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Validation of a 3D Local-Scale Adaptive Solar Radiation Model by Using Pyranometer Measurements and a High-Resolution Digital Elevation Model

by Sánchez-Aparicio, María , Montenegro Armas, Rafael , Asensio, M. Isabel , Montero García, Gustavo , Medina, Alejandro , García-Ferrero, Judit , Lagüela, Susana , Andrés-Anaya, Paula , Cascón, J. Manuel , Rodríguez, Eduardo , Oliver-Serra, Albert , Iglesias, José M. , Santos, M. Jesús

in Accuracy / adaptive mesh / Algorithms / Analysis / Architecture / Atmosphere / complex orography / Geographic information systems / Geometry / Geospatial data / high-resolution DEM / LiDAR data / Measurement / Optical radar / Radiation / Remote sensing / shadow calculation / Solar energy / solar radiation / Sun

2024

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Validation of a 3D Local-Scale Adaptive Solar Radiation Model by Using Pyranometer Measurements and a High-Resolution Digital Elevation Model

2024

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Validation of a 3D Local-Scale Adaptive Solar Radiation Model by Using Pyranometer Measurements and a High-Resolution Digital Elevation Model

2024

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Journal Article

Validation of a 3D Local-Scale Adaptive Solar Radiation Model by Using Pyranometer Measurements and a High-Resolution Digital Elevation Model

Sánchez-Aparicio, María,

Montenegro Armas, Rafael,

Asensio, M. Isabel,

Montero García, Gustavo,

Medina, Alejandro,

García-Ferrero, Judit,

Lagüela, Susana,

Andrés-Anaya, Paula,

Cascón, J. Manuel,

Rodríguez, Eduardo,

Oliver-Serra, Albert,

Iglesias, José M.,

Santos, M. Jesús

2024

Overview

The result of the multidisciplinary collaboration of researchers from different areas of knowledge to validate a solar radiation model is presented. The MAPsol is a 3D local-scale adaptive solar radiation model that allows us to estimate direct, diffuse, and reflected irradiance for clear sky conditions. The model includes the adaptation of the mesh to complex orography and albedo, and considers the shadows cast by the terrain and buildings. The surface mesh generation is based on surface refinement, smoothing and parameterization techniques and allows the generation of high-quality adapted meshes with a reasonable number of elements. Another key aspect of the paper is the generation of a high-resolution digital elevation model (DEM). This high-resolution DEM is constructed from LiDAR data, and its resolution is two times more accurate than the publicly available DEMs. The validation process uses direct and global solar irradiance data obtained from pyranometers at the University of Salamanca located in an urban area affected by systematic shading from nearby buildings. This work provides an efficient protocol for studying solar resources, with particular emphasis on areas of complex orography and dense buildings where shadows can potentially make solar energy production facilities less efficient.

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MDPI AG,MDPI

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