Numerical Study of Dry Reforming of Methane in Packed and Fluidized Beds: Effects of Key Operating Parameters

IF 2.8 Q2 ENGINEERING, CHEMICAL ChemEngineering Pub Date : 2023-06-20 DOI:10.3390/chemengineering7030057
Fahad Al-Otaibi, Hongliang Xiao, A. Berrouk, K. Polychronopoulou
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引用次数: 2

Abstract

Replacing the conventionally used steam reforming of methane (SRM) with a process that has a smaller carbon footprint, such as dry reforming of methane (DRM), has been found to greatly improve the industry’s utilization of greenhouse gases (GHGs). In this study, we numerically modeled a DRM process in lab-scale packed and fluidized beds using the Eulerian–Lagrangian approach. The simulation results agree well with the available experimental data. Based on these validated models, we investigated the effects of temperature, inlet composition, and contact spatial time on DRM in packed beds. The impacts of the side effects on the DRM process were also examined, particularly the role the methane decomposition reaction plays in coke formation at high temperatures. It was found that the coking amount reached thermodynamic equilibrium after 900 K. Additionally, the conversion rate in the fluidized bed was found to be slightly greater than that in the packed bed under the initial fluidization regime, and less coking was observed in the fluidized bed. The simulation results show that the adopted CFD approach was reliable for modeling complex flow and reaction phenomena at different scales and regimes.
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甲烷在填充床和流化床中干法重整的数值研究:关键操作参数的影响
用碳足迹较小的工艺取代传统使用的甲烷蒸汽重整(SRM),如甲烷干法重整(DRM),已被发现可以大大提高行业对温室气体的利用率。在这项研究中,我们使用欧拉-拉格朗日方法对实验室规模的填充床和流化床中的DRM过程进行了数值模拟。仿真结果与现有的实验数据吻合良好。基于这些经过验证的模型,我们研究了温度、入口组成和接触空间时间对填充床DRM的影响。还考察了副作用对DRM过程的影响,特别是甲烷分解反应在高温下焦炭形成中的作用。研究发现,在900K后焦化量达到热力学平衡。此外,在初始流化状态下,流化床中的转化率略高于填充床中的转化速率,并且在流化床中观察到较少的焦化。模拟结果表明,采用CFD方法对不同尺度和状态下的复杂流动和反应现象进行建模是可靠的。
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来源期刊
ChemEngineering
ChemEngineering Engineering-Engineering (all)
CiteScore
4.00
自引率
4.00%
发文量
88
审稿时长
11 weeks
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