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Methane emissions and energy generation potential from a municipal solid waste landfill based on inventory models: A case study

Rongxing Bian, Jihong Chen, Weihua Li, Wei Shi, Yifan Lin, Xiaoli Chai, Yingjie Sun

2021Environmental Progress & Sustainable Energy23 citationsDOI

Abstract

Abstract Municipal solid waste (MSW) landfills are the third largest source of anthropogenic methane (CH 4 ) emission. Evaluating the CH 4 emission and energy generation potential of MSW landfills facilitates the development of appropriate measures for mitigation and recovery of CH 4 . This study evaluated the CH 4 generation, CH 4 emissions and potential energy generation capacity of Jiangcungou MSW landfill, Xi'an, China, during its operation and closure period using three inventory models, including the IPCC default method (DM), IPCC first‐order decay (FOD), and US EPA Landfill Gas Emissions Mode (LandGEM). Based on the DM, FOD and LandGEM models, the total estimated CH 4 emissions in 1994–2060 were 755.0, 348.9, and 344.9 Gg, respectively. There is a huge potential for electricity generation after the closure of the landfill, and the potential energy generation for 2020 was 688.3 MkW h and 599.7 MkW h. However, the actual electricity generation ranged from 12.4% to 74.1% and 14.2% to 61.8% of the potential electricity generation during the operation period (2004–2017) for the FOD and LandGEM methods, respectively. Improving the efficiency associated with LFG collection and gas engine from the landfill after closure can be an effective measure to mitigate greenhouse effects and increase investment payments.

Topics & Concepts

Landfill gasGreenhouse gasElectricity generationMunicipal solid wasteEnvironmental scienceWaste managementMethaneElectricityEnvironmental engineeringWaste-to-energyEngineeringChemistryBiologyOrganic chemistryPhysicsEcologyPower (physics)Electrical engineeringQuantum mechanicsLandfill Environmental Impact StudiesMunicipal Solid Waste ManagementOdor and Emission Control Technologies