Seasonal Analysis of Solar Energy Utilization Effect of Air-based PVT System by Comparing with Photovoltaic System

Journal of the Korean Solar Energy Society Pub Date : 2022-08-30 DOI:10.7836/kses.2022.42.4.069

Kanghyun Kim, Young-Dae Choi

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Abstract

Recently, the use of new and renewable energy for suppressing the generation of carbon dioxide to prevent global warming has attracted considerable attention. Among the various new and renewable energy sources, solar energy has been attracting increasing interest for the reduction of building energy, as it is easy to implement in buildings and excellent for maintenance and repair. Therefore, in this study, an air-based photovoltaic thermal (PVT) system, which can increase the utilization of solar energy, was compared with the existing PV system through measurements. The PVT system can increases the amount of power generated by reducing the temperature of the panel via the air passing through the lower part of the panel. Furthermore, useing the air whose temperature has been increased by the heat obtained from the panel for indoor heating or hot water supply in the building is possible. The performance of existing PV and PVT panels was measured under the same weather conditions, and result indicated that the power generation efficiency of PVT panels, through which the air passes was higher than that of PV panels. Furthermore, the air whose temperature was increased to ≥ 40°C by the PVT system may be utilized for heating and hot water supply. Overall, by utilizing solar power, air-based PVT systems can utilize 3.4 ~ 3.9 times more solar power than can conventional PVs.

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空气基PVT系统与光伏系统太阳能利用效果的季节分析

最近，利用新能源和可再生能源抑制二氧化碳的产生以防止全球变暖引起了相当大的关注。在各种新能源和可再生能源中，太阳能因其易于在建筑物中实施，并且具有良好的维护和维修性能而受到越来越多的关注。因此，在本研究中，通过测量，将一种可以提高太阳能利用率的空气基光伏热(PVT)系统与现有的光伏系统进行了比较。PVT系统可以通过通过面板下部的空气来降低面板的温度，从而增加产生的电量。此外，可以使用从面板获得的热量提高温度的空气用于室内供暖或建筑物内的热水供应。在相同的天气条件下，对现有PV板和PVT板的性能进行了测试，结果表明，空气通过的PVT板的发电效率高于PV板。此外，通过PVT系统将温度提高到≥40°C的空气可用于供暖和热水供应。总的来说，通过利用太阳能，空基PVT系统可以利用比传统pv多3.4 ~ 3.9倍的太阳能。

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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Journal of the Korean Solar Energy Society

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