Design and optimization of air-cooled supercapacitor thermal management system based on the corner deflectors and the inclined inlet and outlet

IF 1.4 4区 工程技术 Q3 ENGINEERING, CHEMICAL
Chaoying Xu, Guofu Li, Dianbo Ruan
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Abstract

In this paper, a novel air-cooled supercapacitor thermal management system (STMS) based on the corner deflectors and the inclined inlet and outlet was proposed. The temperature and velocity fields were simulated and analyzed by CFD. Moreover, the heat dissipation effect of different STMSs was analyzed against each other. The results showed that the STMS proposed had a better heat dissipation effect when the inclined angle of inlet and outlet was appropriate, in which the maximum temperature (Tmax) and the maximum temperature difference (ΔTmax) of the module could be reduced by 10.3% and 34.6%. And it is shown that the structure with inclined inlet and outlet plays an important role for the heat dissipation capability of the STMS proposed. And it has experimentally proven its heat dissipation ability. Consequently, the impacts of inclined angle (α), monomer spacing (dc), and the distance between monomer and module shell (dx, dy, and dz) on the heat dissipation effect were deeply analyzed. For the STMS arranged in four rows and three columns, it had a better heat dissipation effect when inclined angle was in the range of 40° to 50°. The results showed that the structural parameters had a large influence on the Tmax and ΔTmax. Besides, it had shown that the temperature curves of the Tmax and ΔTmax had a main trend of “decreasing and then increasing” when the monomer spacing as well as the distance between monomer and module shell are taken from 1 mm to 5 mm. It implies that a small spacing (1 mm to 2 mm) will hinder the air circulation and reduce heat dissipation, and a large spacing (3 mm to 5 mm) will reduce the average flow rate of air and reduce the efficiency of heat transfer.

基于角导流板和倾斜进出口的风冷超级电容器热管理系统的设计与优化
本文提出了一种基于角导流板和倾斜进出口的新型风冷超级电容器热管理系统(STMS)。通过 CFD 对温度场和速度场进行了模拟和分析。此外,还对不同 STMS 的散热效果进行了对比分析。结果表明,当进出口的倾斜角度合适时,所提出的 STMS 具有更好的散热效果,模块的最高温度(Tmax)和最大温差(ΔTmax)分别降低了 10.3% 和 34.6%。实验表明,倾斜的进出口结构对 STMS 的散热能力起着重要作用。实验证明了其散热能力。因此,我们深入分析了倾斜角度(α)、单体间距(dc)以及单体与模块外壳间距(dx、dy 和 dz)对散热效果的影响。对于四行三列排列的 STMS,当倾斜角度在 40° 至 50° 范围内时,散热效果较好。结果表明,结构参数对 Tmax 和 ΔTmax 有较大影响。此外,当单体间距以及单体与模块外壳间距为 1 毫米至 5 毫米时,Tmax 和 ΔTmax 的温度曲线主要呈 "先减小后增大 "的趋势。这意味着,单体间距过小(1 毫米至 2 毫米)会阻碍空气流通,降低散热量;单体间距过大(3 毫米至 5 毫米)会降低空气的平均流速,降低传热效率。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
自引率
11.10%
发文量
111
期刊介绍: Asia-Pacific Journal of Chemical Engineering is aimed at capturing current developments and initiatives in chemical engineering related and specialised areas. Publishing six issues each year, the journal showcases innovative technological developments, providing an opportunity for technology transfer and collaboration. Asia-Pacific Journal of Chemical Engineering will focus particular attention on the key areas of: Process Application (separation, polymer, catalysis, nanotechnology, electrochemistry, nuclear technology); Energy and Environmental Technology (materials for energy storage and conversion, coal gasification, gas liquefaction, air pollution control, water treatment, waste utilization and management, nuclear waste remediation); and Biochemical Engineering (including targeted drug delivery applications).
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