Issue 5, 2021, Issue in Progress
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RSC Advances

Numerical study on the effect of discrete catalytic layer arrangement on methane steam reforming performance

Han Wang, ORCID logo a   Guogang Yang,*a   Shian Li,*a   Qiuwan Shen, ORCID logo a   Zheng Lia  and  Biaojie Chena  

* Corresponding authors

a Marine Engineering College, Dalian Maritime University, China
E-mail: wang.han@dlmu.edu.cn, yanggg@dlmu.edu.cn, lishian@dlmu.edu.cn

Abstract

The arrangement of catalytic layers inside the reactor is an important factor that affects the efficiency of methane steam reforming to produce hydrogen, and the traditional continuous catalytic layer structure is limited by the heat and mass transfer, resulting in unbalanced heat distribution inside the reactor and poor reaction performance. In order to improve the performance of methane reforming and balance the internal temperature of the reactor, different catalytic layers were designed based on 2D numerical simulation, and different numbers of discrete catalytic layers were modeled to compare the heat and mass transfer, methane conversion rate and hydrogen yield between the walls and inside the reactor. The results show that the increase in the number of catalyst gaps improves the temperature gradient inside the reactor, reduces the average cold point temperature difference inside the reactor by up to 7.2%, maintains a better thermal balance inside the reactor, improves the reaction rate inside the reactor, and the methane conversion rate and hydrogen yield after the reaction have been improved by 28.46% and 12.7% respectively.

Graphical abstract: Numerical study on the effect of discrete catalytic layer arrangement on methane steam reforming performance

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Article information

DOI
https://doi.org/10.1039/D0RA08843A
Article type
Paper
Submitted
17 Oct 2020
Accepted
27 Nov 2020
First published
13 Jan 2021
This article is Open Access
Creative Commons BY-NC license

RSC Adv., 2021,11, 2958-2967

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Numerical study on the effect of discrete catalytic layer arrangement on methane steam reforming performance

H. Wang, G. Yang, S. Li, Q. Shen, Z. Li and B. Chen, RSC Adv., 2021, 11, 2958 DOI: 10.1039/D0RA08843A

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