An experimental and theoretical study of NO heterogeneous reduction in the reduction zone of ammonia co-firing in a coal-fired boiler: Influence of CO

The co-firing of ammonia (NH3) and coal in boilers and furnaces has attracted increasing attention worldwide. However, only a few studies have been reported on the mechanism of NO reduction in the reduction zone of coal and ammonia co-firing. This work adopted theoretical calculations and experiment...

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Bibliographic Details
Published in:Fuel processing technology 2022-06, Vol.231, p.107184, Article 107184
Main Authors: Chen, Ping, Wang, Huichun, Jiang, Boyu, Wang, Ying, Gu, Mingyan, Chen, Guang, Huang, Xiangyong
Format: Article
Language:English
Subjects:
Ammonia
Boiler furnaces
Boilers
Carbon monoxide
Char
Co-firing
Coal
High temperature
Mathematical analysis
NO reduction
Reduction
Synergistic effect
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Summary:The co-firing of ammonia (NH3) and coal in boilers and furnaces has attracted increasing attention worldwide. However, only a few studies have been reported on the mechanism of NO reduction in the reduction zone of coal and ammonia co-firing. This work adopted theoretical calculations and experiments to explore the mechanism of NO reduction by char and NH3 and the role of CO. Theoretical results indicated that CO exhibits a synergistic effect with the amino agent on NO reduction. In char/NH/CO/NO system, the hydrogen-rich environment created by H atoms weakens the energy of N-C bond, thereby promoting NO heterogeneous reduction. However, CO occupies the active sites on the char surface and slightly inhibits the NO heterogeneous reduction in char/NH/CO/NO system. Experimental results revealed that CO improves the NO reduction efficiency in the NH3/char/NO system. CO plays different roles in the heterogeneous reduction of NO by NH on the char surface in high-temperature furnace experiments as well as in theoretical calculations. These results are attributed to the fact that the homogeneous reduction rate of NO by the amino and CO in the ammonia and coal co-firing is greater than the heterogeneous reduction rate of NO by CO-coordinated char. •CO exhibited a synergistic effect with NH3 in the reduction zone on NO reduction.•CO slightly inhibited the heterogeneous reduction of NO by NH3 synergistic char.•The hydrogen-rich environment was more conducive to the char/NH/CO/NO reduction.•Experimental result show that CO promote NO reduction in NH3/char coexistence system.
ISSN:0378-3820
1873-7188
DOI:10.1016/j.fuproc.2022.107184