Increasing Porosity of Molded Calcium‐Based Sorbents by Glucose Templating for Cyclic CO2 Capture |
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| Authors: | Yongqing Xu Haoran Ding Cong Luo Ying Zheng Xiaoshan Li Yang Xu Zewu Zhang Weixian Zhao Liqi Zhang |
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| Affiliation: | Huazhong University of Science and Technology (HUST), School of Energy and Power Engineering, State Key Laboratory of Coal Combustion, Wuhan, China |
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| Abstract: | With the aim to enhance the CO2 capture capacity and anti‐attrition property of CaO‐based sorbents simultaneously, a novel CaO‐based sphere was prepared by extrusion‐spheronization using Ca(OH)2 powder with glucose templating. The CO2 capture characteristics and attrition resistance property of the sorbent were examined and the microstructure of the sorbents was analyzed. The results demonstrate that the obtained spherical sorbents exhibit an outstanding anti‐attrition performance compared to limestone sorbent. After 100 cycles, all of the templated sorbents hold a CO2 capture capacity of more than one time higher than that of limestone. The optimum templating rate of glucose in the sorbent was 1–5 wt %. |
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| Keywords: | Anti‐attrition property Calcium looping process Cyclic CO2 capture Extrusion‐spheronization Glucose templating |
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