A Review: Membrane Reactor for Hydrogen Production: Modeling and Simulation

Alaa Hasan Kassi, T. Al-Hattab
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Abstract

A membrane reactor is a multifactional vessel used for H2 production. Hydrogen's three spectrum colors are dependent on carbon present. Two types of membrane with high permeability to hydrogen (polymeric and metallic) Hydrogen is produced in two systems: conventional reactors and membrane reactors (which separate and purify hydrogen in a single vessel). There are many types of membrane reactors according to design (catalytic membrane reactor (CMR), fixed bed reactor (FBMR), fluidized bed reactor (FBMR), etc. The transport mechanism of H2 through the membrane by a "sorption-diffusion mechanism" and the government equations that are used for membrane reactor modeling and simulation, such as continuity, momentum, mass, and heat transfer equations of the CMR, and the thickness of the membrane. These equations are solved by MATLAB, COMSOL, and the Finite Element Method to simulate the MR at different parameters: rate of conversion, rate of sweep gas, temperature, pressure, rate of H2 permeation through a membrane, and activity of the catalyst. We summarized theoretical studies for membrane reactors, including the operation conditions, type of hydrocarbon feed, type of production method, kind of catalyst, and heat effect.
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膜式制氢反应器的建模与仿真研究进展
膜反应器是一种用于制氢的多组分容器。氢的三种光谱颜色取决于存在的碳。氢在两种系统中产生:传统反应器和膜反应器(在单个容器中分离和纯化氢)。膜反应器按设计有多种类型(催化膜反应器(CMR)、固定床反应器(FBMR)、流化床反应器(FBMR)等。H2通过“吸附-扩散机制”在膜上的输运机制,以及用于膜反应器建模和仿真的政府方程,如CMR的连续性、动量、质量和传热方程,以及膜的厚度。利用MATLAB、COMSOL和有限元方法对这些方程进行求解,模拟了不同参数(转化率、扫气速率、温度、压力、H2通过膜的速率和催化剂活性)下的MR反应。综述了膜反应器的理论研究,包括操作条件、烃类进料类型、生产方法类型、催化剂类型和热效应。
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