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Carbon peak and low-carbon transition path of China's iron and steel industry |
ZHANG Qi1,2,3, SHEN Jia-lin1, XU Li-song1 |
1. State Environment Protection Key Laboratory of Eco-Industry, Northeastern University, Shenyang 110819, Liaoning, China; 2. Institute for Frontier Technologies of Low-Carbon Steelmaking, Northeastern University, Shenyang 110819, Liaoning, China; 3. Liaoning Province Engineering Research Center for Technologies of Low-Carbon Steelmaking, Shenyang 110819, Liaoning, China |
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Abstract In 2020,China announced that it will increase its nationally determined contributions and strive to reach the peak of CO2 emissions by 2030. As a typical resource- and energy-intensive industry,the iron and steel industry is an important industry that takes the lead in achieving carbon peaks. Here, the influences of steel production,production structure,energy conservation and emission reduction technologies,and carbon tax on the carbon emissions of China's iron and steel industry were analyzed. That different steel production peak times will have different effects on the iron and steel industry's carbon peak,and technologies and production structure factors will have an important impact on China's iron and steel industry. The region is the main body responsible for implementing the national carbon peak task. The carbon emissions of four key areas(Beijing-Tianjin-Hebei and surrounding areas,the Yangtze River Delta region,the Fenwei Plain and the Guangdong and Guangxi regions) with different steel production characteristics were analyzed,which is necessary to speed up the formulation of the regional peaking plan. To formulate a low-carbon transformation path for the iron and steel industry(in terms of adjusting the industrial structure,promoting low-carbon technologies,changing the energy structure,promoting inter-industry coupling,and strengthening carbon asset management) is of great significance to achieving the early peak of carbon emissions and carbon neutrality in China's iron and steel industry.
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Received: 14 April 2021
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[1] 王灿,张雅欣. 碳中和愿景的实现路径与政策体系[J]. 中国环境管理,2020,12(6):58.(WANG Can,ZHANG Ya-xin. Implementation pathway and policy system of carbon neutrality vision[J]. Chinese Journal of Environmental Management,2020,12(6):58.) [2] 田伟健,李辉,全魁,等. 长流程钢铁企业的碳代谢模型与碳排放分析[J]. 冶金能源,2020,39(1):3.(TIAN Wei-jian,LI Hui,QUAN Kui,et al. Carbon metabolism model and carbon emission analysis of the integrated iron and steel enterprises[J]. Energy for Metallurgical Industry,2020,39(1):3.). [3] 李新创,李冰,霍咚梅,等. 推进中国钢铁行业低碳发展的碳排放标准思考[J]. 中国冶金,2021,31(6):1.(LI Xin-chuang,LI Bing,HUO Dong-mei,et al. Concerns on drafting carbon emission standard for improvement of China's iron and steel industry with sustainable development[J]. China Metallurgy,2021,31(6):1.) [4] 世界钢铁协会. 世界钢铁统计数据2020[EB/OL]. https://www.worldsteel.org/steel-by-topic/statistics/World-Steel-in-Figures.html. [2021-03-05]. (World Steel Association. World steel in figures 2020[EB/OL]. https://www.worldsteel.org/steel-by-topic/statistics/World-Steel-in-Figures.html. [2021-03-05].) [5] 冶金工业规划研究院. 中国钢铁工业节能低碳发展报告[EB/OL]. https://www.miit.gov.cn/jgsj/jns/nyjy/art/2020/art_11d7ef84eda8411aab4e9160ae2efb15.html. [2020-12-25]. (Metallurgical Industry Planning and Research Institute. Energy saving and low carbon development report of China's iron and steel industry[EB/OL]. https://www.miit.gov.cn/jgsj/jns/nyjy/art/2020/art_11 d7ef84eda8411aab4e9160ae2efb15.html. [2020-12-25].) [6] 何文波. 坚持创新引领 全面推进钢铁工业高质量发展[J]. 冶金企业文化,2020(5):8.(HE Wen-bo. Insist on innovation and lead to fully promote high quality development of iron and steel industry[J]. Metallurgical Enterprise Culture,2020(5):8.) [7] 聂海亮. 关于推进钢铁行业绿色高质量发展的建议[J]. 中国能源,2021,43(1):39.(NIE Hai-liang. Suggestions on promoting green and high quality development of steel industry[J]. Energy of China,2021,43(1):39.) [8] 胡鞍钢. 中国实现2030年前碳达峰目标及主要途径[J]. 北京工业大学学报(社会科学版),2021,21(3):1.(HU An-gang. China's goal of achieving carbon peak by 2030 and its main approaches[J]. Journal of Beijing University of Technology(Social Sciences),2021,21(3):1.) [9] 张雅欣,罗荟霖,王灿. 碳中和行动的国际趋势分析[J]. 气候变化研究进展,2021,17(1):88.(ZHANG Ya-xin,LUO Hui-lin,WANG Can. Progress and trends of global carbon neutrality pledges[J]. Climate Change Research,2021,17(1):88.) [10] 项目综合报告编写组. 《中国长期低碳发展战略与转型路径研究》综合报告[J]. 中国人口·资源与环境,2020,30(11):1.(Project Comprehensive Report Writing Group. Comprehensive report of "Research on China's long-termlow-carbon development strategy and transformation path"[J]. China Population,Resources and Environment,2020,30(11):1.) [11] 袁晓玲,郗继宏,李朝鹏,等. 中国工业部门碳排放峰值预测及减排潜力研究[J]. 统计与信息论坛,2020,35(9):72.(YUAN Xiao-ling,XI Ji-hong,LI Zhao-peng,et al. A study on carbon emission peak forecast and emission reduction potential of China's industrial sector[J]. Journal of Statistics and Information,2020,35(9):72.) [12] 张琦,张薇,王玉洁,等. 中国钢铁工业节能减排潜力及能效提升途径[J]. 钢铁,2019,54(2):7.(ZHANG Qi,ZHANG Wei,WANG Yu-jie,et al. Potential of energy saving and emission reduction improvement of China's iron and steel industry[J]. Iron and Steel,2019,54(2):7.) [13] Elzen M D,Fekete H,Höhne N,et al. Greenhouse gas emissions from current and enhanced policies of China until 2030:Can emissions peak before 2030?[J]. Energy Policy,2016,89:224. [14] 李新创,李冰. 全球温控目标下中国钢铁工业低碳转型路径[J]. 钢铁,2019,54(8):224.(LI Xin-chuang,LI Bing. Low carbon transition path of China's iron and steel industry under global temperature-control target[J]. Iron and Steel,2019,54(8):224.) [15] 王国栋,储满生. 低碳减排的绿色钢铁冶金技术[J]. 科技导报,2020,38(14):68.(WANG Guo-dong,CHU Man-sheng. Green steelmaking technology with low carbon emission[J]. Science and Technology Review,2020,38(14):68.) [16] 马骥涛,黄桂田. 中国钢铁行业完全能源消耗研究[J]. 价格理论与实践,2018(4):17.(MA Ji-tao, HUANG Gui-tian. Research on complete energy consumption in China's steel industry[J]. Price:Theory and Practice,2018(4):17.) [17] 刘宏强,付建勋,刘思雨,等. 钢铁生产过程二氧化碳排放计算方法与实践[J]. 钢铁,2016,51(4):74.(LIU Hong-qiang,FU Jian-xun,LIU Si-yu,et al. Calculation methods and application of carbon dioxide emission during steel-making process[J]. Iron and Steel,2016,51(4):74.) [18] Ho M T,Bustamante A,Wiley D E. Comparison of CO2 capture economics for iron and steel mills[J]. International Journal of Greenhouse Gas Control,2013,19:145. [19] 张利娜,李辉,程琳,等. 国外钢铁行业低碳技术发展概况[J]. 冶金经济与管理,2018(5):30.(ZHANG Li-na,LI Hui,CHENG Lin,et al. Overview of the low carbon technology development in foreign steel industry[J]. Metallurgical Economy and Management,2018(5):30.) [20] 李新创. 新时代钢铁工业高质量发展之路[J]. 钢铁,2019,54(1):1.(LI Xin-chuang. Road map to high-quality development of iron and steel industry in new age[J]. Iron and Steel,2019,54(1):1.) [21] ZHANG Q,XU J,WANG Y,et al. Comprehensive assessment of energy conservation and CO2 emissions mitigation in China's iron and steel industry based on dynamic material flows[J]. Applied Energy,2018,209:251. [22] Wang P,Li W,Kara S. Cradle-to-cradle modeling of the future steel flow in China[J]. Resources,Conservation and Recycling,2017,117:45. [23] MA D,CHEN W,YIN X,et al. Quantifying the co-benefits of decarbonisation in China's steel sector:An integrated assessment approach[J]. Applied Energy,2016,162:1225. [24] Li Z,Hanaoka T. Development of large-point source emission downscale model by estimating the future capacity distribution of the Chinese iron and steel industry up to 2050[J]. Resources,Conservation and Recycling,2020,161:104853. [25] 国家发展与改革委员会. 国家重点节能技术推广目录(第六批)[EB/OL]. https://www.ndrc.gov.cn/fggz/hjyzy/jnhnx/201312/t20131217_1134077.html. [2013-12-17].(Development and Reform Commission. National key energy-saving technology promotion catalog(sixth batch)[EB/OL]. https://www.ndrc.gov.cn/fggz/hjyzy/jnhnx/201312/t20131217_1134077.html. [2013-12-17].) [26] 国家发展与改革委员会. 国家重点节能低碳技术推广目录:2016年本[EB/OL]. https://www.ndrc.gov.cn/xxgk/zcfb/gg/201701/t20170119_961173.html. [2017-01-19]. (Development and Reform Commission. National key energy-saving and low-carbon technology promotion catalog: 2016 edition[EB/OL]. https://www.ndrc.gov.cn/xxgk/zcfb/gg/201701/t20170119_961173.html. [2017-01-19].) [27] 徐向阳,任明,高俊莲. 京津冀钢铁行业节能、SO2、NOx、PM2.5和水协同控制[J]. 中国环境科学,2018,38(8):3160.(XU Xiang-yang,RENG Ming,GAO Jun-lian. Co-control of energy,SO2,NOx,PM2.5,and water in the iron and steel industry in the Beijing-Tianjin-Hebei region[J]. China Environmental Science,2018,38(8):3160.) [28] 张琦,王小壮,许立松,等. 钢铁流程资源-能源-碳排放耦合关系及分析[J]. 钢铁,2020,55(10):103.(ZHANG Qi,WANG Xiao-zhuang,XU Li-song,et al. Analysis on coupling relationship of resources-energy-carbon emissions in steel production[J]. Iron and Steel,2020,55(10):103.) [29] ZHANG Q,WANG Y,ZHANG W,et al. Energy and resource conservation and air pollution abatement in China's iron and steel industry[J]. Resources,Conservation and Recycling,2019,147:67. [30] 经济观察报. 钢铁行业规划2025年碳达峰:相关行动方案正在编制[N]. https://baijiahao.baidu.com/s?id=1694851533517430348&wfr=spider&for=pc.[2021-03-21].(Economic Observer. The steel industry plans to peak carbon in 2025:relevant action plans are being prepared[N]. https://baijiahao.baidu.com/s?id=1694851533517430348&wfr=spider&for=pc.[2021-03-21].) [31] 中国青年报. 加快实现碳排放达峰 推动经济高质量发展[N]. https://baijiahao.baidu.com/s?id=1687926406827317654&wfr=spider&for=pc. [2021-01-14].(China Youth Daily. Accelerate the achievement of peak carbon emissions and promote high-quality economic development[N]. https://baijiahao.baidu.com/s?id=1687926406827317654&wfr=spider&for=pc.[2021-01-14].) [32] 黄维,邢娜,曲余玲,等. 钢铁产能置换政策及其对行业的影响[J]. 冶金经济与管理,2020(3):12.(HUANG Wei,XING Na,QU Yu-ling,et al. The policy of steel capacity replacement and its impact on the industry[J]. Metallurgical Economics and Management,2020(3):12.) [33] 工业和信息化部. 第一批符合《钢铁行业规范条件》企业公示[EB/OL]. http://www.gov.cn/zwgk/2013-05/03/content_2394966.htm..(2013-04-23)[2020-12-15].(Ministry of Industry and Information Technology. Announcement of the first batch of companies that meet the “Regulations and conditions for the iron and steel industry”[EB/OL]. http://www.gov.cn/zwgk/2013-05/03/content_2394966.htm.(2013-04-23)[2020-12-15].) [34] 工业和信息化部. 符合《钢铁行业规范条件》企业名单(第二批)[EB/OL]. https://www.miit.gov.cn/zwgk/zcwj/wjfb/gg/art/2020/art_e692b6e744ac46058a030e4c8489c370.html.(2014-01-03)[2020-12-15]. (Ministry of Industry and Information Technology. List of companies that meet the “Regulations and conditions for the iron and steel industry” (the second batch)[EB/OL]. https://www.miit.gov.cn/zwgk/zcwj/wjfb/gg/art/2020/art_e692b6e744ac46058a030e4c8489c370.html.(2014-01-03)[2020-12-15].) [35] 工业和信息化部. 符合《钢铁行业规范条件》企业名单(第三批)[EB/OL]. https://www.miit.gov.cn/zwgk/zcwj/wjfb/gg/art/2020/art_7ee11169a8584452b432f19ca3b4efdc.html.(2014-11-25)[2020-12-15]. (Ministry of Industry and Information Technology. List of companies that meet the "Regulations and conditions for the iron and steel industry" (the third batch)[EB/OL]. https://www.miit.gov.cn/zwgk/zcwj/wjfb/gg/art/2020/art_7ee11169a8584452b432f19ca3b4efdc.html.(2014-11-25)[2020-12-15].) [36] 工业和信息化部. 符合《钢铁行业规范条件》企业名单(第四批)[EB/OL]. https://www.miit.gov.cn/jgsj/ycls/gzdt/art/2020/art_aa011b9bcc2b4b33981b3eeb711cddeb.html.(2019-04-03)[2020-12-15]. (Ministry of Industry and Information Technology. List of companies that meet the "Regulations and conditions for the iron and steel industry" (the fourth batch)[EB/OL]. https://www.miit.gov.cn/jgsj/ycls/gzdt/art/2020/art_aa011b9bcc2b4b33981b3eeb711cddeb.html.(2019-04-03)[2020-12-15].) [37] 工业和信息化部. 符合《钢铁行业规范条件》企业名单(第五批)[EB/OL]. https://www.miit.gov.cn/jgsj/ycls/wjfb/art/2020/art_ca21e93def5b4519bba9e0dd2d580f49.html.(2020-05-15)[2020-12-15]. (Ministry of Industry and Information Technology. List of companies that meet the "Regulations and conditions for the iron and steel industry" (the fifth batch)[EB/OL]. https://www.miit.gov.cn/jgsj/ycls/wjfb/art/2020/art_ca21e93def5b4519bba9e0dd2d580f49.html.(2020-05-15)[2020-12-15].) [38] 刘贵利,江河. 坚持保护优先 护航“三区”高质量发展[J]. 环境保护,2021,49(s1):70.(LIU Gui-li,JIANG He. Adhering to the priority of protection to ensure high-quality development of "Three Zones"[J]. Environmental Protection,2021,49(s1):70.) [39] 工业和信息化部. 关于推动钢铁工业高质量发展的指导意见(征求意见稿)[EB/OL]. https://www.miit.gov.cn/jgsj/ycls/gzdt/art/2020/art_8fc2875eb24744f591bfd946c126561f.html. [2020-12-31].(Ministry of Industry and Information Technology. Guiding opinions on promoting the high-quality development of the iron and steel industry(draft for solicitation of comments)[EB/OL]. https://www.miit.gov.cn/jgsj/ycls/gzdt/art/2020/art_8fc2875eb24744f591bfd946c126561f.html. [2020-12-31].) [40] 上官方钦,郦秀萍,周继程,等. 中国废钢资源发展战略研究[J]. 钢铁,2020,55(6):8.(SHANGGUAN Fang-qin,LI Xiu-ping,ZHOU Ji-cheng,et al. Strategic research on development of steel scrap resources in China[J]. Iron and Steel,2020,55(6):8.) [41] 严珺洁. 超低二氧化碳排放炼钢项目的进展与未来[J]. 中国冶金,2017,27(2):6.(YAN Jun-jie. Progress and future of ultra-low CO2 steel making program[J]. China Metallurgy,2017,27(2):6.) [42] 孟翔宇,顾阿伦,邬新国,等. 中国氢能产业高质量发展前景[J]. 科技导报,2020,38(14):77.(MENG Xiang-yu,GU A-lun,WU Xin-guo,et al. Prospect of high quality development of hydrogen energy industry in China[J]. Science and Technology Review,2020,38(14):77.) [43] 张春霞,上官方钦,郦秀萍,等. 中美钢铁工业能效对标研究[J]. 钢铁,2013,48(1):87.(ZHANG Chun-xia,SHANGGUAN Fang-qin,LI Xiu-ping,et al. Study on energy efficiency benchmarking of the steel industry between China and the U.S.[J]. Iron and Steel,2013,48(1):87.) [44] 李云. 废钢铁在钢铁行业中应用前景研究[J]. 再生资源与循环经济,2020,13(1):23.(LI Yun. Research on the application prospect of steel scrap in iron and steel industry[J]. Recyclable Resources and Circular Economy,2020,13(1):23.) [45] IEA. Iron and steel technology roadmap[R]. IEA,2020. https://www.iea.org/reports/iron-and-steel-technology-roadmap. [46] 张琦,刘帅,徐化岩,等. 钢铁企业智慧能源管控系统开发与实践[J]. 钢铁,2019,54(10):125.(ZHANG Qi,LIU Shuai,XU Hua-yan,et al. Development and practice of smart energy management and control system in iron and steel works[J]. Iron and Steel,2019,54(10):125.) [47] 郭玉华,周继程. 中国钢化联产发展现状与前景展望[J]. 中国冶金,2020,30(7):5.(GUO Yu-hua,ZHOU Ji-cheng. Current situation and future outlook of steel chemical co-production in China[J]. China Metallurgy,2020,30(7):5.) [48] 李雅琦,宋旭锋,高清霞. 中国碳排放交易市场发展现存问题及建设建议[J]. 环境与可持续发展,2018,43(3):95.(LI Ya-qi,SONG Xu-feng,GAO Qing-xia. Problems and suggestions in the development of carbon emissions trading market in China[J]. Environment and Sustainable Development,2018,43(3):95.) [49] 温素彬,石路凤,陈晨. 碳资产管理绩效评价及其在企业的应用[J]. 会计之友,2017(14):132.(WEN Su-bin,SHI Lu-feng,CHEN Chen. Carbon asset management performance evaluation and its application in enterprises[J]. Friends of Accounting,2017(14):132.) |
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