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有色金属行业作为行业碳排放大户,其降碳减排任务意义重大,在阐述碳排放核算的方法、步骤的基础上,结合铜、铝行业,以铜冶炼企业A和电解铝厂B为例,分别对铜、铝企业的碳排放量进行核算。结果表明,铜冶炼企业A每年碳排放量规模为16.2万t,电解铝企业B年碳排放量为414.07万t,在双碳战略目标下,提出了针对铜、铝领域新能源产业升级和产能结构转移等降碳减排策略。
Abstract:As a major carbon emitter in the non-ferrous metals industry, its task of carbon reduction and emission reduction is of great significance.On the basis of expounding the methods and steps of carbon emission accounting, combined with copper and aluminum industries, taking copper smelting enterprises A and electrolytic aluminum plants B as examples, the carbon emissions of copper and aluminum enterprises were calculated respectively.The results show that annual carbon emission of copper smelting enterprises A is 162 kt, and annual carbon emission of electrolytic aluminum enterprises B is 4 140.7 kt.Under the dual carbon strategic goal(carbon peak and carbon neutralization),carbon reduction and emission reduction strategies such as new energy industry upgrading and capacity structure transfer in the field of copper and aluminum are put forward.
[1] 王深,吕连宏,张保留,等.基于多目标模型的中国低成本碳达峰、碳中和路径[J].环境科学研究,2021,34(9):2044-2055.WANG S,LYU L H,ZHANG B L,et al.Low cost carbon peak and carbon neutral path in China based on multi-objective model[J].Environmental Science Research,2021,34(9):2044-2055.
[2] 徐振刚.中国现代煤化工近25年发展回顾、反思、展望[J].煤炭科学技术,2020,48(8):1-25.XU Z G.Review,rethink and prospect of China’s modern coal chemical industry development in recent 25 years[J].Coal Science and Technology 2020,48(8):1-25.
[3] 王一鸣.中国碳达峰碳中和目标下的绿色低碳转型:战略与路径[J].全球化,2021(6):5-18.WANG Y M.Green and low-carbon transition under the carbon neutral goal of China’s carbon peak:Strategy and path[J].Globalization,2021(6):5-18.
[4] 余碧莹,赵光普,安润颖,等.碳中和目标下中国碳排放路径研究[J].北京理工大学学报(社会科学版),2021,23(2):17-24.YU B Y,ZHAO G P,AN R Y,et al.Study on China’s carbon emission path under carbon neutrality target[J].Journal of Beijing Institute of Technology (Social Science Edition),2021,23(2):17-24.
[5] 苍大强.钢铁工业“碳达峰”“碳中和”及低碳技术的误区及现实路径[J].中国冶金,2021,31(9):3-8.CANG D Q.Mistakes and realistic paths of “carbon peak”,“carbon neutral” and low carbon technology in iron and steel industry[J].China Metallurgy,2021,31(9):3-8.
[6] 上官方钦,刘正东,殷瑞钰.钢铁行业“碳达峰”“碳中和”实施路径研究[J].中国冶金2021,31(9):15-20.SHANGGUAN F Q,LIU Z D,YIN R Y.Research on implementation path of “carbon peak” and “carbon neutral” in iron and steel industry[J].China Metallurgy,2021,31(9):15-20.
[7] 刘诚,陈瑞英,王满仓,等.铜冶炼能耗核算与碳排放量核算差异性和相关性分析[J].中国有色冶金,2021,50(4):1-6.LIU C,CHEN R Y,WANG M C,et al.Analysis of difference and correlation between copper smelting energy consumption accounting and carbon emission accounting[J].China Nonferrous Metallurgy,201,50(4):1-6.
[8] 倪阳.拜耳法生产氧化铝过程的碳排放核算[J].轻金属,2021(7):4-8.NI Y.Carbon emission accounting of alumina production process by Bayer process[J].Light Metals,2021(7):4-8.
[9] 卢浩浩,王婉君,戴敏,等.中国铝生命周期能耗与碳排放的情景分析及减排对策[J].中国环境科学,2021,41(1):21-30.LU H H,WANG W J,DAI M,et al.Scenario analysis of aluminum life cycle energy consumption and carbon emission in China and countermeasures for emission reduction[J].China Environmental Science,2021,41(1):21-30.
[10] 国家发展和改革委员会.中国发电企业温室气体排放核算方法与报告指南(试行)[R/OL].[2021-11-10].http://www.cqjnw.org/article.php?id=12265.National Development and Reform Commission.Greenhouse Gas Emission Accounting method and Reporting Guide for Chinese Power Generation Enterprises (Trial)》[R/OL].[2021-11-10].http://www.cqjnw.org/article.php?id=12265.
[11] 邵朱强,杨云博.有色金属行业技术进步对碳排放的影响分析[C]//中国科学技术协会,天津市人民政府.第十三届中国科协年会第7分会场:实现“2020年单位GDP二氧化碳排放强度下降40%~45%”的途径研讨会论文集.天津,2011:5.SHAO Z Q,YANG Y B.Analysis of the impact of technological progress on carbon Emissions in non-ferrous metal industry[C]//China Association for Science and Technology,Tianjin Municipal People’s Government.The 7th Session of the 13th Annual Conference of China Association for Science and Technology:Symposium on Ways to Achieve “Carbon Dioxide Emission Intensity Per Unit of GDP by 40%—45% in 2020”.China Association for Science and Technology,Tianjin,2011:5.
[12] 黄世鑫.焦作万方公司金属铝期货套期保值方案研究[D].辽宁大连:大连理工大学,2021.HUANG S X.Research on hedging scheme of metal and aluminum futures of Jiaozuo Wanfang Company[D].Dalian:Dalian University of Technology,2021.
[13] 邱竹贤.铝电解原理与应用[M].北京:中国矿业大学出版社,1998.QIU Z X.Principle and Application of Aluminum Electrolysis[M].Beijing:China University of Mining and Technology Press,1998.
[14] 赵秀富.碳达峰、碳中和电解铝如何“火中取栗”[J].中国有色金属,2021(8):57.ZHAO X F.How about peak,carbon neutralization and electrolytic aluminum gain profit in risk[J].China Nonferrous Metals,2021(08):57.
[15] 《甘肃省高耗能行业执行差别电价管理办法,甘发改产业规[2021]47号》,《内蒙古自治区发展改革委工信厅关于调整部分行业电价政策和电力市场交易政策的通知,内发改价费字[2021]115号》.《Implementation of Differential Electricity Price Management Measures for Energy-consuming Industries in Gansu Province,Gan Fa Reform Industry Regulation (2021) No.47》,《Notice of Industry Information Department of Development and Reform Commission of Inner Mongolia Autonomous Region on Adjustment of Price Policies for Some Industries and Power Market Transaction Policies,in Fa Reform Price Zi (2021) No.115》.
[16] 东方证券.有色金属行业风电和新能源车篇:有色碳中和①新能源新动能,铜、稀土将迎需求成长[R/OL].[2021-12-10].http://www.nxny.com/report/view_4616141.html.Orient Securities.Wind power and new energy vehicles in non-ferrous metal industry:Non-ferrous carbon neutralization ① New energy and new driving force,copper and rare earth will meet demand growth[R/OL].[2021-12-10].http://www.nxny.com/report/view_4616141.html.
[17] 东方证券.有色金属行业光伏和储能篇:有色碳中和②新能源新动能,2025年或将拉动铜需求7%[R/OL].[2021-12-10].https://data.eastmoney.com/report/zw_industry.jshtml?infocode=AP202104091482921754.Orient Securities.Photovoltaic and energy storage in nonferrous metals industry:Non-ferrous carbon neutralization ② New energy and new kinetic energy,which may drive copper demand by 7% in 2025"[R/OL].[2021-12-10].https://data.eastmoney.com/report/zw_industry.jshtml?infocode=AP202104091482921754.
[18] 澎湃新闻.国家电网超2万亿元投向电网转型升级,释放了哪些信号?[EB/OL].[2021-12-10].https://baijiahao.baidu.com/s?id=1710741268759345206&wfr=spider&for=pc.The Paper.cn.What signals have been released when the State Grid Corporation of China invested more than 2 trillion Yuan in the transformation and upgrading of the power grid?[EB/OL].[2021-12-10].https://baijiahao.baidu.com/s?id=1710741268759345206&wfr=spider&for=pc.
[19] 国家电网有限公司.国家电网有限公司2020社会责任报告[R].北京:国家电网有限公司,2021.State Grid Corporation of China.State Grid Corporation of China 2020 Social Responsibility Report[R].Beijing:State Grid Corporation of China,2021.
[20] 王祝堂.国际铝协称:2018年温室气体排放11亿吨,2050年应下降到2.5亿吨[J].轻金属,2021(7):62.WANG Z T.Greenhouse gas emissions of 1.1 billion tons in 2018 should be reduced to 250 million tons in 2050,according to the International Aluminum Association[J].Light metals,2021(7):62.
[21] 杜心,谢文俊,王世兴.我国铝行业碳达峰碳中和路径研究[J].有色冶金节能,2021,37(4):1-4.DU X,XIE W J,WANG S X.Technical path to achieve carbon peak and carbon neutralization in China’s aluminum industry[J].Energy Saving of Non-ferrous Metallurgy,2021,37(4):1-4.
[22] 《节能与新能源汽车技术路线2.0》正式发布[J].信息技术与标准化,2020(11):6.Energy saving and new energy vehicle technology route 2.0 was officially released[J].Information Technology & Standardization,2020(11):6.
基本信息:
中图分类号:X322
引用信息:
[1]王威,吴晶晶,葛亚平,等.双碳背景下碳排放核算法及策略分析——以铜铝行业为例[J].有色金属(冶炼部分),2022(04):1-11.
基金信息:
国家自然科学基金资助项目(11971236); 江苏高校哲学社会科学研究项目(2020SJA11635); 南通理工学院中青年骨干教师项目(ZQNGGJS202135); 江苏省“十四五”工商管理重点建设学科项目(SJYH2022-2/285)
2021-12-31
2021-12-31
2021-12-31