F-T合成催化剂羰基硫中毒热力学分析

侯朝鹏; 夏国富; 李明丰; 聂红; 李大东

F-T合成催化剂羰基硫中毒热力学分析

中国石化石油化工科学研究院, 北京 100083

基金项目: 中国石油化工股份有限公司项目(S107035, S105146)。

详细信息

作者简介:
侯朝鹏(1974- ), 男, 河南安阳人, 博士后, 高级工程师, 主要研究方向为F-T合成催化剂及其催化过程与技术, Tel:010-82368120, E-mail:houcp.ripp@sinopec.com。

中图分类号: TQ529.2
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出版历程
- 收稿日期: 2011-01-24
- 修回日期: 2011-04-19
- 刊出日期: 2012-01-31

Thermodynamics of carbonyl sulfide poisoning on F-T synthesis catalyst

Research Institute of Petroleum Processing, Sinopec, Beijing 100083, China

摘要

摘要: 利用热力学基础数据和相关软件对F-T合成催化剂COS中毒的热力学进行了计算。在热力学上,Ru、Fe、Co的COS中毒在F-T合成反应可以发生的条件下均是自发过程。F-T合成反应体系中10^-9级的COS即可使Ru基催化剂中的金属Ru生成RuS₂而中毒。Fe和Co毒化后生成的硫化物种类较多,对反应的热力学计算结果表明,对于不同的反应,其平衡常数的差异很大,对应中毒反应发生时,所需COS的浓度也不同。由于Fe基F-T合成催化剂活性相的复杂性,利用对催化剂相关性质的修饰开发具有一定抗硫性的铁基F-T合成催化剂是可行的;对于Co催化剂,利用F-T合成的反应特点和催化剂改性开发具有一定抗硫性催化剂也是可能的。
- F-T合成 /
- 催化剂 /
- 热力学 /
- 羰基硫 /
- 中毒 /
- 抗硫性
Abstract: Thermodynamics of poisoning on F-T synthesis catalyst with carbonyl sulfide were calculated according to some thermodynamic data and related software. Poisoning of Ru, Fe and Co can occur spontaneously under the conditions of F-T synthesis reaction because of the low negative value of ΔG thermodynamically. Ruthenium in Ru-based F-T synthesis catalyst can be poisoned by the COS on 10^-9 level. There are many types of Fe and Co sulfide generated in the poisoning reactions. Their equilibrium constants are much different for different reactions, and their necessary concentrations of COS are also different. As the active phases of the Fe-based F-T synthesis catalyst are complex, it is feasible to develop some sulfur resistant catalysts. And for the Co catalyst, the characteristics of F-T synthesis reaction and the modification of catalysts may contribute to the development of sulfur tolerant catalyst possibly.
- F-T synthesis /
- catalyst /
- thermodynamics /
- COS /
- poisoning /
- sulfur tolerance

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参考文献(29)

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