Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
8948243 | International Journal of Hydrogen Energy | 2018 | 9 Pages |
Abstract
The enhanced K-catalytic coal gasification by CO2 sorption reaction (EKcSG) was proposed to produce syngas with high content of H2 and CH4 and perform in-situ CO2 capture. CO2 is reduced dramatically with the introduction of the CaO into the reactor under typical K-catalytic coal gasification condition (3.5 MPa, 700 °C). The carbonation reaction of CaO can promote the syngas production by improving the equilibrium of the water-gas shift reaction and supplying heat for coal gasification reaction. In the presence of the CaO sorbent (Ca/C = 0.5), the CO2 concentration in the product gas decreased from 25.61% to 12.80% compared with that without CaO. Correspondingly, the total concentration of H2 and CH4 is improved from 65.61% to 82.99% and the carbon conversion reached above 95%. The effect of Ca/C ratio and reaction temperature was investigated during the EKcSG process. It is considered that Ca/C ratio of 0.5 is the best proportion in terms of carbon conversion and CO2 absorption in our experimental conditions.
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Authors
Xing Zhou, Jiantao Zhao, Shuai Guo, Jiazhou Li, Zhongliang Yu, ShuangShuang Song, Junguo Li, Yitian Fang,