Modeling and optimization of radiative cooling based thermoelectric generators

Bin Zhao, G. Pei, A. Raman
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引用次数: 42

Abstract

The possibility of night-time power generation has recently stimulated interest in using the radiative sky cooling mechanism with thermoelectric generators (TEG). These passive, low-temperature difference devices have been shown to generate electricity at night with no active input of heat needed, instead using the ambient air itself as the heat source. Here, we optimize both the geometry and operating conditions of radiative cooling driven thermoelectric (RC-TE) generators. We determine the optimal operating conditions, including maximum power point and maximum efficiency point, by developing a combined thermal and electrical model. Our results show that the optimal operating condition results in larger power output than was previously expected. Moreover, we show that maximum power density occurs when the area ratio between cooler and P or N element reaches an optimal value. Finally, we perform a parametric study that takes account of environmental and structural parameters to improve the performance of the RC-TE device, including enhancing heat transfer between the hot surface and ambient air, suppressing the cooling loss of the radiative cooler, and optimizing the geometry of individual thermocouples. Our work identifies how to maximize the output of RC-TE devices and provides comprehensive guidance on making use of this new passive power generation method.
基于辐射冷却的热电发电机建模与优化
夜间发电的可能性最近激发了人们对热电发电机(TEG)使用辐射天空冷却机制的兴趣。这些被动式的低温温差装置已经被证明可以在夜间发电,而不需要主动输入热量,而是利用周围空气本身作为热源。在这里,我们优化了辐射冷却驱动的热电(RC-TE)发电机的几何形状和运行条件。我们通过开发热电结合模型来确定最佳运行条件,包括最大功率点和最大效率点。我们的结果表明,最优运行条件下的输出功率比预期的要大。此外,我们还表明,当冷却器与P或N元件之间的面积比达到最佳值时,功率密度最大。最后,我们进行了一项参数化研究,考虑了环境和结构参数,以提高RC-TE器件的性能,包括增强热表面与环境空气之间的传热,抑制辐射冷却器的冷却损失,以及优化单个热电偶的几何形状。我们的工作确定了如何最大化RC-TE器件的输出,并为利用这种新的无源发电方法提供了全面的指导。
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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