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Greenhouse gas emissions during MSW landfilling in China: influence of waste characteristics and LFG treatment measures.
J Environ Manage. 2013 Nov 15; 129:510-21.JE

Abstract

Reducing greenhouse gas (GHG) emissions from municipal solid waste (MSW) treatment can be highly cost-effective in terms of GHG mitigation. This study investigated GHG emissions during MSW landfilling in China under four existing scenarios and in terms of seven different categories: waste collection and transportation, landfill management, leachate treatment, fugitive CH4 (FM) emissions, substitution of electricity production, carbon sequestration and N2O and CO emissions. GHG emissions from simple sanitary landfilling technology where no landfill gas (LFG) extraction took place (Scenario 1) were higher (641-998 kg CO2-eq·t(-1)ww) than those from open dump (Scenario 0, 480-734 kg CO2-eq·t(-1)ww). This was due to the strictly anaerobic conditions in Scenario 1. LFG collection and treatment reduced GHG emissions to 448-684 kg CO2-eq·t(-1)ww in Scenario 2 (with LFG flare) and 214-277 kg CO2-eq·t(-1)ww in Scenario 3 (using LFG for electricity production). Amongst the seven categories, FM was the predominant contributor to GHG emissions. Global sensitivity analysis demonstrated that the parameters associated with waste characteristics (i.e. CH4 potential and carbon sequestered faction) and LFG management (i.e. LFG collection efficiency and CH4 oxidation efficiency) were of great importance. A further learning on the MSW in China indicated that water content and dry matter content of food waste were the basic factors affecting GHG emissions. Source separation of food waste, as well as increasing the incineration ratio of mixed collected MSW, could effectively mitigate the overall GHG emissions from landfilling in a specific city. To increase the LFG collection and CH4 oxidation efficiencies could considerably reduce GHG emissions on the landfill site level. While, the improvement in the LFG utilization measures had an insignificant impact as long as the LFG is recovered for energy generation.

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Authors+Show Affiliations

Yang N
State Key Laboratory of Pollution Control and Resources Reuse, College of Environmental Science and Engineering, Tongji University, 1239 Siping Road, Shanghai 200092, PR China. Electronic address: 1986yangna@tongji.edu.cn.
Zhang H
No affiliation info available
Shao LM
No affiliation info available
Lü F
No affiliation info available
He PJ
No affiliation info available

MeSH

Air PollutantsAir PollutionChinaEnvironmental Restoration and RemediationGasesGreenhouse EffectModels, TheoreticalRefuse DisposalSoftwareWaste Disposal Facilities

Pub Type(s)

Comparative Study
Evaluation Study
Journal Article
Research Support, Non-U.S. Gov't

Language

eng

PubMed ID

24018116

Citation

Yang, Na, et al. "Greenhouse Gas Emissions During MSW Landfilling in China: Influence of Waste Characteristics and LFG Treatment Measures." Journal of Environmental Management, vol. 129, 2013, pp. 510-21.
Yang N, Zhang H, Shao LM, et al. Greenhouse gas emissions during MSW landfilling in China: influence of waste characteristics and LFG treatment measures. J Environ Manage. 2013;129:510-21.
Yang, N., Zhang, H., Shao, L. M., Lü, F., & He, P. J. (2013). Greenhouse gas emissions during MSW landfilling in China: influence of waste characteristics and LFG treatment measures. Journal of Environmental Management, 129, 510-21. https://doi.org/10.1016/j.jenvman.2013.08.039
Yang N, et al. Greenhouse Gas Emissions During MSW Landfilling in China: Influence of Waste Characteristics and LFG Treatment Measures. J Environ Manage. 2013 Nov 15;129:510-21. PubMed PMID: 24018116.
* Article titles in AMA citation format should be in sentence-case
TY - JOUR T1 - Greenhouse gas emissions during MSW landfilling in China: influence of waste characteristics and LFG treatment measures. AU - Yang,Na, AU - Zhang,Hua, AU - Shao,Li-Ming, AU - Lü,Fan, AU - He,Pin-Jing, Y1 - 2013/09/06/ PY - 2013/02/22/received PY - 2013/06/11/revised PY - 2013/08/13/accepted PY - 2013/9/11/entrez PY - 2013/9/11/pubmed PY - 2014/6/6/medline KW - Greenhouse gas emissions KW - Landfill gas KW - Mitigation measures KW - Municipal solid waste landfilling KW - Waste characteristics SP - 510 EP - 21 JF - Journal of environmental management JO - J Environ Manage VL - 129 N2 - Reducing greenhouse gas (GHG) emissions from municipal solid waste (MSW) treatment can be highly cost-effective in terms of GHG mitigation. This study investigated GHG emissions during MSW landfilling in China under four existing scenarios and in terms of seven different categories: waste collection and transportation, landfill management, leachate treatment, fugitive CH4 (FM) emissions, substitution of electricity production, carbon sequestration and N2O and CO emissions. GHG emissions from simple sanitary landfilling technology where no landfill gas (LFG) extraction took place (Scenario 1) were higher (641-998 kg CO2-eq·t(-1)ww) than those from open dump (Scenario 0, 480-734 kg CO2-eq·t(-1)ww). This was due to the strictly anaerobic conditions in Scenario 1. LFG collection and treatment reduced GHG emissions to 448-684 kg CO2-eq·t(-1)ww in Scenario 2 (with LFG flare) and 214-277 kg CO2-eq·t(-1)ww in Scenario 3 (using LFG for electricity production). Amongst the seven categories, FM was the predominant contributor to GHG emissions. Global sensitivity analysis demonstrated that the parameters associated with waste characteristics (i.e. CH4 potential and carbon sequestered faction) and LFG management (i.e. LFG collection efficiency and CH4 oxidation efficiency) were of great importance. A further learning on the MSW in China indicated that water content and dry matter content of food waste were the basic factors affecting GHG emissions. Source separation of food waste, as well as increasing the incineration ratio of mixed collected MSW, could effectively mitigate the overall GHG emissions from landfilling in a specific city. To increase the LFG collection and CH4 oxidation efficiencies could considerably reduce GHG emissions on the landfill site level. While, the improvement in the LFG utilization measures had an insignificant impact as long as the LFG is recovered for energy generation. SN - 1095-8630 UR - https://www.unboundmedicine.com/medline/citation/24018116/Greenhouse_gas_emissions_during_MSW_landfilling_in_China:_influence_of_waste_characteristics_and_LFG_treatment_measures_ L2 - https://linkinghub.elsevier.com/retrieve/pii/S0301-4797(13)00562-8 DB - PRIME DP - Unbound Medicine ER -