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1. Synthesis and evaluation of the Ca–Ba composite adsorbent Based on CO2 storage material for CO2 adsorption.

Author

Yu, YanLing, Ju, JiaQi, Pang, JiaWei, Tan, FengRan, Zhang, Jianbin, and Ye, Jiehui

Subjects

HYBRID systems, CARBON dioxide adsorption, SORBENTS, ADSORPTION (Chemistry), ADSORPTION capacity, CARBON dioxide, STORAGE

Abstract

The calcium-barium (Ca–Ba) composite adsorbents based on CO2 storage material (CO2SM, the white solid material formed by the absorption of carbon dioxide in a binary hybrid system of tetraethylene glycol and 1,3-propylene diamine) for CO2 adsorption were systematically investigated, including the synthesis conditions of adsorbent precursors and adsorption conditions. The experimental results showed that the maximum adsorption capacity of the Ca–Ba-5 adsorbent for CO2 was 621 mg g−1 under the conditions of 15g L−1 CO2SM, molar ratio of Ca:Ba 9:1, hydrothermal reaction temperature 100℃ and hydrothermal reaction time 90 min. Moreover, the evaluation of the adsorption performance of the samples for 15 consecutive cycles suggested that the Ca–Ba-5 adsorbent exhibited relatively stable adsorption performance and its adsorption performance stability was improved by 18% than that of CaO adsorbent prepared under the same conditions. Moreover, the cyclic performance of the Ca–Ba-5 adsorbent from the 2nd to the 15th cycle was the most stable and only decreased 10%. [ABSTRACT FROM AUTHOR]

Published

2023