Multi-Catalytic-Field Assisted Conversion of Low-Concentration CO2 in Steel Byproduct Gas for Synergistic Steel-Chemical Production

催化作用 化学 生产(经济) 化学工程 冶金 材料科学 无机化学 有机化学 工程类 宏观经济学 经济
作者
Qiannan Li,Guangsheng Wei,Jian Qi,Kun Zhao,Baochen Han
出处
期刊:Accounts of Chemical Research [American Chemical Society]
卷期号:58 (20): 3111-3122 被引量:3
标识
DOI:10.1021/acs.accounts.5c00348
摘要

ConspectusThe iron and steel industry, as a major global CO2 emitter, urgently requires technological breakthroughs in its carbon neutrality pathway. Existing emission reduction technologies such as carbon capture, utilization and storage are economically insufficient, while the full utilization of byproduct gas may lead to energy shortages in steel enterprises. Steel byproduct gases (e.g., converter gas) have complex composition, and traditional combustion results in high emissions. In this context, the proposed low concentration CO2 (LCC) system demonstrates dual advantages: (1) enhancing the calorific value of the byproduct gas to meet the demands of high-energy steelmaking processes and (2) achieving the recovery of high-purity CO2 postcombustion, thereby facilitating the carbon neutrality pathway with minimized separation energy consumption. However, components such as CO and N2 in the gas lead to competitive adsorption, low catalytic selectivity, and complex reaction pathways, necessitating breakthroughs in catalytic mechanisms and process innovation.This Account based on the research accumulation of the authors' team in the field of CO2 catalytic reduction and iron and steel metallurgy systematically reviews the key scientific issues and technological advancements in the catalytic conversion of LCC, using converter gas as a typical case. First, addressing the challenge of selective CO2 adsorption, the competitive mechanisms of different adsorption models in complex gas environments were explored. Second, in terms of activation and reaction pathway regulation, the influence patterns of gases such as CO and N2 on the CO2 reduction reaction are analyzed. Furthermore, through in-depth analysis, new principles and processes for CO2 adsorption in novel scenarios, catalyst matching, and directional design, material surface reconstruction under industrial environmental conditions is considered. Finally, we integrate the LCC reduction technology into the synergistic steel-chemical production technology route, focusing on elucidating the scientific design principles of meso-macro bridging in the engineering application process, providing a reference for the treatment of various industrial flue gases and tail gases.The LCC catalytic reduction technology aids steel industry carbon emission reduction through "source conversion-end utilization", but its industrialization requires collaborative innovation in theory and engineering. Future efforts should focus on the catalytic surface and interface mechanisms under complex gaseous conditions, develop highly efficient and stable catalysts, and design an integrated intelligent system of "catalysis-calorific value-chemical" to promote the near-zero carbon transformation in the steel industry. This technology not only supports carbon neutrality in the steel industry but also provides interdisciplinary solutions for CO2 resource utilization in the chemical and energy sectors.
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