Dynamic modeling of a H2O-permselective membrane reactor to enhance methanol synthesis from syngas considering catalyst deactivation

Journal of Natural Gas Chemistry Pub Date : 2012-07-01 DOI:10.1016/S1003-9953(11)60383-6

M. Farsi, A. Jahanmiri

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引用次数: 10

Abstract

In this paper, the effect of water vapor removal on methanol synthesis capacity from syngas in a fixed-bed membrane reactor is studied considering long-term catalyst deactivation. A dynamic heterogeneous one-dimensional mathematical model that is composed of two sides is developed to predict the performance of this configuration. In this configuration, conventional methanol reactor is supported by an alumina-silica composite membrane layer for water vapor removal from reaction zone. To verify the accuracy of the considered model and assumptions, simulation results of the conventional methanol reactor is compared with the industrial plant data under the same process condition. The membrane reactor improves catalyst life time and enhances CO₂ conversion to methanol by overcoming the limitation imposed by thermodynamic equilibrium. This configuration has enhanced the methanol production capacity about 4.06% compared with the industrial methanol reactor during the production time.

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考虑催化剂失活的h2o - perselective膜反应器提高合成气甲醇合成的动力学建模

考虑催化剂长期失活，研究了固定床膜反应器中除水蒸气对合成气合成甲醇能力的影响。建立了一个由两侧组成的动态异构一维数学模型来预测该结构的性能。在这种结构中，传统的甲醇反应器由氧化铝-二氧化硅复合膜层支撑，用于从反应区去除水蒸气。为了验证所考虑的模型和假设的准确性，将传统甲醇反应器的模拟结果与相同工艺条件下的工业装置数据进行了比较。膜反应器克服了热力学平衡的限制，提高了催化剂的使用寿命，提高了CO2转化为甲醇的效率。与工业甲醇反应器相比，该配置在生产期间提高了约4.06%的甲醇生产能力。

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Journal of Natural Gas Chemistry 化学-工程：化工

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2 months