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首页> 外文期刊>Energy and Buildings >Optimization of the building integrated photovoltaic system in office buildings-Focus on the orientation, inclined angle and installed area
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Optimization of the building integrated photovoltaic system in office buildings-Focus on the orientation, inclined angle and installed area

机译:办公楼建筑一体化光伏系统的优化-以方向,倾斜角度和安装面积为重点

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摘要

This study aims to analyze the maximum electric energy production according to the inclination and direction of photovoltaic (PV) installations and the effects of the installation distance to the module length ratio. The annual solar insolation on PV panels was calculated for various facades of two buildings, and an analysis of different horizontal and vertical inclinations of PV panels was also conducted in consideration of the effects of panel shading from other panels and surrounding buildings. As a result, the electric energy production due to the use of the PV system can cover approximately 1-5% of the electric energy consumption of a typical office building in Korea in terms of proper combinations of the following installation factors: inclination, module type, installation distance to module length ratio, and direction. However, if in the building all measures, currently known and technically available would be implemented, the percentage of covering by PV can be significantly bigger.
机译:这项研究旨在根据光伏装置的倾斜度和方向以及安装距离对模块长度比的影响来分析最大电能生产。计算了两座建筑物各个立面的光伏面板的年度日照量,并且还考虑了其​​他面板和周围建筑物的面板遮光效果,对光伏面板的不同水平和垂直倾斜度进行了分析。因此,根据以下安装因素的适当组合,使用光伏系统产生的电能可覆盖韩国典型办公大楼的电能消耗的约1-5%。 ,安装距离与模块长度之比和方向。但是,如果在建筑物中执行当前已知和技术上可用的所有措施,则PV覆盖的百分比可能会大大增加。

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