Building-integrated photovoltaic (BIPV) systems represent a highly promising renewable energy technology to realize zero-energy cities. However, BIPV systems have disadvantages such as the absence of an optimal angle and reduced efficiency due to temperature rise. Various methods and studies have been proposed to address these issues, including heat utilization and enhancement of solar or heat radiation to increase efficiency. In this context, a system incorporating photovoltaic-thermoelectric generator-phase change materials (PV-TEG-PCM) has been proposed as a method to harness both solar heat and light.

中文翻译：

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采用微封装相变材料的热电发电机辅助光伏板混合收获机设计

光伏建筑一体化（BIPV）系统代表了一种极具前景的可再生能源技术，可实现零能耗城市。然而，BIPV系统存在一些缺点，例如缺乏最佳角度以及因温升而导致效率降低等。已经提出了各种方法和研究来解决这些问题，包括热利用和增强太阳或热辐射以提高效率。在这种背景下，人们提出了一种结合光伏热电发电机相变材料（PV-TEG-PCM）的系统作为利用太阳热和光的方法。