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ARCHIVED REPORTS_1988
Environmental Health - Public
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4400 - Solid Waste Program
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PR0440058
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ARCHIVED REPORTS_1988
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Last modified
7/17/2020 5:57:42 PM
Creation date
7/3/2020 11:00:43 AM
Metadata
Fields
Template:
EHD - Public
ProgramCode
4400 - Solid Waste Program
File Section
ARCHIVED REPORTS
FileName_PostFix
1988
RECORD_ID
PR0440058
PE
4433
FACILITY_ID
FA0004518
FACILITY_NAME
NORTH COUNTY LANDFILL
STREET_NUMBER
17720
Direction
E
STREET_NAME
HARNEY
STREET_TYPE
LN
City
LODI
Zip
95240
APN
06512004
CURRENT_STATUS
01
SITE_LOCATION
17720 E HARNEY LN
P_LOCATION
99
P_DISTRICT
004
QC Status
Approved
Scanner
CField
Supplemental fields
FilePath
\MIGRATIONS\SW\SW_4433_PR0440058_17720 E HARNEY_1988.tif
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EHD - Public
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6.0 ENVIRONMENTAL MONITORING <br /> ' 6. 1 LANDFILL GAS CONTROL AND MONITORING <br /> tDecomposition of organic waste in a landfill produces various gases, <br /> principally methane and carbon dioxide. When organic waste is ini - <br /> tially placed in a landfill , it contains oxygen and decomposes aero- <br /> bically for a short time, producing only carbon dioxide. After the <br /> oxygen is depleted, anaerobic decomposition takes place, and both <br /> methane and carbon dioxide are produced. The concern over landfill <br /> gas production stems from methane's combustibility in concentrations <br /> ' of 5 to 15 percent in air. <br /> The potential for lateral gas migration beyond the landfill boundaries <br /> and dilution of the gas to the combustible range near on-site or off- <br /> site structures must be considered in the landfill design. Studies of <br /> gas flow through various soils and experience at landfill sites have <br /> ' determined that flow is less in lower-permeability soils (i .e. , clays) <br /> and greater in granular soils (i .e. , sands) . Subsurface gas migration <br /> from landfills depends greatly, therefore, on the natural soils or <br /> ' lining systems beneath and surrounding the wastes. Since the landfill <br /> has a significant buffer area and is underlain with low-permeability <br /> ' soils, the potential for subsurface gas migration off site or to on- <br /> site structures is extremely low. <br /> To further minimize the potential for off-site gas migration, gas- <br /> monitoring probes will be strategically placed along the property <br /> boundary and adjacent to on-site structures to detect any subsurface <br /> gas movement (see Figures 4 and 5) . If the low-permeability soils and <br /> ' buffer area are ineffective in preventing lateral gas migration and an <br /> environmental problem develops. an active gas extraction/control <br /> ' system will be constructed. Gas collected in the system will be <br /> either flared on site or used as an energy source. The gas control <br /> system will only be constructed in those areas of the fill where gas <br /> ' PJ9 9390209A.00D 28 <br /> ' Emon Associates <br />
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