Analysis of albedo effect in a 30-kW bifacial PV system with different ground surfaces using PVsyst software

Q3 Energy

Journal of Energy Systems Pub Date : 2022-12-31 DOI:10.30521/jes.1105348

Ersagun Türkdoğru, M. Kutay

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引用次数: 3

Abstract

Today, electrical energy is used extensively worldwide, increasing importance in almost all business sectors. For this reason, how to produce electrical power from earth sources is so important. Renewable energy sources that do not damage the environment and do not cause greenhouse gas emissions are increasingly used in electrical energy production. Solar energy, also renewable energy, is an excellent choice for the world's future because it is durable, abundant, low cost, recycling, and clean. Efficiency in solar energy is essential in terms of reducing resource use. The efficiency of solar PV modules depends on their structure, irradiance, and temperature. The albedo effects are significant in the bifacial modules because of the reflection of direct and diffuse irradiances. In this paper, the Albedo effect, and the surface's reflective power, are analyzed in a 30-kW bifacial PV system making simulations with PVsyst software. With different ground models and albedos, the PV system is simulated under given conditions using the PVsyst software. After results are compared, it is understood that the albedo effect brings about a severe power increase in bifacial PV systems compared to mono facial PV systems.

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利用PVsyst软件分析30kW不同地表双面光伏系统的反照率效应

今天，电能在世界范围内被广泛使用，在几乎所有的商业部门中越来越重要。因此，如何利用地球资源发电是非常重要的。不破坏环境、不造成温室气体排放的可再生能源越来越多地用于电力生产。太阳能也是一种可再生能源，由于其耐用、丰富、低成本、可循环利用和清洁，是世界未来的绝佳选择。在减少资源使用方面，太阳能的效率是必不可少的。太阳能光伏组件的效率取决于它们的结构、辐照度和温度。双面模组的反照率效应显著，主要是由于直接和漫射辐射的反射。本文利用PVsyst软件对30kw双面光伏系统的反照率效应和表面反射功率进行了仿真分析。在不同的地面模型和反照率下，利用PVsyst软件对PV系统进行了给定条件下的模拟。结果比较后，可以理解的是，与单面光伏系统相比，反照率效应带来了双面光伏系统的严重功率增加。

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

Journal of Energy Systems Environmental Science-Management, Monitoring, Policy and Law

CiteScore

1.60

自引率

0.00%

发文量