H2S removal performance of Ca3Al2O6-stabilized carbide slag from CO2 capture cycles using calcium looping

A Ca3Al2O6-stabilized carbide slag from calcium looping cycles for CO2 capture was proposed as a H2S sorbent in zero emission carbon process. The H2S removal performance of Ca3Al2O6-stabilized carbide slag experienced different calcium looping cycles was investigated in a muti-fixed-bed reactor. The...

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Bibliographic Details
Published in:Fuel processing technology 2021-07, Vol.218, p.106845, Article 106845
Main Authors: Hu, Yuping, Wu, Shuimu, Li, Yingjie, Zhao, Jianli, Lu, Shijian
Format: Article
Language:English
Subjects:
Ca3Al2O6
Calcium looping
Calcium oxide
Carbide slag
Carbides
Carbon dioxide
Carbon sequestration
Emission
H2S removal
Hydrogen sulfide
Slag
Sorbents
Sulfidation
Tricalcium aluminate
Zero emission carbon
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Summary:A Ca3Al2O6-stabilized carbide slag from calcium looping cycles for CO2 capture was proposed as a H2S sorbent in zero emission carbon process. The H2S removal performance of Ca3Al2O6-stabilized carbide slag experienced different calcium looping cycles was investigated in a muti-fixed-bed reactor. The fabricated sorbent containing the mass ratio of CaO to Ca3Al2O6 = 73:27 shows higher CO2 capture capacity. The sulfidation temperature and H2S concentration exhibit the important effects on H2S removal by the fabricated sorbent from CO2 capture cycles. The number of CO2 capture cycles has a little effect on H2S removal by the fabricated sorbent. The sulfidation conversions of the fabricated sorbent after 100 CO2 capture cycles at 60 and 120 min can reach 1.3 and 1.6 times as high as those of carbide slag, respectively. Ca3Al2O6 restrains the rapid growth of CaO grains in the fabricated sorbent in CO2 capture cycles. Compared with carbide slag, the fabricated sorbent possesses larger surface area and more stable structure during CO2 capture cycles because of the support of Ca3Al2O6, so it exhibits higher sulfidation conversion. H2S removal using Ca3Al2O6-stabilized carbide slag from calcium looping cycles seems promising in zero emission carbon process. •C3A-modified carbide slag has high CO2 uptake and stability in multiple CaL cycles.•The modified carbide slag after CO2 capture cycles shows excellent H2S uptake.•C3A improves CO2 and H2S removal capacities of carbide slag from CaL cycles.•CO2 capture and H2S removal by modified carbide slag can be realized in ZEC process.
ISSN:0378-3820
1873-7188
DOI:10.1016/j.fuproc.2021.106845