Year 8
Point of Compliance File:dsout.tsf
Flow Duration from Time Series File:rdout.tsf
Cutoff Count Frequency CDF Exceedence_Probability
CFS % % %
0.001 26515 43.240 43.240 56.760 0.568E+00
0.002 5685 9.271 52.511 47.489 0.475E+00
0.004 6662 10.864 63.376 36.624 0.366E+00
Page 47
Boun Short Plat
0.005 3821 6.231 69.607 30.393 0.304E+00
0.006 6962 11.354 80.961 19.039 0.190E+00
0.008 2976 4.853 85.814 14.186 0.142E+00
0.009 2752 4.488 90.302 9.698 0.970E-01
0.010 2403 3.919 94.220 5.780 0.578E-01
0.012 1472 2.401 96.621 3.379 0.338E-01
0.013 1280 2.087 98.708 1.292 0.129E-01
0.014 314 0.512 99.220 0.780 0.780E-02
0.016 356 0.581 99.801 0.199 0.199E-02
0.017 30 0.049 99.850 0.150 0.150E-02
0.018 4 0.007 99.856 0.144 0.144E-02
0.020 4 0.007 99.863 0.137 0.137E-02
0.021 2 0.003 99.866 0.134 0.134E-02
0.023 2 0.003 99.870 0.130 0.130E-02
0.024 2 0.003 99.873 0.127 0.127E-02
0.025 0 0.000 99.873 0.127 0.127E-02
0.027 1 0.002 99.874 0.126 0.126E-02
0.028 1 0.002 99.876 0.124 0.124E-02
0.029 3 0.005 99.881 0.119 0.119E-02
0.031 2 0.003 99.884 0.116 0.116E-02
0.032 4 0.007 99.891 0.109 0.109E-02
0.033 3 0.005 99.896 0.104 0.104E-02
0.035 6 0.010 99.905 0.095 0.946E-03
0.036 3 0.005 99.910 0.090 0.897E-03
0.038 4 0.007 99.917 0.083 0.832E-03
0.039 4 0.007 99.923 0.077 0.766E-03
0.040 7 0.011 99.935 0.065 0.652E-03
0.042 7 0.011 99.946 0.054 0.538E-03
0.043 5 0.008 99.954 0.046 0.457E-03
0.044 8 0.013 99.967 0.033 0.326E-03
0.046 9 0.015 99.982 0.018 0.179E-03
0.047 3 0.005 99.987 0.013 0.130E-03
0.048 3 0.005 99.992 0.008 0.815E-04
Flow Duration from Time Series File:dsout.tsf
Cutoff Count Frequency CDF Exceedence_Probability
CFS % % %
0.001 26537 43.276 43.276 56.724 0.567E+00
0.003 6924 11.292 54.568 45.432 0.454E+00
0.004 6620 10.796 65.364 34.636 0.346E+00
0.006 5486 8.947 74.310 25.690 0.257E+00
0.008 5357 8.736 83.046 16.954 0.170E+00
0.009 3718 6.063 89.110 10.890 0.109E+00
0.011 2370 3.865 92.975 7.025 0.703E-01
0.013 1876 3.059 96.034 3.966 0.397E-01
0.015 1008 1.644 97.678 2.322 0.232E-01
0.016 674 1.099 98.777 1.223 0.122E-01
0.018 239 0.390 99.167 0.833 0.833E-02
0.020 168 0.274 99.441 0.559 0.559E-02
0.021 85 0.139 99.579 0.421 0.421E-02
0.023 41 0.067 99.646 0.354 0.354E-02
0.025 30 0.049 99.695 0.305 0.305E-02
0.026 28 0.046 99.741 0.259 0.259E-02
0.028 23 0.038 99.778 0.222 0.222E-02
Page 48
Boun Short Plat
0.030 15 0.024 99.803 0.197 0.197E-02
0.032 17 0.028 99.830 0.170 0.170E-02
0.033 17 0.028 99.858 0.142 0.142E-02
0.035 6 0.010 99.868 0.132 0.132E-02
0.037 8 0.013 99.881 0.119 0.119E-02
0.038 10 0.016 99.897 0.103 0.103E-02
0.040 10 0.016 99.914 0.086 0.864E-03
0.042 4 0.007 99.920 0.080 0.799E-03
0.044 7 0.011 99.932 0.068 0.685E-03
0.045 6 0.010 99.941 0.059 0.587E-03
0.047 6 0.010 99.951 0.049 0.489E-03
0.049 5 0.008 99.959 0.041 0.408E-03
0.050 5 0.008 99.967 0.033 0.326E-03
0.052 4 0.007 99.974 0.026 0.261E-03
0.054 5 0.008 99.982 0.018 0.179E-03
0.055 5 0.008 99.990 0.010 0.978E-04
0.057 3 0.005 99.995 0.005 0.489E-04
0.059 1 0.002 99.997 0.003 0.326E-04
0.061 1 0.002 99.998 0.002 0.163E-04
----------------------------------
Route Time Series through Facility
Inflow Time Series File:dev.tsf
Outflow Time Series File:rdout
POC Time Series File:dsout
Inflow/Outflow Analysis
Peak Inflow Discharge: 0.399 CFS at 6:00 on Jan 9 in Year 8
Peak Outflow Discharge: 0.049 CFS at 21:00 on Feb 9 in Year 1
Peak Reservoir Stage: 4.56 Ft
Peak Reservoir Elev: 4.56 Ft
Peak Reservoir Storage: 16164. Cu-Ft
: 0.371 Ac-Ft
Add Time Series:bypass.tsf
Peak Summed Discharge: 0.066 CFS at 6:00 on Jan 9 in Year 8
Point of Compliance File:dsout.tsf
Flow Duration from Time Series File:rdout.tsf
Cutoff Count Frequency CDF Exceedence_Probability
CFS % % %
0.001 26515 43.240 43.240 56.760 0.568E+00
0.002 5685 9.271 52.511 47.489 0.475E+00
0.004 6662 10.864 63.376 36.624 0.366E+00
0.005 3821 6.231 69.607 30.393 0.304E+00
0.006 6962 11.354 80.961 19.039 0.190E+00
0.008 2976 4.853 85.814 14.186 0.142E+00
0.009 2752 4.488 90.302 9.698 0.970E-01
0.010 2403 3.919 94.220 5.780 0.578E-01
0.012 1472 2.401 96.621 3.379 0.338E-01
0.013 1280 2.087 98.708 1.292 0.129E-01
0.014 314 0.512 99.220 0.780 0.780E-02
0.016 356 0.581 99.801 0.199 0.199E-02
0.017 30 0.049 99.850 0.150 0.150E-02
Page 49
Boun Short Plat
0.018 4 0.007 99.856 0.144 0.144E-02
0.020 4 0.007 99.863 0.137 0.137E-02
0.021 2 0.003 99.866 0.134 0.134E-02
0.023 2 0.003 99.870 0.130 0.130E-02
0.024 2 0.003 99.873 0.127 0.127E-02
0.025 0 0.000 99.873 0.127 0.127E-02
0.027 1 0.002 99.874 0.126 0.126E-02
0.028 1 0.002 99.876 0.124 0.124E-02
0.029 3 0.005 99.881 0.119 0.119E-02
0.031 2 0.003 99.884 0.116 0.116E-02
0.032 4 0.007 99.891 0.109 0.109E-02
0.033 3 0.005 99.896 0.104 0.104E-02
0.035 6 0.010 99.905 0.095 0.946E-03
0.036 3 0.005 99.910 0.090 0.897E-03
0.038 4 0.007 99.917 0.083 0.832E-03
0.039 4 0.007 99.923 0.077 0.766E-03
0.040 7 0.011 99.935 0.065 0.652E-03
0.042 7 0.011 99.946 0.054 0.538E-03
0.043 5 0.008 99.954 0.046 0.457E-03
0.044 8 0.013 99.967 0.033 0.326E-03
0.046 9 0.015 99.982 0.018 0.179E-03
0.047 3 0.005 99.987 0.013 0.130E-03
0.048 3 0.005 99.992 0.008 0.815E-04
Flow Duration from Time Series File:dsout.tsf
Cutoff Count Frequency CDF Exceedence_Probability
CFS % % %
0.001 26537 43.276 43.276 56.724 0.567E+00
0.003 6924 11.292 54.568 45.432 0.454E+00
0.004 6620 10.796 65.364 34.636 0.346E+00
0.006 5486 8.947 74.310 25.690 0.257E+00
0.008 5357 8.736 83.046 16.954 0.170E+00
0.009 3718 6.063 89.110 10.890 0.109E+00
0.011 2370 3.865 92.975 7.025 0.703E-01
0.013 1876 3.059 96.034 3.966 0.397E-01
0.015 1008 1.644 97.678 2.322 0.232E-01
0.016 674 1.099 98.777 1.223 0.122E-01
0.018 239 0.390 99.167 0.833 0.833E-02
0.020 168 0.274 99.441 0.559 0.559E-02
0.021 85 0.139 99.579 0.421 0.421E-02
0.023 41 0.067 99.646 0.354 0.354E-02
0.025 30 0.049 99.695 0.305 0.305E-02
0.026 28 0.046 99.741 0.259 0.259E-02
0.028 23 0.038 99.778 0.222 0.222E-02
0.030 15 0.024 99.803 0.197 0.197E-02
0.032 17 0.028 99.830 0.170 0.170E-02
0.033 17 0.028 99.858 0.142 0.142E-02
0.035 6 0.010 99.868 0.132 0.132E-02
0.037 8 0.013 99.881 0.119 0.119E-02
0.038 10 0.016 99.897 0.103 0.103E-02
0.040 10 0.016 99.914 0.086 0.864E-03
0.042 4 0.007 99.920 0.080 0.799E-03
0.044 7 0.011 99.932 0.068 0.685E-03
0.045 6 0.010 99.941 0.059 0.587E-03
Page 50
Boun Short Plat
0.047 6 0.010 99.951 0.049 0.489E-03
0.049 5 0.008 99.959 0.041 0.408E-03
0.050 5 0.008 99.967 0.033 0.326E-03
0.052 4 0.007 99.974 0.026 0.261E-03
0.054 5 0.008 99.982 0.018 0.179E-03
0.055 5 0.008 99.990 0.010 0.978E-04
0.057 3 0.005 99.995 0.005 0.489E-04
0.059 1 0.002 99.997 0.003 0.326E-04
0.061 1 0.002 99.998 0.002 0.163E-04
----------------------------------
Route Time Series through Facility
Inflow Time Series File:dev.tsf
Outflow Time Series File:rdout
POC Time Series File:dsout
Inflow/Outflow Analysis
Peak Inflow Discharge: 0.399 CFS at 6:00 on Jan 9 in Year 8
Peak Outflow Discharge: 0.049 CFS at 21:00 on Feb 9 in Year 1
Peak Reservoir Stage: 4.56 Ft
Peak Reservoir Elev: 4.56 Ft
Peak Reservoir Storage: 16164. Cu-Ft
: 0.371 Ac-Ft
Add Time Series:bypass.tsf
Peak Summed Discharge: 0.066 CFS at 6:00 on Jan 9 in Year 8
Point of Compliance File:dsout.tsf
Flow Duration from Time Series File:rdout.tsf
Cutoff Count Frequency CDF Exceedence_Probability
CFS % % %
0.001 26515 43.240 43.240 56.760 0.568E+00
0.002 5685 9.271 52.511 47.489 0.475E+00
0.004 6662 10.864 63.376 36.624 0.366E+00
0.005 3821 6.231 69.607 30.393 0.304E+00
0.006 6962 11.354 80.961 19.039 0.190E+00
0.008 2976 4.853 85.814 14.186 0.142E+00
0.009 2752 4.488 90.302 9.698 0.970E-01
0.010 2403 3.919 94.220 5.780 0.578E-01
0.012 1472 2.401 96.621 3.379 0.338E-01
0.013 1280 2.087 98.708 1.292 0.129E-01
0.014 314 0.512 99.220 0.780 0.780E-02
0.016 356 0.581 99.801 0.199 0.199E-02
0.017 30 0.049 99.850 0.150 0.150E-02
0.018 4 0.007 99.856 0.144 0.144E-02
0.020 4 0.007 99.863 0.137 0.137E-02
0.021 2 0.003 99.866 0.134 0.134E-02
0.023 2 0.003 99.870 0.130 0.130E-02
0.024 2 0.003 99.873 0.127 0.127E-02
0.025 0 0.000 99.873 0.127 0.127E-02
0.027 1 0.002 99.874 0.126 0.126E-02
0.028 1 0.002 99.876 0.124 0.124E-02
0.029 3 0.005 99.881 0.119 0.119E-02
0.031 2 0.003 99.884 0.116 0.116E-02
Page 51
Boun Short Plat
0.032 4 0.007 99.891 0.109 0.109E-02
0.033 3 0.005 99.896 0.104 0.104E-02
0.035 6 0.010 99.905 0.095 0.946E-03
0.036 3 0.005 99.910 0.090 0.897E-03
0.038 4 0.007 99.917 0.083 0.832E-03
0.039 4 0.007 99.923 0.077 0.766E-03
0.040 7 0.011 99.935 0.065 0.652E-03
0.042 7 0.011 99.946 0.054 0.538E-03
0.043 5 0.008 99.954 0.046 0.457E-03
0.044 8 0.013 99.967 0.033 0.326E-03
0.046 9 0.015 99.982 0.018 0.179E-03
0.047 3 0.005 99.987 0.013 0.130E-03
0.048 3 0.005 99.992 0.008 0.815E-04
Flow Duration from Time Series File:dsout.tsf
Cutoff Count Frequency CDF Exceedence_Probability
CFS % % %
0.001 26537 43.276 43.276 56.724 0.567E+00
0.003 6924 11.292 54.568 45.432 0.454E+00
0.004 6620 10.796 65.364 34.636 0.346E+00
0.006 5486 8.947 74.310 25.690 0.257E+00
0.008 5357 8.736 83.046 16.954 0.170E+00
0.009 3718 6.063 89.110 10.890 0.109E+00
0.011 2370 3.865 92.975 7.025 0.703E-01
0.013 1876 3.059 96.034 3.966 0.397E-01
0.015 1008 1.644 97.678 2.322 0.232E-01
0.016 674 1.099 98.777 1.223 0.122E-01
0.018 239 0.390 99.167 0.833 0.833E-02
0.020 168 0.274 99.441 0.559 0.559E-02
0.021 85 0.139 99.579 0.421 0.421E-02
0.023 41 0.067 99.646 0.354 0.354E-02
0.025 30 0.049 99.695 0.305 0.305E-02
0.026 28 0.046 99.741 0.259 0.259E-02
0.028 23 0.038 99.778 0.222 0.222E-02
0.030 15 0.024 99.803 0.197 0.197E-02
0.032 17 0.028 99.830 0.170 0.170E-02
0.033 17 0.028 99.858 0.142 0.142E-02
0.035 6 0.010 99.868 0.132 0.132E-02
0.037 8 0.013 99.881 0.119 0.119E-02
0.038 10 0.016 99.897 0.103 0.103E-02
0.040 10 0.016 99.914 0.086 0.864E-03
0.042 4 0.007 99.920 0.080 0.799E-03
0.044 7 0.011 99.932 0.068 0.685E-03
0.045 6 0.010 99.941 0.059 0.587E-03
0.047 6 0.010 99.951 0.049 0.489E-03
0.049 5 0.008 99.959 0.041 0.408E-03
0.050 5 0.008 99.967 0.033 0.326E-03
0.052 4 0.007 99.974 0.026 0.261E-03
0.054 5 0.008 99.982 0.018 0.179E-03
0.055 5 0.008 99.990 0.010 0.978E-04
0.057 3 0.005 99.995 0.005 0.489E-04
0.059 1 0.002 99.997 0.003 0.326E-04
0.061 1 0.002 99.998 0.002 0.163E-04
Page 52
Boun Short Plat
Flow Frequency Analysis
Time Series File:dsout.tsf
Project Location:Sea-Tac
---Annual Peak Flow Rates--- -----Flow Frequency Analysis-------
Flow Rate Rank Time of Peak - - Peaks - - Rank Return Prob
(CFS) (CFS) Period
0.062 2 2/09/01 18:00 0.066 1 100.00 0.990
0.032 7 1/05/02 16:00 0.062 2 25.00 0.960
0.058 3 3/06/03 19:00 0.058 3 10.00 0.900
0.031 8 8/26/04 2:00 0.040 4 5.00 0.800
0.033 6 10/28/04 16:00 0.039 5 3.00 0.667
0.039 5 1/18/06 16:00 0.033 6 2.00 0.500
0.040 4 10/26/06 0:00 0.032 7 1.30 0.231
0.066 1 1/09/08 6:00 0.031 8 1.10 0.091
Computed Peaks 0.065 50.00 0.980
Flow Frequency Analysis
Time Series File:pre.tsf
Project Location:Sea-Tac
---Annual Peak Flow Rates--- -----Flow Frequency Analysis-------
Flow Rate Rank Time of Peak - - Peaks - - Rank Return Prob
(CFS) (CFS) Period
0.079 2 2/09/01 18:00 0.101 1 100.00 0.990
0.021 7 1/06/02 4:00 0.079 2 25.00 0.960
0.058 4 2/28/03 3:00 0.061 3 10.00 0.900
0.002 8 3/24/04 20:00 0.058 4 5.00 0.800
0.035 6 1/05/05 8:00 0.051 5 3.00 0.667
0.061 3 1/18/06 21:00 0.035 6 2.00 0.500
0.051 5 11/24/06 4:00 0.021 7 1.30 0.231
0.101 1 1/09/08 9:00 0.002 8 1.10 0.091
Computed Peaks 0.094 50.00 0.980
Page 53
Boun Short Plat
Duration Comparison Anaylsis
Base File: pre.tsf
New File: dsout.tsf
Cutoff Units: Discharge in CFS
-----Fraction of Time----- ---------Check of Tolerance-------
Cutoff Base New %Change Probability Base New %Change
0.017 | 0.93E-02 0.91E-02 -2.6 | 0.93E-02 0.017 0.017 -0.5
0.022 | 0.63E-02 0.39E-02 -37.2 | 0.63E-02 0.022 0.019 -13.6
0.027 | 0.48E-02 0.25E-02 -46.9 | 0.48E-02 0.027 0.020 -24.3
0.032 | 0.37E-02 0.17E-02 -55.1 | 0.37E-02 0.032 0.023 -27.9
0.036 | 0.28E-02 0.12E-02 -57.5 | 0.28E-02 0.036 0.026 -29.7
0.041 | 0.22E-02 0.82E-03 -63.0 | 0.22E-02 0.041 0.028 -31.6
0.046 | 0.15E-02 0.54E-03 -63.3 | 0.15E-02 0.046 0.033 -27.7
0.051 | 0.99E-03 0.33E-03 -67.2 | 0.99E-03 0.051 0.039 -23.2
0.055 | 0.62E-03 0.98E-04 -84.2 | 0.62E-03 0.055 0.045 -18.4
0.060 | 0.34E-03 0.33E-04 -90.5 | 0.34E-03 0.060 0.050 -16.5
0.065 | 0.21E-03 0.00E+00 -100.0 | 0.21E-03 0.065 0.053 -18.3
0.070 | 0.16E-03 0.00E+00 -100.0 | 0.16E-03 0.070 0.054 -22.1
0.074 | 0.82E-04 0.00E+00 -100.0 | 0.82E-04 0.074 0.057 -23.9
0.079 | 0.16E-04 0.00E+00 -100.0 | 0.16E-04 0.079 0.062 -22.1
There is no positive excursion
Maximum negative excursion = 0.013 cfs (-32.1%)
occurring at 0.042 cfs on the Base Data:pre.tsf
and at 0.028 cfs on the New Data:dsout.tsf
Page 54
Boun Short Plat
Vault - Flow Control Duration Performance Evaluation (Per Section 3.2.2)
1. The post-developed flow duration curve lies strictly on or below the predevelopment
curve at the lower limit of the range of control (between 50% of the 2-year and the
2-year). See KCRTS Flow Duration Comparison on page 50 and 51 of this report.
Requirement Satisfied - The dsout (combined flow duration of release of vault and
bypass structure) duration curve lies strictly below the target duration curve.
2. At any duration within the range of control, the post-development flow is less than
1.1 times the predevelopment flow.
Requirement Satisfied – After running a flow durations comparison analysis, a
maximum positive excursion found among the range of control was less than 10%.
3. The target duration curve may not be exceeded along more than 50% of the range
of control.
Requirement Satisfied - After running a flow duration’s comparison analysis, 1 of the
14 flow duration cutoff values (50%) were exceeded.
4. The peak flow at the upper end of the range of control (historical 50-year) may not
exceed predeveloped levels by more than 10%.
Requirement Satisfied – Peak flows at the upper end of the range of control do not
exceed predeveloped flow levels by greater than 10%.
Vault – Additional Peak Flow Requirement (Match 2-year and 10-year peaks)
The predeveloped peak flows were compared to the downstream point of convergence
of the flow control system at the 2 and 10-year events for peak flow compliance.
Peak Flow 2-Year (Predeveloped): 0.035 cfs
Peak Flow 2-Year (Downstream Convergence [dsout]): 0.033 cfs
Peak Flow 10-Year (Predeveloped): 0.061 cfs
Peak Flow 10-Year (Downstream Convergence [dsout]): 0.058 cfs
Requirement Satisfied – Peak flows are within tolerable range of acceptance to meet
the matching criteria.
Flow Splitter (Catch Basin #10)
The following flow splitter was sized, in part, utilizing stormwater calculations that were
completed during the development of the Vuong Short Plat, prepared by Touma Engineers.
For further information about this stormwater system, see below.
The flow splitter was sized utilizing Section 6.2.5 of the King County Manual. Per 6.2.5.1,
orifice flow splitters shall be sized per Section 5.3.4.2.
Qwq=CAorifice(2gh)^0.5
Where Qwq=0.11 cfs (Water Quality Flow Rate Per Vuong Short Plat)
C = 0.62 (for plate orifice)
G = 32.2 (ft/s2)
H = Hydraulic Head (overflow elevation – outlet IE) = 429.17 - 427.67 = 1.5’
Page 55
Boun Short Plat
Solve A = 0.11/(0.62*(2*32.2*1.5)^0.5) = 0.0181 ft2
Solve for r = A = ϖr2 = (0.181/ϖ)^0.5 = 0.0759’
Solve for d = 2r = 2*0.0759 = 0.1518’ = 1.82”
A 1.82” diameter orifice shall be installed at the bottom of the riser tee within the proposed
type 2-60” catch basin. See sheet C5 of the plan set for further flow splitter details.
Flow Splitter Flow Capacity Check: Per Section 6.2.5.2 – Design Criteria Item 3, the
maximum head shall be minimized to flow in excess of the water quality design flow.
Specifically, flow to the WQ facility at the 100-year water surface shall not increase the
design WQ flow by more than 10%.
To analyze the flow splitter at the 100-year storm event, the rational method was utilized to
calculate a 100-year storm event flow rate for both the Boun Short Plat and Vuong Short
Plat which are tributary to this conveyance point. An assumed time of concentration was
utilized of 6.3 minutes (minimum).
Vuong Short Plat Total Sub-Basin Area = 1.13 acres (per Approved TIR)
Impervious = 0.83 acres
Pervious = 0.30 acres
Boun Short Plat Total Sub-Basin Area = 1.25 acres
Impervious = 0.725 acres
Pervious = 0.527 acres
Total contributing Sub-Basin Areas:
Total Impervious = 1.56 acres
Total Pervious = 0.83 acres
Rational Method Equation
Qr=CIrA
Where Cc= (C1A1+C2A2+C3A3+….CnAn)/At
Cc = (1.56 acres * 0.90 (per Table 3.2.1.A) + 0.83 acres * 0.25 (per Table 3.2.1.A))/2.39
Cc = 0.67 unitless
Where Ir = Pr *ir;
Pr = the total precipitation at the project site for the 24-hour duration storm event for a
given return frequency. Per Figure 3.2.1.D for the 100-Year Storm Event, Pr = 3.9 inches.
ir = (Ar)(Tc)(-br), where Ar = 2.61, Br = 0.63 per Table 3.2.1.B.
ir = 2.61*6.3-0.63
ir = 0.8186
Ir = 3.9” * 0.8186 = 3.19
Q100 = 0.67*3.19*2.39 = 5.11 cfs
Per Figure 5.3.4.H – Riser Inflow Curves, an approximate increase of 0.36’ of head will be
necessary to pass the 100-year storm event through the top of the overflow riser with
utilizing a 30” (2.5’) standpipe riser. However, a correction needs to be made to this figure
to account for the minor flow that will leave the facility through the WQ facility orifice outlet.
The following equation was derived to account for this flow loss.
Page 56
Boun Short Plat
Q100 = 9.739 DH3/2 + CAorifice(2gh)^0.5
5.22 cfs = 9.739 * 2.5 * H3/2 + 0.62* 0.0181 (2*32.2*h)^0.5
Solving for H, H = 0.36’
Verify that the change of 0.36’ in head does not increase the amount of flow to WQ facility
>10%. A modified flow splitter is proposed at Catch Basin #10 to allow for the overflow
elevation of the WQ facility to be 0.4’ higher than the overflow elevation of the downstream
network outlet. This will allow for water to flow into the downstream network prior to
allowing water to surcharge the water quality facility.
The change in flow between the WQ flow rate and the 100-year storm event is the following
(note: overflow above the 12” tee is not allowed, therefore weir flow was ignored):
Qorifice=CAorifice(2gh)^0.5 = 0.62*0.0181*(2*32.2*(1.5+.36))^0.5 = 0.122
Percent Difference = (0.122 – 0.11)/0.123 = 0.976 = 9.7% < 10%
Therefore, a 30” standpipe will have the capacity to convey the 100-year storm event
without increase the amount of flow conveyed to the WQ facility by more than 10%. See
Plan Sheet C5 of the accompanying plan set for further details.
3.2.1 RATIONAL METHOD
2009 Surface Water Design Manual 1/9/2009 3-13
TABLE 3.2.1.A RUNOFF COEFFICIENTS - "C" VALUES FOR THE RATIONAL METHOD
General Land Covers Single Family Residential Areas*
Land Cover C Land Cover Density C
Dense forest
Light forest
Pasture
Lawns
Playgrounds
Gravel areas
Pavement and roofs
Open water (pond, lakes,
wetlands)
0.10
0.15
0.20
0.25
0.30
0.80
0.90
1.00
0.20 DU/GA (1 unit per 5 ac.)
0.40 DU/GA (1 unit per 2.5 ac.)
0.80 DU/GA (1 unit per 1.25 ac.)
1.00 DU/GA
1.50 DU/GA
2.00 DU/GA
2.50 DU/GA
3.00 DU/GA
3.50 DU/GA
4.00 DU/GA
4.50 DU/GA
5.00 DU/GA
5.50 DU/GA
6.00 DU/GA
0.17
0.20
0.27
0.30
0.33
0.36
0.39
0.42
0.45
0.48
0.51
0.54
0.57
0.60
* Based on average 2,500 square feet per lot of impervious coverage.
For combinations of land covers listed above, an area-weighted "Cc:x At" sum should be computed based on the
equation Cc: x At = (C1 x A1) + (C2 x A2) + ...+(Cn x An), where A8 = (A1 + A2 + ...+An), the total drainage basin area.
TABLE 3.2.1.B COEFFICIENTS FOR THE RATIONAL METHOD "iR" EQUATION
Design Storm Return Frequency aR bR
2 years
5 years
10 years
25 years
50 years
100 years
1.58
2.33
2.44
2.66
2.75
2.61
0.58
0.63
0.64
0.65
0.65
0.63
TABLE 3.2.1.C kR VALUES FOR Tt USING THE RATIONAL METHOD
Land Cover Category kR
Forest with heavy ground litter and meadow 2.5
Fallow or minimum tillage cultivation 4.7
Short grass pasture and lawns 7.0
Nearly bare ground 10.1
Grassed waterway 15.0
Paved area (sheet flow) and shallow gutter flow 20.0
3.2.1 RATIONAL METHOD
2009 Surface Water Design Manual 1/9/2009 3-17
FIGURE 3.2.1.D 100-YEAR 24-HOUR ISOPLUVIALS
SNOHOMISH COUNTY
KING COUNTY
KING COUNTY
PIERCE COUNTY
KIRKLAND
REDMOND
REDMOND
DUVALL
WOODINVILLEBOTHELL
MERCERISLAND
RENTON
TUKWILA
SEATTLE
SEATTLE
BURIEN
NORMANDY
PARK
SEATAC
BELLEVUE
NEWCASTLE ISSAQUAH
SNOQUALMIE
CARNATION
NORTH
BEND
SEATTLE
SHORELINE
MEDINA
BEAUXARTS
CLYDEHILL
YARROW
POINTHUNTSPOINT
LAKEFOREST
PARK
FEDERAL
WAY
PACIFICMILTON
ALGONA
AUBURN
KENT
KENT
DES
MOINES
BLACK
DIAMOND
ENUMCLAW
KENT
Vashon
Island
MauryIsland
COVINGTON MAPLEVALLEY
520
522
104
5
522
405
908
900
167
169
515
516
509
518
509
90
405
405
99
5
5
900
90
99
99
99
509
161
164
167
18
18
18
516
169
169
410
520
Elliott
Bay
LakeSamm amishLakeWashington
P ugetSound CedarRiver
Green
River
Whi
t
eRi
ver
Sa
mmami
shRiverSnoqualmie River
0 2 4 Miles
N
100-Year 24-Hour
Precipitation
in Inches
WESTERN
KING COUNTY
3.0
3.1
3.2
3.3
3.4
3.5
3.6
3.7
3.83.
9
3.93.94.0
4.04.05.04.14.24.34.44.55.55.5
6.0
6.56.56.04.1
4.2
4.3
4.
4
4.54.6Project Location
5.3.4 CONTROL STRUCTURES — METHODS OF ANALYSIS
2009 Surface Water Design Manual 1/9/2009 5-47
Riser Overflow
The nomograph in Figure 5.3.4.H may be used to determine the head (in feet) above a riser of given
diameter and for a given flow (usually the 100-year peak flow for developed conditions).
FIGURE 5.3.4.H RISER INFLOW CURVES
1
10
100
0.1 1 10HEAD IN FEET (measured from crest of riser)
Qweir=9.739 DH3/2
Qorifice=3.782 D2H1/2
Q in cfs, D and H in feet
Slope change occurs at weir-orifice transition Q (cubic feet per second)18
21
24
27
30
42
487254
10
12
15
33
36
RISER DIAMETER (inches)0.36'
5.22
WATERQUALITYThefollowingcalculationistodeterminewaterqualityvolume,itisbasedon1/3of2-yearstorm,whichis2/3=0.67”.The0.67”precipitationisusedforcomputingthewaterqualityvolume.SBUWSCSMETHODFORCOMPUTINGRUNOFFHYDROGRAPHSTORMOPTIONS:1-S.C.S.TYPE-lA2-7-DAYDESIGNSTORM3-STORMDATAFILESPECIFYSTORMOPTION:1S.C.S.TYPE-lARAINFALLDISTRIBUTIONENTER:FREQ(YEAR),DURATION(HOUR),PRECIP(INCHES)1,24,0.67S.C.S.TYPE-lADISTRiBUTION1-YEAR24-HOURSTORM.67hTOTALPRECIP.*********ENTER:A(PERV),CN(PERV),A(IMPERV),CN(IMPERV),TCFORBASINNO.I0.3,86,0.83,98,6.3DATAPRINT-OUT:AREA(ACRES)PERVIOUSIMPERVIOUSTC(MINUTES)ACNACN1.1.386.0.898.06.3PEAK-Q(CFS)T-PEAK(HRS)VOL(CU-FT).117.8314961496cu.ft.isrequired.Itisproposedtoconstructunderground60-inchpipetostorethecalculatedwaterqualityvolume.Cross-sectionareaof60-inchpipelessthebottomandtop6-inchesis16.02s.fRefertosketchonfollowingsheetLengthof60-inchpipeis1496/16.02=93.33IfUSE95.00ifof6Oinch
Page 61
Boun Short Plat
Water Quality System (Part E-1)
The project is located within a Basic Water Quality treatment area as discussed in Part C in
this Section. To satisfy this treatment requirement, the project proposes a combined
detention/wetvault located in the southwest corner of the project to provide basic treatment
for onsite runoff.
Vault (Water Quality)
The proposed water quality wetvault for the site has been sized to obtain adequate particulate
removal efficiency per section 6.4.1.1 of the Manual. This is based on the volume of the
wetvault in relation to the volume of stormwater runoff from the mean annual storm, VB/VR.
For basic water quality vaults, this ratio, vault volume/mean annual storm, shall equal at least
3.
The sizing of the wetvault is accomplished by first determining the acreage of pervious and
impervious areas. These values are used to calculate the treatment runoff volumes by
multiplying the acreage of each surface type by the mean annual storm (0.04 feet, per Figure
6.4.1.A of the Manual). Runoff factors are also applied to each surface type, 0.25 for grass
and 0.90 for impervious. The sum of the grass and impervious runoff volumes is the total
runoff volume from the mean annual storm, VR. To calculate the minimum required volume of
the wetpool (VB), the mean annual runoff volume (VR) was multiplied by 3.
Grass runoff = (20,765 sf)(0.04’)(0.25) = 208 cf
Impervious runoff = (27,633 sf)(0.04’)(0.90) = 975 cf
Forest runoff= (0 sf)(0.039’)(0.10)= 0 cf
Total runoff volume, VR = 213 cf + 975 cf + 0 cf = 1,203 cf
Total basin volume, VB = 1,203 cf x 3 = 3,607 cf
The water quality portion of the vault is 16’Wx108’L, a 6:1 length to width ratio. The
proposed depth of the wetvault is 5.00 feet. This provides a total volume of 8,640 cf. See
sheet C7 of the engineering plan set for vault dimensions and details.
Untreated Discharge
Due to grading constraints of the site, portions of Tract A target pervious and impervious
surfaces as well as off-site right of way improvements of Chelan Ave NE target surfaces cannot
be collected within the proposed stormwater WQ wetvault. A discharge of untreated target
surfaces is proposed, as allowed per section 1.2.8.2.D of the manual. Per Section 1.2.8.2.D
of the manual, the following conditions must be met and approved by the City’s Surface Water
Utility:
Requirement #1 – Treatment of the constrained area by filter strip, biofiltration, or
a linear sand filter is not feasible, and a treatment trade as described in Section C is
not possible.
Requirement #1 Satisfied, the constrained area primarily consists of asphalt road with
public right of way. A filter strip, biofiltration, and a linear sand filter are not feasible
due to the confined space. The project site is not subject to any upstream untreated
runoff, therefore, a treatment trade is infeasible for this site.
Requirement #2 – The untreated target surface is less than 5,000 square feet of new
PGIS and is less than 5,000 square feet of new plus replaced PGIS on a redevelopment
project.
Page 62
Boun Short Plat
Requirement #2 Satisfied, the untreated target surface equates to a total of 3,954 sf
of new/replaced PGIS. This is less than the maximum 5,000 sf allowed.
Requirement #3 – Any target PGPS within the area to be released untreated shall be
addressed with a landscape management plan.
Requirement #3 Satisfied, A landscape plan has been prepared for this development.
Threshold Discharge Area #2 (2.A & 2.B)
Existing Site Hydrology (Part A-2)
Threshold Discharge Area #2 is comprised of approximately 20% (11,440 sf) of the project
parcel. This includes 8,771 sf of area near the southeast corner of the project parcel and
2,669 sf of project area which consists of an 18-foot strip of land to be dedicated as part of
this project. Under existing conditions, Threshold Discharge Area 2.A (the eastern portion of
the project site) is currently undeveloped. The site’s topography suggests this portion of land
sheet flows to the northeast over densely vegetated land cover consisting of various types of
grass and brush. There is approximately three (3) feet of vertical relief across the site with
an average slope around 5%. Any accumulated runoff is allowed to enter a stormwater
conveyance swale within Duvall Ave NE near the northeast corner of the project parcel.
Threshold Discharge Area 2.B (the 18’ strip of land located near the northwest corner of the
project site) is currently undeveloped with the exception of an existing gravel driveway. The
site’s topography suggests this portion of land sheet flows to the northwest over vegetated
land cover consisting of short lawn. There is approximately one (1) foot of vertical relief across
the site with an average slope around 2%. Any accumulated runoff would flow northwest
along the western edge of the existing gravel access road. Threshold Discharge Area 2.A and
2.B join approximately ½ of a mile downstream of the project site.
Developed Site Hydrology (Part B-2)
Under developed conditions, a drainage adjustment will allow for a portion of the Threshold
Discharge Area 2.A (5,760 sf) to drain to Threshold Discharge Area #1. The remaining 3,011
sf will allow stormwater to sheet flow over pervious landscape areas towards an existing
conveyance swale within Duvall Ave NE.
The disturbance within threshold discharge area #2 will include construction clearing and
grading, construction of associated utilities (water, power, etc.), required landscaping buffers,
and tree replacement.
Tables 4.7 and 4.8 break down the historic site conditions and developed site conditions
TABLE 4.7 – Historic Site Conditions – Threshold Discharge Area #2
Sub-basin Total
sf (ac)
Impervious
sf (ac)
Till Grass
sf (ac)
Till Forest
sf (ac)
Threshold Discharge
Area #2.A – Onsite
(8,771-5,760=3,011 sf)
3,011
(0.07) 0 0
3,011
(0.07)
Threshold Discharge
Area #2.B
2,669
(0.06) 0 0 2,669
(0.06)
TOTAL 5,680
(0.130) 0 0 5,680
(0.130)
Page 63
Boun Short Plat
TABLE 4.8 – Developed Conditions – Threshold Discharge Area #2
Sub-basin Total
sf (ac)
Impervious
sf (ac)
Till Grass
sf (ac)
Till Forest
sf (ac)
Threshold Discharge
Area #2.A - Onsite
3,011
(0.07)
0
(0.00)
3,011
(0.07) 0
Threshold Discharge
Area #2.B
2,669
(0.06)
789
(0.02)
1,880
(0.04) 0
TOTAL 5,680
(0.13)
789
(0.02)
4,891
(0.11)
0
(0)
* The area reflects the site area after ROW dedication
Performance Standards (Part C-2)
Flow Control Facility:
The proposed project is located within the Flow Control Duration Standard – Matching Historic
Site Conditions area: Match developed discharge durations to historic (forested) duration for
the range of pre-developed discharge rates from 50% of the 2-year peak flow up to the full
50-year peak flow.
The above is required unless a flow control exception applies to the proposed site conditions.
Per Section 1.2.3.1.B – Exception 2, The facility requirement in Flow Control Duration
Standard Matching Forested Site Conditions Areas is waived for any threshold discharge area
in which there is no more than 0.1-cfs difference in the sum of the developed 100-year peak
flows for those target surfaces subject to this requirement and the sum of forested (historic)
site conditions 100-year peak flows for the same surface areas.
The developed conditions do not exceed a 0.1 cfs difference in the sum of developed 100-
year peak flows for those target surfaces subject to the flow control facility requirement and
the sum of historic site conditions 100-year peak flows for the same surface areas. Thus flow
control is not required for this threshold discharge area per section 1.2.3.1.B of the Renton
Manual. Part D of this section for analysis output comparing the pre and post flow rates.
Water Quality
The project is located within the Basic Water Quality treatment area as designated by the
King County 2009 Water Quality Application Maps and is not subject to the Enhanced Basic
WQ menu per Section 1.2.8.1.A of the Manual. The goal of Basic WQ treatment is 80%
removal of total suspended solids. This is required unless an applicable exemption to Core
Requirment #8 applies. This threshold discharge area meets the treatment exemption for
surface area per Section 1.2.8 Exemptions. The proposed conditions will not increase PGIS
surface areas within Threshold Discharge Area #2. Therefore, a water quality facility for TDA
#2.A is not proposed at this time.
Stormwater Conveyance
Not applicable for this TDA.
Flow Control Systems (Part D-2)
As mention in part C-2, a flow control facility is not required for this TDA. Flow calculations
for each basin condition subject to the flow control analysis were analyzed at the 100-year
storm event. See Table 4.9 and 4.10 below and following page for basin areas and KCRTS
output.
Page 64
Boun Short Plat
TABLE 4.9 – Historic Site Conditions – Threshold Discharge Area #2.A – Target
Surfaces
Sub-basin Total
sf (ac)
Impervious
sf (ac)
Till Grass
sf (ac)
Till Forest
sf (ac)
Threshold Discharge
Area #2.A - Onsite
5,680
(0.13) 0 0 5,680
(0.13)
TABLE 4.10 – Developed Site Conditions – Threshold Discharge Area #2.A – Target
Surfaces
Sub-basin Total
sf (ac)
Impervious
sf (ac)
Till Grass
sf (ac)
Till Forest
sf (ac)
Threshold Discharge
Area #2.A - Onsite
5,680
(0.13)
789
(0.02)
4,891
(0.11) 0
Flow Frequency Analysis
Time Series File:pre.tsf
Project Location:Sea-Tac
---Annual Peak Flow Rates--- -----Flow Frequency Analysis-------
Flow Rate Rank Time of Peak - - Peaks - - Rank Return Prob
(CFS) (CFS) Period
0.008 2 2/09/01 18:00 0.010 1 100.00 0.990
0.002 7 1/06/02 3:00 0.008 2 25.00 0.960
0.006 4 2/28/03 3:00 0.006 3 10.00 0.900
0.000 8 12/23/03 11:00 0.006 4 5.00 0.800
0.004 6 1/05/05 8:00 0.005 5 3.00 0.667
0.006 3 1/18/06 22:00 0.004 6 2.00 0.500
0.005 5 11/24/06 5:00 0.002 7 1.30 0.231
0.010 1 1/09/08 8:00 0.000 8 1.10 0.091
Computed Peaks 0.010 50.00 0.980
Flow Frequency Analysis
Time Series File:dev.tsf
Project Location:Sea-Tac
---Annual Peak Flow Rates--- -----Flow Frequency Analysis-------
Flow Rate Rank Time of Peak - - Peaks - - Rank Return Prob
(CFS) (CFS) Period
0.014 4 2/09/01 2:00 0.033 1 100.00 0.990
0.009 6 1/05/02 16:00 0.018 2 25.00 0.960
0.018 2 2/27/03 7:00 0.015 3 10.00 0.900
0.007 8 8/26/04 2:00 0.014 4 5.00 0.800
0.009 7 10/28/04 16:00 0.014 5 3.00 0.667
0.015 3 1/18/06 16:00 0.009 6 2.00 0.500
0.014 5 11/24/06 3:00 0.009 7 1.30 0.231
0.033 1 1/09/08 6:00 0.007 8 1.10 0.091
Computed Peaks 0.028 50.00 0.980
Page 65
Boun Short Plat
The difference at the 100-year storm event frequency is 0.023 cfs (0.033-0.010) which is less
than the 0.1 cfs increase requirement. Therefore, a flow control facility is not required in
Threshold Discharge Area #2.
V. CONVEYANCE SYSTEM ANALYSIS AND DESIGN
Onsite
The conveyance system was designed per Section 3 and 4 of the Manual. Table 3.2 of the
Manual suggests that the Rational Method of analysis is required for undetained areas for
tributary areas less than 10 ac.
To analyze the proposed systems, the Rational Method was used based on:
• QR = CIRA
• King county I.D.F. Family (2009 Manual)
• 25 and 100-year 24-hour storm event flow
• Runoff coefficients
• Appropriate Manning’s number
The Rational Method was used per section 3.2.1. of the Manual. The runoff coefficients, ‘C’
values were taken from Table 3.2.1.A. A C value of 0.9 was used for the roofed surface and
a conservative time of concentration value of 6.3 minutes was used. This is a low travel time,
but will provide relatively higher flow rate.
Conveyance Pipes
The new stormwater conveyance system has been proposed to convey runoff in a way that
does not impact the drainage basin of the existing site.
A conveyance and backwater analysis for the proposed project have been calculated as shown
on the following page. Stormwater runoff will drain to catch basins and then flow through
varying diameter storm pipes. All new pipes are to be designed with sufficient capacity to
convey and contain at minimum the 25-year peak flow and not cause a flooding nuisance
during a 100-year storm event.
If for larger storms that may overtop the storm structures, all stormwater will be isolated on
site.
LOT 55,731 SFLOT 76,553 SFLOT 65,718 SFLOT 36,168 SFLOT 26,121 SFLOT 46,245 SFLOT 15,172 SFTRACT A7,277 SF102+00103+00104+00SS~435434436
437437 437438438
438439439435434
SHEET OFJOB NUMBERNO. DESCRIPTION INIT. DATE
DRAWN BY:CHECKED BY:SCALE:
HORZ:VERT:
DATE:CIVIL & STRUCTURAL ENGINEERING | LAND SURVEYING | PLANNING
PROJECT MANAGEMENT | FEASIBILITY | PERMIT EXPEDITING
LAKEWOOD OFFICE7602 Bridgeport Way W #3D
Lakewood, WA 98499
phone: 253-301-4157
fax: 253-336-3950
SNOQUALMIE OFFICE
35312 SE Center St
Snoqualmie, WA 98065
phone: 425-392-8055
fax: 425-392-0108
beylerconsulting.com
BEYLER
CONSULTING
Plan. Design. ManageEXHIBIT1CONVEYANCE MAP
BOUN SHORT PLAT
BASIN MAPS
CITY OF RENTON,WASHINGTON16-2061A PORTION OF SECTION 10, TOWNSHIP 23 NORTH, 5 WEST, W.M.DUVALL AVE NE
CHELAN AVE NE BOUN SHORT PLATCONVEYANCE MAPSCALE: 1" = 30'1530030NATURAL DISCHARGELOCATION #1NATURAL DISCHARGELOCATION #2.A(EXISTING SWALE)CB #5SUB-BASIN #6SUB BASIN AREA = 45,510 SFIMPERVIOUS AREA = 26,380 SFPERVIOUS AREA = 19,130 SFCB #3CB #4SUB-BASIN #5SUB-BASIN AREA = 2,899 SFIMPERVIOUS AREA = 1,254 SFPERVIOUS AREA = 1,645 SFCB #2CB #1EX. CB TO BEREMOVEDCB #8CB #9OUTLET #1EX. CB #SUB-BASIN #8SUB-BASIN AREA = 3,964 SFIMPERVIOUS AREA = 2,927 SFPERVIOUS AREA = 1,037 SFSUB-BASIN #7SUB-BASIN AREA = 1,257 SFIMPERVIOUS AREA = 1,006 SFPERVIOUS AREA = 251 SFSUB-BASIN #2SUB-BASIN AREA = 2,137 SFIMPERVIOUS AREA = 1,403 SFPERVIOUS AREA = 734 SFLINK 1LINK 2LINK 3LINK 4LINK 5LINK 6LINK 7LINK 81 REVISED PER CITY REVIEW #1 DTY 5/17
2 REVISED PER CITY REVIEW #2 KRD 7/27
COMPOSITE A C*A Tc i25 I25 Q25 (basin)Q25 (accum.)DIA. MATERIAL SLOPE QFULL VFULL V25 RThetaDEPTHd/D
PIPE FROM TO (ac) C (ac) C C (ac) (Min.) cfs cfs in. n ft/ft cfs fps fps radians ft
LINK‐8 CB9 CB8 0.0200 0.25 0.0700 0.9 0.76 0.0900 0.068 6.3 0.804 2.774 0.189 0.189 12 0.013 0.007 3.08 3.92 2.26 0.11 1.75 0.18 0.18
LINK‐7 CB8 CB1 0.0200 0.25 0.0300 0.9 0.64 0.0500 0.032 6.3 0.804 2.774 0.089 0.277 12 0.013 0.017 4.67 5.95 3.43 0.11 1.75 0.18 0.18
LINK‐6 CB5 CB3 0.4400 0.25 0.6100 0.9 0.63 1.0500 0.659 6.3 0.804 2.774 1.828 1.828 12 0.013 0.017 4.63 5.89 5.56 0.23 2.90 0.44 0.44
LINK‐5 CB4 CB3 0.0400 0.25 0.0300 0.9 0.53 0.0700 0.037 6.3 0.804 2.774 0.103 0.103 12 0.013 0.027 5.82 7.41 1.90 0.03 0.90 0.05 0.05
LINK‐4 CB3 CB2 0.0000 0.25 0.0000 0.9 0.00 0.0000 0.000 6.3 0.804 2.774 0.000 1.931 12 0.013 0.052 8.11 10.33 8.58 0.19 2.49 0.34 0.34
LINK‐3 CB2 Vault*0.0000 0.25 0.0000 0.9 0.00 0.0000 0.000 6.3 0.804 2.774 0.000 1.931 12 0.013 0.089 10.65 13.56 12.53 0.22 2.82 0.42 0.42
LINK‐2 Vault* CB1 0.0000 0.25 0.0000 0.9 0.00 0.0000 0.000 6.3 0.804 2.774 0.000 1.931 12 0.013 0.005 2.49 3.17 4.54 0.43 2.53 0.65 0.65
LINK‐1 CB1 OUTLET #1 0.0200 0.25 0.0500 0.9 0.71 0.0700 0.050 6.3 0.804 2.774 0.139 2.347 12 0.013 0.005 2.53 3.22 5.52 0.56 2.19 0.73 0.73
(1) (2) (3) (4) (5) (6) (7) (8) (9) (10) (11) (12) (13) (14) (15) (16) (17) (18)(19) (20)
Q Length Pipe Size n Value Outlet IE Inlet IE Barrel Area Vf Barrel Velocity Head TW Elev. Friction Loss Entr. HGL Elev. Entr. Head Loss Exit Head Loss Outlet Cont. Elev. Inlet Cont. Elev. Appr. Vel. Head Bend Head Loss Junction Head Loss HW Rim El Diff.
PIPE FROM TO (cfs) (ft) (in) (ft) (ft) (sqft) (fps) (ft) (ft) (ft) (ft) (ft) (ft) (ft) (ft) (ft) (ft) (ft) (ft) (ft) (ft)
LINK‐1 OUTLET #1 CB1 2.35 32 12 0.013 428.35 428.51 0.79 2.99 0.139 429.17 0.05 429.22 0.07 0.139 429.42 429.61 ‐0.10 0.12 0.01 429.64 432.32 2.68
LINK‐2 CB1 Vault*1.93 39 12 0.013 428.51 428.70 0.79 2.46 0.094 429.64 0.06 429.70 0.05 0.094 429.84 429.75 0.00 0.00 0.00 429.84 437.00 7.16
LINK‐3 Vault* CB2 1.93 9 12 0.013 426.70 427.50 0.79 2.46 0.094 433.80 0.03 433.83 0.05 0.094 433.97 428.60 ‐0.09 0.12 0.00 434.00 437.63 3.63
LINK‐4 CB2 CB3 1.93 25 12 0.013 427.50 428.79 0.79 2.46 0.094 434.00 0.11 434.10 0.05 0.094 434.24 429.89 ‐0.08 0.11 0.00 434.27 436.98 2.71
LINK‐5 CB3 CB4 0.10 121 12 0.013 428.79 432.00 0.79 0.13 0.000 434.27 0.01 434.28 0.00 0.000 434.28 432.00 0.00 0.00 0.00 434.28 436.21 1.93
LINK‐6 CB3 CB5 1.83 68 12 0.013 428.79 429.93 0.79 2.33 0.084 434.27 0.20 434.47 0.04 0.084 434.59 430.83 0.00 0.00 0.00 434.59 436.50 1.91
LINK‐7 CB1 CB8 0.28 48 12 0.013 428.51 429.33 0.79 0.35 0.002 429.84 0.01 429.85 0.00 0.002 429.85 429.33 0.00 0.00 0.00 429.85 432.77 2.92
LINK‐8 CB8 CB9 0.19 39 12 0.013 429.33 429.62 0.79 0.24 0.001 429.85 0.00 429.85 0.00 0.001 429.86 429.62 0.00 0.00 0.00 429.86 432.62 2.76
BOUN SHORT PLAT BACKWATER CALCULATION SHEET (25 YEAR)
LOCATION
*Vault TW Elevation = Top Detention = 433.80
BOUN SHORT PLAT CONVEYANCE SYSTEM ANALYSIS AND SIZING TABLE USING THE RATIONAL METHOD (25 YEAR)
LOCATION PERVIOUS IMPERVIOUS
*Vault Modelled as a flow through structure at full capacity
COMPOSITE A C*A Tc i100 I100 Q100 (basin)Q100 (accum.)DIA. MATERIAL SLOPE QFULL VFULL V25 RThetaDEPTHd/D
PIPE FROM TO (ac) C (ac) C C (ac) (Min.) cfs cfs in. n ft/ft cfs fps fps radians ft
LINK‐8 CB9 CB8 0.0200 0.25 0.0700 0.9 0.76 0.0900 0.068 6.3 0.819 3.192 0.217 0.217 12 0.013 0.007 3.08 3.92 2.11 0.10 1.65 0.16 0.16
LINK‐7 CB8 CB1 0.0200 0.25 0.0300 0.9 0.64 0.0500 0.032 6.3 0.819 3.192 0.102 0.319 12 0.013 0.017 4.67 5.95 3.20 0.10 1.65 0.16 0.16
LINK‐6 CB5 CB3 0.4400 0.25 0.6100 0.9 0.63 1.0500 0.659 6.3 0.819 3.192 2.104 2.104 12 0.013 0.017 4.63 5.89 5.73 0.24 3.02 0.47 0.47
LINK‐5 CB4 CB3 0.0400 0.25 0.0300 0.9 0.53 0.0700 0.037 6.3 0.819 3.192 0.118 0.118 12 0.013 0.027 5.82 7.41 1.90 0.03 0.90 0.05 0.05
LINK‐4 CB3 CB2 0.0000 0.25 0.0000 0.9 0.00 0.0000 0.000 6.3 0.819 3.192 0.000 2.222 12 0.013 0.052 8.11 10.33 8.84 0.20 2.57 0.36 0.36
LINK‐3 CB2 Vault*0.0000 0.25 0.0000 0.9 0.00 0.0000 0.000 6.3 0.819 3.192 0.000 2.222 12 0.013 0.089 10.65 13.56 10.53 0.17 2.32 0.3 0.3
LINK‐2 Vault* CB1 0.0000 0.25 0.0000 0.9 0.00 0.0000 0.000 6.3 0.819 3.192 0.000 2.222 12 0.013 0.005 2.49 3.17 5.58 0.58 2.14 0.74 0.74
LINK‐1 CB1 OUTLET #1 0.0200 0.25 0.0500 0.9 0.71 0.0700 0.050 6.3 0.819 3.192 0.160 2.701 12 0.013 0.005 2.53 3.22 4.10 0.36 2.74 0.6 0.6
(1) (2) (3) (4) (5) (6) (7) (8) (9) (10) (11) (12) (13) (14) (15) (16) (17) (18)(19) (20)
Q Length Pipe Size n Value Outlet IE Inlet IE Barrel Area Vf Barrel Velocity Head TW Elev. Friction Loss Entr. HGL Elev. Entr. Head Loss Exit Head Loss Outlet Cont. Elev. Inlet Cont. Elev. Appr. Vel. Head Bend Head Loss Junction Head Loss HW Rim El Diff.
PIPE FROM TO (cfs) (ft) (in) (ft) (ft) (sqft) (fps) (ft) (ft) (ft) (ft) (ft) (ft) (ft) (ft) (ft) (ft) (ft) (ft) (ft) (ft)
LINK‐1 OUTLET #1 CB1 2.70 32 12 0.013 428.35 428.51 0.79 3.44 0.184 429.17 0.11 429.28 0.09 0.184 429.56 429.91 ‐0.13 0.16 0.01 429.95 432.32 2.37
LINK‐2 CB1 Vault*2.22 39 12 0.013 428.51 428.70 0.79 2.83 0.124 429.95 0.05 430.00 0.06 0.124 430.19 429.75 0.00 0.00 0.00 430.19 437.00 6.81
LINK‐3 Vault* CB2 2.22 9 12 0.013 426.70 427.50 0.79 2.83 0.124 433.80 0.06 433.86 0.06 0.124 434.04 428.60 ‐0.12 0.16 0.00 434.08 437.63 3.55
LINK‐4 CB2 CB3 2.22 25 12 0.013 427.50 428.79 0.79 2.83 0.124 434.08 0.13 434.21 0.06 0.124 434.39 429.89 ‐0.11 0.14 0.01 434.43 436.98 2.55
LINK‐5 CB3 CB4 0.12 121 12 0.013 428.79 432.00 0.79 0.15 0.000 434.43 0.02 434.45 0.00 0.000 434.45 432.00 0.00 0.00 0.00 434.45 436.21 1.76
LINK‐6 CB3 CB5 2.10 68 12 0.013 428.79 429.93 0.79 2.68 0.111 434.43 0.25 434.68 0.06 0.111 434.84 430.83 0.00 0.00 0.00 434.84 436.50 1.66
LINK‐7 CB1 CB8 0.32 48 12 0.013 428.51 429.33 0.79 0.41 0.003 430.19 0.01 430.20 0.00 0.003 430.21 429.33 0.00 0.00 0.00 430.21 432.77 2.56
LINK‐8 CB8 CB9 0.22 39 12 0.013 429.33 429.62 0.79 0.28 0.001 430.21 0.00 430.21 0.00 0.001 430.21 429.62 0.00 0.00 0.00 430.21 432.62 2.41
BOUN SHORT PLAT BACKWATER CALCULATION SHEET (100 YEAR)
LOCATION
*Vault TW Elevation = Top Detention = 433.80
BOUN SHORT PLAT CONVEYANCE SYSTEM ANALYSIS AND SIZING TABLE USING THE RATIONAL METHOD (100 YEAR)
LOCATION PERVIOUS IMPERVIOUS
*Vault Modelled as a flow through structure at full capacity
Page 69
Boun Short Plat
VI. SPECIAL REPORTS AND STUDIES
Geotechnical Report
Geotechnical Report, Proposed Boon-Phany Short Plat
October 12, 2015; Prepared by PanGEO Incorporated
VII. OTHER PERMITS
Existing Permits:
There are currently no other permits that effect the drainage submittal or the Technical
Information Report.
Future Permits:
NPDES Permit
Building Permit for Each Lot
VIII. CSWPPP ANALYSIS AND DESIGN
Please refer to Appendix E for the prepared CSWPPP
IX. BOND QUANTITIES, FACILITY SUMMARIES, AND
DECLARATION OF COVENANT
A completed Bond Quantities Worksheet can be found in Appendix D.
X. OPERATION AND MAINTENANCE MANUAL
The Operation and Maintenance of the proposed facilities is to be the responsibility of the City
of Renton. The Maintenance worksheet from Appendix A of the 2009 King County Surface
Water Design Manual have been included in Appendix F of this report.
XI. APPENDICES
APPENDIX A – OFFSITE STUDY MAPS
3,983 332
COR Critical Areas Map - Regulated Slopes
This map is a user generated static output from an Internet mapping site and
is for reference only. Data layers that appear on this map may or may not be
accurate, current, or otherwise reliable.
None
8/29/2016
Legend
2260 113
THIS MAP IS NOT TO BE USED FOR NAVIGATION
Feet
Notes
226
WGS_1984_Web_Mercator_Auxiliary_Sphere
Information Technology - GIS
RentonMapSupport@Rentonwa.gov
City and County Boundary
Other
City of Renton
Addresses
Parcels
Slope City of Renton
>15% & <=25%
>25% & <=40% (Sensitive)
>40% & <=90% (Protected)
>90% (Protected)
Slope King County
>15% & <=25%
>25% & <=40%
>40% & <=90%
>90%
3,983 332
COR Critical Areas Map - Seismic
This map is a user generated static output from an Internet mapping site and
is for reference only. Data layers that appear on this map may or may not be
accurate, current, or otherwise reliable.
None
8/29/2016
Legend
2260 113
THIS MAP IS NOT TO BE USED FOR NAVIGATION
Feet
Notes
226
WGS_1984_Web_Mercator_Auxiliary_Sphere
Information Technology - GIS
RentonMapSupport@Rentonwa.gov
City and County Boundary
Other
City of Renton
Addresses
Parcels
Seismic Hazard Areas
3,983 332
COR Critical Areas Map - Wellhead Protection Areas
This map is a user generated static output from an Internet mapping site and
is for reference only. Data layers that appear on this map may or may not be
accurate, current, or otherwise reliable.
None
8/29/2016
Legend
2260 113
THIS MAP IS NOT TO BE USED FOR NAVIGATION
Feet
Notes
226
WGS_1984_Web_Mercator_Auxiliary_Sphere
Information Technology - GIS
RentonMapSupport@Rentonwa.gov
City and County Boundary
Other
City of Renton
Addresses
Parcels
Wellhead Protection Area Zones
Zone 1
Zone 1 Modified
Zone 2
3,983 332
COR Critical Areas Map - Wetland
This map is a user generated static output from an Internet mapping site and
is for reference only. Data layers that appear on this map may or may not be
accurate, current, or otherwise reliable.
None
8/29/2016
Legend
2260 113
THIS MAP IS NOT TO BE USED FOR NAVIGATION
Feet
Notes
226
WGS_1984_Web_Mercator_Auxiliary_Sphere
Information Technology - GIS
RentonMapSupport@Rentonwa.gov
City and County Boundary
Other
City of Renton
Addresses
Parcels
Wetlands
Date: 8/29/2016
±The information included on this map has been compiled by King County staff from a variety of sources and issubject to change without notice. King County makes no representations or warranties, express or implied,as to accuracy, completeness, timeliness, or rights to the use of such information. This document is not intendedfor use as a survey product. King County shall not be liable for any general, special, indirect, incidental, orconsequential damages including, but not limited to, lost revenues or lost profits resulting from the use or misuseof the information contained on this map. Any sale of this map or information on this map is prohibited except bywritten permission of King County.
Legend
Parcels
Erosion hazard(1990 SAO)
Seismic hazard(1990 SAO)
Landslide hazard(1990 SAO)
Coal mine hazard(1990 SAO)
class 1
class 2 perennial
class 2 salmonid
class 3
unclassified
Wetland (1990SAO)
Sensitive areanotice on title
Chinookdistribution
Wildlife network
severe
moderate
King County Critical Areas Map
Date: 8/29/2016
±The information included on this map has been compiled by King County staff from a variety of sources and issubject to change without notice. King County makes no representations or warranties, express or implied,as to accuracy, completeness, timeliness, or rights to the use of such information. This document is not intendedfor use as a survey product. King County shall not be liable for any general, special, indirect, incidental, orconsequential damages including, but not limited to, lost revenues or lost profits resulting from the use or misuseof the information contained on this map. Any sale of this map or information on this map is prohibited except bywritten permission of King County.
Legend
Parcels
Bonded
Commercial-MF
Commercial-SF
Construction
DOT
FMD
Regional
Residential
Drainagecomplaints
King County Drainage Complaints Map
Project Area
APPENDIX B – DOWNSTREAM SYSTEM TABLE AND MAPS
1,991 166
Threshold Discharge Area #1 - Downstream Map
This map is a user generated static output from an Internet mapping site and
is for reference only. Data layers that appear on this map may or may not be
accurate, current, or otherwise reliable.
8/29/2016
Legend
1130 56
THIS MAP IS NOT TO BE USED FOR NAVIGATION
Feet
Notes
113
WGS_1984_Web_Mercator_Auxiliary_Sphere
Information Technology - GIS
RentonMapSupport@Rentonwa.gov
City and County Boundary
Other
City of Renton
Addresses
Parcels
Wetlands
Network Structures
Inlet
Manhole
Utility Vault
Unknown Structure
Control Structure
Pump Station
Discharge Point
Water Quality
Detention Facilities
Pond
Tank
Vault
Wetland
Pipe
Culvert
Open Drains
Virtual Drainline
Facility Outline
Private Network Structures
Project Site
Natural Discharge
Location #1
(Reach 1)
Reach #2
Reach #3
Reach #4
Reach #5
Reach #6
Reach #7
(pond)
Reach #8
1,991 166
Threshold Discharge Area #1 - Downstream Map 2
This map is a user generated static output from an Internet mapping site and
is for reference only. Data layers that appear on this map may or may not be
accurate, current, or otherwise reliable.
8/29/2016
Legend
1130 56
THIS MAP IS NOT TO BE USED FOR NAVIGATION
Feet
Notes
113
WGS_1984_Web_Mercator_Auxiliary_Sphere
Information Technology - GIS
RentonMapSupport@Rentonwa.gov
City and County Boundary
Other
City of Renton
Addresses
Parcels
Wetlands
Network Structures
Inlet
Manhole
Utility Vault
Unknown Structure
Control Structure
Pump Station
Discharge Point
Water Quality
Detention Facilities
Pond
Tank
Vault
Wetland
Pipe
Culvert
Open Drains
Virtual Drainline
Facility Outline
Private Network Structures
Reach #8
Reach #9
Reach #10
Reach #11
Reach #12
(approx. 1/4 mile
downstream)
OFF-SITEANALYSISDRAINAGE SYSTEMTABLESURFACEWATER DESIGNMANUAL,COREREQUIREMENT#2Basin:Subbasin Name: Subbasin Number:Symbol DrainageComponent Type, Name, and Size DrainageComponentDescriptionSlopeDistancefrom site dischargeExistingProblemsPotentialProblemsObservations of field inspector, resource reviewer, or resident see map Type: sheet flow, swale, stream, channel, pipe, pond; Size: diameter, surface area drainage basin, vegetation, cover, depth, type of sensitive area, volume %¼ ml = 1,320 ft. constrictions, under capacity, ponding, overtopping, flooding, habitat or organism destruction, scouring, bank sloughing, sedimentation, incision, other erosion tributary area, likelihood of problem, overflow pathways, potential impacts May Creek Threshold Discharge Area #1Cedar River/ Lake Washington (WRIA8)Threshold Discharge Area #1TDA #1Reach 1Sheet FlowDense Vegetation5-100 ftNone ObservedReach 212" Conc. Pipe31 Feet3.2 31 ftNone ObservedReach 312" CPEP Pipe149 Feet0.5180 ftNone ObservedReach 412" CPEP Pipe95 Feet0.5275 ftThis Section of Pipe Drains to an ExistingWQ FacilityReach 560" CMP Pipe120 Feet0395 ftCapacity of WQ Fac.Capacity of WQ Fac.60" CMP WQ TankReach 612" CPEP Pipe82 Feet4.8477 ftNone ObservedReach 7PondRegional Facility-825 ftNone ObservedReach 818" CPEP Pipe178 Feet0.241,003 ftNone ObservedReach 918" CPEP Pipe35 Feet0.141,038 ftNone ObservedReach 1030" CPEP Pipe100 Feet0.391,138 ftNone ObservedReach 1130" CPEP Pipe120 Feet0.401,258 ftNone ObservedReach 1230" CPEP Pipe75 Feet0.411,333 ftNone Observed
3,983 332
Threshold Discharge Area #2.A - Downstream Map 1
This map is a user generated static output from an Internet mapping site and
is for reference only. Data layers that appear on this map may or may not be
accurate, current, or otherwise reliable.
9/1/2016
Legend
2260 113
THIS MAP IS NOT TO BE USED FOR NAVIGATION
Feet
Notes
226
WGS_1984_Web_Mercator_Auxiliary_Sphere
Information Technology - GIS
RentonMapSupport@Rentonwa.gov
City and County Boundary
Other
City of Renton
Addresses
Parcels
Network Structures
Inlet
Manhole
Utility Vault
Unknown Structure
Control Structure
Pump Station
Discharge Point
Water Quality
Detention Facilities
Pond
Tank
Vault
Wetland
Pipe
Culvert
Open Drains
Facility Outline
Private Network Structures
Inlet
Manhole
Natural Discharge
Location #2.A
(Reach 1)
Project Site
Reach #1
Reach #2
Reach #3
Reach #4
3,983 332
Threshold Discharge Area #2.A - Downstream Map 2
This map is a user generated static output from an Internet mapping site and
is for reference only. Data layers that appear on this map may or may not be
accurate, current, or otherwise reliable.
9/1/2016
Legend
2260 113
THIS MAP IS NOT TO BE USED FOR NAVIGATION
Feet
Notes
226
WGS_1984_Web_Mercator_Auxiliary_Sphere
Information Technology - GIS
RentonMapSupport@Rentonwa.gov
City and County Boundary
Other
City of Renton
Addresses
Parcels
Network Structures
Inlet
Manhole
Utility Vault
Unknown Structure
Control Structure
Pump Station
Discharge Point
Water Quality
Detention Facilities
Pond
Tank
Vault
Wetland
Pipe
Culvert
Open Drains
Facility Outline
Private Network Structures
Inlet
Manhole
Reach #5
Reach #6
(approx. 1/4 mile
downstream
OFF-SITEANALYSISDRAINAGE SYSTEMTABLESURFACEWATER DESIGNMANUAL,COREREQUIREMENT#2Basin:Subbasin Name: Subbasin Number:Symbol DrainageComponent Type, Name, and Size DrainageComponentDescriptionSlopeDistancefrom site dischargeExistingProblemsPotentialProblemsObservations of field inspector, resource reviewer, or resident see map Type: sheet flow, swale, stream, channel, pipe, pond; Size: diameter, surface area drainage basin, vegetation, cover, depth, type of sensitive area, volume %¼ ml = 1,320 ft. constrictions, under capacity, ponding, overtopping, flooding, habitat or organism destruction, scouring, bank sloughing, sedimentation, incision, other erosion tributary area, likelihood of problem, overflow pathways, potential impacts Threshold Discharge Area #2TDA #2Threshold Discharge Area #2Cedar River/ Lake Washington (WRIA8)May Creek Reach 1Sheet FlowDense Vegetation5-100 ftNone ObservedReach 2SwaleShort Lawn2-4695 ftGarage/Debris in Swale could cause downstream blockage Garbage/DebrisNone Observed753 ft-58 Feet12" Conc. PipeReach 3None Observed835 ft-82 Feet12" Conc. PipeReach 4None Observed1,103 ft3.4220 Feet12" Conc. PipeReach 5None Observed1,402 ft1.3229 Feet12" Conc. PipeReach 6
APPENDIX C – BOND QUANTITIES WORKSHEETS/COST DATA AND
INVENTORY
Planning Division |1055 South Grady Way – 6 th Floor | Renton, WA 98057 (425) 430-7200
•
•
Section I: Project Information
•
•
•
Section II: Bond Quantities Worksheets
•
•Section II.a EROSION CONTROL (Stabilization/Erosion Sediment Control (ESC))
•Section II.b TRANSPORTATION (Street and Site Improvements)
•Section II.c DRAINAGE (Drainage and Stormwater Facilities):
•Section II.d WATER - ONLY APPLICABLE IF WATER SERVICE IS PROVIDED BY CITY OF RENTON
•Section II.e SANITARY SEWER - ONLY APPLICABLE IF SEWER SERVICE IS PROVIDED BY CITY OF RENTON
•
•
•
•
•
•
Section III. Bond Worksheet
• This section calculates the required Permit Bond for construction permit issuance as well as the required Maintenance Bond for project close-out
submittals to release the permit bond on a project.
All unit prices include labor, equipment, materials, overhead and profit.
Complete the 'Quantity' columns for each of the appropriate section(s). Include existing Right-of-Way (ROW), Future Public Improvements and Private
Improvements.
The 'Quantity Remaining' column is only to be used when a project is under construction. The City allows one (1) bond reduction during the life of the
project with the exception of the maintenance period reduction.
Excel will auto-calculate and auto-populate the relevant fields and subtotals throughout the document. Only the 'Quantity' columns should need
completing.
Additional items not included in the lists can be added under the "write-in" sections. Provide a complete description, cost estimate and unit of measure
for each write-in item.
Note: Private improvements, with the exception of stormwater facilities, are not included in the bond amount calculation, but must be entered on the
form. Stormwater facilities (public and private) are required to be included in the bond amount.
BOND QUANTITY WORKSHEET INSTRUCTIONS
This worksheet is intended to be a "working" copy of the bond quantity worksheet, which will be used throughout all phases of the project, from initial
submittal to project close-out approval.
Submit this workbook, in its entirety, as follows:
The following forms are to be completed by the engineer/developer/applicant as applicable to the project:
The Bond Worksheet form will auto-calculate and auto-populate from the information provided in Section I and Section II.
This section includes all pertinent information for the project
Section II contains a separate spreadsheet TAB for each of the following specialties:
(1) electronic copy (.xlsx format) and (1) hard copy of the entire workbook for civil construction permit submittal. Hard copies are to be included as part
of the Technical Information Report (TIR).
(1) electronic copy (.xlsx format) and (1) hard copy of the entire workbook for final close-out submittal.
This section must be completed in its entirety
Information from this section auto-populates to all other relevant areas of the workbook
Page 1 of 14
Ref 8-H Bond Quantity Worksheet INSTRUCTIONS
Unit Prices Updated: 06/14/2016
Version: 04/26/2017
Printed 4/23/2018
Planning Division |1055 South Grady Way – 6 th Floor | Renton, WA 98057 (425) 430-7200
Date Prepared:
Name:
PE Registration No:
Firm Name:
Firm Address:
Phone No.
Email Address:
Project Name: Project Owner:
CED Plan # (LUA): Phone:
CED Permit # (U):Address:
Site Address:
Street Intersection: Addt'l Project Owner:
Parcel #(s): Phone:
Address:
Clearing and grading greater than or equal to 5,000 board feet of timber?
Yes/No:NO Water Service Provided by:
If Yes, Provide Forest Practice Permit #:Sewer Service Provided by:
SITE IMPROVEMENT BOND QUANTITY WORKSHEET
PROJECT INFORMATION
CITY OF RENTON
CITY OF RENTON
1 Select the current project status/phase from the following options:
For Approval - Preliminary Data Enclosed, pending approval from the City;
For Construction - Estimated Data Enclosed, Plans have been approved for contruction by the City;
Project Closeout - Final Costs and Quantities Enclosed for Project Close-out Submittal
Engineer Stamp Required
(all cost estimates must have original wet stamp and signature)
Clearing and Grading Utility Providers
N/A
Project Location and Description Project Owner Information
Boun Short Plat
Bellevue, WA 98004
102305-9139
Kent Khnor - Warring Properties
16-000124, SHPL-A 206-715-9826
4/23/2018
Prepared by:
FOR APPROVALProject Phase 1
dbudsberg@beylerconsulting.com
Dan Budsberg
34371
Beyler Consulting
5920 100th St SW, Ste #25
253-301-4157
1012 Duvall Ave NE Renton, WA 98059
845 106th Ave, Ste 200
NE 10th St & Duvall Ave NE
########
Abbreviated Legal
Description:
THE EAST HALF OF THE SOUTHWEST QUARTER OF THE NORTHWEST
QUARTER OF SECTION 10, TOWNSHIP 23 NORTH, RANGE 5 EAST,
WILLAMETTE MERIDIAN, IN KING COUNTY, WASHINGTON;
Page 2 of 14
Ref 8-H Bond Quantity Worksheet SECTION I PROJECT INFORMATION
Unit Prices Updated: 06/14/2016
Version: 04/26/2017
Printed 4/23/2018
CED Permit #:########
Unit
Reference #Price Unit Quantity CostBackfill & compaction-embankment ESC-1 6.50$ CY Check dams, 4" minus rock ESC-2 SWDM 5.4.6.3 80.00$ Each Catch Basin Protection ESC-3 35.50$ Each 8 284.00Crushed surfacing 1 1/4" minus ESC-4 WSDOT 9-03.9(3)95.00$ CY Ditching ESC-5 9.00$ CY Excavation-bulk ESC-6 2.00$ CY 1548 3,096.00
Fence, silt ESC-7 SWDM 5.4.3.1 1.50$ LF 655 982.50
Fence, Temporary (NGPE)ESC-8 1.50$ LF
Geotextile Fabric ESC-9 2.50$ SY
Hay Bale Silt Trap ESC-10 0.50$ Each
Hydroseeding ESC-11 SWDM 5.4.2.4 0.80$ SY
Interceptor Swale / Dike ESC-12 1.00$ LF Jute Mesh ESC-13 SWDM 5.4.2.2 3.50$ SY Level Spreader ESC-14 1.75$ LF Mulch, by hand, straw, 3" deep ESC-15 SWDM 5.4.2.1 2.50$ SY Mulch, by machine, straw, 2" deep ESC-16 SWDM 5.4.2.1 2.00$ SY Piping, temporary, CPP, 6"ESC-17 12.00$ LF Piping, temporary, CPP, 8"ESC-18 14.00$ LF
Piping, temporary, CPP, 12"ESC-19 18.00$ LF
Plastic covering, 6mm thick, sandbagged ESC-20 SWDM 5.4.2.3 4.00$ SY
Rip Rap, machine placed; slopes ESC-21 WSDOT 9-13.1(2)45.00$ CY 4 180.00
Rock Construction Entrance, 50'x15'x1'ESC-22 SWDM 5.4.4.1 1,800.00$ Each
Rock Construction Entrance, 100'x15'x1'ESC-23 SWDM 5.4.4.1 3,200.00$ Each 1 3,200.00
Sediment pond riser assembly ESC-24 SWDM 5.4.5.2 2,200.00$ Each
Sediment trap, 5' high berm ESC-25 SWDM 5.4.5.1 19.00$ LF 24 456.00Sed. trap, 5' high, riprapped spillway berm section ESC-26 SWDM 5.4.5.1 70.00$ LF 30 2,100.00Seeding, by hand ESC-27 SWDM 5.4.2.4 1.00$ SY Sodding, 1" deep, level ground ESC-28 SWDM 5.4.2.5 8.00$ SY Sodding, 1" deep, sloped ground ESC-29 SWDM 5.4.2.5 10.00$ SY TESC Supervisor ESC-30 110.00$ HR 4 440.00Water truck, dust control ESC-31 SWDM 5.4.7 140.00$ HR 2 280.00
Unit
Reference #Price Unit Quantity Cost
EROSION/SEDIMENT SUBTOTAL:11,018.50
SALES TAX @ 10%1,101.85
EROSION/SEDIMENT TOTAL:12,120.35
(A)
SITE IMPROVEMENT BOND QUANTITY WORKSHEET
FOR EROSION & SEDIMENT CONTROL
Description No.
(A)
WRITE-IN-ITEMS
Page 3 of 14
Ref 8-H Bond Quantity Worksheet SECTION II.a EROSION_CONTROL
Unit Prices Updated: 06/14/2016
Version: 04/26/2017
Printed 4/23/2018
CED Permit #:########
Existing Future Public Private
Right-of-Way Improvements Improvements
(D) (E)Description No. Unit Price Unit Quant.Cost Quant.Cost Quant.Cost Quant.CostGENERAL ITEMS Backfill & Compaction- embankment GI-1 6.00$ CY
Backfill & Compaction- trench GI-2 9.00$ CY 250 2,250.00 300 2,700.00
Clear/Remove Brush, by hand (SY)GI-3 1.00$ SY
Bollards - fixed GI-4 240.74$ Each
Bollards - removable GI-5 452.34$ Each
Clearing/Grubbing/Tree Removal GI-6 10,000.00$ Acre 0.2 2,000.00 1.2 12,000.00
Excavation - bulk GI-7 2.00$ CY
Excavation - Trench GI-8 5.00$ CY 250 1,250.00 300 1,500.00
Fencing, cedar, 6' high GI-9 20.00$ LF
Fencing, chain link, 4'GI-10 38.31$ LF
Fencing, chain link, vinyl coated, 6' high GI-11 20.00$ LF
Fencing, chain link, gate, vinyl coated, 20' GI-12 1,400.00$ Each
Fill & compact - common barrow GI-13 25.00$ CY
Fill & compact - gravel base GI-14 27.00$ CY
Fill & compact - screened topsoil GI-15 39.00$ CY
Gabion, 12" deep, stone filled mesh GI-16 65.00$ SY
Gabion, 18" deep, stone filled mesh GI-17 90.00$ SY
Gabion, 36" deep, stone filled mesh GI-18 150.00$ SY
Grading, fine, by hand GI-19 2.50$ SY
Grading, fine, with grader GI-20 2.00$ SY 6410 12,820.00
Monuments, 3' Long GI-21 250.00$ Each
Sensitive Areas Sign GI-22 7.00$ Each
Sodding, 1" deep, sloped ground GI-23 8.00$ SY
Surveying, line & grade GI-24 850.00$ Day 2 1,700.00 5 4,250.00 3 2,550.00
Surveying, lot location/lines GI-25 1,800.00$ Acre 0.2 360.00 1.2 2,160.00
Topsoil Type A (imported)GI-26 28.50$ CY
Traffic control crew ( 2 flaggers )GI-27 120.00$ HR
Trail, 4" chipped wood GI-28 8.00$ SY
Trail, 4" crushed cinder GI-29 9.00$ SY
Trail, 4" top course GI-30 12.00$ SY
Conduit, 2"GI-31 5.00$ LF 200 1,000.00
Wall, retaining, concrete GI-32 55.00$ SF
Wall, rockery GI-33 15.00$ SF 175 2,625.00
SUBTOTAL THIS PAGE:6,200.00 10,810.00 32,155.00
(B)(C)(D)(E)
SITE IMPROVEMENT BOND QUANTITY WORKSHEET
FOR STREET AND SITE IMPROVEMENTS
Quantity Remaining
(Bond Reduction)
(B)(C)
Page 4 of 14
Ref 8-H Bond Quantity Worksheet SECTION II.b TRANSPORTATION
Unit Prices Updated: 06/14/2016
Version: 04/26/2017
Printed 4/23/2018
CED Permit #:########
Existing Future Public Private
Right-of-Way Improvements Improvements
(D) (E)Description No. Unit Price Unit Quant.Cost Quant.Cost Quant.Cost Quant.Cost
SITE IMPROVEMENT BOND QUANTITY WORKSHEET
FOR STREET AND SITE IMPROVEMENTS
Quantity Remaining
(Bond Reduction)
(B)(C)
ROAD IMPROVEMENT/PAVEMENT/SURFACINGAC Grinding, 4' wide machine < 1000sy RI-1 30.00$ SY
AC Grinding, 4' wide machine 1000-2000sy RI-2 16.00$ SY
AC Grinding, 4' wide machine > 2000sy RI-3 10.00$ SY
AC Removal/Disposal RI-4 35.00$ SY 50 1,750.00
Barricade, Type III ( Permanent )RI-5 56.00$ LF 10 560.00 24 1,344.00
Guard Rail RI-6 30.00$ LF
Curb & Gutter, rolled RI-7 17.00$ LF
Curb & Gutter, vertical RI-8 12.50$ LF 210 2,625.00
Curb and Gutter, demolition and disposal RI-9 18.00$ LF 45 810.00
Curb, extruded asphalt RI-10 5.50$ LF
Curb, extruded concrete RI-11 7.00$ LF
Sawcut, asphalt, 3" depth RI-12 1.85$ LF 368 680.80
Sawcut, concrete, per 1" depth RI-13 3.00$ LF
Sealant, asphalt RI-14 2.00$ LF 368 736.00
Shoulder, gravel, 4" thick RI-15 15.00$ SY
Sidewalk, 4" thick RI-16 38.00$ SY 105 3,990.00
Sidewalk, 4" thick, demolition and disposal RI-17 32.00$ SY
Sidewalk, 5" thick RI-18 41.00$ SY 15 615.00
Sidewalk, 5" thick, demolition and disposal RI-19 40.00$ SY
Sign, Handicap RI-20 85.00$ Each
Striping, per stall RI-21 7.00$ Each
Striping, thermoplastic, ( for crosswalk )RI-22 3.00$ SF
Striping, 4" reflectorized line RI-23 0.50$ LF
Additional 2.5" Crushed Surfacing RI-24 3.60$ SY
HMA 1/2" Overlay 1.5" RI-25 14.00$ SY
HMA 1/2" Overlay 2"RI-26 18.00$ SY
HMA Road, 2", 4" rock, First 2500 SY RI-27 28.00$ SY
HMA Road, 2", 4" rock, Qty. over 2500SY RI-28 21.00$ SY
HMA Road, 4", 6" rock, First 2500 SY RI-29 45.00$ SY 276 12,420.00 390 17,550.00 260 11,700.00
HMA Road, 4", 6" rock, Qty. over 2500 SY RI-30 37.00$ SY
HMA Road, 4", 4.5" ATB RI-31 38.00$ SY
Gravel Road, 4" rock, First 2500 SY RI-32 15.00$ SY
Gravel Road, 4" rock, Qty. over 2500 SY RI-33 10.00$ SY
Thickened Edge RI-34 8.60$ LF 124 1,066.40
SUBTOTAL THIS PAGE:24,186.80 19,960.40 11,700.00
(B)(C)(D)(E)
Page 5 of 14
Ref 8-H Bond Quantity Worksheet SECTION II.b TRANSPORTATION
Unit Prices Updated: 06/14/2016
Version: 04/26/2017
Printed 4/23/2018
CED Permit #:########
Existing Future Public Private
Right-of-Way Improvements Improvements
(D) (E)Description No. Unit Price Unit Quant.Cost Quant.Cost Quant.Cost Quant.Cost
SITE IMPROVEMENT BOND QUANTITY WORKSHEET
FOR STREET AND SITE IMPROVEMENTS
Quantity Remaining
(Bond Reduction)
(B)(C)
PARKING LOT SURFACING No.2" AC, 2" top course rock & 4" borrow PL-1 21.00$ SY
2" AC, 1.5" top course & 2.5" base course PL-2 28.00$ SY
4" select borrow PL-3 5.00$ SY
1.5" top course rock & 2.5" base course PL-4 14.00$ SY
SUBTOTAL PARKING LOT SURFACING:
(B)(C)(D)(E)
LANDSCAPING & VEGETATION No.Street Trees LA-1 225.00$ Each 12 2,700.00
Median Landscaping LA-2 35.00$ Each 27 945.00
Right-of-Way Landscaping LA-3
Wetland Landscaping LA-4
SUBTOTAL LANDSCAPING & VEGETATION:3,645.00
(B)(C)(D)(E)
TRAFFIC & LIGHTING No.Signs TR-1
Street Light System ( # of Poles)TR-2 2,000.00$ Each 2 4,000.00
Traffic Signal TR-3
Traffic Signal Modification TR-4
SUBTOTAL TRAFFIC & LIGHTING:4,000.00
(B)(C)(D)(E)
WRITE-IN-ITEMS
SUBTOTAL WRITE-IN ITEMS:
STREET AND SITE IMPROVEMENTS SUBTOTAL:38,031.80 30,770.40 43,855.00
SALES TAX @ 10%3,803.18 3,077.04 4,385.50
STREET AND SITE IMPROVEMENTS TOTAL:41,834.98 33,847.44 48,240.50
(B)(C)(D)(E)
Page 6 of 14
Ref 8-H Bond Quantity Worksheet SECTION II.b TRANSPORTATION
Unit Prices Updated: 06/14/2016
Version: 04/26/2017
Printed 4/23/2018
CED Permit #:########
Existing Future Public PrivateRight-of-Way Improvements Improvements
(D) (E)Description No. Unit Price Unit Quant.Cost Quant.Cost Quant.Cost Quant.Cost
DRAINAGE (CPE = Corrugated Polyethylene Pipe, N12 or Equivalent) For Culvert prices, Average of 4' cover was assumed. Assume perforated PVC is same price as solid pipe.) Access Road, R/D D-1 26.00$ SY 61 1,586.00
* (CBs include frame and lid)
Beehive D-2 90.00$ Each
Through-curb Inlet Framework D-3 400.00$ Each
CB Type I D-4 1,500.00$ Each 4 6,000.00 1 1,500.00 1 1,500.00
CB Type IL D-5 1,750.00$ Each
CB Type II, 48" diameter D-6 2,300.00$ Each 1 2,300.00 3 6,900.00 1 2,300.00
for additional depth over 4' D-7 480.00$ FT 15 7,200.00 21 10,080.00 5 2,400.00
CB Type II, 54" diameter D-8 2,500.00$ Each
for additional depth over 4'D-9 495.00$ FT
CB Type II, 60" diameter D-10 2,800.00$ Each 1 2,800.00
for additional depth over 4'D-11 600.00$ FT 5 3,000.00
CB Type II, 72" diameter D-12 6,000.00$ Each
for additional depth over 4'D-13 850.00$ FT
CB Type II, 96" diameter D-14 14,000.00$ Each
for additional depth over 4'D-15 925.00$ FT
Trash Rack, 12"D-16 350.00$ Each
Trash Rack, 15"D-17 410.00$ Each
Trash Rack, 18"D-18 480.00$ Each
Trash Rack, 21"D-19 550.00$ Each
Cleanout, PVC, 4"D-20 150.00$ Each
Cleanout, PVC, 6"D-21 170.00$ Each 6 1,020.00
Cleanout, PVC, 8"D-22 200.00$ Each
Culvert, PVC, 4" D-23 10.00$ LF
Culvert, PVC, 6" D-24 13.00$ LF 225 2,925.00
Culvert, PVC, 8" D-25 15.00$ LF
Culvert, PVC, 12" D-26 23.00$ LF
Culvert, PVC, 15" D-27 35.00$ LF
Culvert, PVC, 18" D-28 41.00$ LF
Culvert, PVC, 24"D-29 56.00$ LF
Culvert, PVC, 30" D-30 78.00$ LF
Culvert, PVC, 36" D-31 130.00$ LF
Culvert, CMP, 8"D-32 19.00$ LF
Culvert, CMP, 12"D-33 29.00$ LF
SUBTOTAL THIS PAGE:21,300.00 18,480.00 11,731.00
(B)(C)(D)(E)
SITE IMPROVEMENT BOND QUANTITY WORKSHEET
FOR DRAINAGE AND STORMWATER FACILITIES
Quantity Remaining
(Bond Reduction) (B)(C)
Page 7 of 14
Ref 8-H Bond Quantity Worksheet SECTION II.c DRAINAGE
Unit Prices Updated: 06/14/2016
Version: 04/26/2017
Printed 4/23/2018
CED Permit #:########
Existing Future Public PrivateRight-of-Way Improvements Improvements
(D) (E)Description No. Unit Price Unit Quant.Cost Quant.Cost Quant.Cost Quant.Cost
SITE IMPROVEMENT BOND QUANTITY WORKSHEET
FOR DRAINAGE AND STORMWATER FACILITIES
Quantity Remaining
(Bond Reduction) (B)(C)
DRAINAGE (Continued)Culvert, CMP, 15"D-34 35.00$ LF
Culvert, CMP, 18"D-35 41.00$ LF
Culvert, CMP, 24"D-36 56.00$ LF
Culvert, CMP, 30"D-37 78.00$ LF
Culvert, CMP, 36"D-38 130.00$ LF
Culvert, CMP, 48"D-39 190.00$ LF
Culvert, CMP, 60"D-40 270.00$ LF
Culvert, CMP, 72"D-41 350.00$ LF
Culvert, Concrete, 8"D-42 42.00$ LF
Culvert, Concrete, 12"D-43 48.00$ LF
Culvert, Concrete, 15"D-44 78.00$ LF
Culvert, Concrete, 18"D-45 48.00$ LF
Culvert, Concrete, 24"D-46 78.00$ LF
Culvert, Concrete, 30"D-47 125.00$ LF
Culvert, Concrete, 36"D-48 150.00$ LF
Culvert, Concrete, 42"D-49 175.00$ LF
Culvert, Concrete, 48"D-50 205.00$ LF
Culvert, CPE Triple Wall, 6" D-51 14.00$ LF
Culvert, CPE Triple Wall, 8" D-52 16.00$ LF
Culvert, CPE Triple Wall, 12" D-53 24.00$ LF 171 4,104.00 102 2,448.00 121 2,904.00
Culvert, CPE Triple Wall, 15" D-54 35.00$ LF
Culvert, CPE Triple Wall, 18" D-55 41.00$ LF
Culvert, CPE Triple Wall, 24" D-56 56.00$ LF
Culvert, CPE Triple Wall, 30" D-57 78.00$ LF
Culvert, CPE Triple Wall, 36" D-58 130.00$ LF
Culvert, LCPE, 6"D-59 60.00$ LF
Culvert, LCPE, 8"D-60 72.00$ LF
Culvert, LCPE, 12"D-61 84.00$ LF
Culvert, LCPE, 15"D-62 96.00$ LF
Culvert, LCPE, 18"D-63 108.00$ LF
Culvert, LCPE, 24"D-64 120.00$ LF
Culvert, LCPE, 30"D-65 132.00$ LF
Culvert, LCPE, 36"D-66 144.00$ LF
Culvert, LCPE, 48"D-67 156.00$ LF
Culvert, LCPE, 54"D-68 168.00$ LF
SUBTOTAL THIS PAGE:4,104.00 2,448.00 2,904.00
(B)(C)(D)(E)
Page 8 of 14
Ref 8-H Bond Quantity Worksheet SECTION II.c DRAINAGE
Unit Prices Updated: 06/14/2016
Version: 04/26/2017
Printed 4/23/2018
CED Permit #:########
Existing Future Public PrivateRight-of-Way Improvements Improvements
(D) (E)Description No. Unit Price Unit Quant.Cost Quant.Cost Quant.Cost Quant.Cost
SITE IMPROVEMENT BOND QUANTITY WORKSHEET
FOR DRAINAGE AND STORMWATER FACILITIES
Quantity Remaining
(Bond Reduction) (B)(C)
DRAINAGE (Continued)Culvert, LCPE, 60"D-69 180.00$ LF
Culvert, LCPE, 72"D-70 192.00$ LF
Culvert, HDPE, 6"D-71 42.00$ LF
Culvert, HDPE, 8"D-72 42.00$ LF
Culvert, HDPE, 12"D-73 74.00$ LF
Culvert, HDPE, 15"D-74 106.00$ LF
Culvert, HDPE, 18"D-75 138.00$ LF
Culvert, HDPE, 24"D-76 221.00$ LF
Culvert, HDPE, 30"D-77 276.00$ LF
Culvert, HDPE, 36"D-78 331.00$ LF
Culvert, HDPE, 48"D-79 386.00$ LF
Culvert, HDPE, 54"D-80 441.00$ LF
Culvert, HDPE, 60"D-81 496.00$ LF
Culvert, HDPE, 72"D-82 551.00$ LF
Pipe, Polypropylene, 6"D-83 84.00$ LF
Pipe, Polypropylene, 8"D-84 89.00$ LF
Pipe, Polypropylene, 12"D-85 95.00$ LF
Pipe, Polypropylene, 15"D-86 100.00$ LF
Pipe, Polypropylene, 18"D-87 106.00$ LF
Pipe, Polypropylene, 24"D-88 111.00$ LF
Pipe, Polypropylene, 30"D-89 119.00$ LF
Pipe, Polypropylene, 36"D-90 154.00$ LF
Pipe, Polypropylene, 48"D-91 226.00$ LF
Pipe, Polypropylene, 54"D-92 332.00$ LF
Pipe, Polypropylene, 60"D-93 439.00$ LF
Pipe, Polypropylene, 72"D-94 545.00$ LF
Culvert, DI, 6"D-95 61.00$ LF
Culvert, DI, 8"D-96 84.00$ LF
Culvert, DI, 12"D-97 106.00$ LF 39 4,134.00
Culvert, DI, 15"D-98 129.00$ LF
Culvert, DI, 18"D-99 152.00$ LF
Culvert, DI, 24"D-100 175.00$ LF
Culvert, DI, 30"D-101 198.00$ LF
Culvert, DI, 36"D-102 220.00$ LF
Culvert, DI, 48"D-103 243.00$ LF
Culvert, DI, 54"D-104 266.00$ LF
Culvert, DI, 60"D-105 289.00$ LF
Culvert, DI, 72"D-106 311.00$ LF
SUBTOTAL THIS PAGE:4,134.00
(B)(C)(D)(E)
Page 9 of 14
Ref 8-H Bond Quantity Worksheet SECTION II.c DRAINAGE
Unit Prices Updated: 06/14/2016
Version: 04/26/2017
Printed 4/23/2018
CED Permit #:########
Existing Future Public PrivateRight-of-Way Improvements Improvements
(D) (E)Description No. Unit Price Unit Quant.Cost Quant.Cost Quant.Cost Quant.Cost
SITE IMPROVEMENT BOND QUANTITY WORKSHEET
FOR DRAINAGE AND STORMWATER FACILITIES
Quantity Remaining
(Bond Reduction) (B)(C)
Specialty Drainage ItemsDitching SD-1 9.50$ CY
Flow Dispersal Trench (1,436 base+)SD-3 28.00$ LF
French Drain (3' depth)SD-4 26.00$ LF
Geotextile, laid in trench, polypropylene SD-5 3.00$ SY
Mid-tank Access Riser, 48" dia, 6' deep SD-6 2,000.00$ Each
Pond Overflow Spillway SD-7 16.00$ SY
Restrictor/Oil Separator, 12"SD-8 1,150.00$ Each
Restrictor/Oil Separator, 15"SD-9 1,350.00$ Each
Restrictor/Oil Separator, 18"SD-10 1,700.00$ Each 1 1,700.00
Riprap, placed SD-11 42.00$ CY
Tank End Reducer (36" diameter)SD-12 1,200.00$ Each
Infiltration pond testing SD-13 125.00$ HR
Permeable Pavement SD-14
Permeable Concrete Sidewalk SD-15
Culvert, Box __ ft x __ ft SD-16
SUBTOTAL SPECIALTY DRAINAGE ITEMS:1,700.00
(B)(C)(D)(E)STORMWATER FACILITIES (Include Flow Control and Water Quality Facility Summary Sheet and Sketch)Detention Pond SF-1 Each
Detention Tank SF-2 102,000.00$ Each 1 102,000.00
Detention Vault SF-3 Each
Infiltration Pond SF-4 Each
Infiltration Tank SF-5 Each
Infiltration Vault SF-6 Each
Infiltration Trenches SF-7 Each
Basic Biofiltration Swale SF-8 Each
Wet Biofiltration Swale SF-9 Each
Wetpond SF-10 Each
Wetvault SF-11 Each
Sand Filter SF-12 Each
Sand Filter Vault SF-13 Each
Linear Sand Filter SF-14 Each
Proprietary Facility SF-15 Each
Bioretention Facility SF-16 Each
SUBTOTAL STORMWATER FACILITIES:102,000.00
(B)(C)(D)(E)
Page 10 of 14
Ref 8-H Bond Quantity Worksheet SECTION II.c DRAINAGE
Unit Prices Updated: 06/14/2016
Version: 04/26/2017
Printed 4/23/2018
CED Permit #:########
Existing Future Public PrivateRight-of-Way Improvements Improvements
(D) (E)Description No. Unit Price Unit Quant.Cost Quant.Cost Quant.Cost Quant.Cost
SITE IMPROVEMENT BOND QUANTITY WORKSHEET
FOR DRAINAGE AND STORMWATER FACILITIES
Quantity Remaining
(Bond Reduction) (B)(C)
WRITE-IN-ITEMS (INCLUDE ON-SITE BMPs)WI-1
WI-2
WI-3
WI-4
WI-5
WI-6
WI-7
WI-8
WI-9
WI-10
WI-11
WI-12
WI-13
WI-14
WI-15
SUBTOTAL WRITE-IN ITEMS:
DRAINAGE AND STORMWATER FACILITIES SUBTOTAL:25,404.00 128,762.00 14,635.00
SALES TAX @ 10%2,540.40 12,876.20 1,463.50
DRAINAGE AND STORMWATER FACILITIES TOTAL:27,944.40 141,638.20 16,098.50
(B) (C) (D) (E)
Page 11 of 14
Ref 8-H Bond Quantity Worksheet SECTION II.c DRAINAGE
Unit Prices Updated: 06/14/2016
Version: 04/26/2017
Printed 4/23/2018
CED Permit #:########
Existing Future Public Private
Right-of-Way Improvements Improvements
(D) (E)Description No. Unit Price Unit Quant.Cost Quant.Cost Quant.Cost Quant.Cost
Connection to Existing Watermain W-1 2,000.00$ Each 3 6,000.00
Ductile Iron Watermain, CL 52, 4 Inch Diameter W-2 50.00$ LF
Ductile Iron Watermain, CL 52, 6 Inch Diameter W-3 56.00$ LF 8 448.00
Ductile Iron Watermain, CL 52, 8 Inch Diameter W-4 60.00$ LF 188 11,280.00 211 12,660.00
Ductile Iron Watermain, CL 52, 10 Inch Diameter W-5 70.00$ LF
Ductile Iron Watermain, CL 52, 12 Inch Diameter W-6 80.00$ LF
Gate Valve, 4 inch Diameter W-7 500.00$ Each
Gate Valve, 6 inch Diameter W-8 700.00$ Each 1 700.00
Gate Valve, 8 Inch Diameter W-9 800.00$ Each 3 2,400.00 1 800.00
Gate Valve, 10 Inch Diameter W-10 1,000.00$ Each
Gate Valve, 12 Inch Diameter W-11 1,200.00$ Each
Fire Hydrant Assembly W-12 4,000.00$ Each 1 4,000.00
Permanent Blow-Off Assembly W-13 1,800.00$ Each 1 1,800.00 1 1,800.00
Air-Vac Assembly, 2-Inch Diameter W-14 2,000.00$ Each
Air-Vac Assembly, 1-Inch Diameter W-15 1,500.00$ Each
Compound Meter Assembly 3-inch Diameter W-16 8,000.00$ Each
Compound Meter Assembly 4-inch Diameter W-17 9,000.00$ Each
Compound Meter Assembly 6-inch Diameter W-18 10,000.00$ Each
Pressure Reducing Valve Station 8-inch to 10-inch W-19 20,000.00$ Each
WATER SUBTOTAL:22,628.00 19,260.00
SALES TAX @ 10%2,262.80 1,926.00
WATER TOTAL:24,890.80 21,186.00
(B) (C) (D) (E)
SITE IMPROVEMENT BOND QUANTITY WORKSHEET
FOR WATER
Quantity Remaining
(Bond Reduction)
(B)(C)
Page 12 of 14
Ref 8-H Bond Quantity Worksheet SECTION II.d WATER
Unit Prices Updated: 06/14/2016
Version: 04/26/2017
Printed 4/23/2018
CED Permit #:########
Existing Future Public PrivateRight-of-Way Improvements Improvements
(D) (E)Description No. Unit Price Unit Quant.Cost Quant.Cost Quant.Cost Quant.Cost
Clean Outs SS-1 1,000.00$ Each 7 7,000.00
Grease Interceptor, 500 gallon SS-2 8,000.00$ Each
Grease Interceptor, 1000 gallon SS-3 10,000.00$ Each
Grease Interceptor, 1500 gallon SS-4 15,000.00$ Each
Side Sewer Pipe, PVC. 4 Inch Diameter SS-5 80.00$ LF
Side Sewer Pipe, PVC. 6 Inch Diameter SS-6 95.00$ LF 136 12,920.00
Sewer Pipe, PVC, 8 inch Diameter SS-7 105.00$ LF 214 22,470.00
Sewer Pipe, PVC, 12 Inch Diameter SS-8 120.00$ LF
Sewer Pipe, DI, 8 inch Diameter SS-9 115.00$ LF
Sewer Pipe, DI, 12 Inch Diameter SS-10 130.00$ LF
Manhole, 48 Inch Diameter SS-11 6,000.00$ Each
Manhole, 54 Inch Diameter SS-13 6,500.00$ Each 2 13,000.00
Manhole, 60 Inch Diameter SS-15 7,500.00$ Each
Manhole, 72 Inch Diameter SS-17 8,500.00$ Each
Manhole, 96 Inch Diameter SS-19 14,000.00$ Each
Pipe, C-900, 12 Inch Diameter SS-21 180.00$ LF
Outside Drop SS-24 1,500.00$ LS
Inside Drop SS-25 1,000.00$ LS
Sewer Pipe, PVC, ____ Inch Diameter SS-26Lift Station (Entire System)SS-27 LS
SANITARY SEWER SUBTOTAL:35,470.00 19,920.00
SALES TAX @ 10%3,547.00 1,992.00
SANITARY SEWER TOTAL:39,017.00 21,912.00
(B) (C) (D) (E)
SITE IMPROVEMENT BOND QUANTITY WORKSHEET
FOR SANITARY SEWER
Quantity Remaining
(Bond Reduction) (B)(C)
Page 13 of 14
Ref 8-H Bond Quantity Worksheet SECTION II.e SANITARY SEWER
Unit Prices Updated: 06/14/2016
Version: 04/26/2017
Printed 4/23/2018
Planning Division |1055 South Grady Way – 6 th Floor | Renton, WA 98057 (425) 430-7200
Date:
Name: Project Name:
PE Registration No: CED Plan # (LUA):
Firm Name:CED Permit # (U):
Firm Address: Site Address:
Phone No. Parcel #(s):
Email Address:Project Phase:
Site Restoration/Erosion Sediment Control Subtotal (a)
Existing Right-of-Way Improvements Subtotal (b) (b)66,725.78$
Future Public Improvements Subtotal (c)94,050.44$
Stormwater & Drainage Facilities (Public & Private) Subtotal (d) (d)185,681.10$
(e)
(f)
Site Restoration
Civil Construction Permit
Maintenance Bond 69,291.46$
Bond Reduction2
Construction Permit Bond Amount 3
Minimum Bond Amount is $10,000.00
1 Estimate Only - May involve multiple and variable components, which will be established on an individual basis by Development Engineering.
2 The City of Renton allows one request only for bond reduction prior to the maintenance period. Reduction of not more than 70% of the original bond amount, provided that the remaining 30% will
cover all remaining items to be constructed.
3 Required Bond Amounts are subject to review and modification by Development Engineering.
* Note: The word BOND as used in this document means any financial guarantee acceptable to the City of Renton.
** Note: All prices include labor, equipment, materials, overhead and profit.
253-301-4157
dbudsberg@beylerconsulting.com
Boun Short Plat
16-000124, SHPL-A
1012 Duvall Ave NE Renton, WA 98059
102305-9139
FOR APPROVAL
########
5920 100th St SW, Ste #25
297,890.12$
P
(a) x 100%
SITE IMPROVEMENT BOND QUANTITY WORKSHEET
BOND CALCULATIONS
4/23/2018
Dan Budsberg
34371
Beyler Consulting
R
((b x 150%) + (d x 100%))
S
(e) x 150% + (f) x 100%
Bond Reduction: Existing Right-of-Way Improvements (Quantity
Remaining)2
Bond Reduction: Stormwater & Drainage Facilities (Quantity
Remaining)2
T
(P +R - S)
Prepared by: Project Information
CONSTRUCTION BOND AMOUNT */**
(prior to permit issuance)
EST1
((b) + (c) + (d)) x 20%
-$
MAINTENANCE BOND */**
(after final acceptance of construction)
12,120.35$
66,725.78$
285,769.77$
12,120.35$
-$
185,681.10$
-$
Page 14 of 14
Ref 8-H Bond Quantity Worksheet SECTION III. BOND WORKSHEET
Unit Prices Updated: 06/14/2016
Version: 04/26/2017
Printed 4/23/2018
APPENDIX D – GEOTECHNIAL REPORT
________________________________________________
3213 Eastlake Avenue E Ste. B
Seattle, WA 98102
Tel: (206) 262-0370
Geotechnical & Earthquake
Engineering Consultants
October 12, 2015
PanGEO Project No. 07-107.200
Mr. Kent Khnor
26721 106th Avenue
Kent, WA 98030
Subject: GEOTECHNICAL REPORT
Proposed Boon-Phany Short Plat
Chelan Avenue NE near NE 10th Street
Renton, Washington
Dear Mr. Khnor,
As requested, PanGEO has completed a geotechnical engineering study for the proposed Boon-
Phany short plat planned just north of the intersection of Chelan Avenue NE and NE 10th Street
in Renton, Washington. This study was performed in accordance with our mutually agreed scope
of work outlined in our proposal dated September 25, 2015. The proposal was subsequently
approved by you on September 29, 2015. PanGEO previously completed a geotechnical report
for the project site in 2007. Our current scope of work includes reviewing our previous report,
conducting a site reconnaissance to confirm the site conditions remain unchanged, and updating
the report.
SITE AND PROJECT DESCRIPTION
The project site is located on the east side of Chelan Avenue NE approximately 170 feet north of
the intersection of Chelan Avenue NE and NE 10th Street in Renton, Washington (see Figure 1,
Vicinity Map). Review of a preliminary site plan indicates that the vacant 1.32-acre, rectangular
site extends approximately 200 feet in a north-south direction and approximately 285 feet in an
east-west direction. The site is currently bound to the north by single-family houses and a grass
lot, to the south by newly developed 2-story single family residences accessed by Chelan Place
NE, to the east by Duvall Avenue NE, and to the west by Chelan Avenue NE which dead ends
Mr. Kent Khnor
Geotechnical Report – Proposed Boon-Phany Short Plat
October 12, 2015
07-107.200 Chelan Ave. Short Plat, Renton PanGEO, Inc. Page 2
near the northwest corner of the property. The Chelan Avenue NE right-of-way was being was
being developed at the time of our field exploration in July, 2007.
The northern-central portion of the site is currently occupied by a small shed that will be razed
prior to redeveloping the site. The site is primarily vegetated with tall grass, miscellaneous trees
and shrubs, and localized areas of blackberry brambles.
Based on the topographic survey provided for our review (see Figure 2), much of the site is
relatively level except for the approximately southwestern quarter of the site. In general, the
southwestern quarter of the site descends to the southwest at gradients in the estimated range of 8
to 10 percent. Overall, there is an approximate elevation difference of 5 feet between the
northeastern and southwestern site corners. Due to the relatively level site topography, we
anticipate the new buildings will be constructed at or near existing grades. Cuts and fills in the
southwestern quarter of the site may be on the order of 2 to 4 feet.
As currently planned, the proposed development will create eight single-family residential lots, a
stormwater drainage tract, and associated asphalt-paved access roads. We anticipate the
buildings will be of lightly loaded wood frame construction with a combination of wood joist and
slab-on-grade floors.
An east-west trending stormwater drainage tract is planned along the approximately west half of
the south property line. We understand that a detention vault may be utilized for
stormwater/surfacewater management. Depending on the location and size of the vault,
temporary excavations to reach construction elevations may extend off-site to the south and west.
As such, it may be necessary to obtain temporary construction easements from the respective
neighbor.
SUBSURFACE EXPLORATIONS
Five test pits (TP-1 to TP-5) were previously excavated on the subject property in 2007. The
approximate test pit locations are indicated on Figure 2. A PanGEO geologist was present
throughout the field exploration to observe the test pit excavation, to assist in sampling, and to
prepare descriptive logs of the explorations. The test pits were excavated on July 23, 2007, using
a Cat 330 tracked excavator owned and operated by Northwest Excavating of Mill Creek, WA.
The test pits were excavated to depths ranging from 8 to 12 feet below the existing ground
surface. The relative density and consistency of the underlying soil was estimated based on
probing the walls of the excavation and the difficulty of completing the excavations. The soils
Mr. Kent Khnor
Geotechnical Report – Proposed Boon-Phany Short Plat
October 12, 2015
07-107.200 Chelan Ave. Short Plat, Renton PanGEO, Inc. Page 3
observed in the test pits were classified in the field, and a summary of the subsurface conditions
is presented in Appendix A of this report.
SITE GEOLOGY AND SUBSURFACE CONDITIONS
Review of the geologic map of the Renton Quadrangle (Mullineaux, 1965) indicated the subject
site and its vicinity are underlain by ground moraine deposits (Map Unit Qgt), also known as
glacial till. Glacial till is a very dense heterogeneous mixture of silt, sand, and gravel laid down
at the base of an advancing glacial ice sheet. Glacial till typically exhibits low compressibility
and high strength characteristics. The test pits excavated at the site generally confirmed the
mapped stratigraphy.
Based on the results of our subsurface explorations, the site is underlain by a surficial layer of
loose to medium dense weathered glacial till that extends up to approximately 2½ to 5 feet below
existing site grades. The weathered glacial till typically consisted of light brown silty sand with
gravel. The weathered till contained occasional cobbles and was generally dry to moist.
Underlying the surficial layer of weathered glacial till we encountered dense glacial till, which
consisted of silty sand with gravel, to the maximum exploration depth of about 12 feet. The
glacial till was typically gray, moist, and contained sandy lenses and occasional cobbles.
It should be noted that thin layers of loose existing fill with a varying organic content may be
encountered at the site, as evidenced in Test Pit TP-5.
Groundwater/seepage was not encountered in the test pits at the time of the excavations.
However, iron oxide staining was typically observed near the contact with dense glacial till. The
iron oxide stained zone is likely indicative of groundwater collecting above the low permeability
glacial till. In addition, limited amounts of groundwater seepage are often present in sandy and
gravelly zones of glacial till. It should be noted that groundwater elevations are likely to vary
depending on the season, local subsurface conditions, and other factors. Groundwater levels are
normally highest during the winter and early spring.
Mr. Kent Khnor
Geotechnical Report – Proposed Boon-Phany Short Plat
October 12, 2015
07-107.200 Chelan Ave. Short Plat, Renton PanGEO, Inc. Page 4
SEISMIC DESIGN CONSIDERATIONS
IBC Seismic Design Parameters
The following provides seismic design parameters for the site that are in conformance with the
2012 International Building Code (IBC), which specifies a design earthquake having a 2%
probability of occurrence in 50 years (return interval of 2,475 years). Based on the subsurface
conditions encountered at the test pits, it is our opinion that IBC Site Class C should be used used
for seismic design.
Table 1 – Summary Seismic Design Parameters per 2012 IBC
Site
Class
Spectral
Acceleration
at 0.2 sec. (g)
SS
Spectral
Acceleration at
1.0 sec. (g)
S1
Site
Coefficients
Design Spectral
Response
Parameters
Fa Fv SDS SD1
C 1.4 0.529 1.0 1.3 0.937 0.458
Liquefaction Assessment
Soil liquefaction is a condition where saturated cohesionless soils undergo a substantial loss of
strength due to the build-up of excess pore water pressures resulting from cyclic stress
applications induced by earthquakes. Soils most susceptible to liquefaction are loose, uniformly
graded sands and loose silts with little cohesion. Due to the presence of dense soils at shallow
depths and based on the lack of a shallow groundwater table at the site, the susceptibility of the
site to earthquake-induced soil liquefaction is considered to be negligible. Special design
considerations associated with soil liquefaction are not necessary for this project.
EARTHWORK CONSIDERATIONS
Site Preparation
Site preparation includes striping and clearing of topsoil and sod, surface vegetation, root balls,
existing foundations, and any other deleterious materials within the proposed development area
and excavating to the design subgrade. All stripped materials should be properly disposed off-site
or be “wasted” on site in non-structural landscaping areas. Based on the thickness of topsoil and
Mr. Kent Khnor
Geotechnical Report – Proposed Boon-Phany Short Plat
October 12, 2015
07-107.200 Chelan Ave. Short Plat, Renton PanGEO, Inc. Page 5
sod observed at the test pit locations, we estimate stripping depths will be in the range of 4 to 9
inches. Soil disturbed during stripping and clearing activities should be compacted to a firm and
unyielding condition.
Following the removal of deleterious and unsuitable materials, the exposed subgrade within the
development area, such as building foundation, slab, and pavement areas, should be proof-rolled
with a fully-loaded dump truck or a smooth roller compactor. The proof-rolling operation should
be observed by a representative of PanGEO. If loose or unstable subgrade soils are observed during
the proof roll, the soil should be over-excavated and replaced with structural fill.
Temporary and Permanent Slopes
All temporary excavations should be performed in accordance with Part N of WAC (Washington
Administrative Code) 296-155. The contractor is responsible for maintaining safe excavation
slopes and/or shoring. Excavations more than 4 feet deep should be properly shored or sloped.
For planning purposes, it is our opinion that temporary excavations may be sloped as steep as
¾H:1V (Horizontal:Vertical). The inclination of temporary slopes should be re-evaluated in the
field during construction based on actual observed soil conditions.
Permanent cut and fill slopes should be graded no steeper than 2H:1V and should promptly be
planted with an appropriate species of vegetation. Fill slopes should be constructed using 8- to
12-inch thick lifts with each lift compacted to a dense and unyielding condition prior to placing a
subsequent lift.
Structural Fill and Compaction
In the context of this report, structural fill is defined as non-organic compacted fill placed under
buildings, roadways, slabs, pavements, or other load-bearing areas. It may be possible to reuse
some of existing site soils for structural backfill during periods of dry weather, provided the soil
can be properly moisture conditioned and adequately compacted. However, due to the moderate
to high fines content of the on-site soils, the soils should be considered moisture sensitive and
generally unsuitable for use during wet weather construction.
Imported structural fill, if needed, should consist of well-graded granular soils such as Gravel
Borrow (WSDOT 9-03.14(1)), or an approved equivalent. PanGEO should review import
material intended for use as structural fill prior to placement.
Mr. Kent Khnor
Geotechnical Report – Proposed Boon-Phany Short Plat
October 12, 2015
07-107.200 Chelan Ave. Short Plat, Renton PanGEO, Inc. Page 6
Structural fill should be moisture conditioned to within about 3 percent of optimum moisture
content, placed in loose, horizontal lifts less than 8 inches in thickness, and systematically
compacted to a dense and relatively unyielding condition and to at least 95 percent of the
maximum dry density, as determined using test method ASTM D 1557 (Modified Proctor).
The procedure to achieve proper density of a compacted fill depends on the size and type of
compacting equipment, the number of passes, thickness of the layer being compacted, and certain
soil properties. When size of the excavation restricts the use of heavy equipment, smaller
equipment can be used, but the soil must be placed in thin enough layers to achieve the required
degree of compaction.
Generally, inadequately compacted soils result from poor workmanship or soils placed at
improper moisture content. Soils with a high percentage of silt or clay are particularly
susceptible to becoming too wet, and coarse-grained materials easily become too dry for proper
compaction. Silty or clayey soils with a moisture content too high for adequate compaction
should be dried as necessary, or moisture conditioned by mixing with drier materials.
Existing Test Pit Backfill
It should be noted that the backfill in the test pits were backfilled with excavated soils and
compacted with the excavator bucket. As such, the backfill is considered inadequate for
supporting future load-bearing elements, including building foundation, pavements, slabs,
underground vaults, buried pipes, etc. As such, where load-bearing elements are present, the
existing backfill in the test pits should be removed and replaced with properly compacted
structural fill.
UTILITIES
Trenching
Utility trenches greater than 4 feet deep should be properly sloped. Temporary slope
recommendations can be found on Page 4 of this report. Alternatively, conventional trench
shoring systems such as trench boxes or steel sheets utilizing hydraulic bracing are considered
feasible for this project. For shoring design purposes, the contractor may utilize an equivalent
fluid weight of 35 pcf to represent the lateral earth pressures on the shoring. This pressure
should be increased for backslopes above the shoring or to account for soil stockpiles and/or
equipment traffic surcharges within a horizontal distance equal to the depth of the excavation.
Mr. Kent Khnor
Geotechnical Report – Proposed Boon-Phany Short Plat
October 12, 2015
07-107.200 Chelan Ave. Short Plat, Renton PanGEO, Inc. Page 7
Pipe Bedding
General recommendations relative to pipe bedding and backfill are presented below.
Pipe bedding material, placement, compaction, and shaping should be in accordance
with the project specifications and the pipe manufacturer’s recommendations. As a
minimum, the pipe bedding should meet the gradation requirements for Gravel
Backfill for Pipe Zone Bedding, Section 9-03.12(3) of the 2014 WSDOT Standard
Specifications;
Pipe bedding should be placed on relatively undisturbed native soils, or on compacted
fill. If the native subgrades are disturbed, the disturbed material should be removed
and replaced with compacted bedding material;
If the trench bottom encounters soft or unsuitable soils, it may be necessary to over-
excavate the unsuitable material and backfill with pipe bedding material;
Pipe bedding should provide a firm, uniform cradle for the pipe. We recommend that
a minimum 4-inch thickness of bedding material beneath the pipe be provided.
Larger thicknesses may be necessary to prevent loosening and softening of the natural
soils during pipe placement;
Prior to the placement of the pipe, the pipe bedding should be shaped to fit the lower
part of the pipe exterior with reasonable closeness to provide continuous support
along the pipe;
Pipe bedding material and/or backfill around the pipe should be placed in layers and
tamped to obtain complete contact with the pipe. In areas where a trench box is used,
the bedding material should be placed before the trench box is advanced.
Trench Backfill
In areas supporting pavements, trench backfill should be placed in 8- to 12-inch, loose lifts and
compacted using mechanical equipment. If the trench backfill will consist of imported granular
structural fill, the backfill should be compacted to at least 90 percent of its maximum dry density,
as determined by test method ASTM D1557 (Modified Proctor). The upper 2 feet of backfill
should be compacted to at least 95 percent of its laboratory determined maximum dry density.
Mr. Kent Khnor
Geotechnical Report – Proposed Boon-Phany Short Plat
October 12, 2015
07-107.200 Chelan Ave. Short Plat, Renton PanGEO, Inc. Page 8
It is our opinion that the on-site till soils may be considered for use as trench backfill provided
the soil can be compacted to the requirements of trench backfill. Because the on-site till soils are
moisture sensitive, it may not be feasible to use the on-site soils as trench backfill in wet weather.
Where used in structural areas, all trench backfill derived from the on-site soils should be
compacted to 95 percent of its maximum dry density as determined by test method ASTM D1557
(Modified Proctor). We also recommend that trenches backfilled with the on-site fill be capped
with at least 12 inches of imported granular structural fill.
In non-structural areas where settlement of the trench backfill will not affect the use of the area,
the trench backfill may be compacted to 85% of the materials maximum dry density.
During placement of the initial lifts, the trench backfill should not be bulldozed into the trench or
dropped directly on the pipe. Furthermore, heavy vibratory equipment should not be permitted to
operate directly over the pipe until a minimum of 2 feet of backfill has been placed above the
crown. Boulders and large sized cobbles should be removed from material to be used as trench
backfill.
PAVEMENT
We anticipate that the future traffics in the development will be limited to light passenger-type
vehicles. For lightly loaded pavement areas, we suggest a pavement section consisting of 2½-
inches of hot-mix asphalt overlying a 4-inch thick layer of crushed surfacing top course (CSTC)
or crushed surfacing base course (CSBC), overlying a properly compacted subgrade. The
crushed rock base should be compacted to a minimum of 95 % of the materials maximum dry
density determined in accordance with ASTM D1557 (Modified Proctor). Prior to placing the
crushed rock, the pavement subgrade should be proof rolled using a fully loaded dump truck.
The proof roll should be conducted under observation of a PanGEO representative. Any soft soils
identified during the proof rolling should be removed and replaced with properly compacted
structural fill.
BUILDING FOUNDATIONS
Based on the subsurface conditions encountered at the site, the new buildings may be supported
on conventional spread and continuous footings bearing on competent native soils, or on properly
compacted newly placed structural fill. Based on the results of our subsurface exploration, we
anticipate competent native soils (glacial till) to be 2½ to 5 feet deep. Any loose soil should be
Mr. Kent Khnor
Geotechnical Report – Proposed Boon-Phany Short Plat
October 12, 2015
07-107.200 Chelan Ave. Short Plat, Renton PanGEO, Inc. Page 9
compacted to a dense condition. If loose soil cannot be adequately compacted, it should be
overexcavated and replaced with a granular structural fill. On site soils should not be used as
structural fill below the footings.
Allowable Bearing Pressure
We recommend that an allowable soil bearing pressure of 2,000 (psf) be used to size the footings.
For allowable stress design, the recommended bearing pressure may be increased by one-third for
transient loading, such as wind or seismic forces.
Footing Embedment
For frost heave considerations, exterior footings should be placed at a minimum depth of 18
inches below final exterior grade. Interior spread foundations should be placed at a minimum
depth of 12 inches below the top of slab.
Estimated Settlement
Footings designed and constructed in accordance with the above should experience total
settlement of less than one inch and differential settlement less than about ½ inch. Most of the
anticipated settlement should occur during construction as dead loads are applied.
Lateral Load Resistance
Lateral loads on the structure may be resisted by passive earth pressure developed against the
embedded near-vertical faces of the foundation system and by frictional resistance developed
between the bottom of the foundation and the supporting subgrade soils. For footings bearing on
competent native soil or on structural fill, a frictional coefficient of 0.5 may be used to evaluate
sliding resistance developed between the concrete and the subgrade soil. Passive soil resistance
may be calculated using an equivalent fluid weight of 300 pcf, assuming the footings are
backfilled with structural fill. The above values include a factor of safety of 1.5. Unless covered
by pavements or slabs, the passive resistance in the upper 12 inches of soil should be neglected.
Footing Drain
We recommend that a 4-inch diameter, schedule 40 PVC or SDR 35, perforated pipe embedded
in pea gravel and wrapped in filter fabric be installed at the base of the perimeter footings to
direct collected water to an appropriate outlet. Under no circumstances should roof downspout
Mr. Kent Khnor
Geotechnical Report – Proposed Boon-Phany Short Plat
October 12, 2015
07-107.200 Chelan Ave. Short Plat, Renton PanGEO, Inc. Page 10
drain lines be connected to the footing drain systems. Roof downspouts must be separately
tightlined to an appropriate discharge. Cleanouts should be installed to allow for periodic
maintenance of the footing drain and downspout tightline systems.
Footing Excavation
All footing subgrades should be in a dense, unyielding condition. The adequacy of the footing
subgrade should be verified by PanGEO prior to placing forms or reinforcing steel. If the
footing subgrade is still loose or yielding after re-compaction, it should be overexcavated down
to competent native soil and replaced with structural fill or lean mix concrete. The
overexcavation width should extend at least one-half the overexcavation depth beyond the edge
of footing.
FLOOR SLABS
It is our opinion that conventional concrete slab-on-grade floors are appropriate for this site.
Depending on the finished floor elevations, the floor slabs may be founded on the native soil
compacted in-place to the requirements of structural fill or on newly placed structural fill.
Interior concrete slab-on-grade floors should be underlain by a capillary break consisting of at
least 4 inches of compacted ¾-inch, clean crushed rock (less than 3 percent fines). The capillary
break material should also have no more than 10 percent passing the No. 4 sieve and less than 5
percent by weight of the material passing the U.S. Standard No. 100 sieve. The capillary break
should be placed on a subgrade that has been compacted to a dense and unyielding condition. A
10-mil polyethylene vapor barrier should also be placed directly below the slab.
RETAINING WALLS
Based on our understanding of the current design concept and the lack of significant topographic
relief at the site, we do not anticipate the need for retaining walls. However, depending on the
final grading plan, short retaining walls may be needed to achieve the design grade. Given the
competent foundation soils at the site, various wall types may be considered, including
conventional cast-in-place concrete walls, gravity block walls such as Ultra Blocks or gabions, or
mechanically stabilized earth (MSE) walls. Selection of wall types will largely depend on the
desired aesthetics and cost considerations.
Mr. Kent Khnor
Geotechnical Report – Proposed Boon-Phany Short Plat
October 12, 2015
07-107.200 Chelan Ave. Short Plat, Renton PanGEO, Inc. Page 11
In general, these walls should be designed to resist an active earth pressure of 35 pcf, and a
uniform pressure of 7H pounds per square foot (psf) to account for the seismic loading condition,
where H is the exposed wall height in feet. Lateral pressures from surface surcharges located
within a distance equal to the exposed wall height should be estimated using a lateral pressure
coefficient of 0.3 (i.e. the ratio of lateral pressure to vertical pressure). Where applicable, a
lateral uniform pressure of 80 psf should be used to account for traffic surcharge. Proper
drainage provisions such as weep holes or 4-inch perforated drain pipes should be incorporated
into the design and construction of all retaining walls.
For the design and construction of retaining wall foundations, the recommendations provided in
the Building Foundations section of this report are applicable.
INFILTRATION
The site is underlain by glacial till at shallow depths. Glacial till is expected to exhibit very poor
infiltration characteristics. In general, this soil unit is considered not appropriate for any
significant stormwater infiltration.
DETENTION VAULT DESIGN PARAMETERS
Foundation
We anticipate the bottom of the detention vault will be at least 5 feet below existing site grades.
As such, dense glacial till is expected to be encountered at the vault foundation level. The
detention vault should be supported on dense glacial till and/or granular structural fill. An
allowable soil bearing capacity of 4,000 psf may be used for footings bearing on the dense to
very dense glacial till and/or granular structural fill. If the vault foundation will straddle cross
dense glacial till and granular structural fill, we recommend that the dense till be over-excavated
6 inches and replaced with crushed rock for a uniform support. The 6-inch crush rock should
also be placed in the structural fill area. For allowable stress design, the recommended bearing
pressure may be increased by one-third for transient loading, such as wind or seismic forces.
Total footing settlement of less than one inch is anticipated with differential movement of less
than ½ inch. Most of the anticipated settlement should occur during construction as dead loads
are applied.
Mr. Kent Khnor
Geotechnical Report – Proposed Boon-Phany Short Plat
October 12, 2015
07-107.200 Chelan Ave. Short Plat, Renton PanGEO, Inc. Page 12
If loose/soft soil is encountered at the vault foundation level, it should be overexcavated down to
dense native till soil and replaced with granular structural fill and/or lean mix concrete. Vault
foundation subgrade should be observed by a representative of PanGEO, prior to placing forms
or rebar, to verify that conditions are as anticipated in this report.
Lateral Earth Pressures
Detention vault walls should be properly designed to resist the lateral earth pressures exerted by
the soils behind the wall. The below grade portions of the walls with level backslopes should be
designed for a static lateral earth pressure based upon an equivalent fluid weight of 50 pcf. A
uniform lateral pressure of 7H psf should be added to reflect the increase loading for seismic
conditions, where H corresponds to the buried depth of the wall. The recommended lateral
pressures assume that the backfill behind the wall consists of adequately compacted free draining
backfill and a footing drain. The portion of the wall located beneath the drainpipe, if any, should
be designed to withstand a lateral pressure of 90 pcf to account for the potential accumulation of
water behind the vault walls.
Surcharge loads, where present, should also be included in the design of the vault walls. We
recommend that a lateral load coefficient of 0.35 be used to compute the lateral pressure on the
wall face resulting from surcharge loads located within a horizontal distance of one-half wall
height.
Lateral Resistance
Lateral forces from seismic loading and unbalanced lateral earth pressures may be resisted by a
combination of passive earth pressures and by friction acting on the base of the foundations.
Passive resistance values may be determined using an equivalent fluid weight of 350 pcf. This
value includes a factor of safety of 1.5, assuming the footing is poured against dense native soil
or structural fill adjacent to the sides of footing has been compacted. A friction coefficient of 0.5
may be used to determine the frictional resistance at the base of the footings. These values
include a factor safety of 1.5.
Vault Backfill
Vault backfill should consist of free draining granular soils such as Gravel Borrow (WSDOT 9-
03.14(1)). Vault backfill should be moisture conditioned to within about 3 percent of optimum
moisture content, placed in loose, horizontal lifts less than 8 inches in thickness, and
Mr. Kent Khnor
Geotechnical Report – Proposed Boon-Phany Short Plat
October 12, 2015
07-107.200 Chelan Ave. Short Plat, Renton PanGEO, Inc. Page 13
systematically compacted to a dense and relatively unyielding condition and to at least 95 percent
of the maximum dry density, as determined using test method ASTM D 1557. Within 5 feet of
the wall, the backfill should be compacted to 90 percent of the maximum dry density.
Vault Drainage
We recommend that a 4-inch diameter, schedule 40 PVC or SDR 35, perforated pipe embedded
in pea gravel and wrapped in filter fabric be installed as low on the vault walls as possible to
direct collected water to an appropriate outlet. Cleanouts should be installed to allow for periodic
maintenance of the footing drain.
SURFACE DRAINAGE AND EROSION CONSIDERATIONS
Adequate drainage provisions are imperative and we recommend both short and long term
drainage measures be incorporated into the project design and construction. Surface runoff can
be controlled during construction by careful grading practices. Typically, this includes the
construction of shallow, upgrade perimeter ditches or low earthen berms to collect runoff and
prevent water from entering the excavation. All collected water should be directed under control
to a positive and permanent discharge system.
Permanent control of surface water should be incorporated in the final grading design. Adequate
surface gradients and drainage systems should be incorporated into the design such that surface
runoff is directed away from structures. Potential problems associated with erosion may also be
reduced by establishing vegetation within disturbed areas immediately following grading
operations.
WET SEASON CONSTRUCTION
General recommendations relative to earthwork performed in wet weather or in wet conditions
are presented below. Because the site soils are considered moisture sensitive due to a relatively
high fines content, grading may be difficult and likely more costly during periods of wet weather.
If earthworks will be performed during wet weather conditions, we recommend that the
following guidelines be incorporated:
Earthwork should be performed in small areas to minimize subgrade exposure to wet
weather. Excavation or the removal of unsuitable soil should be followed promptly
Mr. Kent Khnor
Geotechnical Report – Proposed Boon-Phany Short Plat
October 12, 2015
07-107.200 Chelan Ave. Short Plat, Renton PanGEO, Inc. Page 14
by the placement and compaction of clean structural fill. The size and type of
construction equipment used may have to be limited to reduce soil disturbance.
During wet weather, the allowable fines content of the structural fill should be
reduced to no more than 5 percent by weight based on the portion passing ¾-inch
sieve. The fines should be non-plastic.
The ground surface within the construction area should be graded to promote run-off
of surface water and to prevent the ponding of water.
Geotextile silt fences should be strategically located to control erosion and the
movement of soil.
Excavation slopes and soils stockpiled on site should also be covered with plastic
sheets.
Under no circumstances should water be allowed to pond immediately adjacent to paved areas or
foundations. All pavement drainage should be directed into conduits which carry runoff away
from the pavement into storm drain systems or other appropriate outlets.
UNCERTAINTY AND LIMITATIONS
We have prepared this report for use by Mr. Kent Khnor and their project team.
Recommendations contained in this report are based on a site reconnaissance, a subsurface
exploration program, review of pertinent subsurface information, and our understanding of the
project. The study was performed using a mutually agreed-upon scope of work.
Variations in soil conditions may exist between the locations of the explorations and the actual
conditions underlying the site. The nature and extent of soil variations may not be evident until
construction occurs. If any soil conditions are encountered at the site that are different from
those described in this report, we should be notified immediately to review the applicability of
our recommendations. Additionally, we should also be notified to review the applicability of our
recommendations if there are any changes in the project scope.
The scope of our work does not include services related to construction safety precautions. Our
recommendations are not intended to direct the contractors’ methods, techniques, sequences or
procedures, except as specifically described in our report for consideration in design.
Mr. Kent Khnor
Geotechnical Report – Proposed Boon-Phany Short Plat
October 12, 2015
07-107.200 Chelan Ave. Short Plat, Renton PanGEO, Inc. Page 15
Additionally, the scope of our work specifically excludes the assessment of environmental
characteristics, particularly those involving hazardous substances. We are not mold consultants
nor are our recommendations to be interpreted as being preventative of mold development. A
mold specialist should be consulted for all mold-related issues.
This report may be used only by the client and for the purposes stated, within a reasonable time
from its issuance. Land use, site conditions (both off and on-site), or other factors including
advances in our understanding of applied science, may change over time and could materially
affect our findings. Therefore, this report should not be relied upon after 24 months from its
issuance. PanGEO should be notified if the project is delayed by more than 24 months from the
date of this report so that we may review the applicability of our conclusions considering the time
lapse.
It is the client’s responsibility to see that all parties to this project, including the designer,
contractor, subcontractors, etc., are made aware of this report in its entirety. The use of
information contained in this report for bidding purposes should be done at the contractor’s
option and risk. Any party other than the client who wishes to use this report shall notify
PanGEO of such intended use and for permission to copy this report. Based on the intended use
of the report, PanGEO may require that additional work be performed and that an updated report
be reissued. Noncompliance with any of these requirements will release PanGEO from any
liability resulting from the use this report.
Within the limitation of scope, schedule and budget, PanGEO engages in the practice of
geotechnical engineering and endeavors to perform its services in accordance with generally
accepted professional principles and practices at the time the Report or its contents were
prepared. No warranty, express or implied, is made.
We appreciate the opportunity to be of service to you on this project. Please feel free to contact
our office with any questions you have regarding our study, this report, or any geotechnical
engineering related project issues.
We appreciate the opportunity to be of service.
Mr. Kent Khnor
Geotechnical Report – Proposed Boon-Phany Short Plat
October 12, 2015
07-107.200 Chelan Ave. Short Plat, Renton PanGEO, Inc. Page 16
Sincerely,
Bryce C. Townsend, E.I.T. Siew L. Tan, P.E.
Staff Geotechnical Engineer Principal Geotechnical Engineer
Enclosures:
Figure 1 Vicinity Map
Figure 2 Site and Exploration Plan
Appendix A Summary Test Pit Logs
Figure A-1 Terms and Symbols for Boring and Test Pit Logs
Logs of Test Pits TP-1 through TP-5
Mr. Kent Khnor
Geotechnical Report – Proposed Boon-Phany Short Plat
October 12, 2015
07-107.200 Chelan Ave. Short Plat, Renton PanGEO, Inc. Page 17
REFERENCES
International Building Code (IBC), 2012, International Code Council.
Mullineaux, D. R., 1965, Geologic Map of The Renton Quadrangle, King County, Washington –
Department of the Interior, U.S. Geologic Survey, scale 1:24,000.
Washington State Department of Transportation/American Public Works Association, 2014,
Standard Specifications for Road, Bridges, and Municipal Construction.
07-107.200
Boon-Phanny Short Plat
Chelan Ave. NE near NE 10th St.
Renton, Washington
1
VICINITY MAP
Figure 1.grf 10/12/15 (9:48 )
Note: Base map obtained and modified from Google Maps.
Not to Scale
Figure No.Project No.
Project Location
Project No. Figure No.Boon-Phanny Short PlatChelan Ave. NE near NE 10th St. Renton, WashingtonSITE AND EXPLORATION PLAN07-107.200207-107 Boon-Phanny Short Plat Site Plan.grf 10/12/15 STSApprox. Test Pit Location(July, 2007)Legend:Approx. Scale1" = 50'Note:Preliminary site plan provided by client.Subject SiteTP-2TP-3TP-4TP-5TP-1432
4 33
4 34435436437
43 8437 438
________________________________________________
3213 Eastlake Avenue E Ste. B
Seattle, WA 98102
Tel: (206) 262-0370
APPENDIX A
SUMMARY TEST PIT LOGS
MOISTURE CONTENT
Layered:
Laminated:
Lens:
Interlayered:
Pocket:
Homogeneous:
Gravel
Approx. RelativeDensity (%)
Units of material distinguished by color and/orcomposition from material units above and below
Layers of soil typically 0.05 to 1mm thick, max. 1 cm
Layer of soil that pinches out laterally
Alternating layers of differing soil material
Erratic, discontinuous deposit of limited extent
Soil with uniform color and composition throughout
GW
GP
GM
GC
SW
SP
SM
SC
ML
CL
OL
MH
CH
OH
PT
<15
15 - 35
35 - 65
65 - 85
85 - 100
MONITORING WELL
Highly Organic Soils
Notes:
GROUP DESCRIPTIONSMAJOR DIVISIONS
UNIFIED SOIL CLASSIFICATION SYSTEM
#4 to #10 sieve (4.5 to 2.0 mm)
#10 to #40 sieve (2.0 to 0.42 mm)
#40 to #200 sieve (0.42 to 0.074 mm)
0.074 to 0.002 mm
<0.002 mm
Liquid Limit < 50
Liquid Limit > 50
GRAVEL (<5% fines)
GRAVEL (>12% fines)
SAND (<5% fines)
SAND (>12% fines)
SILT / CLAY
Terms and Symbols for
Boring and Test Pit Logs
Dusty, dry to the touch
Damp but no visible water
Visible free water
2-inch OD Split Spoon, SPT
(140-lb. hammer, 30" drop)
3.25-inch OD Spilt Spoon
(300-lb hammer, 30" drop)
Non-standard penetration
test (see boring log for details)
Thin wall (Shelby) tube
Grab
Rock core
Vane Shear
Density Approx. Undrained ShearStrength (psf)California Bearing Ratio
Compaction Tests
Consolidation
Dry Density
Direct Shear
Fines Content
Grain Size
Permeability
Pocket Penetrometer
R-value
Specific Gravity
Torvane
Triaxial Compression
Unconfined Compression
<4
4 to 10
10 to 30
30 to 50
>50
SPTN-values
Very Loose
Loose
Med. Dense
Dense
Very Dense
Breaks along defined planes
Fracture planes that are polished or glossy
Angular soil lumps that resist breakdown
Soil that is broken and mixed
Less than one per foot
More than one per foot
Angle between bedding plane and a planenormal to core axis
SPTN-values
<2
2 to 4
4 to 8
8 to 15
15 to 30
>30
Sand
Coarse Sand:
Medium Sand:
Fine Sand:
Silt
Clay
Boulder:
Cobbles:
Gravel
Coarse Gravel:
Fine Gravel:
CBR
Comp
Con
DD
DS
%F
GS
Perm
PP
R
SG
TV
TXC
UCC
Phone: 206.262.0370
Sand
Very Soft
Soft
Med. Stiff
Stiff
Very Stiff
Hard
Bottom of Boring
Well-graded GRAVEL
Poorly-graded GRAVEL
Silty GRAVEL
Clayey GRAVEL
Well-graded SAND
Poorly-graded SAND
Silty SAND
Clayey SAND
SILT
Lean CLAY
Organic SILT or CLAY
Elastic SILT
Fat CLAY
Organic SILT or CLAY
PEAT
DESCRIPTIONS OF SOIL STRUCTURES
50% or more of the coarsefraction retained on the #4sieve. Use dual symbols (eg.GP-GM) for 5% to 12% fines.
> 12 inches
3 to 12 inches
3 to 3/4 inches
3/4 inches to #4 sieve
Figure A-1
50% or more of the coarsefraction passing the #4 sieve.Use dual symbols (eg. SP-SM)for 5% to 12% fines.
for In Situ and Laboratory Testslisted in "Other Tests" column.
<250
250 - 500
500 - 1000
1000 - 2000
2000 - 4000
>4000
Dry
Moist
Wet
COMPONENT DEFINITIONS
Fissured:
Slickensided:
Blocky:
Disrupted:
Scattered:
Numerous:
BCN:
RELATIVE DENSITY / CONSISTENCY
COMPONENT SIZE / SIEVE RANGE
Groundwater Level at time of drilling (ATD)Static Groundwater Level
Cement / Concrete Seal
Bentonite grout / seal
Silica sand backfill
Slotted tip
Slough
50%or more passing #200 sieve
LOG KEY 07-041_EVERETT_AS.GPJ PANGEO.GDT 5/1/07SYMBOLS
SAND / GRAVEL
Consistency
Silt and Clay
Sample/In Situ test types and intervals
1. Soil exploration logs contain material descriptions based on visual observation and field tests using a systemmodified from the Uniform Soil Classification System (USCS). Where necessary laboratory tests have beenconducted (as noted in the "Other Tests" column), unit descriptions may include a classification. Please refer to thediscussions in the report text for a more complete description of the subsurface conditions.
2. The graphic symbols given above are not inclusive of all symbols that may appear on the borehole logs.Other symbols may be used where field observations indicated mixed soil constituents or dual constituent materials.
COMPONENT SIZE / SIEVE RANGE
TEST SYMBOLS
07-107.200 Chelan Ave. Short Plat, Renton PanGEO, Inc.
Test Pit TP-1
Approximate ground surface elevation: 437 feet
Ground Surface Conditions: Tall grass
Depth (ft) Material Description
0 – 4 Loose to medium dense, dry to moist, rusty-brown, silty SAND with
gravel, iron oxide staining (Weathered Glacial Till).
4 – 10 Dense, moist, gray, silty SAND with gravel and trace cobbles (Glacial
Till).
-occasional sandy lenses
Test Pit terminated approximately 10 feet below ground surface.
No groundwater/seepage observed in the test pit.
Notes:
Test pits excavated using a Cat 330 tracked excavator owned and operated by Northwest
Excavating.
Test pit elevations based on topographic information provided on a preliminary site plan.
07-107.200 Chelan Ave. Short Plat, Renton PanGEO, Inc.
Test Pit TP-2
Approximate ground surface elevation: 437 feet
Ground Surface Conditions: Tall grass
Depth (ft) Material Description
0 – 5 Loose to medium dense, moist to wet, brown, silty SAND with some
gravel (Weathered Glacial Till).
5 – 10 Dense, moist, gray, silty SAND with gravel, trace cobbles (Glacial
Till).
Test Pit terminated approximately 10 feet below ground surface.
No groundwater/seepage observed in the test pit.
Notes:
Test pits excavated using a Cat 330 tracked excavator owned and operated by Northwest
Excavating.
Test pit elevations based on topographic information provided on a preliminary site plan.
07-107.200 Chelan Ave. Short Plat, Renton PanGEO, Inc.
Test Pit TP-3
Approximate ground surface elevation: 438 feet
Ground Surface Conditions: Blackberry brambles
Depth (ft) Material Description
0 – 2½ Loose to medium dense, moist, rusty-brown, silty SAND with gravel
(Weathered Glacial Till).
-Iron oxide staining near contact.
2½ – 8 Dense, moist, gray, silty SAND with gravel, trace cobbles (Glacial
Till).
-Becomes very dense around 6 feet
Test Pit terminated approximately 8 feet below ground surface.
No groundwater/seepage observed in the test pit.
Notes:
Test pits excavated using a Cat 330 tracked excavator owned and operated by Northwest
Excavating.
Test pit elevations based on topographic information provided on a preliminary site plan.
07-107.200 Chelan Ave. Short Plat, Renton PanGEO, Inc.
Test Pit TP-4
Approximate ground surface elevation: 438 feet
Ground Surface Conditions: Tall grass
Depth (ft) Material Description
0 – 4 Loose to medium dense, dry, light brown, silty SAND with gravel
(Weathered Glacial Till).
-Localized pockets of clean sand
4 – 10 Dense, moist, gray, silty SAND with gravel, contains cobbles (Glacial
Till).
-Increase in sand content and moisture content around 8 feet.
Test Pit terminated approximately 10 feet below ground surface.
No groundwater/seepage observed in the test pit.
Notes:
Test pits excavated using a Cat 330 tracked excavator owned and operated by Northwest
Excavating.
Test pit elevations based on topographic information provided on a preliminary site plan.
07-107.200 Chelan Ave. Short Plat, Renton PanGEO, Inc.
Date Test Pits Excavated: July 23, 2007
Test Pits Logged by: STS
Test Pit TP-5
Approximate ground surface elevation: 433 feet
Ground Surface Conditions: Blackberry brambles
Depth (ft) Material Description
0 – 1.5 Loose, moist, dark brown, silty SAND with abundant organics (Topsoil
& Fill).
1.5 – 4 Medium dense, moist, relatively clean sand and gravel, iron oxide
staining (Outwash).
4 - 12 Dense, moist, gray, silty SAND with gravel, trace cobbles (Glacial
Till).
-contains occasional silt and relatively clean sand lenses
Test Pit terminated approximately 12 feet below ground surface.
No groundwater/seepage observed in the test pit.
Notes:
Test pits excavated using a Cat 330 tracked excavator owned and operated by Northwest
Excavating.
Test pit elevations based on topographic information provided on a preliminary site plan.
APPENDIX E – CSWPPP REPORT
BOUN SHORT PLAT
SITE ADDRESS: 1012 DUVALL AVE NE RENTON, WA 98059
SECTION 32, TOWNSHIP 24 N., RANGE 05 E., W.M.
Construction Stormwater
Pollution Prevention Plan
Prepared for: Warring Properties
Contact: Kent Khnor
845 106th Ave, Suite 200
Federal Way, WA 98003
Date Prepared:
Date Revised:
October 5, 2016
June 1, 2017
Prepared by: Drew Young, EIT
Reviewed by: Landon Beyler, P.E.
Beyler Consulting
7602 Bridgeport Way W #3D
Lakewood, WA 98499
253.301.4157
Project Number: 16-206
Project Name: Boun Short Plat RPT-CSWPPP-Boun Short Plat 2016.10.05
Page 2 of 10
TABLE OF CONTENTS
I. Construction Pollution Prevention Plan .................................... 3
Section 1 – Project Overview ........................................................ 3
Section 3 – Existing Site Conditions ............................................... 4
Section 4 – Adjacent Areas ........................................................... 4
Section 5 – Critical Areas ............................................................. 4
Section 6 – Soils ......................................................................... 4
Section 7 – Potential Erosion Problems ........................................... 4
Section 8 – Construction Stormwater Pollution Prevention Elements ... 5
Section 9 – Construction Phasing .................................................. 9
Section 10 – Construction Schedule ............................................... 9
Section 11 – Financial/Ownership Responsibilities .......................... 10
Section 12 – Engineering Calculations .......................................... 10
Section 13 – Conclusion ............................................................. 10
**EROSION CONTROL RESPONSIBILITY**
The Construction Stormwater Polllution Prevention Plan should be kept onsite with a copy of
the plans at all time. The objective is to control erosion and prevent sediment and other
pollutants from leaving the site during the construction of the project.
The owner or assigned contractor shall be responsible for maintaining erosion control Best
Management Practices during construction. All BMPs shall be inspected, maintained, and
repaired as needed to assure continued performance of their intended function. The owner
or contractor shall identify a Certified Erosion and Sediment Control Lead. This person shall
be on-site or on-call at all times. The Erosion Control Lead information shall be inserted into
this report.
The CSWPP shall be modified, if during inspection or investigations conducted by the
owner/operator, or the applicable local or state regulatory authority, it is determined that
the CSWPPP is ineffective in elimination or significantly minimizing pollutants in stormwater
discharges from the site. The CSWPPP shall be modified as necessary to include additional
or modified BMPs designed to correct problems identified. Revisions to the SWPPP shall be
completed within seven (7) calendar days following the inspection.
Construction site operators are required to be covered by a Construction Stormwater
General Permit through the Department of Ecology if they are engaged in clearing, grading,
and excavating activities that disturb one or more acres and discharge stormwater to
surface waters of the state. Smaller sites may also require coverage if they are part of a
larger common plan of development that will ultimately disturb one acre or more.
Page 3 of 10
I. Construction Pollution Prevention Plan
Section 1 – Project Overview
The proponent of the Boun Short Plat proposes to subdivide an undeveloped parcel, with the
exception of an abandoned shed building that is to be removed as part of this project, located
in the City of Renton, King County Washington. The King County parcel number for the
property is 102305-9139. The project parcel is approximately 57,677 sf, 1.32 acres in size.
The parcel is zoned Residential 8 (R-8) according to the City of Renton Zoning Map effective
as of July 1, 2015. The allowed density range in the R-8 zone is a minimum of 4.0 dwelling
units per net acre (DUA) to a maximum of 8.0 DUA. The Boun Short Plat proposes to subdivide
the current parcel into 7 single-family lots equating to a proposed density of 5.29 DUA. The
proposed lots range in size from the smallest being 5,172 sf in size and the largest being
6,553 sf in size. A single tract will be created with this subdivision for the purpose of
stormwater treatment and mitigation and open space area for the development. The
remaining area will be dedicated to the City of Renton for public right-of-way use.
The property is adjacent to Duvall Ave NE to the east, single family parcels to the south and
north, and Chelan Ave NE to the west. The proposed project is keeping consistent with
neighboring land use characteristics.
The site will be accessed through two separate access points. The first access will be an
extension of Chelan Place NE, an existing 20’ alleyway, from the south boundary to the north
boundary of the project parcel. This access way will be developed into a 12’ paved alley within
a 16’ wide right-of-way dedication which meets the current City of Renton street standards
for alleys. An additional access point to Chelan Ave NE will be provided in the east to west
direction through a 12’ paved alley within a 16’ public access and utilities easement.
Half street frontage improvements will be included along the west boundary of the project
site. Chelan Avenue NE will be improved to two separate variations of the current City of
Renton Standards for Residential Access Streets. Starting from the south boundary of the
project site, the east half of Chelan Avenue NE will be improved to provide a 15-foot travel
lane, vertical curb and gutter, an 8-foot wide planter strip, and a 5-foot wide sidewalk for
approximately 120 feet. At this point, the Residential Access Street will transition into a
Limited Residential Access Street which consists of a 20-foot paved roadway, vertical curb
and gutter, an 8-foot wide planter strip, and a 5-foot sidewalk. This road section will be
constructed north until it reaches the north boundary line of the project. To incorporate these
improvements, an 18’ right of way dedication will be necessary along a portion of the
northwest boundary of the project parcel. An 18’ wide section of right-of-way north of the
project site will not be improved as part of this project. As a condition of preliminary plat
approval (LUA16-00124), a road standards modification will be submitted concurrently with
the Utility Construction Permit to allow for the 18’ wide section of right-of-way to remain
undeveloped.
This project is subject to the 2009 King County Surface Water Design Manual (King Manual)
and the City of Renton amendments to the Manual (Renton Manual). Per Figure 1.1.2.A of the
Renton Manual, the Boun Short Plat project is subject to a full drainage review meeting core
requirements #1 through #8 and special requirements #1 through #6.
It has been determined that the site consists of two separate threshold discharges areas.
Threshold Discharge Area #1 (West Basin) consists of a majority of the project site area that
naturally discharges stormwater to the southwest corner of the parcel. Threshold Discharge
Page 4 of 10
Area #2 (A-East Basin, B-North basin) consists of a small portion of land along the east
boundary which naturally discharges stormwater east to an existing swale within Duvall Ave
NE (TDA 2.A) and the 18’ wide panhandle section of land located north of the project site that
naturally discharges stormwater to the northwest (TDA 2.B). A drainage adjustment, per
Section 1.4 of the Renton Manual, is proposed to combine a portion of threshold discharge
area #2.A with threshold discharge area #1. See section III and IV of this report for further
details.
Section 2 – Erosion Control Specialist
It will be responsibility of the owner and/or the contractor to regularly inspect and maintain
the proposed erosion control BMPs, and will take additional measures, as necessary, to
respond to changing site conditions. Should it become necessary, the engineer will be made
available in providing recommendations for additional erosion control measures to the site.
Section 3 – Existing Site Conditions
Currently, the parcel is undeveloped with the exception of an abandoned shed building that
is to be removed as part of this project. The project is composed of two (2) threshold
discharge areas. The site has a localized high point near the south central portion of the
property. Water sheet flows southwest and northeast from this high point with an overall
vertical relieve of 5 feet.
Several existing utility service connections (sewer, storm, water, power, cable, etc.) are
located within the existing right of way boundary of Chelan Ave NE and Duvall Ave NE. There
are no known vegetative buffers, floodplains, wetlands, geologic hazard areas, streams,
creeks, ponds, ravines, or well protection areas present within or near the project area.
Section 4 – Adjacent Areas
The property is adjacent to Duvall Ave NE to the east, single family parcels to the south and
north, and Chelan Ave NE to the west. The proposed project is keeping consistent with
neighboring land use characteristics.
Section 5 – Critical Areas
King County GIS mapping and City of Renton GIS mapping were utilized to determine critical
areas that may be located on or near the project site. There are no known vegetative buffers,
floodplains, wetlands, geologic hazard areas, streams, creeks, ponds, ravines, or well
protection areas present within or near the project area.
Section 6 – Soils
The Soil Conservation Service Soil Survey shows that the project area soils are comprised of
Alderwood Gravelly Sandy Loam (Map Unit Symbol: AgC). Alderwood Gravelly Sandy Loam
soils are generally derived from glacial drift and/or glacial outwash over dense glaciomarine
deposits and are moderately well drained that range in slope from 8 to 15 percent.
Page 5 of 10
Section 7 – Potential Erosion Problems
Due to the existing stabilized ground cover and the site consisting of slopes between 0 to 5
percent, it is anticipated the site will be adequately protected from potential erosion
problems. Care shall be given to stockpiled materials during construction to minimize the
potential for erosion. Catch basins shall be fitted with inlet silt protections, both on-site and
off-site, to protect the existing stormwater management systems. The existing drainage
swale along Duvall Ave NE shall be protected from erosion, at a minimum, with silt
perimeter fencing along cleared/graded areas.
To minimize any potential erosion problems, Grade roads/driveways and construct bases as
soon as possible. Cover any unworked soil during extended times of no construction activity.
Keep as much construction traffic as possible on the road base and off open soils to avoid
compaction of the native soils. Silt fences or other BMPs that are capable of retaining water
shall be utilized to retain silt laden runoff to the project area.
Section 8 – Construction Stormwater Pollution Prevention Elements
Element 1: Mark Clearing Limits
Prior to beginning land disturbing activities, including clearing and grading, all clearing limits,
sensitive areas and their buffers, and trees that are to be preserved within the construction
area shall be clearly marked, both in the field and on the plans, to prevent damage and offsite
impacts
Plastic, metal, or stake wire fence may be used to mark the clearing limits. The duff layer,
native top soil, and natural vegetation shall be retained in an undisturbed state to the
maximum extent practicable. If it is not practicable to retain the duff layer in place, it should
be stockpiled on-site, covered to prevent erosion, and replaced immediately upon completion
of the ground disturbing activities
Suggested BMPs:
BMP: Preserving Natural Vegetation
BMP D.3.1.1: High Visibility Plastic or Metal Fence
BMP D.3.3.1: Silt Fence
Element 2: Establish Construction Access
Construction vehicle access should utilitize the proposed stabilized construction entrance
within the project clearing limits. Contractor shall restrict movement in and out of the site to
one entrance and one exit. When a construction entrance is not preventing sediment from
being tracked onto pavement, a wheel wash should be considered.
If sediment is tracked off site, the public roads shall be cleaned thoroughly at the end of each
day. During wet weather, public roads may need to be cleaned more frequently to prevent
sediment from entering water of the state.
Suggested BMPs:
BMP D.3.4.1: Stabilized Construction Entrance/Exit
BMP D.3.4.2: Construction Road/Parking Area Stabilization
Page 6 of 10
Element 3: Control Flow Rates
Properties and waterways downstream from development sites shall be protected from
erosion due to increases in the volume, velocity, and peak flow rate of stormwater runoff from
the project site.
Temporary interceptor swales will be installed, as necessary, to direct runoff during
construction to the temporary sediment trap located along the west boundary of the project
site. Depending on the longitudinal slope of the swale, rock check dams will be placed to
control flow rates of runoff.
Suggested BMPs:
BMP D.3.6.1: Interceptor Dike and Swale
BMP D.3.6.4: Check Dams
BMP D.3.5.1: Sediment Trap
BMP D.3.6.5: Outlet Protection
Element 4: Install Sediment Controls
Prior to leaving a construction site, stormwater runoff from disturbed areas shall pass through
a sediment removal BMP. Runoff from fully stabilized areas may be discharged without a
sediment removal BMP. Full stabilization means the use of erosion products or vegetative
cover that will fully prevent soil erosion.
Suggested BMPs:
BMP D.3.5.1: Sediment Trap
BMP D.3.3.1: Silt Fence
Element 5: Stabilize Soils
The following constraints will apply. From October 1 through April 30, no soils shall remain
exposed and unworked for more than 2 days. From May 1 to September 30, no soils will
remain exposed and unworked for more than 7 days. This condition will apply to all soils on
site, whether at final grade or not. The areas outside of the roadway will be stabilized with
mulch, grass planting or other approved erosion control treatment during the construction
phase.
Suggested BMPs
BMP D.3.2.1: Surface Roughening
BMP D.3.2.6: Temporary and Permanent Seeding
BMP D.3.2.2: Mulching
BMP D.3.2.3: Nets and Blankets
BMP D.3.2.4: Plastic Covering
BMP D.3.2.7: Sodding
BMP D.3.2.9: Compost Blankets
BMP D.3.8: Dust Control
Page 7 of 10
Element 6: Protect Slopes
Design and construct cut and fill slopes in a manner that will minimize erosion.
If found necessary to aid in surface water routing during construction, temporary interceptor
swales shall be excavated to slope any developed runoff to a sediment trap or pond. Rock
check dams shall be placed at regular intervals to reduce slope runoff velocities within the
temporary inceptor swales. Exposed soils on slopes shall be stabilized as specified in
Element 5.
Suggested BMPs:
BMP D.3.2.6: Temporary and Permanent Seeding
BMP D.3.2.2: Mulching
BMP D.3.2.3: Nets and Blankets
BMP D.3.6.4: Check Dams
Element 7: Protect Drain Inlets
All storm drain inlets made operable during construction shall be protected so that
stormwater runoff shall not enter the conveyance system without first being filtered or
treated to remove sediment. Existing downstream catch basins located within the vicinity of
the project site shall be protected using storm drain inlet protection. After installation of
grated inlets on the property, these structures shall be provided a form of inlet protection.
Suggested BMPs
BMP D.3.5.3: Storm Drain Inlet Protection
Element 8: Stabilize Channels and Outlets
All temporary stormwater channels shall be stabilized to limit the erosion potential during
construction. Temporary on-site conveyance channels shall be designed, construction and
stabilized to prevent erosion. When the permanent outlets are installed, they shall be
protected with washed rock/rip rap for erosion protection.
Suggested BMPs
BMP D.3.6.4: Check Dams
BMP D.3.6.5: Outlet Protection
Element 9: Control Pollutants
Control of pollutants are the responsibility of the construction superintendent. Maintenance
and repair of heavy equipment and vehicles involving oil changes, hydraulic system drain
down, solvent and de-greasing cleaning operations, fuel tank drain down and removal, and
other activities that may result in discharge or spillage of pollutants to the ground or into
stormwater runoff must be conducted using spill prevention measures, such as drip pans.
Contaminated surfaces will be cleaned immediately following any discharge or spill incident.
The superintendent will be expected to use his best judgment in addressing any and all
Page 8 of 10
conditions that are potentially damaging to the environment. Emergency repairs may be
performed on-site using temporary plastic placed beneath and, if raining, over the vehicle.
All pollutants, including waste materials and demolition debris that occur on-site during
construction will be handled and disposed of in a manner that does not cause contamination
of stormwater. Cover, containment, and protection from vandalism will be provided for all
chemicals, liquid products, petroleum products, and non-inert wastes present on the site.
Suggested BMPs
BMP C151: Concrete Handling (2015 Washington State DOE Manual)
BMP C152: Sawcutting and Surfacing Pollution Prevention (2015 DOE Manual)
BMP C153: Material Delivery, Storage and Containment (2015 DOE Manual)
Element 10: Control De-Watering
De-watering is not anticipated. However, if encountered, de-watering shall be discharged
into a closed conveyance system for discharge from the site. The water resulting from
construction site de-watering activities must be treated prior to discharge or disposed in a
manner that is consistent with the City of Renton Manual. Highly turbid or otherwise
contaminated dewatering water, such as from construction equipment operation will be
handled separately from stormwater.
Element 11: Maintain BMPs
All temporary and permanent erosion and sediment control BMPs shall be maintained and
repaired as needed to assure continued performance of their intended function. All
maintenance and repair will be conducted in accordance with standard procedures for the
BMPs.
Sediment control BMPs will be inspected weekly or after a runoff-producing storm event
during the dry season and daily during the wet season.
All temporary erosion and sediment control BMPs will be removed within 30 days after final
site stabilization is achieved or after the temporary BMPs are no longer needed. Trapped
sediment shall be removed or stabilized on site. Disturbed soil areas resulting from removal
of BMPs or vegetation will be permanently stabilized with mulch, grass planting or other
approved erosion control treatment.
Suggested BMPs
BMP C150: Materials On Hand (2015 DOE Manual)
BMP C160: Certified Erosion and Sediment Control Lead (2015 DOE Manual)
Element 12: Manage the Project
Site construction will be performed after the erosion and sediment control measures have
been constructed. Preparation for site grading and earthwork should include procedures
intended to drain ponded water and control surface water runoff. Grading the site without
adequate drainage control measures may negatively impact site soil.
From October 1 through April 30, clearing, grading, and other soil disturbing activities shall
only be permitted if the transport of sediment from the construction site to receiving waters
will be prevented through a combination of favorable site and weather conditions,
Page 9 of 10
limitations on extent of activity, and proposed erosion and sediment control measures. The
Contractor and/or owner should stop the permitted activity if sediment leaves the
construction site causing a violation of the surface water quality standard or if erosion and
sediment control measures are not adequately maintained.
Trenches should be opened only immediately prior to construction and the trenches will be
backfilled immediately after any required testing or inspections of the installed
improvements. Trenching spoils will be treated as other disturbed earthwork and measures
will be taken to cover or otherwise stabilize the material, as required.
All BMPs shall be inspected, maintained, and repaired as needed to assure continued
performance of their intended function.
Section 9 – Construction Phasing
The recommended construction sequence will include these steps in this order, but some
portions of the steps may be performed out of sequence as conditions require.
The Construction Sequence is as follows:
1. The contractor shall become familiar with the property, construction drawings
and geotechnical conditions on site. The contractor shall meet with the developer,
civil engineer, and any other design professional to review the physical
constraints affecting the proposed construction.
2. The contractor shall schedule and attend a pre-construction meeting with the City
of Renton prior to preforming any site work.
3. For each phase of work, the project surveyor shall flag the limits of clearing and
grading, and the contractor shall install all temporary erosions control measures.
4. When TESC measures are approved by the City inspector, install site
improvements.
5. Proceed with site improvements making adjustments to the Erosion Control
measures as needed.
6. Install final soil stabilization/amendments in areas where final grades have been
achieved and future disturbance can be avoided.
7. Hydroseed or place straw mulch on any other disturbed areas.
8. Once the threat of erosion has passed, and all construction is complete, the
remaining erosion control measure may be removed with approval from the City
inspector.
9. All permanent drainage facilities shall be cleaned of any sediment and
construction debris. Sediment laden water shall not be flushed downstream.
All storm drainage facilities shall be protected in place from construction activity via brightly
flagged stakes or, if necessary, temporary construction fencing.
Section 10 – Construction Schedule
The project is intended to begin construction in the Spring of 2017. Special consideration is
required for source control during the wet season period, which may include phased
construction, materials available for immediate stabilization of denuded areas and diligent
review of site for noted erosion concerns.
Page 10 of 10
Section 11 – Financial/Ownership Responsibilities
The property owner will be responsible for bonds and other required securities for this
project.
Section 12 – Engineering Calculations
Sediment Trap Calculations
15-Minute Peak Flow Calculations using KCRTS
Flow Frequency Analysis
Time Series File:dev-15min.tsf
Project Location:Sea-Tac
---Annual Peak Flow Rates--- -----Flow Frequency Analysis-------
Flow Rate Rank Time of Peak - - Peaks - - Rank Return Prob
(CFS) (CFS) Period
0.304 6 8/27/01 18:00 1.02 1 100.00 0.990
0.224 8 1/05/02 15:00 0.690 2 25.00 0.960
0.690 2 12/08/02 17:15 0.429 3 10.00 0.900
0.244 7 8/23/04 14:30 0.425 4 5.00 0.800
0.425 4 11/17/04 5:00 0.374 5 3.00 0.667
0.374 5 10/27/05 10:45 0.304 6 2.00 0.500
0.429 3 10/25/06 22:45 0.244 7 1.30 0.231
1.02 1 1/09/08 6:30 0.224 8 1.10 0.091
Computed Peaks 0.909 50.00 0.980
SA = FS (Q2-year/Vs) = 2 * (0.304/.00096) = 633.3 sf = 634 sf
See sheet C2 of the plan set for sediment trap location and details.
Section 13 – Conclusion
Erosion control procedures as described in this report and illustrated on the design plans, if
properly implemented, should mitigate anticipated erosion effects from the development of
this project.
The success of erosion control measures is usually related to the Contractor’s attention to
maintenance of such measures. However, in some instances, even with proper attention
being paid to erosion control, measures such as those shown on the plans are unable to
prevent the discharge of turbid water. In this event, secondary measures may be required.
These additional BMPs are provided in Appendix D of the 2009 King County Surface Water
Design Manual and Volume 2 of the 2012 edition of the Washington State Department of
Ecology Stormwater Management Manual for Western Washington.
APPENDIX F – OPERATION AND MAINTENANCE WORKSHEETS
APPENDIX A MAINTENANCE REQUIREMENTS FOR FLOW CONTROL, CONVEYANCE, AND WQ FACILITIES
2009 Surface Water Design Manual – Appendix A 1/9/2009 A-5
NO. 3 – DETENTION TANKS AND VAULTS
Maintenance
Component
Defect or Problem Conditions When Maintenance is Needed Results Expected When
Maintenance is Performed
Trash and debris Any trash and debris which exceed 1 cubic foot
per 1,000 square feet (this is about equal to the
amount of trash it would take to fill up one
standard size office garbage can). In general,
there should be no visual evidence of dumping.
Trash and debris cleared from site.
Noxious weeds Any noxious or nuisance vegetation which may
constitute a hazard to County personnel or the
public.
Noxious and nuisance vegetation
removed according to applicable
regulations. No danger of noxious
vegetation where County personnel
or the public might normally be.
Contaminants and
pollution
Any evidence of contaminants or pollution such
as oil, gasoline, concrete slurries or paint.
Materials removed and disposed of
according to applicable regulations. Source control BMPs implemented if
appropriate. No contaminants
present other than a surface oil film.
Site
Grass/groundcover Grass or groundcover exceeds 18 inches in
height.
Grass or groundcover mowed to a
height no greater than 6 inches.
Trash and debris Any trash and debris accumulated in vault or tank (includes floatables and non-floatables). No trash or debris in vault. Tank or Vault Storage Area
Sediment
accumulation
Accumulated sediment depth exceeds 10% of the
diameter of the storage area for ½ 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 ½ length of tank.
All sediment removed from storage
area.
Plugged air vent Any blockage of the vent. Tank or vault freely vents.
Tank bent out of shape Any part of tank/pipe is bent out of shape more than 10% of its design shape. Tank repaired or replaced to design.
Tank Structure
Gaps between
sections, damaged joints or cracks or
tears in wall
A gap wider than ½-inch at the joint of any tank
sections or any evidence of soil particles entering the tank at a joint or through a wall.
No water or soil entering tank
through joints or walls.
Vault Structure Damage to wall,
frame, bottom, and/or
top slab
Cracks wider than ½-inch, any evidence of soil
entering the structure through cracks or qualified
inspection personnel determines that the vault is
not structurally sound.
Vault is sealed and structurally
sound.
Sediment
accumulation
Sediment filling 20% or more of the pipe. Inlet/outlet pipes clear of sediment.
Trash and debris Trash and debris accumulated in inlet/outlet
pipes (includes floatables and non-floatables).
No trash or debris in pipes.
Inlet/Outlet Pipes
Damaged Cracks wider than ½-inch at the joint of the
inlet/outlet pipes or any evidence of soil entering
at the joints of the inlet/outlet pipes.
No cracks more than ¼-inch wide at
the joint of the inlet/outlet pipe.
APPENDIX A MAINTENANCE REQUIREMENTS FLOW CONTROL, CONVEYANCE, AND WQ FACILITIES
1/9/2009 2009 Surface Water Design Manual – Appendix A A-6
NO. 3 – DETENTION TANKS AND VAULTS
Maintenance
Component
Defect or Problem Conditions When Maintenance is Needed Results Expected When
Maintenance is Performed
Cover/lid not in place Cover/lid is missing or only partially in place.
Any open manhole requires immediate
maintenance.
Manhole access covered.
Locking mechanism
not working
Mechanism cannot be opened by one
maintenance person with proper tools. Bolts
cannot be seated. Self-locking cover/lid does not
work.
Mechanism opens with proper tools.
Cover/lid difficult to
remove
One maintenance person cannot remove
cover/lid after applying 80 lbs of lift.
Cover/lid can be removed and
reinstalled by one maintenance
person.
Access Manhole
Ladder rungs unsafe Missing rungs, misalignment, rust, or cracks. Ladder meets design standards.
Allows maintenance person safe
access.
Damaged or difficult
to open
Large access doors or plates cannot be
opened/removed using normal equipment.
Replace or repair access door so it
can opened as designed.
Gaps, doesn't cover
completely
Large access doors not flat and/or access
opening not completely covered.
Doors close flat and covers access
opening completely.
Large access
doors/plate
Lifting Rings missing,
rusted
Lifting rings not capable of lifting weight of door
or plate.
Lifting rings sufficient to lift or
remove door or plate.
APPENDIX A MAINTENANCE REQUIREMENTS FOR FLOW CONTROL, CONVEYANCE, AND WQ FACILITIES
2009 Surface Water Design Manual – Appendix A 1/9/2009 A-7
NO. 4 – CONTROL STRUCTURE/FLOW RESTRICTOR
Maintenance
Component
Defect or Problem Condition When Maintenance is Needed Results Expected When
Maintenance is Performed
Trash or debris of more than ½ cubic foot which
is located immediately in front of the structure
opening or is blocking capacity of the structure by
more than 10%.
No Trash or debris blocking or
potentially blocking entrance to
structure.
Trash or debris in the structure that exceeds 1/3
the depth from the bottom of basin to invert the
lowest pipe into or out of the basin.
No trash or debris in the structure.
Trash and debris
Deposits of garbage exceeding 1 cubic foot in
volume.
No condition present which would
attract or support the breeding of
insects or rodents.
Sediment Sediment exceeds 60% of the depth from the
bottom of the structure to the invert of the lowest
pipe into or out of the structure or the bottom of
the FROP-T section or is within 6 inches of the
invert of the lowest pipe into or out of the structure or the bottom of the FROP-T section.
Sump of structure contains no
sediment.
Corner of frame extends more than ¾ inch past
curb face into the street (If applicable).
Frame is even with curb.
Top slab has holes larger than 2 square inches or
cracks wider than ¼ inch.
Top slab is free of holes and cracks.
Damage to frame
and/or top slab
Frame not sitting flush on top slab, i.e.,
separation of more than ¾ inch of the frame from
the top slab.
Frame is sitting flush on top slab.
Cracks wider than ½ inch and longer than 3 feet,
any evidence of soil particles entering structure
through cracks, or maintenance person judges
that structure is unsound.
Structure is sealed and structurally
sound.
Cracks in walls or
bottom
Cracks wider than ½ inch and longer than 1 foot
at the joint of any inlet/outlet pipe or any evidence
of soil particles entering structure through cracks.
No cracks more than 1/4 inch wide at
the joint of inlet/outlet pipe.
Settlement/
misalignment
Structure has settled more than 1 inch or has
rotated more than 2 inches out of alignment.
Basin replaced or repaired to design
standards.
Damaged pipe joints Cracks wider than ½-inch at the joint of the
inlet/outlet pipes or any evidence of soil entering
the structure at the joint of the inlet/outlet pipes.
No cracks more than ¼-inch wide at
the joint of inlet/outlet pipes.
Contaminants and
pollution
Any evidence of contaminants or pollution such
as oil, gasoline, concrete slurries or paint.
Materials removed and disposed of
according to applicable regulations.
Source control BMPs implemented if appropriate. No contaminants
present other than a surface oil film.
Structure
Ladder rungs missing or unsafe Ladder is unsafe due to missing rungs, misalignment, rust, cracks, or sharp edges. Ladder meets design standards and allows maintenance person safe
access.
T section is not securely attached to structure wall and outlet pipe structure should support at
least 1,000 lbs of up or down pressure.
T section securely attached to wall and outlet pipe.
Structure is not in upright position (allow up to
10% from plumb).
Structure in correct position.
Connections to outlet pipe are not watertight or
show signs of deteriorated grout.
Connections to outlet pipe are water
tight; structure repaired or replaced
and works as designed.
FROP-T Section Damage
Any holes—other than designed holes—in the
structure.
Structure has no holes other than
designed holes.
Cleanout Gate Damaged or missing Cleanout gate is missing. Replace cleanout gate.
APPENDIX A MAINTENANCE REQUIREMENTS FLOW CONTROL, CONVEYANCE, AND WQ FACILITIES
1/9/2009 2009 Surface Water Design Manual – Appendix A A-8
NO. 4 – CONTROL STRUCTURE/FLOW RESTRICTOR
Maintenance
Component
Defect or Problem Condition When Maintenance is Needed Results Expected When
Maintenance is Performed
Cleanout gate is not watertight. Gate is watertight and works as
designed.
Gate cannot be moved up and down by one
maintenance person.
Gate moves up and down easily and
is watertight.
Chain/rod leading to gate is missing or damaged. Chain is in place and works as
designed.
Damaged or missing Control device is not working properly due to
missing, out of place, or bent orifice plate.
Plate is in place and works as
designed.
Orifice Plate
Obstructions Any trash, debris, sediment, or vegetation
blocking the plate.
Plate is free of all obstructions and
works as designed.
Obstructions Any trash or debris blocking (or having the
potential of blocking) the overflow pipe.
Pipe is free of all obstructions and
works as designed.
Overflow Pipe
Deformed or damaged
lip
Lip of overflow pipe is bent or deformed. Overflow pipe does not allow
overflow at an elevation lower than
design
Sediment
accumulation
Sediment filling 20% or more of the pipe. Inlet/outlet pipes clear of sediment.
Trash and debris Trash and debris accumulated in inlet/outlet
pipes (includes floatables and non-floatables).
No trash or debris in pipes.
Inlet/Outlet Pipe
Damaged Cracks wider than ½-inch at the joint of the
inlet/outlet pipes or any evidence of soil entering
at the joints of the inlet/outlet pipes.
No cracks more than ¼-inch wide at
the joint of the inlet/outlet pipe.
Unsafe grate opening Grate with opening wider than 7/8 inch. Grate opening meets design
standards.
Trash and debris Trash and debris that is blocking more than 20%
of grate surface.
Grate free of trash and debris.
footnote to guidelines for disposal
Metal Grates
(If Applicable)
Damaged or missing Grate missing or broken member(s) of the grate. Grate is in place and meets design
standards.
Cover/lid not in place Cover/lid is missing or only partially in place.
Any open structure requires urgent
maintenance.
Cover/lid protects opening to
structure.
Locking mechanism
Not Working
Mechanism cannot be opened by one
maintenance person with proper tools. Bolts cannot be seated. Self-locking cover/lid does not
work.
Mechanism opens with proper tools.
Manhole Cover/Lid
Cover/lid difficult to Remove One maintenance person cannot remove cover/lid after applying 80 lbs. of lift. Cover/lid can be removed and reinstalled by one maintenance
person.
APPENDIX A MAINTENANCE REQUIREMENTS FOR FLOW CONTROL, CONVEYANCE, AND WQ FACILITIES
2009 Surface Water Design Manual – Appendix A 1/9/2009 A-9
NO. 5 – CATCH BASINS AND MANHOLES
Maintenance
Component
Defect or Problem Condition When Maintenance is Needed Results Expected When
Maintenance is Performed
Sediment Sediment exceeds 60% of the depth from the
bottom of the catch basin to the invert of the
lowest pipe into or out of the catch basin or is
within 6 inches of the invert of the lowest pipe
into or out of the catch basin.
Sump of catch basin contains no
sediment.
Trash or debris of more than ½ cubic foot which
is located immediately in front of the catch basin
opening or is blocking capacity of the catch basin
by more than 10%.
No Trash or debris blocking or
potentially blocking entrance to
catch basin.
Trash or debris in the catch basin that exceeds 1/3 the depth from the bottom of basin to invert the
lowest pipe into or out of the basin.
No trash or debris in the catch basin.
Dead animals or vegetation that could generate
odors that could cause complaints or dangerous
gases (e.g., methane).
No dead animals or vegetation
present within catch basin.
Trash and debris
Deposits of garbage exceeding 1 cubic foot in
volume.
No condition present which would
attract or support the breeding of
insects or rodents.
Corner of frame extends more than ¾ inch past
curb face into the street (If applicable).
Frame is even with curb.
Top slab has holes larger than 2 square inches or
cracks wider than ¼ inch.
Top slab is free of holes and cracks.
Damage to frame
and/or top slab
Frame not sitting flush on top slab, i.e.,
separation of more than ¾ inch of the frame from
the top slab.
Frame is sitting flush on top slab.
Cracks wider than ½ inch and longer than 3 feet,
any evidence of soil particles entering catch
basin through cracks, or maintenance person
judges that catch basin is unsound.
Catch basin is sealed and
structurally sound.
Cracks in walls or
bottom
Cracks wider than ½ 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.
No cracks more than 1/4 inch wide at
the joint of inlet/outlet pipe.
Settlement/
misalignment
Catch basin has settled more than 1 inch or has
rotated more than 2 inches out of alignment.
Basin replaced or repaired to design
standards.
Damaged pipe joints Cracks wider than ½-inch at the joint of the
inlet/outlet pipes or any evidence of soil entering
the catch basin at the joint of the inlet/outlet pipes.
No cracks more than ¼-inch wide at
the joint of inlet/outlet pipes.
Structure
Contaminants and
pollution
Any evidence of contaminants or pollution such
as oil, gasoline, concrete slurries or paint.
Materials removed and disposed of
according to applicable regulations. Source control BMPs implemented if
appropriate. No contaminants
present other than a surface oil film.
Sediment
accumulation
Sediment filling 20% or more of the pipe. Inlet/outlet pipes clear of sediment.
Trash and debris Trash and debris accumulated in inlet/outlet
pipes (includes floatables and non-floatables).
No trash or debris in pipes.
Inlet/Outlet Pipe
Damaged Cracks wider than ½-inch at the joint of the
inlet/outlet pipes or any evidence of soil entering
at the joints of the inlet/outlet pipes.
No cracks more than ¼-inch wide at
the joint of the inlet/outlet pipe.
APPENDIX A MAINTENANCE REQUIREMENTS FLOW CONTROL, CONVEYANCE, AND WQ FACILITIES
1/9/2009 2009 Surface Water Design Manual – Appendix A A-10
NO. 5 – CATCH BASINS AND MANHOLES
Maintenance
Component
Defect or Problem Condition When Maintenance is Needed Results Expected When
Maintenance is Performed
Unsafe grate opening Grate with opening wider than 7/8 inch. Grate opening meets design
standards.
Trash and debris Trash and debris that is blocking more than 20%
of grate surface.
Grate free of trash and debris.
footnote to guidelines for disposal
Metal Grates
(Catch Basins)
Damaged or missing Grate missing or broken member(s) of the grate.
Any open structure requires urgent
maintenance.
Grate is in place and meets design
standards.
Cover/lid not in place Cover/lid is missing or only partially in place.
Any open structure requires urgent
maintenance.
Cover/lid protects opening to
structure.
Locking mechanism
Not Working
Mechanism cannot be opened by one
maintenance person with proper tools. Bolts
cannot be seated. Self-locking cover/lid does not
work.
Mechanism opens with proper tools.
Manhole Cover/Lid
Cover/lid difficult to
Remove
One maintenance person cannot remove
cover/lid after applying 80 lbs. of lift.
Cover/lid can be removed and
reinstalled by one maintenance
person.
APPENDIX A MAINTENANCE REQUIREMENTS FOR FLOW CONTROL, CONVEYANCE, AND WQ FACILITIES
2009 Surface Water Design Manual – Appendix A 1/9/2009 A-11
NO. 6 – CONVEYANCE PIPES AND DITCHES
Maintenance
Component
Defect or Problem Conditions When Maintenance is Needed Results Expected When
Maintenance is Performed
Sediment & debris
accumulation
Accumulated sediment or debris that exceeds
20% of the diameter of the pipe.
Water flows freely through pipes.
Vegetation/roots Vegetation/roots that reduce free movement of
water through pipes.
Water flows freely through pipes.
Contaminants and
pollution
Any evidence of contaminants or pollution such
as oil, gasoline, concrete slurries or paint.
Materials removed and disposed of
according to applicable regulations.
Source control BMPs implemented if
appropriate. No contaminants
present other than a surface oil film.
Damage to protective
coating or corrosion
Protective coating is damaged; rust or corrosion
is weakening the structural integrity of any part of
pipe.
Pipe repaired or replaced.
Pipes
Damaged Any dent that decreases the cross section area of
pipe by more than 20% or is determined to have
weakened structural integrity of the pipe.
Pipe repaired or replaced.
Trash and debris Trash and debris exceeds 1 cubic foot per 1,000
square feet of ditch and slopes.
Trash and debris cleared from
ditches.
Sediment
accumulation
Accumulated sediment that exceeds 20% of the
design depth.
Ditch cleaned/flushed of all sediment
and debris so that it matches design.
Noxious weeds Any noxious or nuisance vegetation which may
constitute a hazard to County personnel or the public.
Noxious and nuisance vegetation
removed according to applicable regulations. No danger of noxious
vegetation where County personnel
or the public might normally be.
Contaminants and
pollution
Any evidence of contaminants or pollution such
as oil, gasoline, concrete slurries or paint.
Materials removed and disposed of
according to applicable regulations.
Source control BMPs implemented if
appropriate. No contaminants
present other than a surface oil film.
Vegetation Vegetation that reduces free movement of water
through ditches.
Water flows freely through ditches.
Erosion damage to
slopes
Any erosion observed on a ditch slope. Slopes are not eroding.
Ditches
Rock lining out of
place or missing (If
Applicable)
One layer or less of rock exists above native soil
area 5 square feet or more, any exposed native
soil.
Replace rocks to design standards.
APPENDIX A MAINTENANCE REQUIREMENTS FOR FLOW CONTROL, CONVEYANCE, AND WQ FACILITIES
2009 Surface Water Design Manual – Appendix A 1/9/2009 A-17
NO. 12 – ACCESS ROADS
Maintenance
Component
Defect or Problem Condition When Maintenance is Needed Results Expected When
Maintenance is Performed
Trash and debris exceeds 1 cubic foot per 1,000
square feet (i.e., trash and debris would fill up
one standards size garbage can).
Roadway drivable by maintenance
vehicles.
Trash and debris
Debris which could damage vehicle tires or
prohibit use of road.
Roadway drivable by maintenance
vehicles.
Contaminants and
pollution
Any evidence of contaminants or pollution such
as oil, gasoline, concrete slurries or paint.
Materials removed and disposed of
according to applicable regulations.
Source control BMPs implemented if
appropriate. No contaminants
present other than a surface oil film.
Any obstruction which reduces clearance above
road surface to less than 14 feet.
Roadway overhead clear to 14 feet
high.
Site
Blocked roadway
Any obstruction restricting the access to a 10- to
12 foot width for a distance of more than 12 feet
or any point restricting access to less than a 10
foot width.
At least 12-foot of width on access
road.
Erosion, settlement,
potholes, soft spots,
ruts
Any surface defect which hinders or prevents
maintenance access.
Road drivable by maintenance
vehicles.
Road Surface
Vegetation on road
surface
Trees or other vegetation prevent access to
facility by maintenance vehicles.
Maintenance vehicles can access
facility.
Erosion Erosion within 1 foot of the roadway more than 8
inches wide and 6 inches deep.
Shoulder free of erosion and
matching the surrounding road.
Shoulders and
Ditches
Weeds and brush Weeds and brush exceed 18 inches in height or hinder maintenance access. Weeds and brush cut to 2 inches in height or cleared in such a way as to
allow maintenance access.
Contaminants and
pollution
Any evidence of contaminants or pollution such
as oil, gasoline, concrete slurries or paint.
Materials removed and disposed of
according to applicable regulations.
Source control BMPs implemented if
appropriate. No contaminants
present other than a surface oil film.
Modular Grid
Pavement
Damaged or missing Access surface compacted because of broken on
missing modular block.
Access road surface restored so
road infiltrates.
APPENDIX A MAINTENANCE REQUIREMENTS FOR FLOW CONTROL, CONVEYANCE, AND WQ FACILITIES
2009 Surface Water Design Manual – Appendix A 1/9/2009 A-23
NO. 17 – WETVAULT
Maintenance
Component
Defect or Problem Condition When Maintenance is Needed Results Expected When
Maintenance is Performed
Site Trash and debris Trash and debris accumulated on facility site. Trash and debris removed from
facility site.
Trash and debris Any trash and debris accumulated in vault
(includes floatables and non-floatables).
No trash or debris in vault.
Sediment
accumulation
Sediment accumulation in vault bottom exceeds
the depth of the sediment zone plus 6 inches.
No sediment in vault.
Treatment Area
Contaminants and
pollution
Any evidence of contaminants or pollution such
as oil, gasoline, concrete slurries or paint.
Materials removed and disposed of
according to applicable regulations.
Source control BMPs implemented if
appropriate. No contaminants
present other than a surface oil film.
Damage to wall,
frame, bottom, and/or
top slab
Cracks wider than ½-inch, any evidence of soil
entering the structure through cracks, vault does
not retain water or qualified inspection personnel
determines that the vault is not structurally
sound.
Vault is sealed and structurally
sound.
Baffles damaged Baffles corroding, cracking, warping and/or
showing signs of failure or baffle cannot be
removed.
Repair or replace baffles or walls to
specifications.
Vault Structure
Ventilation Ventilation area blocked or plugged. No reduction of ventilation area
exists.
Sediment
accumulation
Sediment filling 20% or more of the pipe. Inlet/outlet pipes clear of sediment.
Trash and debris Trash and debris accumulated in inlet/outlet pipes (includes floatables and non-floatables). No trash or debris in pipes.
Inlet/Outlet Pipe
Damaged Cracks wider than ½-inch at the joint of the
inlet/outlet pipes or any evidence of soil entering
at the joints of the inlet/outlet pipes.
No cracks more than ¼-inch wide at
the joint of the inlet/outlet pipe.
Inoperable valve Valve will not open and close. Valve opens and closes normally. Gravity Drain
Valve won’t seal Valve does not seal completely. Valve completely seals closed.
Access cover/lid
damaged or difficult to
open
Access cover/lid cannot be easily opened by one
person. Corrosion/deformation of cover/lid.
Access cover/lid can be opened by
one person.
Locking mechanism
not working
Mechanism cannot be opened by one
maintenance person with proper tools. Bolts
cannot be seated. Self-locking cover/lid does not
work.
Mechanism opens with proper tools.
Cover/lid difficult to
remove
One maintenance person cannot remove
cover/lid after applying 80 lbs of lift.
Cover/lid can be removed and
reinstalled by one maintenance
person.
Access doors/plate
has gaps, doesn't
cover completely
Large access doors not flat and/or access
opening not completely covered.
Doors close flat and covers access
opening completely.
Lifting Rings missing,
rusted
Lifting rings not capable of lifting weight of door
or plate.
Lifting rings sufficient to lift or
remove door or plate.
Access Manhole
Ladder rungs unsafe Missing rungs, misalignment, rust, or cracks. Ladder meets design standards.
Allows maintenance person safe
access.
DenisLawMayorCommunity&EconomicDevelopmentC.E.“Chip”Vincent,AdministratorJune21,2017BrandonLoucks,P.E.BeylerConsulting7602BridgeportWayW.Suite3DLakewood,WA98499RE:BounShortPlat(U16006297)—BasinDiversion-Adjustment2017-04DearMr.Loucks:TheCityofRentonhascompletedreviewoftheadjustmentrequestforBounShortPlat(U16006297)inaccordancewiththeCityadopted2009KingCountySurfaceWaterDesignManual(KCSWDM)andassociatedCityAmendments.Astheapplicant’sengineer,youarerequestinganadjustmentfromthe2009KingCountySurfaceWaterDesignManualtoSection1.2.1,CoreRequirement#1,DischargeattheNaturalLocation.Morespecifically,youarerequestinganadjustmenttodivertstormdrainagefromapproximately8,771squarefeet(0.20acres)oflandareafromdrainingatitsnaturaldischargelocationtoanotherlocation.Findings:1.CoreRequirement#1,DischargeattheNaturalLocationrequiresthatallsurfaceandstormwaterrunofffromaprojectbedischargedatthenaturallocationsoasnottobedivertedontoorawayfromdownstreampropertiesperSection1.2.1oftheCityadopted2009KCSWDM.2.Theprojectsiteislocatedat1012DuvallAvenueNE.TheprojectisasinglefamilyresidentiallanduseandislocatedintheR-8residentialzone.Theprojectsiteis57,499squarefeet(1.32acres)andisundeveloped.Theprojectproposestosubdividetheprojectsiteintosevenlotsforfuturesinglefamilyhomes.Approximately55,007squarefeet(1.26acres)oftheprojectsitewillbedisturbedaspartofthisproject.1055SouthGradyWay,Renton,WA98057.rentonwa.gov
Mr.BrandonLoucksPage2of3June20,20173.Theprojectsitecontainstwoseparatethresholddischargeareas.ThresholdDischargeArea#1coversamajorityofthesite.ThresholdDischargeArea#1drainstothesite’ssouthwestcornertowardstheexistingpublicstormdrainagesystemintheChelanAvenueNErightofway.Ofthedisturbedarea,approximately46,236squarefeet(1.06acres,84%ofthedisturbedarea)ispartofThresholdDischargeArea#1underexistingconditions.ThresholdDischargeArea#2islocatedalongtheeasternfrontageofthesite.ThresholdDischargeArea#2drainstothesite’snortheastcornertowardsanexistingstormwaterconveyanceditchlocatedalongthewesternfrontageofDuvallAvenueNE.Theremainingapproximately8,771squarefeetofdisturbedarea(0.20acres,16%ofthedisturbedarea)drainstothislocationunderexistingconditions.4.BoththresholddischargeareasarepartofthelargerMayCreekdrainagebasin.ThedownstreamflowpathscoveragemorethanonequartermiledownstreaminHoneyCreek.TheflowsleavingthesouthwestcornerofthesitefromThresholdDischargeArea#1areconveyedsouththroughanexistingpublicstormdrainagesysteminChelanAvenueNEthatwasconstructedaspartoftheVuongShortPlatdevelopment.FlowsarethenconveyedinCitystormconveyancepipeswestalongNE10thStreet,northalongAnacortesAvenueNE,westalongNE11thStreet,thenfinallynorthalongWhitmanCourtNEtoapipedportionofHoneyCreekunderWhitmanCourtNE.Thedistancefromthesite’ssouthwestdischargepointtoHoneyCreekisapproximately2,700feet.TheflowsleavingthenortheasterncornetofthesitefromThresholdDischargeArea#2areconveyedthroughanopenditchconveyancesystemalongthewesternfrontageofDuvallAvenueNEtoapipedpublicstormdrainageconveyancesystemthatbeginssouthoftheintersectionofDuvallAvenueNEandNE12thStreettoapipedportionofHoneyCreekadjacenttotheStarbucksatthecornerofDuvallAvenueNEandNESunsetBoulevard.Thedistancefromthesite’snortheastdischargepointtothepointonHoneyCreekwherethedownstreamflowpathsintersectisapproximately3,100feet.5.TheTechnicalInformationReportpreparedbyBeylerConsultingnotesthatnorelevantdrainagecomplaintsrelatedtofloodingwererecordedwithinonemiledownstreamofeachthresholddischargeareawithinthelasttenyears.6.PertheCivilConstructionPlanspreparedbyBeylerConsulting,drainagecollectedfromimpervioussurfacesinthesitewillpassthroughacombinationR:\FiIeSys\SWP-SurfaceWaterProjects\SWP-27-SurfaceWaterProjectsfCIP)\27-3129RentonStormwaterManual\ADJUSTMENTS\2017\2017-4BounShortPlat-BasinDiversion.doc1055SouthGradyWay,Renton,WA98057.rentonwa.gov
Mr.BrandonLoucksPage3of3June20,2017detention/wetvaultpriortodischargeintothepublicstormwaterconveyancesysteminChelanAvenueNE.7.Theadjustmentproposestodivertapproximately5,760squarefeetofdrainageareafromThresholdDischargeArea#2tothenaturaldischargelocationofThresholdDischargeArea#1atthesouthwestcornerofthesite.OftheareadivertedfromThresholdDischargeArea#2toThresholdDischargeArea#1,onlyasmallportionispotentialroofareaforLots#1-4*4.Lots#1-#4willfrontDuvallAvenueNEwithdrivewaysintherearaccessedfromanextensionofChelanPlaceNE(publicalley)tothenorth.AllofChelanPlaceNEislocatedinThresholdDischargeArea#1.Thus,themajorityoflandintheareathatwillbedivertedwillconsistofgrass,landscaping,andwalkways.TheremainderofThresholdDischargeArea#2(approximately3,011squarefeet)willbegradedtowardstheDuvallAvenueNErightofwayandmaintainthenaturaldischargelocation.8.Theareadivertedwillnotproduceasignificantincreaseinflows(<0.1CFS)tothebasindownstreamofThresholdDischargeArea#1.Theprojectwillbeprovidingflowcontrolusinghistoric(forested)conditionsasthepre-developedallowablereleaseratewhichislessthanthecurrentexistingsiteconditions.9.UsingonefacilityasopposedtotwofacilitiesallowsthedevelopertomakebetteruseofthelandtomeettheR-$singlefamilyresidentialzoningstandards.Decision:Basedontheinformationprovidedintheenclosedadjustmentrequest,theadjustmenttodischargethemajorityofThresholdDischargeArea#2atthenaturaldischargelocationofThresholdDischarge#1isapproved.Ifyouhaveanyquestionsaboutthisadjustment,pleasecontactBrianneBannwarth,DevelopmentEngineeringManager,at(425)430-7299orRonStraka,SurfaceWaterUtilityEngineeringManager,at(425)430-7248.RonStraka,P.E.SurfaceWaterUtilityEngineeringManagercc:IanFitz-James,P.E.,CivilEngineerIllJillDing,SeniorPlannerLysHornsby,P.E.,UtilitySystemsDirectorH:\FileSys\SWP-SurfaceWaterProjects\SWP-27-SurfaceWaterProjects(CIP)\27-3129RentonStormwaterManual\ADJUSTMENTS\2017\2017-4BounShortPlat-BasinDiversion.docSiiBrianneBannwarth,P.E.DevelopmentEngineeringManager1055SouthGradyWay,Renton,WA98057rentonwa.gov