GIS-Based Optimal Photovoltaic Panel Floorplanning for Residential Installations
Sara Vincoa, Lorenzo Bottacciolib, Edoardo Pattic, Andrea Acquavivad, Enrico Maciie and Massimo Poncinof
Politecnico di Torino, Torino, Italy
aSara.Vinco@polito.it
bLorenzo.Bottaccioli@polito.it
cEdoardo.Patti@polito.it
dAndrea.Acquaviva@polito.it
eEnrico.Macii@polito.it
fMassimo.Poncino@polito.it
ABSTRACT
Shading is a crucial issue for the placement of PV installations, as it heavily impacts power production and the corresponding return of investment. Nonetheless, residential rooftop installations still rely on rule-of-thumb criteria and on gross estimates of the shading patterns, while more optimized approaches focus solely on the identification of suitable surfaces (e.g., roofs) in a larger geographic area (e.g., city or district). This work addresses the challenge of identifying an optimal (with respect to the overall energy production) placement of PV panels on a roof. The novel aspect of the proposed solution lies in the possibility of having a sparse, irregular placement of individual modules so as to better exploit the variance of solar data. The latter are represented in terms of the distribution of irradiance and temperature values over the roof, as elaborated from historical traces and Geographical Information System (GIS) data. Experimental results will prove the effectiveness of the algorithm through three real world case studies, and that the generated optimal solutions allow to increase power production by up to 28% with respect to rule-of-thumb solutions.
