Performance improvement of a micro-structured gas separator utilizing the Soret effect

IF 1.2 4区 工程技术 Q3 THERMODYNAMICS Journal of Thermal Science and Technology Pub Date : 2022-01-01 DOI:10.1299/jtst.21-00271
Takeshi Kyoda, Takumi Saiki, S. Matsumoto, Shinya Watanabe, N. Ono
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Abstract

CO device necessary temperature Abstract The Soret effect is a phenomenon in which the components of mixed fluids are separated by a temperature gradient. This study investigated a simple and low-cost technique for extracting high concentration hydrogen (H 2 ) by utilizing the Soret effect in a H 2 –carbon dioxide mixed gas. Previous research by the authors attempted to improve the efficiency of H 2 separation by applying a temperature difference to a network of separators with a continuous structure (the Burgers cascade) and enabling a mixed gas throughflow. One of the problems in that study was the impairment in separation performance that occurred due to the remixing of the components separated by flows within the device cells. Therefore, to resolve this problem, the present study conducted numerical simulations for gas flow, temperature distribution, and H 2 concentration and studied the effect of inserting an additional structure (a partition) to prevent gas remixing at first. Based on the simulation results, experiments were conducted using the Burgers cascade in a device with partitioned cells. The results confirmed that the partitions improved the separation of H 2 by up to about 1.6 times compared with conventional devices.
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利用Soret效应改进微结构气体分离器的性能
索雷特效应是指混合流体的组分被温度梯度分离的现象。利用Soret效应,研究了一种简单、低成本的高浓度氢气(h2)提取技术。作者之前的研究试图通过对具有连续结构的分离器网络(Burgers级联)施加温差来提高h2分离的效率,并使混合气体通过流动。该研究中的一个问题是由于设备单元内流动分离的组分的再混合而导致分离性能受损。因此,为了解决这一问题,本研究首先对气体流动、温度分布和h2浓度进行了数值模拟,并研究了插入额外结构(隔板)防止气体再混合的效果。在模拟结果的基础上,利用分格装置进行了Burgers级联实验。结果证实,与传统装置相比,隔板将h2的分离提高了约1.6倍。
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来源期刊
CiteScore
2.30
自引率
8.30%
发文量
0
审稿时长
5 months
期刊介绍: JTST covers a variety of fields in thermal engineering including heat and mass transfer, thermodynamics, combustion, bio-heat transfer, micro- and macro-scale transport phenomena and practical thermal problems in industrial applications.
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