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Water vapor effects on CO2 separation of amine‐containing facilitated transport membranes (AFTMs) module: mathematical modeling using tanks‐in‐series approach
Greenhouse Gases: Science and Technology ( IF 2.7 ) Pub Date : 2020-09-17 , DOI: 10.1002/ghg.2031 Qiang Yang 1 , Qianguo Lin 1, 2 , Sergio Sammarchi 1 , Jia Li 1 , Sa Li 3 , Dong Wang 4
Greenhouse Gases: Science and Technology ( IF 2.7 ) Pub Date : 2020-09-17 , DOI: 10.1002/ghg.2031 Qiang Yang 1 , Qianguo Lin 1, 2 , Sergio Sammarchi 1 , Jia Li 1 , Sa Li 3 , Dong Wang 4
Affiliation
Amine‐containing facilitated transport membranes (AFTMs) are emerging membranes and have great potential for CO2 capture. AFTMs are particularly suitable for humid flue gases, as water vapor enhances the facilitated transportation of CO2. However, there is a lack of mathematical models available to evaluate the impact of water vapor on CO2 separation performance for large‐scale membrane modules. Therefore, developing a mathematical model considering the water vapor effects is of great importance to guide the large‐scale applications of AFTMs for CO2 capture.
中文翻译:
水蒸气对含胺的便利运输膜(AFTM)模块的CO2分离的影响:使用串联罐法的数学建模
含胺的促进转运膜(AFTM)是新兴的膜,具有捕获CO 2的巨大潜力。AFTM特别适用于潮湿的烟道气,因为水蒸气增强了CO 2的便利运输。但是,缺乏用于评估水蒸气对大型膜组件的CO 2分离性能影响的数学模型。因此,开发一种考虑水蒸气效应的数学模型对于指导AFTM在CO 2捕集的大规模应用中具有重要意义。
更新日期:2020-09-17
中文翻译:
水蒸气对含胺的便利运输膜(AFTM)模块的CO2分离的影响:使用串联罐法的数学建模
含胺的促进转运膜(AFTM)是新兴的膜,具有捕获CO 2的巨大潜力。AFTM特别适用于潮湿的烟道气,因为水蒸气增强了CO 2的便利运输。但是,缺乏用于评估水蒸气对大型膜组件的CO 2分离性能影响的数学模型。因此,开发一种考虑水蒸气效应的数学模型对于指导AFTM在CO 2捕集的大规模应用中具有重要意义。
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