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| Analysis Method and Case of Carbon Emission Assessment Based on Carbon Flow Analysis in Integrated Iron and Steel Industry |
| ZHANG Hui1,2,LI Hui-quan2,CHEN Bo2,TANG Qing2 |
1. Graduate University, Chinese Academy of Sciences, Beijing 100049, China
2. Institute of Process Engineering, Chinese Academy of Sciences, Beijing 100190, China |
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Abstract Iron and steel industry was the great energy consumption and carbon emission sector besides power generation, the relative carbon emission assessment method was attractive. Furthermore, mill level carbon emission assessment will not only propose the evaluation approach and also recommended the low carbon developing strategy for companies. A mill level carbon emission method based on carbon flow analysis was proposed. The method consists of carbon flow analysis, indies, algorithm and so on. Through a case study, the method was tested and verified. The case company discharges 1815.06kg for CO2. The carbon alleviating potential is 624.40kg under specific technology route.
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Received: 11 September 2012
Published: 27 February 2013
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| [1] |
殷瑞钰.关于高效率低成本洁净钢平台的讨论——21世纪钢铁工业关键技术之一[J]. [J].炼钢,2011,27((1)):-
|
| [1] |
殷瑞钰.关于高效率低成本洁净钢平台的讨论——21世纪钢铁工业关键技术之一[J]. [J].炼钢,2011,27((1)):-
|
| [2] |
IISI.Sustainability Report of the World Steel Industry[Z],2011. Brussels,2011
|
| [2] |
IISI.Sustainability Report of the World Steel Industry[Z],2011. Brussels,2011
|
| [3] |
张春霞,胡长庆,严定鎏,齐渊洪,陈丽云,张旭孝.温室气体和钢铁工业减排措施[J].中国冶金,2007,17(1):6-
|
| [3] |
张春霞,胡长庆,严定鎏,齐渊洪,陈丽云,张旭孝.温室气体和钢铁工业减排措施[J].中国冶金,2007,17(1):6-
|
| [4] |
Ranganathan J,Corbier L.,Bhatia P.,Schmitz S.,Gage P.,Oren K.. The Greenhouse Gas Protocol: A Corporate Accounting and Reporting Standard (Revised Edition)[J]. Washington,DC: World Resources Institute and World Business Council for Sustainable Development,[J].,2004,:-
|
| [4] |
Ranganathan J,Corbier L.,Bhatia P.,Schmitz S.,Gage P.,Oren K.. The Greenhouse Gas Protocol: A Corporate Accounting and Reporting Standard (Revised Edition)[J]. Washington,DC: World Resources Institute and World Business Council for Sustainable Development,[J].,2004,:-
|
| [5] |
Association W S. .CO2 Emissions Data Collection-UserGuide,Version 6[Z][J].,2011,:-
|
| [5] |
Association W S. .CO2 Emissions Data Collection-UserGuide,Version 6[Z][J].,2011,:-
|
| [6] |
Eggleston H.2006 IPCC Guidelines for National Greenhouse Gas Inventories[J].Forestry,2006,5(OVERVIEW):1-12
|
| [6] |
Eggleston H.2006 IPCC Guidelines for National Greenhouse Gas Inventories[J].Forestry,2006,5(OVERVIEW):1-12
|
| [7] |
上官方钦,张春霞,郦秀萍,樊波,黄导.关于钢铁行业 CO2 排放计算方法的探讨[J].钢铁研究学报,2010,(011):1-5
|
| [7] |
上官方钦,张春霞,郦秀萍,樊波,黄导.关于钢铁行业 CO2 排放计算方法的探讨[J].钢铁研究学报,2010,(011):1-5
|
| [8] |
韦保仁,八木田浩史.中国钢铁生产量及其能源需求和CO2排放量情景分析[J].冶金能源,2005,24(6):4-
|
| [8] |
韦保仁,八木田浩史.中国钢铁生产量及其能源需求和CO2排放量情景分析[J].冶金能源,2005,24(6):4-
|
| [9] |
白皓,刘璞,李宏煦,赵立华,苍大强.钢铁企业CO2排放模型及减排策略[J]. [J].北京科技大学学报,2010,32((12)):-
|
| [9] |
白皓,刘璞,李宏煦,赵立华,苍大强.钢铁企业CO2排放模型及减排策略[J]. [J].北京科技大学学报,2010,32((12)):-
|
| [10] |
黄志甲,丁晓,孙浩,刘思玥,刘颖昊,刘涛.基于LCA的钢铁联合企业CO_2排放影响因素分析[J].[J].环境科学学报,2010,30((2)):-
|
| [10] |
黄志甲,丁晓,孙浩,刘思玥,刘颖昊,刘涛.基于LCA的钢铁联合企业CO_2排放影响因素分析[J].[J].环境科学学报,2010,30((2)):-
|
| [11] |
冉锐,翁端.中国钢铁生产过程中的CO2排放现状及减排措施[J].科技导报,2006,24(10):4-
|
| [11] |
冉锐,翁端.中国钢铁生产过程中的CO2排放现状及减排措施[J].科技导报,2006,24(10):4-
|
| [12] |
上官方钦,张春霞,胡长庆,郦秀萍,周继程.中国钢铁工业的 CO2 排放估算[J].中国冶金,2010,(005):37-42
|
| [12] |
上官方钦,张春霞,胡长庆,郦秀萍,周继程.中国钢铁工业的 CO2 排放估算[J].中国冶金,2010,(005):37-42
|
| [13] |
黄和平,毕军,张炳,李祥妹,杨洁,石磊.物质流分析研究述评[J].[J].生态学报,,2007,1:-
|
| [13] |
黄和平,毕军,张炳,李祥妹,杨洁,石磊.物质流分析研究述评[J].[J].生态学报,,2007,1:-
|
| [14] |
OECD.Measuring material flows and resouce productivity[Z]. In synthesis report. Danvers,2008
|
| [14] |
OECD.Measuring material flows and resouce productivity[Z]. In synthesis report. Danvers,2008
|
| [15] |
胡长庆.物质流、能量流分析与新一代钢铁制造流程. [J].,2006.,:-
|
| [15] |
胡长庆.物质流、能量流分析与新一代钢铁制造流程. [J].,2006.,:-
|
| [16] |
张春霞,上官方钦,胡长庆,齐渊洪,殷瑞钰.钢铁流程结构及对CO2排放的影响[J]. 钢铁,2010,45(5)
|
| [16] |
张春霞,上官方钦,胡长庆,齐渊洪,殷瑞钰.钢铁流程结构及对CO2排放的影响[J]. 钢铁,2010,45(5)
|
| [17] |
张春霞,上官方钦,郦秀萍,樊波,黄导.关于钢铁行业 CO2 排放计算方法的探讨[J].钢铁研究学报,2010,22(11):1-1
|
| [17] |
张春霞,上官方钦,郦秀萍,樊波,黄导.关于钢铁行业 CO2 排放计算方法的探讨[J].钢铁研究学报,2010,22(11):1-1
|
| [18] |
Wang T.,Muller DB.,Graedel T. E. Forging the anthropogenic iron cycle[J].. Environmental Science & Technology,2007,41(14):5120-5129
|
| [18] |
Wang T.,Muller DB.,Graedel T. E. Forging the anthropogenic iron cycle[J].. Environmental Science & Technology,2007,41(14):5120-5129
|
| [19] |
Ariyama T.,Sato MOptimization of ironmaking process for reducing CO 2 emissions in the integrated steel works[J].. ISIJ international,2006,46(12):1736-1744
|
| [19] |
Ariyama T.,Sato MOptimization of ironmaking process for reducing CO 2 emissions in the integrated steel works[J].. ISIJ international,2006,46(12):1736-1744
|
| [20] |
殷瑞钰,张寿荣,张春霞.中国工程院咨询报告:关于我国主要流程工业CO2 排放的评估及对策报告[Z]. 北京: 中国工程院[J].,2008,:-
|
| [20] |
殷瑞钰,张寿荣,张春霞.中国工程院咨询报告:关于我国主要流程工业CO2 排放的评估及对策报告[Z]. 北京: 中国工程院[J].,2008,:-
|
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|
|
2013, Vol. 48 
