期刊
RENEWABLE & SUSTAINABLE ENERGY REVIEWS
卷 161, 期 -, 页码 -出版社
PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.rser.2022.112367
关键词
Steel production; Carbon neutrality; Energy efficiency; Carbon -intensive; Diffcult to decarbonize sector; Regional disparity
资金
- National Natural Science Foundation of China [71904182, 71961147003]
- Key Program of Frontier Science of the Chinese Academy of Sciences [QYZDB-SSW-DQC012]
- National Social Science Fund of China [21ZDA065]
- Dalian National Laboratory for Clean Energy Cooperation Fund
This study explores the regional emission performance of steel production across 44 countries and 5 regions from 2000 to 2015, comparing physical indicators such as CO2 emission, energy use, and carbon intensity. The results show a significant increase in global CO2 emission associated with steel production, indicating a worsening environmental performance. Both developed and developing nations experienced an increase in carbon intensity, highlighting the need to address regional disparities and inequalities in global decarbonization strategies for the steel industry.
Steel production is one of few difficult-to-decarbonize sectors that requires strong decarbonization actions. However, the present focus is mainly limited to technical efforts, while regional disparities in steel production and its impacts on energy and carbon efficiency are rarely explored. By integrating environmental extended input-output analysis and material flow analysis, this study, as one of the first attempts, provides an analytical perspective to explore the regional emission performance of steel production across 44 countries and the rest 5 regions from 2000 to 2015, in which the physical indicators such as CO2 emission, energy use, and carbon intensity are compared. The results show that the CO2 emission associated with global steel production has increased by 2.5-fold from 2000 to 2015, and the global steel production has only increased by 1.9-fold, indicating a worsening environmental performance with emission intensity increasing from 2.1 tCO2/t in 2000 to 2.8 tCO2/t in 2015. This is closely linked to the historical changes in the geographical distribution of steel production as well as the faster increase of steel production in less efficient regions compared to that of more efficient regions. Despite the efficiency improvement in several nations, the carbon intensity of both developed (OECD, from 1.6 t CO2/t to 2.3 t CO2/t) and developing nations (non-OECD: 2.7 t CO2/t to 3.0 t CO2/t) were increasing during the past decade. Thus, there is a need to incorporate regional disparities and inequalities in the designingglobal decarbonization strategies of steel and other heavy industrial sectors.
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