煤基合成气甲烷化反应过程的热力学计算与分析
发布时间:2018-01-16 03:19
本文关键词:煤基合成气甲烷化反应过程的热力学计算与分析 出处:《化学工程》2016年11期 论文类型:期刊论文
更多相关文章: 替代天然气 甲烷化反应 二氧化碳 热力学分析 合成气
【摘要】:建立了煤基合成气甲烷化反应过程基于吉布斯自由能最小法的热力学计算模型。考察了温度、压力对CO,CO_2单独及同时甲烷化反应的影响,探讨了原料气脱碳处理后,CO_2摩尔分数对CO转化率、CH_4选择性、CH_4产率及积炭的影响。结果表明,低温高压有利于甲烷化反应。在多数情况下CO转化率要高于CO_2,尤其是温度低于600℃时,CO甲烷反应比CO_2更容易发生;随着温度进一步升高,CO_2转化率明显上升,而CO转化率迅速下降。另外,当原料气中CO_2摩尔分数低于2.44%时对积炭无影响,对CH_4的选择性和产率降幅小于10%,在脱碳工艺中可以不予脱除。
[Abstract]:A thermodynamic model for the methanation reaction of coal-based syngas was established based on Gibbs free energy minimization method. The effects of temperature and pressure on the methanation of COG _ 2 were investigated. The effect of CO _ 2 molar fraction on CO conversion and Ch _ 4 selective Ch _ 4 yield and carbon deposition after decarburization of feedstock gas was investigated. In most cases, CO conversion is higher than COCO2, especially when the temperature is below 600 鈩,
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