HomeMy WebLinkAboutEx_10_Technical_Information_Report
Western Washington Division Eastern Washington Division
165 NE Juniper St., Ste 201, Issaquah, WA 98027 108 East 2nd Street, Cle Elum, WA 98922
Phone: (425) 392-0250 Fax: (425) 391-3055 Phone: (509) 674-7433 Fax: (509) 674-7419
www.EncompassES.net
CITY OF RENTON
TECHNICAL INFORMATION REPORT
For
Index Avenue Townhouses
1709 Index Ave NE
Renton, WA 98056
September 8, 2023
Prepared By:
Ian Dahl
Encompass Engineering Job No. 21770
Prepared For:
Mike Elliott
10034 SE 218th Place
Kent, WA 98031
206-947-9085
DocuSign Envelope ID: A5115E6D-5FF1-4242-8D6A-1BDF53158A96
Index Avenue Townhomes Technical Information Report
09/08/2023 Page i
TABLE OF CONTENTS
I. PROJECT OVERVIEW ................................................................................................................ 1
II. CONDITIONS AND REQUIREMENTS SUMMARY ...................................................................... 6
III. OFFSITE ANALYSIS .................................................................................................................. 10
IV. FLOW CONTROL AND WATER QUALITY FACILITY ANALYSIS AND DESIGN ........................... 15
V. CONVEYANCE SYSTEM ANALYSIS AND DESIGN ..................................................................... 16
VI. SPECIAL REPORTS AND STUDIES ............................................................................................ 16
VII. OTHER PERMITS ..................................................................................................................... 16
VIII. CSWPPP ANALYSIS AND DESIGN............................................................................................ 16
IX. BOND QUANTITIES AND DECLARATION OF COVENANT ....................................................... 18
X. OPERATION AND MAINTENANCE MANUAL .......................................................................... 18
LIST OF FIGURES
1. TIR Worksheet
2. Vicinity Map
3. Soils Map and Legend
4. Existing Conditions Map
5. Developed Conditions Map
6. Drainage Review Flow Chart
7. Flow Control Applications Map
8. Aquifer Protection Zone Map
9. Downstream Map
10. Flow Frequency Return Periods
LIST OF APPENDICES
A. Geotechnical Engineering Report by Riley Group, Inc. dated February 2, 2023
B. Operation & Maintenance Manual
C. Declaration of Covenant
DocuSign Envelope ID: A5115E6D-5FF1-4242-8D6A-1BDF53158A96
CITY OF RENTON SURFACE WATER DESIGN MANUAL
2022 City of Renton Surface Water Design Manual 6/22/2022
8-A-1
REFERENCE 8-A
TECHNICAL INFORMATION REPORT (TIR)
WORKSHEET
Part 1 PROJECT OWNER AND
PROJECT ENGINEER Part 2 PROJECT LOCATION AND
DESCRIPTION
Project Owner _____________________________
Phone ___________________________________
Address __________________________________
_________________________________________
Project Engineer ___________________________
Company _________________________________
Phone ___________________________________
Project Name __________________________
CED Permit # ________________________
Location Township ________________
Range __________________
Section _________________
Site Address __________________________
_____________________________________
Part 3 TYPE OF PERMIT APPLICATION Part 4 OTHER REVIEWS AND PERMITS
Land Use (e.g., Subdivision / Short Subd.)
Building (e.g., M/F / Commercial / SFR)
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
(check one):
Date (include revision
dates):
Date of Final:
Full
Targeted
Simplified
Large Project
Directed
__________________
__________________
__________________
Plan Type (check
one):
Date (include revision
dates):
Date of Final:
Full
Modified
Simplified
__________________
__________________
__________________
Mike Elliot
206-947-9085
10034 SE 218th Place
Kent, WA 98031
Sam Salo, PE
Encompass Engineering & Surveying
425-392-0250
Index Avenue Townhouses
23 N
5 E
SW 4
1709 Index Ave NE Renton, WA
98056
TBD
09/08/2023
09/08/2023
t
DocuSign Envelope ID: A5115E6D-5FF1-4242-8D6A-1BDF53158A96
REFERENCE 8: PLAN REVIEW FORMS AND WORKSHEET
TECHNICAL INFORMATION REPORT (TIR) WORKSHEET
6/22/2022 2022 City of Renton Surface Water Design Manual
8-A-2
Part 6 SWDM ADJUSTMENT APPROVALS
Type (circle one): Standard / Blanket
Description: (include conditions in TIR Section 2)
____________________________________________________________________________________
____________________________________________________________________________________
____________________________________________________________________________________
Approved Adjustment No. ______________________ Date of Approval: _______________________
Part 7 MONITORING REQUIREMENTS
Monitoring Required: Yes / No
Start Date: _______________________
Completion Date: _______________________
Describe: _________________________________
_________________________________________
_________________________________________
Re: SWDM Adjustment No. ________________
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 ______________________
_____________________________________
Newcastle
May Creek
Duration (Forested) Flow Control Standard
DocuSign Envelope ID: A5115E6D-5FF1-4242-8D6A-1BDF53158A96
REFERENCE 8-A: TECHNICAL INFORMATION REPORT (TIR) WORKSHEET
TECHNICAL INFORMATION REPORT (TIR) WORKSHEET
2022 City of Renton Surface Water Design Manual 6/22/2022
Ref 8-A-3
Part 10 SOILS
Soil Type
______________________
______________________
______________________
______________________
Slopes
________________________
________________________
________________________
________________________
Erosion Potential
_________________________
_________________________
_________________________
_________________________
High Groundwater Table (within 5 feet)
Other ________________________________
Sole Source Aquifer
Seeps/Springs
Additional Sheets Attached
Part 11 DRAINAGE DESIGN LIMITATIONS
REFERENCE
Core 2 – Offsite Analysis_________________
Sensitive/Critical Areas__________________
SEPA________________________________
LID Infeasibility________________________
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 9 apply):
Discharge at Natural Location Number of Natural Discharge Locations:
Offsite Analysis Level: 1 / 2 / 3 dated:__________________
Flow Control (include facility
summary sheet)
Standard: _______________________________
or Exemption Number: ____________
Conveyance System Spill containment located at: _____________________________
Erosion and Sediment Control /
Construction Stormwater Pollution
Prevention
CSWPP/CESCL/ESC Site Supervisor: _____________________
Contact Phone: _________________________
After Hours Phone: _________________________
Maintenance and Operation Responsibility (circle one): Private / Public
If Private, Maintenance Log Required: Yes / No
Financial Guarantees and Liability Provided: Yes / No
Indiana Loamy Sand 5-15%Low
May Creek
1
08/23/2023
1
TBD
TBD
TBD
Duration (Forested) Flow Control
DocuSign Envelope ID: A5115E6D-5FF1-4242-8D6A-1BDF53158A96
REFERENCE 8: PLAN REVIEW FORMS AND WORKSHEET
TECHNICAL INFORMATION REPORT (TIR) WORKSHEET
6/22/2022 2022 City of Renton Surface Water Design Manual
8-A-4
Part 12 TIR SUMMARY SHEET (provide one TIR Summary Sheet
per Threshold Discharge Area)
Water Quality (include facility
summary sheet)
Type (circle one): Basic / Sens. Lake / Enhanced Basic / Bog
or Exemption No. _______________________
On-site BMPs Describe:
Special Requirements (as applicable):
Area Specific Drainage
Requirements
Type: SDO / MDP / BP / Shared Fac. / None
Name: ________________________
Floodplain/Floodway Delineation Type (circle one): Major / Minor / Exemption / None
100-year Base Flood Elevation (or range): _______________
Datum:
Flood Protection Facilities Describe:
Source Control
(commercial / industrial land use)
Describe land use:
Describe any structural controls:
Oil Control High-Use Site: Yes / No
Treatment BMP: _________________________________
Maintenance Agreement: Yes / No
with whom? _____________________________________
Other Drainage Structures
Describe:
None
Residential
None
1
On-site roof drain system, conveyed to a limited infiltration trench. Two
Type 1 CBs which connect to the COR storm system off-site.
DocuSign Envelope ID: A5115E6D-5FF1-4242-8D6A-1BDF53158A96
REFERENCE 8-A: TECHNICAL INFORMATION REPORT (TIR) WORKSHEET
TECHNICAL INFORMATION REPORT (TIR) WORKSHEET
2022 City of Renton Surface Water Design Manual 6/22/2022
Ref 8-A-5
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
Control Pollutants
Protect Existing and Proposed
BMPs/Facilities
Maintain Protective BMPs / Manage
Project
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 BMPs/Facilities, restore
operation of BMPs/Facilities as necessary
Flag limits of sensitive areas and open space
preservation areas
Other _______________________
Part 14 STORMWATER FACILITY DESCRIPTIONS (Note: Include Facility Summary and Sketch)
Flow Control Description Water Quality Description On-site BMPs Description
Detention
Infiltration
Regional
Facility
Shared
Facility
Other
_____________
_____________
_____________
_____________
_____________
_____________
_____________
_____________
_____________
_____________
_____________
Vegetated
Flowpath
Wetpool
Filtration
Oil Control
Spill Control
Other
_____________
_____________
_____________
_____________
_____________
_____________
_____________
_____________
_____________
_____________
_____________
Full Dispersion
Full Infiltration
Limited Infiltration
Rain Gardens
Bioretention
Permeable
Pavement
Basic Dispersion
Soil Amendment
Perforated Pipe
Connection
Other
_____________
_____________
_____________
_____________
_____________
_____________
_____________
_____________
_____________
_____________
_____________
5'x21' trench
DocuSign Envelope ID: A5115E6D-5FF1-4242-8D6A-1BDF53158A96
REFERENCE 8: PLAN REVIEW FORMS AND WORKSHEET
TECHNICAL INFORMATION REPORT (TIR) WORKSHEET
6/22/2022 2022 City of Renton Surface Water Design Manual
8-A-6
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
09/08/2023
DocuSign Envelope ID: A5115E6D-5FF1-4242-8D6A-1BDF53158A96
Index Avenue Townhomes Technical Information Report
09/08/2023 Page 1
I. PROJECT OVERVIEW
Project: Index Avenue Townhouses
Tax Parcel #: 722780-1935
Site Address: 1709 Index Avenue Renton, WA 98056
Site Area: 16,041 SF (0.37 AC) – As Surveyed
Zoning: R-14
Figure 2: Vicinity Map
Existing Site Conditions:
The project is located in the City of Renton on a 16,041 SF (0.37 AC) parcel zoned R-14. The site is currently
developed with a duplex residential building, with driveway access to both NE 16th St to the south and
Index Avenue to the east. Slopes on-site range from 2-15% to the west over grass lawn area. The project
is bordered by multi-family residences to the north and west, NE 16th St to the south and Index Ave NE to
the east.
Runoff leaves the site through one Natural Discharge Area (NDA) at the western limit of the site creating
a single Threshold Discharge Area (TDA) for the project. See Section III of this report for a full Offsite
Analysis and Figure 4 for a map of the existing site conditions.
Critical Areas:
Encompass has reviewed the site and the applicable resources for both listed and potential problems.
There are no known critical areas or critical area buffers located on the site.
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Index Avenue Townhomes Technical Information Report
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Soils:
Per the US Department of Agriculture (USDA), Natural Resources Conservation Service (NCRS) Web Soil
Survey information, the project site is generally underlain with Indianola Loamy Sand, 5 to 15% slopes.
Per the Geotechnical Engineering Report prepared by Riley Group, the site contains medium dense to
dense silty sand with trace gravel (Vashon till). An infiltration test was conducted, with a design rate of
2.1 in/hr determined. Limited infiltration is feasible in these soils, with a classification of loamy sand.
Figure 3: Soils Map and Legend
DocuSign Envelope ID: A5115E6D-5FF1-4242-8D6A-1BDF53158A96
INDEX AVE NENE 16TH STEX. UNIT 1EX. UNIT 2NORTH
INDEX AVENUE TOWNHOMES
1709 INDEX AVE NE
RENTON, WA 98056
REVISIONS JOB NO.
DATE
SCALE SHEET
Encompass
Eastern Washington Division
407 Swiftwater Blvd. ▪ Cle Elum, WA 98922 ▪ Phone: (509) 674-7433
Western Washington Division
165 NE Juniper Street, Suite 201 ▪ Issaquah, WA 98027 ▪ Phone: (425) 392-0250
ENGINEERING & SURVEYINGEXISTING IMPERVIOUS SURFACE:1 of 1EXISTING CONDITIONS DocuSign Envelope ID: A5115E6D-5FF1-4242-8D6A-1BDF53158A96
Index Avenue Townhomes Technical Information Report
09/08/2023 Page 4
Developed Site Conditions:
This proposal incorporates the construction of an additional duplex residential building in the southern
portion of the site. 2,409 SF of rooftop area is proposed, with 584 SF of on-site concrete driveway, as well
as 163 SF of sidewalk areas. Off-site impervious areas include 945 SF of paved alley area located within an
8-foot alley dedication area along the western limit of the site, 664 SF of sidewalk area in a 1.5-foot ROW
dedication along the east side of the site, and 93 SF of driveway area near the southwest corner of the
site. The total new/replaced impervious area is 4,859 SF.
Limited infiltration is feasible on this site, and is proposed for all new rooftop areas. The remainder of
impervious surfaces have no feasible BMPs and will sheet flow or be conveyed to the City of Renton storm
system in NE 16th St. See Section IV of this report for a full discussion of the proposed stormwater controls
and Figure 5 for a map of the developed site conditions.
DocuSign Envelope ID: A5115E6D-5FF1-4242-8D6A-1BDF53158A96
INDEX AVE NENE 16TH STEX. UNIT 1EX. UNIT 2UNIT 3UNIT 4NORTH
INDEX AVENUE TOWNHOMES
1709 INDEX AVE NE
RENTON, WA 98056
REVISIONS JOB NO.
DATE
SCALE SHEET
Encompass
Eastern Washington Division
407 Swiftwater Blvd. ▪ Cle Elum, WA 98922 ▪ Phone: (509) 674-7433
Western Washington Division
165 NE Juniper Street, Suite 201 ▪ Issaquah, WA 98027 ▪ Phone: (425) 392-0250
ENGINEERING & SURVEYING 1 of 1PROPOSED CONDITIONS ON-SITE IMPERVIOUS SURFACE:OFF-SITE IMPERVIOUS SURFACE:DocuSign Envelope ID: A5115E6D-5FF1-4242-8D6A-1BDF53158A96
Index Avenue Townhomes Technical Information Report
09/08/2023 Page 6
II. CONDITIONS AND REQUIREMENTS SUMMARY
The 2022 City of Renton Surface Water Design Manual (RSWDM) has been utilized for stormwater design
per the City of Renton requirements. The development will result in over 2,000 SF of new plus replaced
impervious surface but does not result in over 50 acres of new impervious surface within a subbasin or
multiple subbasins that are hydraulically connected. Therefore, per Figure 1.1.2.A of the RSWDM, this
project must meet the Full Drainage Review requirements as detailed in Section 1.1.2.4. See Figure 6
below for more information on how the type of drainage review was determined.
Figure 6: Drainage Review Flow Chart
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Index Avenue Townhomes Technical Information Report
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Core Requirements:
Core Requirement #1: Discharge at the Natural Location
Currently, runoff from the site follows slopes to the west towards the downslope property to the
west where it eventually enters the COR storm system on NE 16th St. Runoff from the
new/replaced impervious areas will either be infiltrated on-site or collected and conveyed to the
city storm system on NE 16th St.
Core Requirement #2: Offsite Analysis
A Level 1 Downstream analysis has been prepared and is included in Section III of this TIR.
Core Requirement #3: Flow Control Facilities
Per the COR Maps, this project site is located within the Flow Control Duration Standard, Forested
Conditions area. The new/replaced impervious areas total 4,859 SF. Therefore, the projects meets
the basic exemption from Core requirement #3, as less than 5,000 SF of new plus replaced
impervious surfaces are proposed, and less than ¾ acres of new pervious surface will be added.
Core Requirement #4: Conveyance System
The conveyance capacity of the 12” SD pipe from the on-site catch basin to the exiting catch basin
in NE 16th St has been calculated to confirm it will not be exceeded. See Section V of this TIR for
further detail.
Core Requirement #5: Construction Stormwater Pollution Prevention
A simplified Construction Stormwater Pollution Prevention Plan (CSWPPP) is included in section
VIII of this report. In addition, a corresponding Temporary Erosion and Sediment Control (TESC)
Plan is included in the civil plans.
Core Requirement #6: Maintenance and Operations
See Section X of this report for a full discussion of the maintenance and operations.
Core Requirement #7: Financial Guarantees and Liability
The owner will arrange for any financial guarantees and liabilities required by the permit.
Core Requirement #8: Water Quality Facilities
In accordance with Section 1.2.8 of the RSWDM, Water Quality Treatment is not required for this
project as new plus replaced pollution generating impervious surfaces (PGIS) do not exceed 5,000
SF, meeting exemption 1. A total of 1,622 SF of PGIS is proposed on the project.
Core Requirement #9: On-Site BMPs per Section 1.2.9.1 of the 2022 Renton SWDM
This project is smaller than 22,000 SF, and has therefore been designed to comply with the Small
Lot BMP Requirements detailed in Section 1.2.9.2.1 of the RSWDM. On-site BMPs detailed below
have been evaluated in order of preference per Section 1.2.9.2.1. The On-site BMPs for this
project have been designed per the final developed impervious surface areas. See Section IV of
this report for further discussion.
Impervious Surface BMPs per 1.2.9.2.1 Small Lot BMP Requirements
Full Dispersion: Infeasible. The site does not allow for the minimum 100-foot native vegetated
flowpath lengths required per Appendix C.2.1 of the RSWDM.
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Index Avenue Townhomes Technical Information Report
09/08/2023 Page 8
Full Infiltration: Infeasible. Per the Geotechnical Engineering Report by Riley Group, the on-site
soils match the criteria for Limited Infiltration (described below).
Limited Infiltration: Feasible. Per the Geotechnical Engineering Report by Riley Group,
soils on-site are suitable for limited infiltration with the classification of loamy sand. For rainfall
regions SeaTac 1.0 or less, a 2-foot wide gravel trench must be 21 feet in length in loamy
sand soils to mitigate 1,000 SF of impervious surface.
A 5’x21’ gravel filled trench has been designed to mitigate runoff from the 2,409 SF
of new rooftop area. A 21-foot by 2-foot trench has a surface area of 42 SF;
therefore, 42 SF of gravel infiltration trench can infiltrate up to 1,000 SF of impervious area. A
5’x21’ trench has 105 SF of surface area and therefore can infiltrate up to (105/42)x 1,000=2,500
SF of impervious area. This is larger than the 2,409 SF of tributary rooftop area.
Rain Gardens/Bioretention: Infeasible. The site layout does not allow for the implementation of
rain gardens or bioretention facilities on this project.
Permeable Pavement:
Infeasible. The current soil information in the Geotechnical Engineering Report does not meet
groundwater protection requirements. Further testing would need to be done to verify organic
matter content, cation exchange capacity, etc.
Basic Dispersion: Infeasible. The site plan does not allow for the required dispersion flowpaths
over vegetated surfaces per Appendix C.2.4 of the RSWDM.
BMPs Must be implemented, at minimum, for an impervious area equal to at least 20% of the
site/lot for site/lot sizes between 11,000 and 22,000 SF. The future lot created after subtracting
ROW dedication areas is 14,787 SF; therefore, 14,787 x 0.2= 2,957 SF of impervious area must be
mitigated by BMPs. Only 2,409 SF can be mitigated with the BMPs listed in section 1.2.9.2.1, which
is 16.3% of the future lot. This is the maximum extent feasible.
Pervious Surface BMPs
Soil Amendment: Feasible for new pervious surfaces
Retention of the existing soils and restoration of all disturbed soils shall be applied to all of the
landscaped areas both on- and off-site per Appendix C.2.13 of the RSWDM.
DocuSign Envelope ID: A5115E6D-5FF1-4242-8D6A-1BDF53158A96
Index Avenue Townhomes Technical Information Report
09/08/2023 Page 9
Special Requirements:
Special Requirement #1: Other Adopted Area-Specific Requirements
Master Drainage Plan – N/A
Basin Plan – N/A
Salmon Conservation Plan – N/A
Lake Management Plan – Lake Washington Management Plan
Hazard Mitigation Plan – N/A
Shared Facility Drainage Plan – N/A
Special Requirement #2: Flood Hazard Area Delineation
The limits of this project do not lie in the FEMA 100-year floodplain.
Special Requirement #3: Flood Protection Facilities
This special requirement is applicable for Class 1 or 2 streams with an existing flood protection
facility. The site does not contain any streams. Therefore, Special Requirement #3 is not
applicable to this project.
Special Requirement #4: Source controls
Source control is not required for this project.
Special Requirement #5: Oil Control
This project is not considered high-use in need of oil control.
Special Requirement #6: Aquifer Protection Area
Per COR Maps, the project is not located within an Aquifer Protection Area Zone.
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III. OFFSITE ANALYSIS
Task 1: Study Area Definition and Maps
A Level 1 Offsite Analysis has been performed for the project site per Section 2.3.1.1 of the RSWDM. The
site is located in the May Creek Drainage Basin, within the Cedar River Watershed. Existing structures on
the site consist of a duplex residential building, with driveway access to both NE 16th St to the south and
Index Avenue to the east. Slopes on-site range from 2-15% to the west over grass lawn area. The project
is bordered by multi-family residences to the north and west, NE 16th St to the south and Index Ave NE to
the east. The study area for this analysis extends downstream of the project site for approximately one
quarter mile and includes no upstream offsite drainage area tributary to the project site. Stormwater
leaves the site in one NDA, creating a single TDA for the project. A map showing the study area is included
in Figure 9.
Task 2: Resource Review
Encompass has reviewed the site and the applicable resources for both listed and potential problems.
There are no known critical areas or buffers on the site per the City of Renton maps, FEMA maps, King
County Sensitive Areas Folio, CED Wetlands Inventory, or the Washington State DOE Section 303d list.
Task 3: Field Inspection
A Level 1 Downstream Analysis was performed by Encompass Engineering and Surveying on Wednesday,
August 8, 2023. The analysis was performed at approximately 12:00 PM with a temperature of about 65°.
Information collected during this study is included in the Task 4 system description.
Task 4: Drainage System Description and Problem Descriptions
Stormwater from the site sheet flows to the west where it enters the downslope residential properties
lawn area (A) and continues over gentle slopes to the west towards the paved Harrington Ave NE
roadway. Stormwater flows to the south along the east side of Harrington Ave NE along a raised asphalt
edge (B) and enters a Type 1 CB (C) at the intersection of Harrington Ave NE and NE 16th St. This
roadway is very flat and has the potential for ponding. From here, stormwater enters the City of Renton
Storm System and flows to the southwest in an 8” concrete pipe, passing through a series of Type 1 & 2
CBs (D) along the north side of NE 16th St. At the intersection of NE 16th St and Edmonds Ave NE,
stormwater passes through two Type 2 CBs and continues south along the east side of Edmonds Ave NE
in a 12-inch concrete pipe. This is where the downstream analysis was concluded at approximately ¼
mile downstream of the site.
Task 5: Mitigation of Existing or Potential Problems
Both King County iMap and the City of Renton GIS Maps show no drainage complaints relevant to the
project or the downstream drainage paths within the study limits. No existing or potential problems were
observed within the site or downstream area during the field reconnaissance.
DocuSign Envelope ID: A5115E6D-5FF1-4242-8D6A-1BDF53158A96
Index Avenue Townhomes Technical Information Report
09/08/2023 Page 11
Figure 9: Downstream Map
DocuSign Envelope ID: A5115E6D-5FF1-4242-8D6A-1BDF53158A96
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OFFSITE ANALYSIS DRAINAGE SYSTEM TABLE
BASIN: May Creek SUBBASIN NAME: SUBBASIN NUMBER:
SYMBOL
DRAINAGE
COMPONENT
TYPE, NAME,
AND SIZE
DRAINAGE
COMPONENT
DESCRIPTION
SLOPE
DISTANCE
FROM SITE
DISCHARGE
EXISTING
PROBLEMS
POTENTIAL
PROBLEMS
OBSERVATIONS
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
% 1/4 Mile =
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
A SHEET FLOW GRASS LAWN 5% POINT OF
DISCHARGE NONE
IMPACT TO
DOWNSLOPE
STRUCTURES
B CONCENTRATED
FLOW
RAISED
ASPHALT
EDGE
0-1% 150’ PONDING PONDING
C CATCH BASIN TYPE 1 N/A 550' NONE NONE 8” CONC PIPE
D CATCH BASIN TYPE 2 N/A 240’ NONE NONE 12” CONC PIPE
E CATCH BASIN TYPE 2 N/A 480' NONE NONE 12” CONC PIPE
F CATCH BASIN TYPE 1 N/A 1200’ NONE NONE 12” CONC PIPE
Table 1: Downstream Table
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Element A: Sheet flow to the west over lawn areas
Element B: Raised asphalt edge on Harrington Ave NE
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Element C: Type 1 CB on NE 16th St
Element E: Type 1 CB on Edmonds Ave NE
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IV. FLOW CONTROL, LOW IMPACT DEVELOPMENT (LID) AND WATER QUALITY
FACILITY ANALYSIS AND DESIGN
Part A: Existing Site Hydrology
The site is located in the May Creek Drainage Basin, within the Cedar River Watershed. Existing structures
on the site consist of a duplex residential building with two separate driveways connecting to NE 16th St
and Index Avenue NE. The remainder of the site is grass lawn area which slopes towards the west at slopes
of 2-15%. Stormwater leaves the site via sheet flow towards the downslope properties to the west.
Per the US Department of Agriculture (USDA), Natural Resources Conservation Service (NCRS) Web Soil
Survey information, the project site is generally underlain with Indianola Loamy Sand, 5 to 15% slopes.
Per the Geotechnical Engineering Report prepared by Riley Group, the site contains medium dense to
dense silty sand with trace gravel (Vashon till). An infiltration test was conducted, with a design rate of
2.1 in/hr determined. Limited infiltration is feasible in these soils, with a classification of loamy sand.
Part B: Developed Site Hydrology
This proposal incorporates the construction of a new 2,409 SF duplex residential building. A 584 SF
concrete driveway will connect to the existing paved driveway with access to NE 16th St. Additionally, a 6-
foot paved alley will be installed along the western limit of the site within an 8-fot alley dedication. The
frontage along Index Ave NE will also be improved to construct new curb/gutter, planter strip and sidewalk
within a 1.5’ ROW dedication. Runoff from new rooftop areas will be conveyed to a gravel-filled limited
infiltration trench located to the south of the new building. Two new catch basins will be installed in the
paved alley to prevent runoff from the site impacting downstream properties. This stormwater will tie
into the existing catch basin in NE 16th St near the southwest corner of the site.
Part C: Performance Standards
This project site is located within the “Duration Flow Control Standard (Forested Condition)” area,
however meets the basic exemption from Core requirement #3, as less than 5,000 SF of new plus replaced
impervious surfaces are proposed, and less than ¾ acres of new pervious surface will be added. In
addition, this site has been designed to comply with the Small Lot BMP Requirements detailed in Section
1.2.9.2.1 of the RSWDM. On-site BMPs per Section 1.2.9.1 of the 2022 RSWDM have been considered in
order of preference as prescribed by the Small Lot BMP Requirements and are detailed in Core
Requirement #9 in Section II of this report.
This project proposes the creation of less than 5,000 SF of new PGIS; therefore, this project meets
Exemption 1 and water quality treatment is not required per Section 1.2.8.1 of the RSWDM.
Part D: Flow Control System
Flow control facilities are not required on this project as it meets the basic exemption from Core
requirement #3. Instead, on-site BMPs per Section 1.2.9.1 of the 2022 RSWDM have been considered in
order of preference as prescribed by the Small Lot BMP Requirements and are detailed in Core
Requirement #9 in Section II of this report.
Part E: Water Quality System
In accordance with Section 1.2.8 of the RSWDM, Water Quality Treatment is not required for this project
as new plus replaced pollution generating impervious surfaces (PGIS) do not exceed 5,000 SF, meeting
exemption 1.
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V. CONVEYANCE SYSTEM ANALYSIS AND DESIGN
The conveyance capacity of the 12” SD pipe from the on-site catch basin to the exiting catch basin in NE
16th Street was calculated using a Manning’s Equation calculator. A 12” pipe at 0.5% slope can convey 3.20
CFS (See below). The 25-year storm from the proposed impervious areas generates 0.0586 CFS of runoff.
This does not exceed the capacity of the proposed pipe.
VI. SPECIAL REPORTS AND STUDIES
Geotechnical Engineering Report by Riley Group, Inc. dated February 2, 2023
VII. OTHER PERMITS
A R.O.W. Permit, and a Clearing and Grading Permit will be required.
VIII. CSWPPP ANALYSIS AND DESIGN
1. Preserve Vegetation/Mark Clearing Limits
a. The clearing limits are shown on the TESC plans surrounding all proposed construction
activity. High visibility orange fencing is shown around the perimeter of the site.
b. Retain the duff layer, native top soil and natural vegetation in an undisturbed state to the
maximum degree practicable.
2. Establish Construction Access
a. A stabilized construction entrance is shown for the project off NE 16th St on the south side of
the project site.
b. If sediment is tracked off site, the affected roadways are to be cleaned thoroughly at the end
of each day.
3. Control Sediment
a. Silt fence will also be utilized to control sediment and protect adjacent properties.
4. Install Sediment Controls
a. Silt fence will be installed around the downslope perimeter of the site during the initial phase
of construction.
5. Stabilize Soils
a. Stabilize expose and unworked soils. Soils must not remain exposed and unworked for more
than the time periods set forth below to prevent erosion:
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• During the dry season (May 1 – September 30): 7 days
• During the wet season (October 1 – April 30): 2 days
• Stabilize soils at the end of the shift before a holiday or weekend if needed based
on the weather forecast.
b. Stockpiled soils to be covered with plastic.
c. All disturbed areas shall be stabilized with landscaping or some other method prior to final
construction approval.
6. Protect Slopes
a. Design and construct cut-and-fill slopes in a manner to minimize erosion.
7. Protect Drain Inlets
a. Drain inlets on the site and on Shattuck Ave S will equipped with inlet protection devices in
the initial stages of construction.
b. Clean or remove and replace inlet protection devices when sediment has filled one third of
the available storage.
8. Stabilize Channels and Outlets
a. No channels or outlets are proposed.
9. Control Pollutants
a. Design, install, implement and maintain effective pollution prevention measures to minimize
the discharge of pollutants.
b. Handle and dispose all pollutants, including waste materials and demolition debris that occur
on-site in a manner that does not cause contamination of stormwater.
c. Provide cover, containment, and protection from vandalism for all chemicals, liquid products,
petroleum products, and other materials that have the potential to pose a threat to human
health or the environment. On-site fueling tanks must include secondary containment.
Secondary containment means placing tanks or containers within an impervious structure
capable of containing 110% of the volume contained in the largest tank within the
containment structure. Double-walled tanks do not require additional secondary
containment.
d. Conduct maintenance, fueling and repair of heavy equipment and vehicles using spill
prevention and control measures. Clean contaminated surfaces immediately following any
spill incident.
e. Discharge wheel wash or tire bath wastewater to a separate on-site treatment system that
prevents discharge to surface water, such as closed-loop recirculation or upland application,
or to the sanitary sewer, with local sewer district approval.
f. Apply fertilizers and pesticides in a manner and at application rates that will not result in loss
of chemical to stormwater runoff. Follow manufacturers’ label requirements for application
rates and procedures.
g. Use BMPs to prevent contamination of stormwater runoff by pH modifying sources. The
sources for this contamination include, but are not limited to: bulk cement, cement kiln dust,
fly ash, new concrete washing and curing waters, waste streams generated from concrete
grinding and sawing, exposed aggregate processes, dewatering concrete vaults, concrete
pumping and mixer washout waters.
h. Adjust the pH of stormwater if necessary to prevent violations of water quality standards.
i. Assure that washout of concrete trucks is performed off-site or in designated concrete
washout areas only. Do not wash out concrete trucks onto the ground, or into storm drains,
open ditches, streets, or streams. Do not dump excess concrete on-site, except in designated
concrete washout areas. Concrete spillage or concrete discharge to surface waters of the
State is prohibited.
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j. Obtain written approval from Ecology before using chemical treatment other than CO2 or dry
ice to adjust pH.
10. Control Dewatering
a. Dewatering is not anticipated at this site.
11. Maintain BMPs
a. Maintain and repair all temporary and permanent erosion and sediment control BMPs as
needed to assure continued performance of their intended function in accordance with BMP
specifications.
b. Remove all temporary erosion and sediment control BMPs within 30 days after achieving final
site stabilization or after the temporary BMPs are no longer needed. All disturbed areas shall
be stabilized with landscaping or some other method prior to final construction approval.
12. Manage the Project
a. Maintain an updated SWPPP
13. Protect Low Impact Development BMPs.
a. Porous pavement used in walkways and driveway areas will be poured after site is stabilized.
Any excess debris or sediment tracked onto the pavement will be washed and/or vacuumed.
Follow operation and maintenance procedures laid out in Appendix C.
b. Perforated pipe connections will be covered with filter fabric immediately after pipe is
backfilled with washed rock to prevent sediment from entering the system.
IX. BOND QUANTITIES AND DECLARATION OF COVENANT
A Declaration of Covenant for stormwater BMPs is provided in Appendix D. A Bond Quantities Worksheet
has been provided in a separate document.
X. OPERATION AND MAINTENANCE MANUAL
An Operation and Maintenance Manual has been prepared for the site and is included in Appendix C of
this Report.
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Appendix A
Geotechnical Engineering Report by Riley Group, Inc. dated February 2, 2023
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Corporate Office
17522 Bothell Way Northeast
Bothell, Washington 98011
Phone 425.415.0551 ♦ Fax 425.415.0311
www.riley-group.com
GEOTECHNICAL ENGINEERING REPORT
PREPARED BY:
THE RILEY GROUP, INC.
17522 BOTHELL WAY NORTHEAST
BOTHELL, WASHINGTON 98011
PREPARED FOR:
MIKE ELLIOTT
10034 SOUTHEAST 218TH PLACE
KENT, WASHINGTON 98031
RGI PROJECT NO. 2022-728-1
INDEX TOWNHOMES RENTON
1711 INDEX AVENUE NORTHEAST
RENTON, WASHINGTON
FEBRUARY 2, 2023
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Geotechnical Engineering Report i February 2, 2023
1711 Index Avenue Northeast, Renton, Washington RGI Project No. 2022-728-1
TABLE OF CONTENTS
1.0 INTRODUCTION ............................................................................................................................... 1
2.0 PROJECT DESCRIPTION ............................................................................................................... 1
3.0 FIELD EXPLORATION AND LABORATORY TESTING .......................................................... 1
3.1 FIELD EXPLORATION ................................................................................................................................... 1
3.2 LABORATORY TESTING ................................................................................................................................ 2
4.0 SITE CONDITIONS ........................................................................................................................... 2
4.1 SURFACE .................................................................................................................................................. 2
4.2 GEOLOGY ................................................................................................................................................. 2
4.3 SOILS ....................................................................................................................................................... 2
4.4 GROUNDWATER ........................................................................................................................................ 2
4.5 SEISMIC CONSIDERATIONS ........................................................................................................................... 3
4.6 GEOLOGIC HAZARD AREAS .......................................................................................................................... 4
5.0 DISCUSSION AND RECOMMENDATIONS ................................................................................. 4
5.1 GEOTECHNICAL CONSIDERATIONS ................................................................................................................. 4
5.2 EARTHWORK ............................................................................................................................................. 4
5.2.1 Erosion and Sediment Control ..................................................................................................... 4
5.2.2 Stripping and Subgrade Preparation ............................................................................................ 5
5.2.3 Excavations................................................................................................................................... 5
5.2.4 Structural Fill ................................................................................................................................ 6
5.2.5 Wet Weather Construction Considerations ................................................................................. 7
5.3 FOUNDATIONS .......................................................................................................................................... 7
5.4 RETAINING WALLS ..................................................................................................................................... 8
5.5 SLAB-ON-GRADE CONSTRUCTION ................................................................................................................. 9
5.6 DRAINAGE ................................................................................................................................................ 9
5.6.1 Surface ......................................................................................................................................... 9
5.6.2 Subsurface .................................................................................................................................... 9
5.6.3 Infiltration .................................................................................................................................... 9
5.7 UTILITIES ................................................................................................................................................ 10
6.0 ADDITIONAL SERVICES .............................................................................................................. 10
7.0 LIMITATIONS ................................................................................................................................. 11
LIST OF FIGURES AND APPENDICES
Figure 1 ..................................................................................................................... Site Vicinity Map
Figure 2 ............................................................................................... Geotechnical Exploration Plan
Figure 3 ............................................................................................... Retaining Wall Drainage Detail
Figure 4 ....................................................................................................Typical Footing Drain Detail
Appendix A .......................................................................... Field Exploration and Laboratory Testing
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Executive Summary
This Executive Summary should be used in conjunction with the entire Geotechnical
Engineering Report (GER) for design and/or construction purposes. It should be recognized
that specific details were not included or fully developed in this section, and the GER must
be read in its entirety for a comprehensive understanding of the items contained herein.
Section 7.0 should be read for an understanding of limitations.
RGI’s geotechnical scope of work included the advancement of 2 test pits to approximate
depths of 7 feet below existing site grades.
Based on the information obtained from our subsurface exploration, the site is suitable for
development of the proposed project. The following geotechnical considerations were
identified:
Soil Conditions: The soils encountered during field exploration include medium dense to
dense silty sand with trace gravel.
Groundwater: No groundwater seepage was encountered during our subsurface
exploration.
Foundations: Foundations for the proposed building may be supported on conventional
spread footings bearing on medium dense to dense native soil or structural fill.
Slab-on-grade: Slab-on-grade floors and slabs for the proposed building can be supported
on medium dense to dense native soil or structural fill.
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1.0 Introduction
This Geotechnical Engineering Report (GER) presents the results of the geotechnical
engineering services provided for the Index Townhomes Renton in Renton, Washington.
The purpose of this evaluation is to assess subsurface conditions and provide geotechnical
recommendations for the construction of two townhomes. Our scope of services included
field explorations, laboratory testing, engineering analyses, and preparation of this GER.
The recommendations in the following sections of this GER are based upon our current
understanding of the proposed site development as outlined below. If actual features vary
or changes are made, RGI should review them in order to modify our recommendations as
required. In addition, RGI requests to review the site grading plan, final design drawings
and specifications when available to verify that our project understanding is correct and
that our recommendations have been properly interpreted and incorporated into the
project design and construction.
2.0 Project description
The project site is located at 1711 Index Avenue Northeast in Renton, Washington. The
approximate location of the site is shown on Figure 1.
The site is currently a duplex surrounded by a yard and landscaping. RGI understands that
two townhomes will be constructed on the site in the front yard area.
At the time of preparing this GER, building plans were not available for our review. Based
on our experience with similar construction, RGI anticipates that the proposed building will
be supported on perimeter walls with bearing loads of two to six kips per linear foot. Slab-
on-grade floor loading of 150 pounds per square foot (psf) are expected.
3.0 Field Exploration and Laboratory Testing
3.1 FIELD EXPLORATION
On January 11, 2023, RGI observed the excavation of 2 test pits. The approximate
exploration locations are shown on Figure 2.
Field logs of each exploration were prepared by the geologist that continuously observed
the excavation. These logs included visual classifications of the materials encountered
during exploration as well as our interpretation of the subsurface conditions between
samples. The test pit logs included in Appendix A represent an interpretation of the field
logs and include modifications based on laboratory observation and analysis of the
samples.
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3.2 LABORATORY TESTING
During the field exploration, a representative portion of each recovered sample was sealed
in containers and transported to our laboratory for further visual and laboratory
examination. Selected samples retrieved from the test pits were tested for moisture
content and grain size analysis to aid in soil classification and provide input for the
recommendations provided in this GER. The results and descriptions of the laboratory tests
are enclosed in Appendix A.
4.0 Site Conditions
4.1 SURFACE
The subject site is a roughly rectangular-shaped parcel of land approximately 0.37 acres in
size. The site is bound to the north and west by residential lots, to the east by Index Avenue
Northeast, and to the south by Northeast 16th Street.
The existing site is a duplex surrounded by yards with a few trees and other vegetation. The
site is relatively flat with an overall elevation difference less than 10 feet.
4.2 GEOLOGY
Review of the Geologic Map of Surficial Deposits in the Seattle 30’ by 60’ Quadrangle,
Washington, by James C. Yount, et al. (1993) indicates that the soil in the project vicinity is
mapped as Vashon till (Qt), which is light to dark gray, nonsorted, nonstratified mixture of
clay, silt, sand, and gravel. These descriptions are generally similar to the findings in our
field explorations.
4.3 SOILS
The soils encountered during field exploration include medium dense to dense silty sand
with trace gravel (Vashon till).
More detailed descriptions of the subsurface conditions encountered are presented in the
test pits included in Appendix A. Sieve analysis was performed on two selected soil samples.
Grain size distribution curves are included in Appendix A.
4.4 GROUNDWATER
No groundwater seepage was encountered during our subsurface exploration.
It should be recognized that fluctuations of the groundwater table will occur due to
seasonal variations in the amount of rainfall, runoff, and other factors not evident at the
time the explorations were performed. In addition, perched water can develop within
seams and layers contained in fill soils or higher permeability soils overlying less permeable
soils following periods of heavy or prolonged precipitation. Therefore, groundwater levels
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during construction or at other times in the future may be higher or lower than the levels
indicated on the logs. Groundwater level fluctuations should be considered when
developing the design and construction plans for the project.
4.5 SEISMIC CONSIDERATIONS
Based on the International Building Code (IBC), RGI recommends the follow seismic
parameters for design.
Table 1 IBC
Parameter 2018 Value
Site Soil Class1 D2
Site Latitude 47.5075499
Site Longitude -122.1824853
Short Period Spectral Response Acceleration, SS (g) 1.429
1-Second Period Spectral Response Acceleration, S1 (g) 0.49
Adjusted Short Period Spectral Response Acceleration, SMS (g) 1.429
Adjusted 1-Sec Period Spectral Response Acceleration, SM1 (g) 0.8863
Numeric seismic design value at 0.2 second; SDS(g) 0.953
Numeric seismic design value at 1.0 second; SD1(g) 0.5913
1. Note: In general accordance with Chapter 20 of ASCE 7-16. The Site Class is based on the average characteristics of the upper 100 feet
of the subsurface profile.
2. Note: ASCE 7-16 require a site soil profile determination extending to a depth of 100 feet for seismic site classification. The current
scope of our services does not include the required 100 foot soil profile determination. Test pits extended to a maximum depth of 7 feet,
and this seismic site class definition considers that similar soil continues below the maximum depth of the subsurface exploration.
Additional exploration to deeper depths would be required to confirm the conditions below the current depth of exploration.
3. Note: In accordance with ASCE 11.4.8, a ground motion hazard analysis is not required for the following cases:
• Structures on Site Class E sites with SS greater than or equal to 1.0, provided the site coefficient Fa is taken as equal to that of
Site Class C.
• Structures on Site Class D sites with S1 greater than or equal to 0.2, provided that the value of the seismic response coefficient
Cs is determined by Eq. 12.8-2 for values of T ≤ 1.5Ts and taken as equal to 1.5 times the value computed in accordance with
either Eq. 12.8-3 for TL ≥ T > 1.5Ts or Eq. 12.8-4 for T > TL.
• Structures on Site Class E sites with S1 greater than or equal to 0.2, provided that T is less than or equal to Ts and the equivalent
static force procedure is used for design.
The above exceptions do not apply to seismically isolated structures, structures with damping systems or structures designed using the
response history procedures of Chapter 16.
Liquefaction is a phenomenon where there is a reduction or complete loss of soil strength
due to an increase in water pressure induced by vibrations from a seismic event.
Liquefaction mainly affects geologically recent deposits of fine-grained sands that are
below the groundwater table. Soils of this nature derive their strength from intergranular
friction. The generated water pressure or pore pressure essentially separates the soil grains
and eliminates this intergranular friction, thus reducing or eliminating the soil’s strength.
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RGI reviewed the results of the field and laboratory testing and assessed the potential for
liquefaction of the site’s soil during an earthquake. Since the site is underlain by glacial till,
RGI considers that the possibility of liquefaction during an earthquake is minimal.
4.6 GEOLOGIC HAZARD AREAS
Regulated geologically hazardous areas include erosion, landslide, earthquake, or other
geological hazards. Based on the King County iMap and the City of Renton sensitive areas
map, the site does not contain geologically hazardous areas.
5.0 Discussion and Recommendations
5.1 GEOTECHNICAL CONSIDERATIONS
Based on our study, the site is suitable for the proposed construction from a geotechnical
standpoint. Foundations for the proposed building can be supported on conventional
spread footings bearing on competent native soil or structural fill. Slab-on-grade floors can
be similarly supported.
Detailed recommendations regarding the above issues and other geotechnical design
considerations are provided in the following sections. These recommendations should be
incorporated into the final design drawings and construction specifications.
5.2 EARTHWORK
The earthwork is expected to include excavating and backfilling the building foundations
and preparing slab subgrades.
5.2.1 EROSION AND SEDIMENT CONTROL
Potential sources or causes of erosion and sedimentation depend on construction
methods, slope length and gradient, amount of soil exposed and/or disturbed, soil type,
construction sequencing and weather. The impacts on erosion-prone areas can be reduced
by implementing an erosion and sedimentation control plan. The plan should be designed
in accordance with applicable city and/or county standards.
RGI recommends the following erosion control Best Management Practices (BMPs):
Scheduling site preparation and grading for the drier summer and early fall months
and undertaking activities that expose soil during periods of little or no rainfall
Retaining existing vegetation whenever feasible
Establishing a quarry spall construction entrance
Installing siltation control fencing or anchored straw or coir wattles on the downhill
side of work areas
Covering soil stockpiles with anchored plastic sheeting
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Revegetating or mulching exposed soils with a minimum 3-inch thickness of straw
if surfaces will be left undisturbed for more than one day during wet weather or
one week in dry weather
Directing runoff away from exposed soils and slopes
Minimizing the length and steepness of slopes with exposed soils and cover
excavation surfaces with anchored plastic sheeting
Decreasing runoff velocities with check dams, straw bales or coir wattles
Confining sediment to the project site
Inspecting and maintaining erosion and sediment control measures frequently (The
contractor should be aware that inspection and maintenance of erosion control
BMPs is critical toward their satisfactory performance. Repair and/or replacement
of dysfunctional erosion control elements should be anticipated.)
Permanent erosion protection should be provided by reestablishing vegetation using
hydroseeding and/or landscape planting. Until the permanent erosion protection is
established, site monitoring should be performed by qualified personnel to evaluate the
effectiveness of the erosion control measures. Provisions for modifications to the erosion
control system based on monitoring observations should be included in the erosion and
sedimentation control plan.
5.2.2 STRIPPING AND SUBGRADE PREPARATION
Stripping efforts should include removal of pavements, vegetation, organic materials, and
deleterious debris from areas slated for building, pavement, and utility construction. The
test pits encountered 6 inches of topsoil and rootmass during exploration. However,
deeper areas of stripping may be required in heavily vegetated areas of the site.
Subgrade soils that become disturbed due to elevated moisture conditions should be
overexcavated to reveal firm, non-yielding, non-organic soils and backfilled with
compacted structural fill. In order to maximize utilization of site soils as structural fill, RGI
recommends that the earthwork portion of this project be completed during extended
periods of warm and dry weather if possible. If earthwork is completed during the wet
season (typically November through May) it will be necessary to take extra precautionary
measures to protect subgrade soils. Wet season earthwork will require additional
mitigative measures beyond that which would be expected during the drier summer and
fall months.
5.2.3 EXCAVATIONS
All temporary cut slopes associated with the site and utility excavations should be
adequately inclined to prevent sloughing and collapse. The site soils consist of medium
dense to dense silty sand with trace gravel.
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Accordingly, for excavations more than 4 feet but less than 20 feet in depth, the temporary
side slopes should be laid back with a minimum slope inclination of 1H:1V
(Horizontal:Vertical). If there is insufficient room to complete the excavations in this
manner, or excavations greater than 20 feet in depth are planned, using temporary shoring
to support the excavations should be considered. For open cuts at the site, RGI
recommends:
No traffic, construction equipment, stockpiles or building supplies are allowed at
the top of cut slopes within a distance of at least five feet from the top of the cut
Exposed soil along the slope is protected from surface erosion using waterproof
tarps and/or plastic sheeting
Construction activities are scheduled so that the length of time the temporary cut
is left open is minimized
Surface water is diverted away from the excavation
The general condition of slopes should be observed periodically by a geotechnical
engineer to confirm adequate stability and erosion control measures
In all cases, however, appropriate inclinations will depend on the actual soil and
groundwater conditions encountered during earthwork. Ultimately, the site contractor
must be responsible for maintaining safe excavation slopes that comply with applicable
OSHA or WISHA guidelines.
5.2.4 STRUCTURAL FILL
RGI recommends fill below the foundation and floor slab, behind retaining walls, and below
pavement and hardscape surfaces be placed in accordance with the following
recommendations for structural fill. The structural fill should be placed after completion of
site preparation procedures as described above.
The suitability of excavated site soils and import soils for compacted structural fill use will
depend on the gradation and moisture content of the soil when it is placed. As the amount
of fines (that portion passing the U.S. No. 200 sieve) increases, soil becomes increasingly
sensitive to small changes in moisture content and adequate compaction becomes more
difficult or impossible to achieve. Soils containing more than about 5 percent fines cannot
be consistently compacted to a dense, non-yielding condition when the moisture content
is more than 2 percent above or below optimum. Optimum moisture content is that
moisture that results in the greatest compacted dry density with a specified compactive
effort.
Non-organic site soils are only considered suitable for structural fill provided that their
moisture content is within about two percent of the optimum moisture level as determined
by American Society of Testing and Materials D1557-09 Standard Test Methods for
Laboratory Compaction Characteristics of Soil Using Modified Effort (ASTM D1557).
Excavated site soils may not be suitable for re-use as structural fill depending on the
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Geotechnical Engineering Report 7 February 2, 2023
1711 Index Avenue Northeast, Renton, Washington RGI Project No. 2022-728-1
moisture content and weather conditions at the time of construction. If soils are stockpiled
for future reuse and wet weather is anticipated, the stockpile should be protected with
plastic sheeting that is securely anchored. Even during dry weather, moisture conditioning
(such as, windrowing and drying) of site soils to be reused as structural fill may be required.
The site soils are moisture sensitive and may require moisture conditioning prior to use as
structural fill. If on-site soils are or become unusable, it may become necessary to import
suitable soils for structural fill.
Prior to use, an RGI representative should observe and test all materials imported to the
site for use as structural fill. Structural fill materials should be placed in uniform loose layers
not exceeding 12 inches and compacted to 95 percent of the maximum dry density. The
soil’s maximum density and optimum moisture should be determined by ASTM D1557.
Placement and compaction of structural fill should be observed by RGI.
5.2.5 WET WEATHER CONSTRUCTION CONSIDERATIONS
RGI recommends that preparation for site grading and construction include procedures
intended to drain ponded water, control surface water runoff, and to collect shallow
subsurface seepage zones in excavations where encountered. It will not be possible to
successfully compact the subgrade or utilize on-site soils as structural fill if accumulated
water is not drained prior to grading or if drainage is not controlled during construction.
Attempting to grade the site without adequate drainage control measures will reduce the
amount of on-site soil effectively available for use, increase the amount of select import fill
materials required, and ultimately increase the cost of the earthwork phases of the project.
Free water should not be allowed to pond on the subgrade soils. RGI anticipates that the
use of berms and shallow drainage ditches, with sumps and pumps in utility trenches, will
be required for surface water control during wet weather and/or wet site conditions.
5.3 FOUNDATIONS
Following site preparation and grading, the proposed building foundation can be supported
on conventional spread footings bearing on competent native soil or structural fill. Loose,
organic, or other unsuitable soils may be encountered in the proposed building footprint.
If unsuitable soils are encountered, they should be overexcavated and backfilled with
structural fill. If loose soils are encountered, the soils should be moisture conditioned and
compacted to a firm and unyielding condition.
Perimeter foundations exposed to weather should be at a minimum depth of 18 inches
below final exterior grades. Interior foundations can be constructed at any convenient
depth below the floor slab. Finished grade is defined as the lowest adjacent grade within 5
feet of the foundation for perimeter (or exterior) footings and finished floor level for
interior footings.
DocuSign Envelope ID: A5115E6D-5FF1-4242-8D6A-1BDF53158A96
Geotechnical Engineering Report 8 February 2, 2023
1711 Index Avenue Northeast, Renton, Washington RGI Project No. 2022-728-1
Table 2 Foundation Design
Design Parameter Value
Allowable Bearing Capacity 2,000 psf1
Friction Coefficient 0.30
Passive pressure (equivalent fluid pressure) 250 pcf2
1. psf = pounds per square foot
2. pcf = pounds per cubic foot
The allowable foundation bearing pressures apply to dead loads plus design live load
conditions. For short-term loads, such as wind and seismic, a 1/3 increase in this allowable
capacity may be used. At perimeter locations, RGI recommends not including the upper 12
inches of soil in the computation of passive pressures because they can be affected by
weather or disturbed by future grading activity. The passive pressure value assumes the
foundation will be constructed neat against competent soil or backfilled with structural fill
as described in Section 5.2.4. The recommended base friction and passive resistance value
includes a safety factor of about 1.5.
With spread footing foundations designed in accordance with the recommendations in this
section, maximum total and differential post-construction settlements of 1 inch and 1/2
inch, respectively, should be expected.
5.4 RETAINING WALLS
If retaining walls are needed for the buildings, RGI recommends cast-in-place concrete
walls be used. Modular block walls may be used for grade changes in other areas.
The magnitude of earth pressure development on cast-in-place retaining walls will partly
depend on the quality of the wall backfill. RGI recommends placing and compacting wall
backfill as structural fill. Wall drainage will be needed behind the wall face. A typical
retaining wall drainage detail is shown in Figure 3.
With wall backfill placed and compacted as recommended, level backfill and drainage
properly installed, RGI recommends using the values in the following table for design.
Table 3 Retaining Wall Design
Design Parameter Value
Active Earth Pressure (unrestrained walls) 35 pcf
At-rest Earth Pressure (restrained walls) 50 pcf
DocuSign Envelope ID: A5115E6D-5FF1-4242-8D6A-1BDF53158A96
Geotechnical Engineering Report 9 February 2, 2023
1711 Index Avenue Northeast, Renton, Washington RGI Project No. 2022-728-1
For seismic design, an additional uniform load of 7 times the wall height (H) for
unrestrained walls and 14H in psf for restrained walls should be applied to the wall surface.
Friction at the base of foundations and passive earth pressure will provide resistance to
these lateral loads. Values for these parameters are provided in Section 5.3.
5.5 SLAB-ON-GRADE CONSTRUCTION
RGI recommends that the concrete slab be placed on top of medium dense native soil or
structural fill. Immediately below the floor slab, RGI recommends placing a four-inch thick
capillary break layer of clean, free-draining sand or gravel that has less than five percent
passing the U.S. No. 200 sieve. This material will reduce the potential for upward capillary
movement of water through the underlying soil and subsequent wetting of the floor slab.
Where moisture by vapor transmission is undesirable, an 8- to 10-millimeter thick plastic
membrane should be placed on a 4-inch thick layer of clean gravel. For the anticipated floor
slab loading, we estimate post-construction floor settlements of 1/4- to 1/2-inch.
5.6 DRAINAGE
5.6.1 SURFACE
Final exterior grades should promote free and positive drainage away from the building
area. Water must not be allowed to pond or collect adjacent to foundations or within the
immediate building area. For non-pavement locations, RGI recommends providing a
minimum drainage gradient of 3 percent for a minimum distance of 10 feet from the
building perimeter. In paved locations, a minimum gradient of 1 percent should be
provided unless provisions are included for collection and disposal of surface water
adjacent to the structure.
5.6.2 SUBSURFACE
RGI recommends installing perimeter foundation drains. A typical footing drain detail is
shown on Figure 4. The foundation drains and roof downspouts should be tightlined
separately to an approved discharge facility. Subsurface drains must be laid with a gradient
sufficient to promote positive flow to a controlled point of approved discharge.
5.6.3 INFILTRATION
RGI understands that an infiltration system is being considered for the on-site disposal of
storm water run-off. Field infiltration test INF-1, was placed in the southwest portion of the
site. The small-scale Pilot Infiltration Test (PIT) was completed at a depth of approximately
3.5 feet below grade and measured 2 feet by 6 feet. The infiltration test was conducted in
accordance with the 2017 City of Renton Surface Water Design Manual.
DocuSign Envelope ID: A5115E6D-5FF1-4242-8D6A-1BDF53158A96
Geotechnical Engineering Report 10 February 2, 2023
1711 Index Avenue Northeast, Renton, Washington RGI Project No. 2022-728-1
Table 4 Measured Infiltration Rates
Test Location Test Depth Measured Rate Design Rate
INF-1 3.5 feet 5.3 inches/hour 2.1 inches/hour
A Total Correction Factor was applied to the field measured infiltration rate.
Idesign = Imeasured X Ftesting X Fgeometry X Fplugging
Ftesting = 0.5 (Small-scale PIT)
Fgeometry = assumed 1 (may be adjusted based on actual infiltration facility dimensions)
Fplugging = 0.8 (fine sands and loamy sands)
Idesign = 5.3 inches/hour X 0.5 X 1 X 0.8 = 0.24 inches/hour
Site soils fall under the criteria for Limited Infiltration in Appendix C.2.3. Based on the loamy
sand soil classification gravel filled trenches should be 21 feet in length for every 1,000
aquare feet of tributary impervious area. Drywells should have 315 cubic feet of gravel for
every 1,000 square feet of tributary impervious area.
5.7 UTILITIES
Utility pipes should be bedded and backfilled in accordance with American Public Works
Association (APWA) specifications. For site utilities located within the right-of-ways,
bedding and backfill should be completed in accordance with City of Renton specifications.
At a minimum, trench backfill should be placed and compacted as structural fill, as
described in Section 5.2.4. Where utilities occur below unimproved areas, the degree of
compaction can be reduced to a minimum of 90 percent of the soil’s maximum density as
determined by the referenced ASTM D1557.
6.0 Additional Services
RGI is available to provide further geotechnical consultation throughout the design phase
of the project. RGI should review the final design and specifications in order to verify that
earthwork and foundation recommendations have been properly interpreted and
incorporated into project design and construction.
RGI is also available to provide geotechnical engineering and construction monitoring
services during construction. The integrity of the earthwork and construction depends on
proper site preparation and procedures. In addition, engineering decisions may arise in the
field in the event that variations in subsurface conditions become apparent. Construction
monitoring services are not part of this scope of work.
DocuSign Envelope ID: A5115E6D-5FF1-4242-8D6A-1BDF53158A96
Geotechnical Engineering Report 11 February 2, 2023
1711 Index Avenue Northeast, Renton, Washington RGI Project No. 2022-728-1
7.0 Limitations
This GER is the property of RGI, Mike Elliott, and its designated agents. Within the limits of
the scope and budget, this GER was prepared in accordance with generally accepted
geotechnical engineering practices in the area at the time this GER was issued. This GER is
intended for specific application to the Index Townhomes Renton project in Renton,
Washington, and for the exclusive use of Mike Elliott and its authorized representatives.
No other warranty, expressed or implied, is made. Site safety, excavation support, and
dewatering requirements are the responsibility of others.
The scope of services for this project does not include either specifically or by implication
any environmental or biological (for example, mold, fungi, bacteria) assessment of the site
or identification or prevention of pollutants, hazardous materials or conditions. If the
owner is concerned about the potential for such contamination or pollution, we can
provide a proposal for these services.
The analyses and recommendations presented in this GER are based upon data obtained
from the explorations performed on site. Variations in soil conditions can occur, the nature
and extent of which may not become evident until construction. If variations appear
evident, RGI should be requested to reevaluate the recommendations in this GER prior to
proceeding with construction.
It is the client’s responsibility to see that all parties to the project, including the designers,
contractors, subcontractors, are made aware of this GER in its entirety. The use of
information contained in this GER for bidding purposes should be done at the contractor’s
option and risk.
DocuSign Envelope ID: A5115E6D-5FF1-4242-8D6A-1BDF53158A96
USGS, 2020, Mercer Island, Washington
USGS, 2020, Renton, Washington
7.5-Minute Quadrangle
Approximate Scale: 1"=1000'
0 500 1000 2000 N
Site Vicinity Map
Figure 1
02/2023
Corporate Office
17522 Bothell Way Northeast
Bothell, Washington 98011
Phone: 425.415.0551
Fax: 425.415.0311
Index Townhomes Renton
RGI Project Number:
2022-728-1
Date Drawn:
Address: 1711 Index Avenue Northeast, Renton, Washington 98056
SITE
DocuSign Envelope ID: A5115E6D-5FF1-4242-8D6A-1BDF53158A96
TP1
TP2
INF1
N
Geotechnical Exploration Plan
Figure 2
Approximate Scale: 1"=20'
0 15 30 60
= Infiltration pit by RGI, 01/11/23
= Test pit by RGI, 01/11/23
= Site boundary
02/2023
Corporate Office
17522 Bothell Way Northeast
Bothell, Washington 98011
Phone: 425.415.0551
Fax: 425.415.0311
Index Townhomes Renton
RGI Project Number:
2022-728-1
Date Drawn:
Address: 1711 Index Avenue Northeast, Renton, Washington 98056
DocuSign Envelope ID: A5115E6D-5FF1-4242-8D6A-1BDF53158A96
Incliniations)
12" Over the Pipe
3" Below the Pipe
Perforated Pipe
4" Diameter PVC
Compacted Structural
Backfill (Native or Import)
12" min.
Filter Fabric Material
12" Minimum Wide
Free-Draining Gravel
Slope to Drain
(See Report for
Appropriate
Excavated Slope
02/2023
Corporate Office
17522 Bothell Way Northeast
Bothell, Washington 98011
Phone: 425.415.0551
Fax: 425.415.0311
Index Townhomes Renton
RGI Project Number:
2022-728-1
Date Drawn:
Address: 1711 Index Avenue Northeast, Renton, Washington 98056
Retaining Wall Drainage Detail
Figure 3
Not to Scale
DocuSign Envelope ID: A5115E6D-5FF1-4242-8D6A-1BDF53158A96
3/4" Washed Rock or Pea Gravel
4" Perforated Pipe
Building Slab
Structural
Backfill
Compacted
Filter Fabric
02/2023
Corporate Office
17522 Bothell Way Northeast
Bothell, Washington 98011
Phone: 425.415.0551
Fax: 425.415.0311
Index Townhomes Renton
RGI Project Number:
2022-728-1
Date Drawn:
Address: 1711 Index Avenue Northeast, Renton, Washington 98056
Typical Footing Drain Detail
Figure 4
Not to Scale
DocuSign Envelope ID: A5115E6D-5FF1-4242-8D6A-1BDF53158A96
Geotechnical Engineering Report February 2, 2023
1711 Index Avenue Northeast, Renton, Washington RGI Project No. 2022-728-1
APPENDIX A
FIELD EXPLORATION AND LABORATORY TESTING
On January 11, 2023, RGI performed field explorations using a mini excavator. We explored
subsurface soil conditions at the site by observing the excavation of two test pits to a
maximum depth of 7 feet below existing grade. The test pit locations are shown on Figure
2. The locations were approximately determined by measurements from existing property
lines and paved roads.
A geologist from our office conducted the field exploration and classified the soil conditions
encountered, maintained a log of each test exploration, obtained representative soil
samples, and observed pertinent site features. All soil samples were visually classified in
accordance with the Unified Soil Classification System (USCS).
Representative soil samples obtained from the explorations were placed in closed
containers and taken to our laboratory for further examination and testing. As a part of the
laboratory testing program, the soil samples were classified in our in house laboratory
based on visual observation, texture, plasticity, and the limited laboratory testing described
below.
Moisture Content Determinations
Moisture content determinations were performed in accordance with ASTM D2216-10
Standard Test Methods for Laboratory Determination of Water (Moisture) Content of Soil
and Rock by Mass (ASTM D2216) on representative samples obtained from the exploration
in order to aid in identification and correlation of soil types. The moisture content of typical
sample was measured and is reported on the test pit logs.
Grain Size Analysis
A grain size analysis indicates the range in diameter of soil particles included in a particular
sample. Grain size analyses was determined using D6913-04(2009) Standard Test Methods
for Particle-Size Distribution (Gradation) of Soils Using Sieve Analysis (ASTM D6913) on two
of the samples.
DocuSign Envelope ID: A5115E6D-5FF1-4242-8D6A-1BDF53158A96
Project Name:Index Townhomes Renton
Project Number:2022-728-1
Client:Mike Elliott
Test Pit No.:TP-1
Date(s) Drilled:January 11, 2023
Excavation Method(s):Excavator
Excavator Type:Mini Excavator
Groundwater Level:Not Encountered
Test Pit Backfill:Cuttings
Logged By:LW
Bucket Size:2'
Excavation Contractor:Kelly's Excavating
Sampling Method(s):Grab
Location:1711 Index Avenue Northeast, Renton, Washington
Surface Conditions:Grass
Total Depth of Excavation:7 feet bgs
Approximate
Surface Elevation:370
Compaction Method:Bucket Tamp
USCS SymbolTpsl
SM
SM
SM
REMARKS Graphic LogMATERIAL DESCRIPTION
6" of topsoil and rootmass
Brown silty SAND with some gravel, moist, loose
Tan silty SAND with some gravel, moist, medium dense, (Weathered Vashon Till)
12% moisture
Gray silty SAND with some gravel and occasional cobbles, moist, dense
14% moisture, 13.9% fines
Becomes very dense
13% moisture
Test pit terminated at 7'Depth (feet)0
5 Sample IDTP1-2
TP1-4
TP1-6.5 Sample TypeElevation (feet)370
365
Sheet 1 of 1
The Riley Group, Inc.
17522 Bothell Way NE, Bothell, WA 98011
DocuSign Envelope ID: A5115E6D-5FF1-4242-8D6A-1BDF53158A96
Project Name:Index Townhomes Renton
Project Number:2022-728-1
Client:Mike Elliott
Test Pit No.:TP-2
Date(s) Drilled:January 11, 2023
Excavation Method(s):Excavator
Excavator Type:Mini Excavator
Groundwater Level:Not Encountered
Test Pit Backfill:Cuttings
Logged By:LW
Bucket Size:2'
Excavation Contractor:Kelly's Excavating
Sampling Method(s):Grab
Location:1711 Index Avenue Northeast, Renton, Washington
Surface Conditions:Grass
Total Depth of Excavation:5 feet bgs
Approximate
Surface Elevation:373
Compaction Method:Bucket Tamp
USCS SymbolTpsl
SM
SW-SM
SM
REMARKS Graphic LogMATERIAL DESCRIPTION
6" of topsoil and rootmass
Brown silty SAND with trace gravel, moist, loose
Tan SAND with some silt and trace gravel, moist, medium dense, (Weathered
Vashon Till)
12% moisture, 10.1% fines
Gray silty SAND with trace gravel, moist, dense, (Vashon Till)
Becomes very dense
14% moisture
Test pit terminated at 5'Depth (feet)0
5 Sample IDTP2-2
TP2-4 Sample TypeElevation (feet)373
368
Sheet 1 of 1
The Riley Group, Inc.
17522 Bothell Way NE, Bothell, WA 98011
DocuSign Envelope ID: A5115E6D-5FF1-4242-8D6A-1BDF53158A96
Project Name:Index Townhomes Renton
Project Number:2022-728-1
Client:Mike Elliott
Key to Log of Boring
USCS SymbolREMARKS Graphic LogMATERIAL DESCRIPTIONDepth (feet)Sample IDSample TypeElevation (feet)1 2 3 4 5 6 7 8
COLUMN DESCRIPTIONS
1 Elevation (feet): Elevation (MSL, feet).
2 Depth (feet): Depth in feet below the ground surface.
3 Sample ID: Sample identification number.
4 Sample Type: Type of soil sample collected at the depth interval
shown.
5 USCS Symbol: USCS symbol of the subsurface material.
6 Graphic Log: Graphic depiction of the subsurface material
encountered.
7 MATERIAL DESCRIPTION: Description of material encountered.
May include consistency, moisture, color, and other descriptive
text.
8 REMARKS : Comments and observations regarding drilling or
sampling made by driller or field personnel.
FIELD AND LABORATORY TEST ABBREVIATIONS
CHEM: Chemical tests to assess corrosivity
COMP: Compaction test
CONS: One-dimensional consolidation test
LL: Liquid Limit, percent
PI: Plasticity Index, percent
SA: Sieve analysis (percent passing No. 200 Sieve)
UC: Unconfined compressive strength test, Qu, in ksf
WA: Wash sieve (percent passing No. 200 Sieve)
MATERIAL GRAPHIC SYMBOLS
Silty SAND (SM)Well graded SAND with Silt (SW-SM)
Topsoil
TYPICAL SAMPLER GRAPHIC SYMBOLS
Auger sampler
Bulk Sample
3-inch-OD California w/
brass rings
CME Sampler
Grab Sample
2.5-inch-OD Modified
California w/ brass liners
Pitcher Sample
2-inch-OD unlined split
spoon (SPT)
Shelby Tube (Thin-walled,
fixed head)
OTHER GRAPHIC SYMBOLS
Water level (at time of drilling, ATD)
Water level (after waiting, AW)
Minor change in material properties within a
stratum
Inferred/gradational contact between strata
?Queried contact between strata
GENERAL NOTES
1: Soil classifications are based on the Unified Soil Classification System. Descriptions and stratum lines are interpretive, and actual lithologic changes may be
gradual. Field descriptions may have been modified to reflect results of lab tests.
2: Descriptions on these logs apply only at the specific boring locations and at the time the borings were advanced. They are not warranted to be representative
of subsurface conditions at other locations or times.
Sheet 1 of 1
The Riley Group, Inc.
17522 Bothell Way NE, Bothell, WA 98011
DocuSign Envelope ID: A5115E6D-5FF1-4242-8D6A-1BDF53158A96
THE RILEY GROUP, INC.
17522 Bothell Way NE
Bothell, WA 98011
PHONE: (425) 415-0551
FAX: (425) 415-0311
GRAIN SIZE ANALYSIS
ASTM D421, D422, D1140, D2487, D6913
PROJECT TITLE Exploration Type TP1 Test Pit
PROJECT NO.Depth
TECH/TEST DATE RT/CC Date Received
WATER CONTENT (Delivered Moisture) Total Weight Of Sample Used For Sieve Corrected For Hygroscopic Moisture
Wt Wet Soil & Tare (gm) (w1)1249.4 Weight Of Sample (gm)1109.4
Wt Dry Soil & Tare (gm) (w2)1109.4 Tare Weight (gm) 133.6
Weight of Tare (gm) (w3)133.6 (W6) Total Dry Weight (gm) 975.8
Weight of Water (gm) (w4=w1-w2) 140.0 SIEVE ANALYSIS
Weight of Dry Soil (gm) (w5=w2-w3) 975.8 Cumulative
Moisture Content (%) (w4/w5)*100 14 Wt Ret (Wt-Tare) (%Retained)% PASS
+Tare {(wt ret/w6)*100}(100-%ret)
% COBBLES 0.0 12.0"133.6 0.00 0.00 100.00 cobbles
% C GRAVEL 9.2 3.0"133.6 0.00 0.00 100.00 coarse gravel
% F GRAVEL 6.1 2.5" coarse gravel
% C SAND 3.8 2.0" coarse gravel
% M SAND 33.6 1.5"133.6 0.00 0.00 100.00 coarse gravel
% F SAND 33.4 1.0" coarse gravel
% FINES 13.9 0.75"223.8 90.20 9.24 90.76 fine gravel
% TOTAL 100.0 0.50" fine gravel
0.375"259.4 125.80 12.89 87.11 fine gravel
D10 (mm)0.05 #4 283.8 150.20 15.39 84.61 coarse sand
D30 (mm)0.22 #10 320.8 187.20 19.18 80.82 medium sand
D60 (mm)0.78 #20 medium sand
Cu 15.6 #40 648.7 515.10 52.79 47.21 fine sand
Cc 1.2 #60 fine sand
#100 912.9 779.30 79.86 20.14 fine sand
#200 974.2 840.60 86.14 13.86 fines
PAN 1109.4 975.80 100.00 0.00 silt/clay
556.6 423 43.349047 56.6509531
DESCRIPTION
USCS SM
Prepared For: Reviewed By:
Mike Elliott LW
Index Townhomes Renton
2022-728 4'
1/11/2023
Silty SAND with some gravel
0
10
20
30
40
50
60
70
80
90
100
0.0010.010.11101001000
%
P
A
S
S
I
N
G
Grain size in millimeters
12"3" 2" 1" .75" .375" #4 #10 #20 #40 #60 #100 #200
DocuSign Envelope ID: A5115E6D-5FF1-4242-8D6A-1BDF53158A96
THE RILEY GROUP, INC.
17522 Bothell Way NE
Bothell, WA 98011
PHONE: (425) 415-0551
FAX: (425) 415-0311
GRAIN SIZE ANALYSIS
ASTM D421, D422, D1140, D2487, D6913
PROJECT TITLE Exploration Type TP2 Test Pit
PROJECT NO.Depth
TECH/TEST DATE RT/LW/CC Date Received
WATER CONTENT (Delivered Moisture) Total Weight Of Sample Used For Sieve Corrected For Hygroscopic Moisture
Wt Wet Soil & Tare (gm) (w1)998.8 Weight Of Sample (gm)905.1
Wt Dry Soil & Tare (gm) (w2)905.1 Tare Weight (gm) 124.6
Weight of Tare (gm) (w3)124.6 (W6) Total Dry Weight (gm) 780.5
Weight of Water (gm) (w4=w1-w2) 93.7 SIEVE ANALYSIS
Weight of Dry Soil (gm) (w5=w2-w3) 780.5 Cumulative
Moisture Content (%) (w4/w5)*100 12 Wt Ret (Wt-Tare) (%Retained)% PASS
+Tare {(wt ret/w6)*100}(100-%ret)
% COBBLES 0.0 12.0"124.6 0.00 0.00 100.00 cobbles
% C GRAVEL 1.2 3.0"124.6 0.00 0.00 100.00 coarse gravel
% F GRAVEL 8.1 2.5" coarse gravel
% C SAND 7.9 2.0" coarse gravel
% M SAND 39.7 1.5"124.6 0.00 0.00 100.00 coarse gravel
% F SAND 33.0 1.0" coarse gravel
% FINES 10.1 0.75"133.8 9.20 1.18 98.82 fine gravel
% TOTAL 100.0 0.50" fine gravel
0.375"161.7 37.10 4.75 95.25 fine gravel
D10 (mm)0.075 #4 196.9 72.30 9.26 90.74 coarse sand
D30 (mm)0.25 #10 258.4 133.80 17.14 82.86 medium sand
D60 (mm)0.8 #20 medium sand
Cu 10.7 #40 568.6 444.00 56.89 43.11 fine sand
Cc 1.0 #60 fine sand
#100 783.7 659.10 84.45 15.55 fine sand
#200 826.3 701.70 89.90 10.10 fines
PAN 905.1 780.50 100.00 0.00 silt/clay
556.6 432 55.349135 44.6508648
DESCRIPTION
USCS SW-SM
Prepared For: Reviewed By:
Mike Elliott LW
Index Townhomes Renton
2022-728 2'
1/11/2023
Well graded SAND with some silt and trace gravel
0
10
20
30
40
50
60
70
80
90
100
0.0010.010.11101001000
%
P
A
S
S
I
N
G
Grain size in millimeters
12"3" 2" 1" .75" .375" #4 #10 #20 #40 #60 #100 #200
DocuSign Envelope ID: A5115E6D-5FF1-4242-8D6A-1BDF53158A96
Appendix B
Operation & Maintenance Manual
DocuSign Envelope ID: A5115E6D-5FF1-4242-8D6A-1BDF53158A96
APPENDIX A MAINTENANCE REQUIREMENTS FOR STORMWATER FACILITIES AND ON-SITE BMPS
6/22/2022 2022 City of Renton Surface Water Design Manual
A-4
NO. 2 – INFILTRATION FACILITIES
MAINTENANCE
COMPONENT
DEFECT OR
PROBLEM
CONDITIONS WHEN
MAINTENANCE IS NEEDED
RESULTS EXPECTED WHEN
MAINTENANCE IS PERFORMED
Site 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 City personnel
or the public.
Noxious and nuisance vegetation removed
according to applicable regulations. No
danger of noxious vegetation where City
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.
Excessive growth of
grass/groundcover
Grass or groundcover exceeds 18 inches
in height.
Grass or groundcover mowed to a height
no greater than 6 inches.
Infiltration Pond, Top
or Side Slopes of
Dam, Berm or
Embankment
Rodent holes Any evidence of rodent holes if facility is
acting as a dam or berm, or any evidence
of water piping through dam or berm via
rodent holes.
Rodents removed or destroyed and dam
or berm repaired.
Tree growth Tree growth threatens integrity of dams,
berms or slopes, does not allow
maintenance access, or interferes with
maintenance activity. If trees are not a
threat to dam, berm, or embankment
integrity or not interfering with access or
maintenance, they do not need to be
removed.
Trees do not hinder facility performance or
maintenance activities.
Erosion Eroded damage over 2 inches deep where
cause of damage is still present or where
there is potential for continued erosion.
Any erosion observed on a compacted
slope.
Slopes stabilized using appropriate
erosion control measures. If erosion is
occurring on compacted slope, a licensed
civil engineer should be consulted to
resolve source of erosion.
Settlement Any part of a dam, berm or embankment
that has settled 4 inches lower than the
design elevation.
Top or side slope restored to design
dimensions. If settlement is significant, a
licensed civil engineer should be consulted
to determine the cause of the settlement.
Infiltration Pond,
Tank, Vault, Trench,
or Small Basin
Storage Area
Sediment
accumulation
If two inches or more sediment is present
or a percolation test indicates facility is
working at or less than 90% of design.
Facility infiltrates as designed.
Liner damaged
(If applicable)
Liner is visible or pond does not hold water
as designed.
Liner repaired or replaced.
Infiltration Tank
Structure
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.
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.
Infiltration 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.
DocuSign Envelope ID: A5115E6D-5FF1-4242-8D6A-1BDF53158A96
APPENDIX A MAINTENANCE REQUIREMENTS FOR STORMWATER FACILITIES AND ON-SITE BMPS
2022 City of Renton Surface Water Design Manual 6/22/2022
A-5
NO. 2 – INFILTRATION FACILITIES
MAINTENANCE
COMPONENT
DEFECT OR
PROBLEM
CONDITIONS WHEN
MAINTENANCE IS NEEDED
RESULTS EXPECTED WHEN
MAINTENANCE IS PERFORMED
Inlet/Outlet Pipes 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.
Damaged inlet/outlet
pipe
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.
Access Manhole 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.
Ladder rungs unsafe Missing rungs, misalignment, rust, or
cracks.
Ladder meets design standards. Allows
maintenance person safe access.
Large access
doors/plate
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 be
opened as designed.
Gaps, doesn't cover
completely
Large access doors not flat and/or access
opening not completely covered.
Doors close flat; 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.
Infiltration Pond,
Tank, Vault, Trench,
or Small Basin Filter
Bags
Plugged filter bag (if
applicable)
Filter bag more than 1/2 full. Replace filter bag or redesign system.
Infiltration Pond,
Tank, Vault, Trench,
or Small Basin Pre-
settling Ponds and
Vaults
Sediment
accumulation
6" or more of sediment has accumulated. Pre-settling occurs as designed
Infiltration Pond,
Rock Filter
Plugged rock filter High water level on upstream side of filter
remains for extended period of time or little
or no water flows through filter during
heavy rain storms.
Rock filter replaced evaluate need for filter
and remove if not necessary.
Infiltration Pond
Emergency
Overflow Spillway
Rock missing Only one layer of rock exists above native
soil in area five square feet or larger, or
any exposure of native soil at the top of
out flow path of spillway. Rip-rap on inside
slopes need not be replaced.
Spillway restored to design standards.
Tree growth Tree growth impedes flow or threatens
stability of spillway.
Trees removed.
DocuSign Envelope ID: A5115E6D-5FF1-4242-8D6A-1BDF53158A96
APPENDIX A MAINTENANCE REQUIREMENTS FOR STORMWATER FACILITIES AND ON-SITE BMPS
6/22/2022 2022 City of Renton Surface Water Design Manual
A-10
NO. 5 – CATCH BASINS AND MANHOLES
MAINTENANCE
COMPONENT
DEFECT OR
PROBLEM
CONDITION WHEN MAINTENANCE
IS NEEDED
RESULTS EXPECTED WHEN
MAINTENANCE IS PERFORMED
Structure Sediment
accumulation
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 and debris 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.
Deposits of garbage exceeding 1 cubic
foot in volume.
No condition present which would attract or
support the breeding of insects or rodents.
Damage to frame
and/or top slab
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.
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 in walls or
bottom
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 is structurally
sound.
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.
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.
Inlet/Outlet Pipe 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.
DocuSign Envelope ID: A5115E6D-5FF1-4242-8D6A-1BDF53158A96
APPENDIX A MAINTENANCE REQUIREMENTS FOR STORMWATER FACILITIES AND ON-SITE BMPS
2022 City of Renton Surface Water Design Manual 6/22/2022
A-11
NO. 5 – CATCH BASINS AND MANHOLES
MAINTENANCE
COMPONENT
DEFECT OR
PROBLEM
CONDITION WHEN MAINTENANCE
IS NEEDED
RESULTS EXPECTED WHEN
MAINTENANCE IS PERFORMED
Inlet/Outlet Pipe
(cont.)
Damaged inlet/outlet
pipe
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.
Metal Grates
(Catch Basins)
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.
Damaged or missing
grate
Grate missing or broken member(s) of the
grate. Any open structure requires
urgent maintenance.
Grate is in place and meets design
standards.
Manhole Cover/Lid 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.
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.
DocuSign Envelope ID: A5115E6D-5FF1-4242-8D6A-1BDF53158A96
APPENDIX A MAINTENANCE REQUIREMENTS FOR STORMWATER FACILITIES AND ON-SITE BMPS
6/22/2022 2022 City of Renton Surface Water Design Manual
A-12
NO. 6 – CONVEYANCE PIPES AND DITCHES
MAINTENANCE
COMPONENT
DEFECT OR
PROBLEM
CONDITIONS WHEN
MAINTENANCE IS NEEDED
RESULTS EXPECTED WHEN
MAINTENANCE IS PERFORMED
Pipes Sediment & debris
accumulation
Accumulated sediment or debris that
exceeds 20% of the diameter of the pipe.
Water flows freely through pipes.
Vegetation/root
growth in pipe
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.
Damaged pipes 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.
Ditches 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 City personnel
or the public.
Noxious and nuisance vegetation removed
according to applicable regulations. No
danger of noxious vegetation where City
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.
Excessive vegetation
growth
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.
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.
DocuSign Envelope ID: A5115E6D-5FF1-4242-8D6A-1BDF53158A96