共 50 条
Heterogeneous reaction of N2O and formation of NO with coal char in the simulated air-staged combustion atmosphere of pulverized coal at high temperature
被引:16
|作者:
Liu, Songlin
[1
]
Fan, Weidong
[1
]
Wu, Xiaofeng
[1
]
Chen, Jun
[1
]
Liu, Zhuang
[1
]
Guo, Hao
[1
]
机构:
[1] Shanghai Jiao Tong Univ, Inst Thermal Energy Engn, Shanghai 200240, Peoples R China
来源:
基金:
中国国家自然科学基金;
关键词:
N2O decomposition;
NO formation;
Coal char;
Heterogeneous reduction;
Active sites;
NITROUS-OXIDE;
REDUCTION;
EVOLUTION;
DECOMPOSITION;
GASIFICATION;
EMISSION;
RELEASE;
HCN;
D O I:
10.1016/j.fuel.2020.119856
中图分类号:
TE [石油、天然气工业];
TK [能源与动力工程];
学科分类号:
0807 ;
0820 ;
摘要:
In order to further investigate the second rise phenomenon of NO in pulverized coal boilers, the simulated air-staged combustion atmosphere was used in a high temperature fixed bed reactor to study the heterogeneous reduction mechanism of N2O and NO formation. The results show that proper conditions can converse N2O to a large amount of NO. The reduction ability of char to NO produced by N2O in different atmospheres is not much different, but it will be greatly reduced at high temperature, indicating that the ability of char to prevent the second rise of NO is limited. In the oxidizing atmosphere, three reaction paths of N2O heterogeneous reduction were verified through the reduction of N2O by char under different oxygen concentrations. Low O-2 concentration at low temperature improves the char's reducing capacity, while at high temperature it enhances the oxidation capacity of O-2, promoting the oxidation consumption of char. The coexistence of iodine and char will reduce the effect of iodine on inhibiting the formation of NO, as well as char's reducing capacity. The iodine can promote the decomposition of N2O and inhibit the adsorption of N and O on the char surface.
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页数:14
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