Evaluation of Bi‐reforming Performance of Bi‐disperse Catalyst in a Packed Bed Reactor

IF 1.8 4区 工程技术 Q3 ENGINEERING, CHEMICAL
Yaochen Zhu, Shuai Wang, Qinghong Zhang
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Abstract

Bi‐reforming hydrogen production has its potential in the reduction of greenhouse gas emissions. In this work, methane bi‐reforming process in a packed bed reactor using bi‐disperse catalyst particles is numerically investigated via a particle‐resolved modeling. The impacts of macropore fraction, porosity and macropore size on temperature and reaction rate distribution in the bed are evaluated. The results demonstrate that there exists a peak of the maximum temperature difference in the bed with the catalyst macropore fraction. Increasing the macropore fraction of the catalyst can weaken the non‐uniformity of coke formation in the bed. The increase in the macropore size of the catalyst particle can promote the hydrogen production, especially when the macropore size of particle is smaller.

Abstract Image

评估双分散催化剂在填料床反应器中的双转化性能
双转化制氢在减少温室气体排放方面具有潜力。在这项研究中,通过颗粒分辨建模对使用双分散催化剂颗粒的填料床反应器中的甲烷双转化过程进行了数值研究。评估了大孔隙率、孔隙率和大孔隙尺寸对床层中温度和反应速率分布的影响。结果表明,随着催化剂大孔率的增加,床层中的最大温差会出现一个峰值。增加催化剂的大孔率可以减弱床层中焦炭形成的不均匀性。催化剂颗粒大孔尺寸的增加可促进氢气的产生,尤其是当颗粒大孔尺寸较小时。
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来源期刊
Chemical Engineering & Technology
Chemical Engineering & Technology 工程技术-工程:化工
CiteScore
3.80
自引率
4.80%
发文量
315
审稿时长
5.5 months
期刊介绍: This is the journal for chemical engineers looking for first-hand information in all areas of chemical and process engineering. Chemical Engineering & Technology is: Competent with contributions written and refereed by outstanding professionals from around the world. Essential because it is an international forum for the exchange of ideas and experiences. Topical because its articles treat the very latest developments in the field.
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