Weizheng Zhou scite author profile

Considerable studies have been reported on the coal pyrolysis process and the formation of SO 2 and NO x processors such as H 2 S, COS, SO 2 , HCN, and NH 3 in inert atmospheres. Similar studies in CO 2 atmosphere also need to be accomplished for better understanding of the combustion characteristics and the SO 2 /NO x formation mechanism of oxy-fuel combustion, which is one of the most important technologies for CO 2 capture. In this study, thermogravimetry coupled with Fourier Transform Infrared (TG-FTIR) analysis was employed to measure the volatile yield and gas evolution features during coal pyrolysis process in CO 2 atmosphere. Results show that replacing N 2 with CO 2 does not influence the starting temperature of volatile release but seems to enhance the volatile releasing rate even at 480 °C. At about 760 °C, CO 2 prevents the calcite from decomposing. In CO 2 atmosphere, the volatile yield increases as the temperature increases and decreases as the heating rate increases. COS is monitored during coal pyrolysis in CO 2 atmosphere while there are only H 2 S and SO 2 formed in N 2 atmosphere. The COS is most likely formed by the reaction between CO 2 and H 2 S. No NH 3 was monitored in this study. In CO 2 atmosphere, the gasification of char elevates the conversion of char-N to HCN. The HCN yield increases as the temperature increases and decreases as the heating rate increases.

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Coal combustion characteristics on an oxy-fuel circulating fluidized bed combustor with warm flue gas recycle

Duan

Sun

Zhao

et al. 2014

Fuel

128

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Cyclic calcination/carbonation looping of dolomite modified with acetic acid for CO2 capture

Zhao

Duan

et al. 2008

Fuel Processing Technology

111

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Modified CaO-based sorbent looping cycle for CO2 mitigation

Zhao

Chen

et al. 2009

Fuel

123

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Weizheng Zhou

Super stable foams stabilized by colloidal ethyl cellulose particles

Investigation on Coal Pyrolysis in CO₂Atmosphere

Coal combustion characteristics on an oxy-fuel circulating fluidized bed combustor with warm flue gas recycle

Cyclic calcination/carbonation looping of dolomite modified with acetic acid for CO2 capture

Modified CaO-based sorbent looping cycle for CO2 mitigation

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About

Weizheng Zhou

Super stable foams stabilized by colloidal ethyl cellulose particles

Investigation on Coal Pyrolysis in CO2Atmosphere

Coal combustion characteristics on an oxy-fuel circulating fluidized bed combustor with warm flue gas recycle

Cyclic calcination/carbonation looping of dolomite modified with acetic acid for CO2 capture

Modified CaO-based sorbent looping cycle for CO2 mitigation

Contact Info

Product

Resources

About

Investigation on Coal Pyrolysis in CO₂Atmosphere