Performance Enhancement of Thermoelectric Generator-Radiative Cooling System With Thermal and Electrical Energy Storage

Energy Storage Pub Date : 2024-11-10 DOI:10.1002/est2.70081

Aysu Yigit, Muhammed Yilmaz, Aminu Yusuf, Sedat Ballikaya

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Abstract

A thermoelectric generator (TEG) converts thermal energy into electrical energy when temperature gradients are created across its two surfaces. Integrating the TEG with a phase change material (PCM) and radiative cooling (RC) can increase the temperature gradient across its two surfaces. In this study, a two-layer RC paint has been developed and applied to the cold side of a TEG, and its performance was compared with TEG-white paint and TEG-no paint. The RC lowers the temperature of the cold side by 3.5°C and 4.7°C compared to TEGs with white paint and no paint, respectively. Integrating PCM with TEG–RC ensured a high electrical output, enabling continuous power for a typical weather sensor. The PCM–TEG–RC generated 2.7and 0.61 mW during summer and winter days in Istanbul, and nighttime outputs of 0.302 W and 0.395 mW, respectively. Despite similar costs, the electrical performance of TEG–RC was nearly double that of the TEG-white paint. It has also been determined that a storage capacitor with a value of 0.5 F can provide 24-h power backup to the typical weather sensor.

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带热能和电能存储的热电发电机-辐射冷却系统的性能提升

当热电发生器（TEG）的两个表面产生温度梯度时，它就能将热能转化为电能。将 TEG 与相变材料 (PCM) 和辐射冷却 (RC) 相结合，可以增加其两个表面的温度梯度。本研究开发了一种双层 RC 涂料，并将其应用于 TEG 的冷面，将其性能与 TEG 白色涂料和 TEG 无涂料进行了比较。与涂有白色涂料和无涂料的 TEG 相比，RC 使冷侧温度分别降低了 3.5°C 和 4.7°C。PCM 与 TEG-RC 的集成确保了高电力输出，使典型的天气传感器能够持续供电。PCM-TEG-RC 在伊斯坦布尔的夏日和冬季分别产生 2.7 和 0.61 mW，夜间输出分别为 0.302 W 和 0.395 mW。尽管成本相似，但 TEG-RC 的电气性能几乎是 TEG 白色涂料的两倍。此外，还确定了一个 0.5 F 值的存储电容器可为典型的气象传感器提供 24 小时的备用电源。

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

Energy Storage

CiteScore

2.90

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0.00%

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