VISUAL ANALYSIS OF CARBON EMISSION IN IRON & STEEL INDUSTRY BASED ON CITESPACE
-
摘要: 基于“Web of Science核心合集”(SCIE)数据库文献,运用可视化软件CiteSpace对1991—2021年钢铁行业碳排放相关文献的发文机构、作者、关键词等进行可视化分析,探析其研究特征及发展脉络,以期为中国未来的钢铁行业碳排放研究及实践提供参考。研究表明:1)以中、美、英、日等国为核心的科研力量为该领域研究贡献了主要的科研成果;2)研究热点方向可主要归纳为气候变化、生产技术和未来情景分析三大导向;3)钢铁行业碳排放研究脉络由理论框架和因素分析逐渐演变为研究背景和数据导向的计量实证分析。Abstract: Based on the Web of Science Core Collection(SCIE) database, this paper used the visualization software CiteSpace to conduct a visual analysis of the publishing organizations, authors, keywords, etc. of the documents related to carbon emissions in iron & steel industry from 1991 to 2021, to explore the research characteristics and development context, and to provide reference for the research and practice of carbon emissions in iron & steel industry in China in the future. The results showed that: 1) the scientific research forces cored by China, the United States, the United Kingdom and Japan, etc., contributed the main research achievements in this field; 2) The research hotspots could be mainly summarized as follows: climate change, production technology and future scenario analysis; 3) The research context of carbon emissions in iron & steel industry gradually evolved from theoretical framework and factor analysis to research background and data-oriented empirical analysis.
-
Key words:
- steel industry /
- carbon dioxide emissions /
- CiteSpace /
- development context /
- research hotspots
-
[1] STOCKER T.Climate change 2013:the physical science basis:working Group Ⅰ contribution to the fifth assessment report of the intergovernmental panel on climate change[R].Cambridge:Cambridge University Press,2014. [2] 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).https://doi.org/10.15918/j.jbitss1009-3370.2021.7380. [3] 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):72-82. [4] TALAEI A,AHIDUZZAMAN M,DAVIS M,et al.Potential for energy efficiency improvement and greenhouse gas mitigation in Canada’s iron and steel industry[J].Energy Efficiency,2020,13:1213-1243. [5] BP公司.BP世界能源统计年鉴[EB/OL].https://www.bp.com/home/news/statistical-review-2019.html. [6] WANG K,CHE L N,MA C B,et al.The shadow price of CO2 emissions in China’s iron and steel industry[J].Science of the Total Environment,2017,598:272-281. [7] ZHANG Q,XU J,WANG Y J,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,2018,209:251-265. [8] XU R J,XU L,XU B.Assessing CO2,emissions in China’s iron and steel industry:evidence from quantile regression approach[J].Journal of Cleaner Production,2017,152:259-270. [9] 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):1-15. [10] 杨楠,李艳霞,吕晨,等.唐山市钢铁行业碳排放核算及达峰预测[J].环境工程,2020,38(11):44-52. [11] 李杰,陈超美.CiteSpace科技文本挖掘及可视化[M].北京:首都经济贸易大学出版社,2016. [12] CHEN C M.CiteSpace Ⅱ:detecting and visualizing emerging trends and transient patterns in scientific literature[J].Journal of the American Society for Information Science and Technology,2006,57:359-377. [13] GRETZ J,KORF W,LYONS R.Hydrogen in the steel-industry[J].International Journal of Hydrogen Energy,1991,16:691-693. [14] PENG J Y,XIE R,LAI M Y.Energy-related CO2 emissions in the China’s iron and steel industry:a global supply chain analysis[J].Resources Conservation and Recycling,2018,129:392-401. [15] GRETZ J,DROLET B,KLUYSKENS D,et al.Status of the hydro-hydrogen pilot project(EQHHPP)[J].International Journal of Hydrogen Energy,1994,19:169-174. [16] AKIMOTO H,NARITA H.Distribution of SO2,NOx and CO2 emissions from fuel combustion and industrial activities in Asia with 1-degrees-X1-degrees resolution[J].Atmospheric Environment,1994,28:213-225. [17] SUZUKI M,OKA T,OKADA K.The estimation of energy-consumption and CO2 emission due to housing construction in Japan[J].Energy and Buildings,1995,22:165-169. [18] ABDELAZIZ O Y,HOSNY W M,GADALLA M A.Novel process technologies for conversion of carbon dioxide from industrial flue gas streams into methanol[J].Journal of CO2 Utilization,2017,21:52-63. [19] WEI Y M,LIAO H,FAN Y.An empirical analysis of energy efficiency in China’s iron and steel sector[J].Energy,2007,32:2262-2270. [20] LIN B Q,ZHANG Z H,GE F.Energy Conservation in China’s Cement Industry[J].Sustainability,2017,9(4):668. [21] LIN B Q,XU B.Growth of industrial CO2 emissions in Shanghai city:evidence from a dynamic vector auto regression analysis[J].Energy,2018,151:167-177. [22] LIN B Q,XU B.Which provinces should pay more attention to CO2 emissions?Using the quantile regression to investigate China’s manufacturing industry[J].Journal of Cleaner Production,2017,164:980-993. [23] KARLSSON I,ROOTZEN J,TOKAROVA A,et al.Roadmap for decarbonization of the building and construction industry:a supply chain analysis including primary production of steel and cement[J].Energies,2020,13(16):4136. [24] JOHNSSON F,NORMANN F,SVENSSON E.Marginal abatement cost curve of industrial CO2 capture and storage:a swedish case study[J].Frontiers in Energy Research,2020,8:12. [25] JOHNSSON F,KARLSSON I,ROOTZEN J,et al.The framing of a sustainable development goals assessment in decarbonizing the construction industry:avoiding “Greenwashing”[J].Renewable & Sustainable Energy Reviews,2020,131:110029. [26] HASANBEIGI A,MORROW W,SATHAYE J,et al.A bottom-up model to estimate the energy efficiency improvement and CO2 emission reduction potentials in the Chinese iron and steel industry[J].Energy,2013,50:315-325. [27] CHEN W Y,YIN X,MA D.A bottom-up analysis of China’s iron and steel industrial energy consumption and CO2 emissions[J].Applied Energy,2014,136:1174-1183. [28] XU B,LIN B Q.Assessing CO2 emissions in China’s iron and steel industry:a dynamic vector autoregression model[J].Applied Energy,2016,161:375-386. [29] ARENS M,WORRELL E,EICHHAMMER W,et al.Pathways to a low-carbon iron and steel industry in the medium-term-the case of Germany[J].Journal of Cleaner Production,2016,163:84-98. [30] WEN Z G,MENG F X,CHEN M.Estimates of the potential for energy conservation and CO2 emissions mitigation based on Asian-Pacific Integrated Model (AIM):the case of the iron and steel industry in China[J].Journal of Cleaner Production,2014,65:120-130. [31] MOUSA E,WANG C,RIESBECK J,et al.Biomass applications in iron and steel industry:an overview of challenges and opportunities[J].Renewable and Sustainable Energy Reviews,2016,65:1247-1266. [32] KURAMOCHI T.Assessment of midterm CO2 emissions reduction potential in the iron and steel industry:a case of Japan[J].Journal of Cleaner Production,2015,132:81-97. [33] 石京民,李健.基于CiteSpace的国内外企业社会责任研究比较分析[J].北京理工大学学报(社会科学版),2019,21(1):65-73. [34] 李兴源,陈业华.基于CiteSpace的国内社会科学研究中熵的应用分析[J].科技管理研究,2018(13):259-266. [35] CHISALITA D A,PETRESCU L,COBDEN P,et al.Assessing the environmental impact of an integrated steel mill with post-combustion CO2 capture and storage using the LCA methodology[J].Journal of Cleaner Production,2019,211:1015-1025. [36] HOLAPPA L.A general vision for reduction of energy consumption and CO2 emissions from the steel industry[J].Metals,2020,10(9):1117. [37] SAHOO M,SARKAR S,DAS A C R,et al.Role of scrap recycling for CO2 emission reduction in steel plant:a model based approach[J].Steel Research International,2019,90(8):1900034. [38] BACHNER G,MAYER J,STEININGER K W,et al.Uncertainties in macroeconomic assessments of low-carbon transition pathways-The case of the European iron and steel industry[J].Ecological Economics,2020,172:106631. [39] LU C,LI W,GAO S B.Driving determinants and prospective prediction simulations on carbon emissions peak for China’s heavy chemical industry[J].Journal of Cleaner Production,2020,251:119642. [40] WEI P B,CUI H R,GANG M Q.Scenario analysis of energy conservation and CO2 emissions reduction policies in China’s iron and steel sector[J].Polish Journal of Environmental Studies,2017,26(5):2307-2317. [41] 陈悦,陈超美,刘则渊,等.CiteSpace知识图谱的方法论功能[J].科学学研究,2015(2):242-253. [42] WALSH J H.Making better use of carbon.1.the carbon-dioxide problem and the steel-industry[J].Cim Bulletin,1992,85:164-169. [43] SHEINBAUM C,RODRIGUEZ L.Recent trends in Mexican industrial energy use and their impact on carbon dioxide emissions[J].Energy Policy,1997,25:825-831. [44] GONZALEZ D,MARTINEZ M.Decomposition analysis of CO2 emissions in the Mexican industrial sector[J].Energy for Sustainable Development,2012,16(2):204-215. [45] LONG W Q,WANG S S,LU C Y,et al.Quantitative assessment of energy conservation potential and environmental benefits of an iron and steel plant in China[J].Journal of Cleaner Production,2020,273:123163. [46] YU B,LI X,SHI L,et al.Quantifying CO2 emission reduction from industrial symbiosis in integrated steel mills in China[J].Journal of Cleaner Production,2015,103:801-810. [47] WANG X E,LUAN T Y,CHEN Y Z,et al.Research on the evaluation pattern and method of the energy conservation and emission reduction effects of waste resources recycling based on life cycle assessment:a case study of an iron and steel industry enterprise in Jilin Province[J].China Population Resources and Environment,2019,26(10):69-77. [48] TANZER S E,BLOK K,RAMIREZ A.Can bioenergy with carbon capture and storage result in carbon negative steel?[J].International Journal of Greenhouse Gas Control,2020,100:103104. [49] OSTOVARI H,STERNBERG A,BARDOW A.Rock ‘n’ use of CO2:carbon footprint of carbon capture and utilization by mineralization[J].Sustainable Energy & Fuels,2020,4(9):4482-4496. [50] MELE M,MAGAZZINO C.A Machine Learning analysis of the relationship among iron and steel industries,air pollution,and economic growth in China[J].Journal of Cleaner Production,2020,277:123293. [51] BAINS P,PSARRAS P,WILCOX J.CO2 capture from the industry sector[J].Progress in Energy and Combustion Science,2017,63:146-172. [52] NORBERT R,KIM J,GRIFFAY G.A system dynamics framework for the assessment of resource and energy efficiency in iron and steel plants[J].Journal of Cleaner Production,2020,276:123663 [53] SKOCZKOWSKI T,VERDOLINI E,BIELECKI S,et al.Technology innovation system analysis of decarbonisation options in the EU steel industry[J].Energy,2020,212:118688. [54] HAMMERSCHMID M,MULLER S,FUCHS J,et al.Evaluation of biomass-based production of below zero emission reducing gas for the iron and steel industry[J].Biomass Conversion and Biorefinery,2020,11(1):169-187. [55] SHATOKHA V,MATUKHNO E,BELOKON K,et al.Potential means to reduce CO2 emissions of iron and steel industry in ukraine using best available technologies[J].Journal of Sustainable Metallurgy,2020,6(3):451-462.
点击查看大图
计量
- 文章访问数: 148
- HTML全文浏览量: 10
- PDF下载量: 12
- 被引次数: 0