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作 者:Zhancheng Guo Shiwei Wang Dingrong Bai
机构地区:[1]State Key Laboratory of Advanced Metallurgy,University of Science and Technology Beijing,Beijing 100083,China [2]Shanghai Institute of Ceramics,Chinese Academy of Sciences,Shanghai 201800,China [3]Key Laboratory on Resources Chemicals and Materials,Shenyang University of Chemical Technology,Shenyang 110142,China
出 处:《Resources Chemicals and Materials》2023年第4期331-334,共4页资源化工与材料(英文)
基 金:partially supported by the National Natural Science Foundation of China(U22A20410).
摘 要:The global shift toward carbon neutrality,driven by growing concerns about climate change,requires collaborative efforts.While cleaner energy and carbon capture are crucial,addressing some high-carbon-emission industrial processes that significantly and disproportionally contribute to our carbon footprint is more important than ever.Analysis reveals that over 90%of total carbon emissions from human activities are attributed to a few super-emitting thermochemical processes.We urgently need breakthrough technologies and transformative alternatives to combat this excess of carbon dioxide emissions effectively.Engineering Thermochemistry is the scientific discipline that offers both scientifically sound and practical solutions to the pressing carbon neutrality challenges.
关 键 词:Engineering thermochemistry Carbon emissions Carbon neutrality Thermochemical reactions
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