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International Journal of Green Energy Volume 12, 2015 - Issue 10: The 2012 Asian Biohydrogen and Bioproducts Symposium
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Optimal Absorbent Evaluation for the CO2 Separating Process by Absorption Loading, Desorption Efficiency, Cost, and Environmental Tolerance

Shu-Yii WuDepartment of Chemical Engineering, Feng Chia University, Taichung, Taiwan;Green Energy Development Center, Feng Chia University, Taichung, Taiwan;Master’s Program on Green Energy Science and Technology, Feng Chia University, Taichung, TaiwanView further author information
,
Yong-Fang LiuDepartment of Chemical Engineering, Feng Chia University, Taichung, TaiwanView further author information
,
Chen-Yeon ChuDepartment of Chemical Engineering, Feng Chia University, Taichung, Taiwan;Green Energy Development Center, Feng Chia University, Taichung, Taiwan;Master’s Program on Green Energy Science and Technology, Feng Chia University, Taichung, TaiwanCorrespondence[email protected]
View further author information
,
Ya-Chieh LiDepartment of Chemical Engineering, Feng Chia University, Taichung, TaiwanView further author information
&
Chun-Min LiuMaster’s Program on Green Energy Science and Technology, Feng Chia University, Taichung, TaiwanView further author information
Pages 1025-1030 | Published online: 20 Apr 2015
 
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Abstract

The CO2 absorption capacities of potassium glycinate, potassium sarcosinate (choline, proline), mono-ethanolamine (MEA), and tri-ethanolamine were evaluated to find the optimal absorbent for separating CO2 from gaseous products by a CO2 purification process. The absorption loading, desorption efficiency, cost, and environmental tolerance were assessed to select the optimal absorbent. MEA was found to be the optimum absorbent for separating the CO2 and H2 mixture in gaseous product. The maximum absorption loading rate was 0.77 mol CO2 per mol MEA at temperature of 20°C and absorbent concentration of 2.5 mol/L, whereas desorption efficiency was 90% by heating for 3 h at 130°C. MEA was found to be an optimal absorbent for the purification process of CO2 during gaseous production.

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Funding

The authors gratefully acknowledge the financial support of the National Science Council of Taiwan (Grant No. NSC 101-2218-E-035-002-MY2, 102-2221-E-035-055, 103-2923-E-035-001-MY3) and Feng Chia University (Grant No. FCU-11G27150).

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