太阳能热电发生器和热电冷却器的性能:使用不同形状的几何体进行分析和比较

IF 2.9 4区 环境科学与生态学 Q3 ENERGY & FUELS
Clean Energy Pub Date : 2023-11-17 DOI:10.1093/ce/zkad067
Alkhadher Khalil, S. Sahnoun, A. Elhassnaoui, S. Yadir, A. Obbadi, Y. Errami
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引用次数: 0

摘要

热电设备是利用热能产生温差发电或利用电压加热/冷却系统的技术之一。生产一种产品所需的材料数量是决定其价格的重要因素。与这些材料相关的生产成本,以及材料的可用性和质量,对制造商确定价格起着至关重要的作用。在这种情况下,我们采用了均匀体积分布法。这种方法可以将分析重点放在其他变量上,从而促进对整体性能进行更精确、更相关的评估。基于有限元方法,本研究调查了几何形状(包括矩形脚、Y 形脚、针脚和 X 形脚设计)对太阳能热电发电机和热电冷却器性能的影响。研究考虑的是接受太阳辐射的相同热氧化铝接合面;然而,有效表面(对应于热流区域,在暴露表面附近有相似的面积)因所选支腿的几何形状而异,从而因热阻的变化而影响热通量。在太阳能热电效应发生器中,具有相同有效表面积的矩形支脚模型由于散热器和热氧化铝板中的对流和辐射而产生的热损失值最低。在相同条件下,Y 型支腿的热损失值最高。通过热集中和光学集中,Rect-leg 设计产生的输出功率最高,分别为 0.028 和 0.054 W,效率最高,分别为 3.47% 和 4.7%,而 Y-leg 产生的功率值较低,分别为 0.006523 和 0.018744 W,效率最高,分别为 2.83% 和 2.71%。就热电冷却器而言,Y 型支腿在电流值为 1.8 A 时产生的冷热侧温差最大,为 67.28 K,而 Rect 型支腿、Pin 型支腿和 X 型支腿在电流值为 6.1、2.7 和 2.6 A 时产生的温差分别为 ~66.25、 ~67.02 和 ~67.19 K。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Solar thermoelectric generator and thermoelectric cooler performance: analysis and comparison using a different shape geometry
Thermoelectric devices are one of the technologies used either to generate electricity by applying a temperature difference using thermal energy or as a heating/cooling system by applying an electrical voltage. The number of materials required to produce a product is an important factor in determining its price. Production costs associated with these materials, as well as their availability and quality, play a crucial role in price determination by manufacturers. In this context, a method that employs a uniform volume distribution was implemented. This approach enabled the analysis to focus on other variables, thereby promoting a more precise and relevant evaluation of overall performance. Based on the finite element method, this study investigated the influence of geometric shape, including Rect-leg, Y-leg, Pin-leg and X-leg designs, on the performance of solar thermoelectric generators and thermoelectric coolers. The study was conducted considering the same hot alumina junction surface that receives solar radiation; however, the effective surface, which corresponded to the heat flow area and had a similar area near the exposed surface, varied depending on the chosen leg geometry, thus impacting the heat flux due to the variation in thermal resistance. In the case of a solar thermoelectric generator, the Rect-leg model, having the same effective surface area, presented the lowest heat loss value resulting from convection and radiation in the heat spreader and the hot alumina plate. Under the same conditions, the Y-leg showed the highest value. The Rect-leg design generated, by using thermal and optical concentration, the highest output power of 0.028 and 0.054 W, and efficiency of 3.47% and 4.7%, respectively, whereas the Y-leg generated lower values of 0.006523 and 0.018744 W for power, and 2.83% and 2.71% for efficiency, respectively. In the case of the thermoelectric coolers, the Y-leg generated the highest temperature difference between the hot and cold sides of 67.28 K at an electric current value of 1.8 A, whereas the Rect-leg, Pin-leg and X-leg generated ~66.25, ~67.02 and ~67.19 K at 6.1, 2.7 and 2.6 A.
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来源期刊
Clean Energy
Clean Energy Environmental Science-Management, Monitoring, Policy and Law
CiteScore
4.00
自引率
13.00%
发文量
55
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