Modeling of the Methanol Synthesis Catalyst Deactivation in a Spherical Bed Reactor: An Environmental Challenge

APCBEE Procedia Pub Date : 2014-01-01 DOI:10.1016/j.apcbee.2014.10.021

Soheil Sadeghi , Leila Vafajoo , Mohammad Kazemeini , Moslem Fattahi

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引用次数: 12

Abstract

Catalyst deactivation and its environmental consequences are believed to be an important issue seriously needed to be dealt with. In this study, a mathematical model of a spherical bed along with the catalyst deactivation in a long-term operation period for the methanol synthesis was investigated. The inside space of the two spheres reactor configuration was filled with the catalyst. The materials in the outer surface of the inner hemisphere were understudied. The equations solved at two dynamic and static levels via the finite difference method. It was revealed that, the resulting pressure drop as well as operation costs might have been lowered while the production capacity enhanced in comparison with the conventional reactors and overall leading to better environment protections. Furthermore, the analysis of the catalyst deactivation behavior indicated that a series of parameters including the reactor temperature and size, as well as the entering carbon monoxide and feed rates played an important role in the catalyst deactivation.

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球形床反应器中甲醇合成催化剂失活的建模:一个环境挑战

催化剂失活及其环境后果被认为是一个需要严肃处理的重要问题。本文研究了球形床在甲醇合成过程中催化剂长期失活的数学模型。两个球体反应器结构的内部空间充满了催化剂。对内半球外表面的材料进行了充分的研究。用有限差分法分别在动、静两级求解。据透露，与传统反应堆相比，由此产生的压降和运行成本可能会降低，而生产能力则会提高，总体上可以更好地保护环境。此外，对催化剂失活行为的分析表明，反应器温度、反应器尺寸、进入的一氧化碳和进料速率等一系列参数对催化剂失活有重要影响。

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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APCBEE Procedia

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