Thermodynamic calculation on the pyrolysis reactions of coke oven gas with multiple pyrolysis agents

Xin Jiang, Xiaoling Deng, Yulu Zhou, Qiangjian Gao, Haiyan Zheng, Fengman Shen
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Abstract

The reducing gas obtained from coke oven gas(COG) reforming is an important secondary energy source, which can replace fossil energy and contribute to the reduction of CO2 emission and sustainable development. The percentage of (H2+CO) and the ratio of H2/CO in the reducing gas are important parameters for the COG reforming. In the present work, the pyrolysis reactions of COG with O2, H2O, and CO2 were thermodynamically calculated and analyzed. The calculation results show that, (1) as only one kind of agent (O2, H2O, CO2) participate the reaction, when pyrolyzed with H2O or CO2, the percentage of (H2+CO) in the reducing gas was highest, and were 95.26%. The H2/CO in the reducing gas was highest when pyrolysis with H2O and was 3.73. (2) as two kinds of agent participate the reaction, the percentage of (H2+CO) in the reducing gas obtained by pyrolysis decreases with the proportion of O2 in the mixed gas increases. The H2/CO ratio in the reducing gas gradually decreases with increasing pyrolysis temperature. (3) in the ternary calculations of COG reforming, when the proportion of O2 is higher, the percentage of (H2+CO) is lower. When the proportion of H2O is higher and the proportion of CO2 is lower, the ratio of H2/CO is higher. The research contents and results may provide the theoretical guidance on the optimizing the COG reforming process and selection of pyrolysis agents for the development of the relative chemical and metallurgical industry.

Abstract Image

多种热解剂对焦炉煤气热解反应的热力学计算
焦炉煤气重整产生的还原性气体是一种重要的二次能源,可以替代化石能源,有助于减少二氧化碳的排放和实现可持续发展。还原气中(H2+CO)的含量和H2/CO的比值是影响COG重整的重要参数。本文对COG与O2、H2O和CO2的热解反应进行了热力学计算和分析。计算结果表明:(1)当只有一种助剂(O2、H2O、CO2)参与反应时,用H2O或CO2进行热解反应时,还原气中(H2+CO)的比例最高,均为95.26%;H2O热解时还原性气体H2/CO最高,为3.73。(2)当两种助剂参与反应时,热解得到的还原性气体中(H2+CO)的百分比随着混合气体中O2的比例的增加而降低。随着热解温度的升高,还原气中H2/CO比逐渐降低。(3)在COG重整三元计算中,O2的比例越高,(H2+CO)的百分比越低。当H2O的比例越高,CO2的比例越低时,H2/CO的比值越高。研究内容和成果可为焦化气重整工艺的优化和热解剂的选择提供理论指导,为相关化工和冶金工业的发展提供参考。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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