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作 者:Jinlong Gong David W.Flaherty Xi Zhang Donna J.Minton
机构地区:[1]不详
出 处:《CCS Chemistry》2024年第12期2845-2849,共5页中国化学会会刊(英文)
摘 要:Introduction to the Special Issue on CO_(2)Capture and Conversion Concerns over climate change and its catastrophic consequences have spurred an intense global effort to investigate technologies for reducing atmospheric CO_(2)concentration.Recognizing the fact that fossil fuels will remain a major source of energy for the foreseeable future,carbon capture,from both point sources and the atmosphere,is currently one of the most direct strategies to mitigate an increase in atmospheric CO_(2)concentration.In 2050,carbon removal technologies are projected to lower CO_(2)by∼20 and 5 Gt CO_(2)/yr for the global warming scenarios of 1.5 and 2.0°C,respectively.In addition,captured CO_(2)can be subsequently converted into high-value-added chemicals and fuels,which not only offsets the high cost of carbon capture but could also promote a circular carbon economy,thereby helping to combat the ever-depleting sources of fossil fuels.In this issue of CCS Chemistry,we present a collection of research papers that focus on state-of-the-art strategies to tackle issues in the field of CO_(2)capture and conversion.
关 键 词:WARMING consequences thereby
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