The CO2 removal of flue gas using hollow fiber membrane contactor: a comprehensive modeling and new perspectives

Advances in environmental science and technology Pub Date : 2021-09-05 DOI:10.22104/AET.2021.5060.1371

Masoud Noordokht, S. Abdoli

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引用次数: 2

Abstract

In this study, a novel hollow fiber membrane contactor (HFMC) under a non-wet condition was numerically explored by CFD techniques based on the finite element method to capture CO2 from the CH4/CO2 gas mixture. A new design, such as a shell and tube heat exchanger with baffles, was proposed. The MEA, DEA, and TEA, as different amines solutions, were selected as the liquid solvents. A CO2-containing gas mixture and amine solution were passed in the shell side and the tube side of the membrane contactor, respectively. The simulation findings indicated a good agreement with the reported experimental data demonstrating that such a model would evaluate the effects of different parameters during the HFMC system. Specifically, the results showed that the baffles' presence improved the separation efficiency due to the increased residence time on the shell side. The results also indicated that the MEA solution had the highest CO2 absorption. In the new design (shell and tube heat exchanger with baffles), the rising solvent inlet velocity, decreasing gas velocity, and counter-current flow pattern positively affected separation efficiency.

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利用中空纤维膜接触器去除烟气中的CO2:一个全面的建模和新的观点

本文采用基于有限元法的CFD技术，对一种新型中空纤维膜接触器(HFMC)在非湿条件下从CH4/CO2混合气体中捕集CO2进行了数值研究。提出了一种新的设计方案，即带挡板的管壳式换热器。选择MEA、DEA和TEA作为不同胺溶液作为液体溶剂。在膜接触器的壳侧和管侧分别通过含co2的混合气和胺溶液。仿真结果与实验数据吻合较好，表明该模型能较好地评价不同参数对HFMC系统的影响。结果表明，挡板的存在提高了分离效率，因为挡板在壳侧停留的时间增加了。结果还表明，MEA溶液具有最高的CO2吸收率。在新设计(带挡板的管壳式换热器)中，溶剂进口速度上升、气体速度下降和逆流流型对分离效率有积极影响。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Advances in environmental science and technology

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