Laserfiche WebLink
Draft Supplemental Environmental Impact Report Page IV.E-12 <br /> Forward Inc. Landfill 2018 Expansion Project <br /> ' includes a landfill gas collection system that reduces the chance of a dangerous on-site landfill <br /> gas build-up except in the waste mass itself. Perimeter wells have low concentrations of <br /> methane indicating that some off-site migration is occurring. Despite the fact that methane is <br /> 1 lighter than air(vapor density of 0.55 versus 1),it is concurrently produced with carbon dioxide <br /> and will not separate. Instead,both gases will remain mixed and follow pressure and density <br /> gradients during transport based on the properties of the mixture, rather than the properties of <br /> the individual components(EPA 1993)11. The mixture of methane and carbon dioxide in landfill <br /> gas is comparable to that of air. <br /> The flammability and lack of odor make methane a dangerous gas at landfills if not collected <br /> over time. Explosions and effects on worker health have occurred at unmitigated landfills,most <br /> often when workers were exposed to low lying areas within the landfill where methane <br /> ' accumulated (Everett,Wilson and Hoylman, 1984). Along the northern landfill boundary there <br /> is a perimeter collection and migration monitoring system where methane and other gas <br /> concentrations are monitored and controlled. Throughout the site, there is a comprehensive <br /> ' landfill gas collection system that routes most methane to either a flare or engine for controlled <br /> combustion. Further augmentation of the gas collection system is planned as part of the <br /> proposed project and required for continued compliance with regulation. In addition to <br /> reducing the impact of a methane gas-related hazards,the expansion of the gas collection will <br /> remove some VOCs currently impacting groundwater quality (GeoLogic, 2008). <br /> ' A subsurface oxidization(SSO)event can be caused by a variety of factors, including <br /> spontaneous combustion or by placing too much vacuum on a landfill gas collection system. In <br /> spontaneous combustion,waste material buried in a landfill is heated by chemical oxidation <br /> ' and biological decomposition. The resulting heat can cause the material to reach the point of <br /> ignition, causing rapid oxidization. <br /> ' Landfill gas collection systems are designed to operate under a vacuum, so that methane and <br /> other gases generated by the decomposition of municipal solid waste in a landfill can be <br /> captured by the landfill gas collection system and conveyed in pipes to either a landfill gas flare <br /> ' that destroys the gas or a co-generation plant that converts landfill gas into renewable electric <br /> energy. Placing too much vacuum on a landfill gas collection system can cause oxygen to be <br /> drawn into the landfill waste mass,which in turn can cause an increase in the temperature of <br /> the waste and lead to SSO. Placing too little vacuum on the landfill gas collection systems can <br /> cause landfill gas to escape through the cover of the landfill,which would violate federal and <br /> state air pollution regulations that limit that amount of landfill gas emitted into the atmosphere. <br /> ' SSO events are more likely to oxidize or burn slowly without visible flame or large quantities of <br /> smoke and are characterized by rapid oxidation of organic waste in the landfill. The waste mass <br /> may oxidize around a gas extraction well, in the influence zone of the extraction well, or near a <br /> surface feature that allows oxygen to enter the waste mass. Subsurface fires in gas collection <br /> systems are detected by elevated temperature at the gas extraction well head or by the detection <br /> of soot in the gas collection system. At times,underground combustion/oxidation will go <br /> " Solid Waste Disposal Facility Criteria Technical Manual,USEPA 530-R-93-017,1993 <br />