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High Temperature Co‐Electrolysis as a Key Technology for CO2 Emission Mitigation – A Model‐Based Assessment of CDA and CCU
Chemie Ingenieur Technik ( IF 1.5 ) Pub Date : 2020-06-22 , DOI: 10.1002/cite.202000012 Gregor Herz 1 , Nils Müller 1 , Paul Adam 1 , Stefan Megel 1 , Erik Reichelt 1 , Matthias Jahn 1
Chemie Ingenieur Technik ( IF 1.5 ) Pub Date : 2020-06-22 , DOI: 10.1002/cite.202000012 Gregor Herz 1 , Nils Müller 1 , Paul Adam 1 , Stefan Megel 1 , Erik Reichelt 1 , Matthias Jahn 1
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The mitigation of CO2 emissions is a major challenge for modern society. While the mitigation of energy‐related emissions can be achieved comparatively easy by switching to renewable energy sources, reduction of process‐related industrial emissions is considerably more challenging. To reduce industrial CO2 emissions, two basic routes are available: carbon direct avoidance (CDA) and carbon capture and utilization (CCU). It is shown that in terms of efficiency, CDA is to be favored when applicable. However, for applications where emissions cannot be avoided, CCU can be a viable approach allowing for emission mitigation.
中文翻译:
高温共电解是减少CO2排放的关键技术– CDA和CCU的基于模型的评估
减轻CO 2排放是现代社会的主要挑战。虽然通过使用可再生能源可以相对容易地实现与能源有关的排放的缓解,但是减少与过程有关的工业排放却更具挑战性。为减少工业CO 2排放,有两种基本途径可用:直接避免碳排放(CDA)和碳捕获与利用(CCU)。结果表明,在效率方面,适用时应优先考虑CDA。但是,对于无法避免排放的应用,CCU是可行的方法,可以减少排放。
更新日期:2020-06-22
中文翻译:
高温共电解是减少CO2排放的关键技术– CDA和CCU的基于模型的评估
减轻CO 2排放是现代社会的主要挑战。虽然通过使用可再生能源可以相对容易地实现与能源有关的排放的缓解,但是减少与过程有关的工业排放却更具挑战性。为减少工业CO 2排放,有两种基本途径可用:直接避免碳排放(CDA)和碳捕获与利用(CCU)。结果表明,在效率方面,适用时应优先考虑CDA。但是,对于无法避免排放的应用,CCU是可行的方法,可以减少排放。
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