Maximizing solar energy generation: guidelines for optimizing photovoltaic panel placement on building facades

Rabee M. Reffat, Radwa Ezzat
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Abstract

PurposeThis purpose of this paper is to address the research problem of optimizing photovoltaic (PV) panel placement on building facades to maximize solar energy generation.Design/methodology/approachThe study examines the significance of various design configurations and their implications for PV system performance. The research involves analysis of relevant literature and energy simulations. An exemplary case study is conducted in a hot climate zone to quantify the impacts of PV panel placement on energy generation. Various application scenarios are developed, resulting in 28 scenarios for PV on building facades. Energy simulations using Grasshopper Rhino software and Ladybug plugin components are performed.FindingsThe paper identifies key factors influencing PV panel placement and energy generation through qualitative analysis. It introduces an appropriateness matrix as a decision-making framework to evaluate placement options. The study identifies design configurations and external features impacting PV location selection and performs a qualitative classification to determine their impact on energy generation.Practical implicationsThe results and decision-making framework enable informed choices based on solar radiation levels, shading conditions, and building requirements. Optimizing PV panel placement enhances solar energy harvesting in buildings, benefiting architects and engineers.Originality/valueThe novel contributions of this paper include practical insights and guidance for strategically placing PV panels on building facades.
最大限度地利用太阳能发电:优化建筑外墙光伏板布置的指导原则
设计/方法/途径本研究探讨了各种设计配置的意义及其对光伏系统性能的影响。研究涉及相关文献分析和能源模拟。在一个气候炎热的地区进行了一个示范案例研究,以量化光伏电池板布置对发电量的影响。研究开发了各种应用方案,共得出 28 种光伏建筑外墙应用方案。本文通过定性分析,确定了影响光伏板布置和发电量的关键因素。它引入了一个适当性矩阵,作为评估安置方案的决策框架。研究确定了影响光伏位置选择的设计配置和外部特征,并进行了定性分类,以确定它们对发电量的影响。实际意义研究结果和决策框架使人们能够根据太阳辐射水平、遮阳条件和建筑要求做出明智的选择。优化光伏电池板的布置可提高建筑物的太阳能收集能力,使建筑师和工程师受益匪浅。原创性/价值本文的新颖贡献包括为在建筑物外墙战略性布置光伏电池板提供实用见解和指导。
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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