The US consumes large quantities of electricity. As a result, there is a growing concern that energy may not be readily available in the future. This worry is compounded by the depletion of traditional sources such as coal, petroleum, and natural gas. Municipal solid waste in landfills is a resource the country may utilize as a renewable source of energy, as the gas produced from landfills can be used to power generators for electricity production, rather than wasted and flared to comply with Resource Conservation and Recovery Act standards. Systems that utilize reciprocating internal combustion engines, microturbines, and molten carbonate fuel cells can feasibly and cleanly reduce landfill gas emissions while producing electricity. However, these methods require input work and initial investments. The main economic goal is to maximize energy production. After economic analysis, the molten carbonate fuel cell system was determined to be the most efficient due to its versatility and low emissions. The successful implementation of the system may result in the propagation of the system, the increase in value of landfill gas, and the waste that produces landfill gas. This may also lead to restructuring of municipal waste system to enhance the usage of landfill gas. Keywords: municipal solid waste, MSW, landfill gas, reciprocating internal combustion engines, microturbines, molten carbonate fuel cells, MCFCs, siloxanes, emissions, greenhouse gases.
Analysis of damage caused by siloxanes in stationary reciprocating internal combustion engines operating with landfill gas
