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我国生活垃圾焚烧发电过程中温室气体排放及影响因素--以上海某城市生活垃圾焚烧发电厂为例 被引量:55

GHG emissions from Chinese MSW incineration and their influencing factors-Case study of one MSW incineration plant in Shanghai.
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摘要 以上海某城市生活垃圾焚烧发电厂为例,采用上游-操作-下游(UOD)表格法,分析了生活垃圾焚烧发电过程中不同环节的温室气体排放贡献,及影响其排放的主要因素.结果表明,目前我国生活垃圾焚烧发电过程是温室气体排放源,以吨垃圾净CO2排放量计,达166~212kg.生活垃圾中自含化石碳对温室气体排放的贡献最大,CO2排放量为257kg/t;因焚烧发电上网而获得的净减排量为120kg/t;垃圾收运、辅助物料消耗及焚烧灰渣处理等引起的排放量总计为27~45kg/t.生活垃圾沥出渗滤液后续处理过程的温室气体排放量为7.7kg/t.节省焚烧过程辅助物料使用和改变焚烧灰渣处置方式能够减少温室气体排放量,但是减排效果有限.我国各地区电能基准线排放因子存在差异,对焚烧过程温室气体排放的影响为0~13%.降低生活垃圾含水率、提高垃圾可发电量是我国生活垃圾焚烧发电过程温室气体排放源汇转换的关键途径. Upstream-operation-downstream(UOD) method was applied to study the greenhouse gas(GHG) emissions from one municipal solid waste(MSW) incineration plant in Shanghai.The contribution of each step and the influencing factors to GHG emissions were analyzed.The results showed that the incineration plant was source of GHG,which contributed 166~212kg CO2-eq/t of waste for incineration(fww).The fossil carbon content in the waste was found to be the critical factor,emitting 257kg CO2-eq/t fww.The utilization of electricity generated from incineration could save 120kg CO2-eq/t fww.Other parts(e.g.collection and transportation of wastes,disposal of bottom ash and fly ash and consumption of auxiliary material) released 27~45kg CO2-eq/t fww.GHG emissions from leachate treatment were 7.7kg CO2-eq/t fww.By saving of the auxiliary materials and changing of the disposal patterns of ashes,the GHG emissions can be mitigated in a limited degree.GHG savings varied by 0~13% when electricity factors in different regions were considered.In order to realize source-sink conversion of GHG for MSW incineration,the key approach was to increase the electricity generation capacity of the MSW by reducing water content.
作者 何品晶 陈淼 杨娜 邵立明
机构地区 同济大学环境科学与工程学院
出处 《中国环境科学》 EI CAS CSCD 北大核心 2011年第3期402-407,共6页 China Environmental Science
基金 国家科技支撑计划项目(2006BAC06B03)
关键词 生活垃圾焚烧发电 垃圾组分 温室气体 渗滤液 焚烧灰渣 碳排放 municipal solid waste(MSW) incineration waste composition greenhouse gas(GHG) leachate bottom ash and fly ash carbon emission
分类号 X705 [环境科学与工程—环境工程]
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参考文献24

  • 1Life cycle assessment: principles and practice[R]. Scientific Applications International Corporation (SAIC), 2006.
  • 2中华人民共和国统计局中国统计年鉴[M].北京:中国统计出版社,2009.
  • 3瞿贤,何品晶,邵立明,Théodore Bouchez.生物质组成差异对生活垃圾厌氧产甲烷化的影响[J].中国环境科学,2008,28(8):730-735. 被引量:11
  • 4Fruergaard T, Astrup T. Life cycle assessment of management of APC residues from waste incineration [C]. Sardinia ItalyEleventh International Waste Management and Landfill Synposium, 2007.
  • 5Clift R, Doig A, Finnveden (2 The application of life cycle assessment to integrated solid waste management part 1-Methodology [J]. Process Safety and Environmental Protection, 2000,78(4):279-287.
  • 6Gentil E, Christensen T H., Aoustin E. Greenhouse gas accounting and waste management [J]. Waste Management andResearch, 2009,27(8):696-706.
  • 7Eisted R, Larsen A W, Christensen T H. Collection, transfer and transport of waste: accounting of greenhouse gases and global warming contribution [J]. Waste Management and Research, 2009, 27(8):738-745.
  • 8Spielmann M, Scholz R W. Life cycle inventory, of transport services background data for freight transport [J]. International Journal on Life Cycle Assessment, 2004,(10):85-94.
  • 9Eggleston H S, Buendia L, Miwa K. 20061PCC guidelines for national greenhouse gas inventories, Vol. 2 Energy [R]. Japan, Institute for Global Environmental Strategies (IGES): National Greenhouse Gas Inventories Programme, 2006.
  • 10国家发展改革委应对气候变化司.关于公布2009年中国区域电网基准线排放因子的公告[EB/OL].hnp://qhs.ndrc.gov.cn/qjfzjz/t20090703_289357.htm,2009.

二级参考文献12

  • 1瞿贤,何品晶,邵立明,李国建.生物反应器填埋条件下垃圾生物质组分的初期降解规律[J].环境科学学报,2005,25(9):1219-1225. 被引量:16
  • 2Hartmaen HAhring B K. Strategies for the anaerobic digestion of the organic fraction of municipal solid waste: an overview [J]. Water Science and Technology, 2006,53(8):7-22.
  • 3Hansen T L, Jansen J l C, Spliid H, et al. Composition of source-sorted municipal organic waste collected in Danish cities [J]. Waste Management, 2007,27(4):510-5181
  • 4Davidsson A, Guruvberger C, Christensen T H, et al. Methane yield in source-sorted organic fraction of municipal solid waste [J]. Waste Management, 2007,27(3):406-414.
  • 5Eleazer W E, Odle W S, Wang Y S, et al. Biodegradability of municipal solid waste components in laboratory-scale landfills [J].Environmental Science and Technology, 1997,31:911-917.
  • 6He P J, Qu X, Shao L M, et al. Leachate pretreatment for enhancing organic matter conversion in landfill bioreactor [J]. Journal of Hazardous Materials, 2007,142(1/2):288-296.
  • 7Barlaz M A. Forest products decomposition in municipal solid waste landfills [J]; Waste Management, 2006,26(4):321-333.
  • 8Vavilin V A, Fernandez B, Palatsi J, et al. Hydrolysis kinetics in anaerobic degradation of particulate organic material: An overview [J]. Waste Management, 2007, doi:10.1016/j.wasman. 2007-03-28.
  • 9Vigneron V, Ponthieu M, Barina G, et al. Nitrate and nitrite injection during municipal solid waste anaerobic biodegradation [J]. Waste Management, 2007,27(6):778-791.
  • 10Barlaz M A, Schaefer D M Ham R K. Bacterial population development and chemical characteristics of refuse decomposition in a simulated sanitary landfill [J]. Applied and Environmental Microbiology, 1989,55(1):55-65.

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中国环境科学
2011年 第3期

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