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CORRESPONDENCE_2003-2004
Environmental Health - Public
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EHD Program Facility Records by Street Name
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4400 - Solid Waste Program
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PR0440004
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CORRESPONDENCE_2003-2004
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Last modified
4/17/2025 10:06:51 AM
Creation date
1/4/2022 2:12:04 PM
Metadata
Fields
Template:
EHD - Public
ProgramCode
4400 - Solid Waste Program
File Section
CORRESPONDENCE
FileName_PostFix
2003-2004
RECORD_ID
PR0440004
PE
4433 - LANDFILL DISPOSAL SITE
FACILITY_ID
FA0004517
FACILITY_NAME
FOOTHILL LANDFILL
STREET_NUMBER
6484
Direction
N
STREET_NAME
WAVERLY
STREET_TYPE
RD
City
LINDEN
Zip
95236
APN
09344002
CURRENT_STATUS
Active, billable
SITE_LOCATION
6484 N WAVERLY RD
P_LOCATION
99
P_DISTRICT
004
QC Status
Approved
Scanner
SJGOV\cfield
Supplemental fields
Site Address
6484 N WAVERLY RD LINDEN 95236
Tags
EHD - Public
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Engineering Analysis in Support of the <br /> Use of Crushed Rock in LCRS Drainage Layer <br /> Module 4, North County Recycling Center and Sanitary Landfill . <br /> San Joaquin County, California <br /> 1.0-Introduction <br /> San Joaquin County is seeking approval from the CVRWQCB for substituting a crushed rock <br /> drainage layer in place of the rounded gravel. Crushed rock with a uniform size of '/2 inch is <br /> proposed to be used for the LCRS drainage layer. This design will provide drainage <br /> characteristics equivalent to the gravel layer. To provide protection against puncture of the <br /> 60-mil HDPE geomembrane from the crushed rock, a geotextile cushion layer will be placed <br /> directly above the geomembrane before placing the crushed rock. <br /> The construction documents for the LCRS drainage layer within Module 4 of the North County <br /> Recycling Center and Sanitary Landfill specify rounded or sub-rounded gravel placed directly <br /> over the 60-mil high density polyethylene (HDPE) geomembrane liner. During the design of <br /> Module 4, it was envisioned that on-site soil deposits at the Foothill Sanitary Landfill (FSL) <br /> would be mined and screened to provide the rounded gravel. However, subsequent subsurface <br /> investigation and testing of the on-site soil deposits at FSL determined that the on-site gravel at <br /> FSL is significantly larger in size than that required by the construction specifications. <br /> The use of the crushed rock and the geotextile cushion result in the following two design <br /> considerations that need to be addressed: <br /> 1. The minimum mass per unit area (ozlyd2 or g/m2) of the geotextile cushion required to <br /> protect the geomembrane from the crushed rock; and <br /> 2. The shear strength of the interface between the geotextile cushion and the 60-mil HDPE <br /> geomembrane should be adequate for slope stability of Module 4. <br /> This report addresses the above design considerations. The calculations provided below <br /> determine the mass per unit area of the geotextile cushion required to protect the geomembrane <br /> from the proposed crushed rock. A discussion of the shear strength of the geotextile-textured <br /> geomembrane interface is also presented. <br /> N:\sacDP\2003\Pg183\835608.3ap.doc <br /> (NCRCSL) 1 <br />
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