4단계 BK21 사업성과

4단계 BK21 사업성과

[이창하 교수 연구실] 제올라이트 13X 및 이산화탄소를 이용한 스윙 흡착에 의한 프로판 및 프로필렌의 분리

  • 날짜 2021.03.19
  • 조회수 44

ABSTRACT: A new concept of the desorbent swing adsorption (DSA) process operating at a constant pressure is proposed. The developed process was applied to the separation of propane and propylene because propylene, a high-demand chemical, is produced from an energy-intensive and expensive process. The selection criterion of desorbent was the chemical having the adsorption affinity between propane and propylene, and carbon dioxide was selected as a case study. According to the sequential breakthrough experiments, propylene was separated from propane in the CO2 pre-filled bed. However, the desorption step utilizing CO2 flow played a key factor in the separation performance because a faster desorbent flowrate enhanced the desorption of adsorbed propylene and prolonged the breakthrough times of the components. A two-bed DSA process (60% propane and 40% propylene), containing rinse-out and rinse-in steps, achieved 94.427% purity for propane with 99.655% recovery and 8.816 mol/(kg⋅hr) productivity, and 99.999% purity for propylene with 96.644% recovery and 5.700 mol/ (kg⋅hr) productivity. Unusual temperature variances in the DSA process (decreasing during the adsorption step and increasing during the desorption step) was opposite to that in conventional adsorptive processes. These temperature variances contributed to an enhanced separation performance and process safety (prevention of zeolite 13X poisoning and gas fires). The feasibility of the DSA process was demonstrated without further requirements for additional energy arising from compression or a vacuum. The optimization of the DSA process and subsequent desorbent recovery processes is a subject for further studies. 

 

논문정보: Chemical Engineering Journal, 410, 128276 (2020)
Published: 26 December 2020
DOI: 10.1016/j.cej.2020.128276


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