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Reactive Carbon Capture: Cooperative and Bifunctional Adsorbent-Catalyst Materials and Process Integration for a New Carbon Economy
Accounts of Chemical Research ( IF 16.4 ) Pub Date : 2024-07-26 , DOI: 10.1021/acs.accounts.4c00321 Khaled Baamran 1, 2 , Shane Lawson 3 , Fateme Rezaei 4 , Ali A Rownaghi 1
Accounts of Chemical Research ( IF 16.4 ) Pub Date : 2024-07-26 , DOI: 10.1021/acs.accounts.4c00321 Khaled Baamran 1, 2 , Shane Lawson 3 , Fateme Rezaei 4 , Ali A Rownaghi 1
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To say the least, releasing CO2 into the atmosphere is reaping undue environmental consequences given the ever-present increase in severe global weather events over the past five years. However, it can be argued that–at least in the confines of current technological capabilities–the atmospheric release of CO2 is somewhat unavoidable given that even shifting toward clean energy sources–such as solar, nuclear, wind, battery, or H2 power–incurs an initial carbon requirement by way of manufacturing the very production abilities through which “clean” energy is generated. Even years from now, experts agree that energy production will be diversified and–as the global population continues to drive the growth of global energy consumption–thermal power derived from carbon combustion is likely to remain one intrinsic energetic source, of which CO2 will always be a byproduct. In this context, it is the responsibility of the scientific community to devise improved pathways of carbon management such that (i) the consequences of combustion on the global environment are reduced and (ii) carbon fuels can be leveraged in a sustainable fashion.
中文翻译:
活性碳捕获:新碳经济的协同双功能吸附剂-催化剂材料和工艺集成
至少可以说,鉴于过去五年来全球严重天气事件不断增加,向大气中释放CO 2正在带来不当的环境后果。然而,可以说,至少在当前技术能力的范围内,即使转向太阳能、核能、风能、电池或 H 2等清洁能源,CO 2向大气的释放也是不可避免的。 –通过制造产生“清洁”能源的生产能力来产生初始碳需求。即使几年后,专家们也一致认为,能源生产将多样化,并且随着全球人口继续推动全球能源消费的增长,碳燃烧产生的热能可能仍然是一种内在能源,其中 CO 2将永远存在成为副产品。在这种背景下,科学界有责任设计改进的碳管理途径,以便(i)减少燃烧对全球环境的影响,以及(ii)能够以可持续的方式利用碳燃料。
更新日期:2024-07-26
中文翻译:
活性碳捕获:新碳经济的协同双功能吸附剂-催化剂材料和工艺集成
至少可以说,鉴于过去五年来全球严重天气事件不断增加,向大气中释放CO 2正在带来不当的环境后果。然而,可以说,至少在当前技术能力的范围内,即使转向太阳能、核能、风能、电池或 H 2等清洁能源,CO 2向大气的释放也是不可避免的。 –通过制造产生“清洁”能源的生产能力来产生初始碳需求。即使几年后,专家们也一致认为,能源生产将多样化,并且随着全球人口继续推动全球能源消费的增长,碳燃烧产生的热能可能仍然是一种内在能源,其中 CO 2将永远存在成为副产品。在这种背景下,科学界有责任设计改进的碳管理途径,以便(i)减少燃烧对全球环境的影响,以及(ii)能够以可持续的方式利用碳燃料。
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