Photovoltaic generation on vertical façades in urban context from open satellite-derived solar resource data

•Solar potential in urban scenarios needs of high quality solar radiation data as input.•Satellite derived solar radiation is now available for the public with very high quality.•Open solar radiation data, DSM from LIDAR and open modeling tools are used in the methodology presented.•Special remarks...

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Bibliographic Details
Published in:Solar energy 2021-08, Vol.224, p.1396-1405
Main Authors: Polo, Jesús, Martín-Chivelet, Nuria, Alonso-Abella, Miguel, Alonso-García, Carmen
Format: Article
Language:English
Subjects:
Arrays
BIPV
Context
Deciduous trees
Digital surface model
Facades
High resolution
Irradiance
Lidar
Modelling
Partial shading of PV arrays
Photovoltaic cells
Photovoltaics
PV modeling
Radiation
Sky view factor
Solar energy
Solar radiation
Solar radiation databases
Trees
Urban areas
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Summary:•Solar potential in urban scenarios needs of high quality solar radiation data as input.•Satellite derived solar radiation is now available for the public with very high quality.•Open solar radiation data, DSM from LIDAR and open modeling tools are used in the methodology presented.•Special remarks and methods are needed to deal with deciduous trees affecting the shadowing of facades. Solar radiation incident at building façades and elements in an urban context is essential in determining the energy production on building rooftops and vertical façades. The proper determination of solar irradiance incident on a vertical façade needs quality input of the components of solar radiation and a high resolution digital surface model with the heights of buildings and other elements in the urban area of study. In this work a thorough methodology for modeling PV generation, in hourly basis, at building façades with open available data and methods is presented. Hourly data of satellite-derived solar irradiance is used with high resolution digital model from LIDAR information to estimate with the Sandia model the PV generation of five small arrays at west, south and east façades of a building in Madrid. PV output modeled for west and south arrays are in rather good agreement with the monitored experimental data of the production. RMSE of 8% and 12% was observed for the monthly power predicted for west and south facades, respectively. The east façade case was much more challenging due to variability of shadows it receives from the nearby large deciduous trees throughout the year, which results in high uncertainty in the shading influence estimation. Anyway, the methodology proves the benefits and possibilities of detailed estimation of PV production in building façades from open available information regarding both solar resource, open modeling tools and urban topography, even in a very challenging conditions associated to the variability of trees canopy.
ISSN:0038-092X
1471-1257
DOI:10.1016/j.solener.2021.07.011