In the current framework of energy transition, renewable energy production has gained a renewed relevance. A set of 75 papers was selected from the existing literature and critically analyzed to understand the main inputs and tools used to calculate solar energy and derive theoretical photovoltaic production based on geographic information systems (GISs). A heterogeneous scenario for solar energy estimation emerged from the analysis, with a prevalence of 2.5D tools-mainly ArcGIS and QGIS-whose calculation is refined chiefly by inputting weather data from databases. On the other hand, despite some minor changes, the formula for calculating the photovoltaic potential is widely acknowledged and includes solar energy, exploitable surface, performance ratio, and panel efficiency. While sectorial studies-targeting a specific component of the calculation-are sound, the comprehensive ones are generally problematic due to excessive simplification of some parts. Moreover, validation is often lacking or, when present, only partial. The research on the topic is in constant evolution, increasingly moving towards purely 3D models and refining the estimation to include the time component-both in terms of life cycle and variations between days and seasons.
Trends and Evolution of the GIS-Based Photovoltaic Potential Calculation / Anselmo, S; Ferrara, M. - In: ENERGIES. - ISSN 1996-1073. - ELETTRONICO. - 16:23(2023). [10.3390/en16237760]
Trends and Evolution of the GIS-Based Photovoltaic Potential Calculation
Anselmo, S;Ferrara, M
2023
Abstract
In the current framework of energy transition, renewable energy production has gained a renewed relevance. A set of 75 papers was selected from the existing literature and critically analyzed to understand the main inputs and tools used to calculate solar energy and derive theoretical photovoltaic production based on geographic information systems (GISs). A heterogeneous scenario for solar energy estimation emerged from the analysis, with a prevalence of 2.5D tools-mainly ArcGIS and QGIS-whose calculation is refined chiefly by inputting weather data from databases. On the other hand, despite some minor changes, the formula for calculating the photovoltaic potential is widely acknowledged and includes solar energy, exploitable surface, performance ratio, and panel efficiency. While sectorial studies-targeting a specific component of the calculation-are sound, the comprehensive ones are generally problematic due to excessive simplification of some parts. Moreover, validation is often lacking or, when present, only partial. The research on the topic is in constant evolution, increasingly moving towards purely 3D models and refining the estimation to include the time component-both in terms of life cycle and variations between days and seasons.File | Dimensione | Formato | |
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https://hdl.handle.net/11583/2984672