Greenhouse gas emissions from landfill leachate treatment plants: A comparison of young and aged landfill |
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Authors: | Xiaojun Wang Mingsheng Jia Xiaohai Chen Ying Xu Xiangyu Lin Chih Ming Kao Shaohua Chen |
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Institution: | 1. Key Laboratory of Urban Environment and Health, Institute of Urban Environment, Chinese Academy of Sciences, Xiamen 361021, China;2. Xiamen City Environmental Sanitation Management Department, Xiamen 361000, China;3. Institute of Environmental Engineering, National Sun Yat-Sen University, Kaohsiung 80424, Taiwan |
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Abstract: | With limited assessment, leachate treatment of a specified landfill is considered to be a significant source of greenhouse gas (GHG) emissions. In our study, the cumulative GHG emitted from the storage ponds and process configurations that manage fresh or aged landfill leachate were investigated. Our results showed that strong CH4 emissions were observed from the fresh leachate storage pond, with the fluxes values (2219–26,489 mg C m?2 h?1) extremely higher than those of N2O (0.028–0.41 mg N m?2 h?1). In contrast, the emission values for both CH4 and N2O were low for the aged leachate tank. N2O emissions became dominant once the leachate entered the treatment plants of both systems, accounting for 8–12% of the removal of N-species gases. Per capita, the N2O emission based on both leachate treatment systems was estimated to be 7.99 g N2O–N capita?1 yr?1. An increase of 80% in N2O emissions was observed when the bioreactor pH decreased by approximately 1 pH unit. The vast majority of carbon was removed in the form of CO2, with a small portion as CH4 (<0.3%) during both treatment processes. The cumulative GHG emissions for fresh leachate storage ponds, fresh leachate treatment system and aged leachate treatment system were 19.10, 10.62 and 3.63 Gg CO2 eq yr?1, respectively, for a total that could be transformed to 9.09 kg CO2 eq capita?1 yr?1. |
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Keywords: | Greenhouse gas fluxes Leachate treatment Aged leachate Fresh leachate Annual GHG emissions Storage pond |
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