Authors:
Lorenzo Bottaccioli
1
;
Edoardo Patti
1
;
Michelangelo Grosso
2
;
Gaetano Rasconà
2
;
Angelo Marotta
3
;
Salvatore Rinaudo
3
;
Andrea Acquaviva
1
and
Enrico Macii
1
Affiliations:
1
Politecnico di Torino, Italy
;
2
ST-Polito s.c.a.r.l., Italy
;
3
STMicroeletronics s.r.l., Italy
Keyword(s):
Photovoltaic, GIS, Distributed Software Infrastructure, Urban Planning, Spatio-temporal Analysis, Renewable Energy Planning.
Related
Ontology
Subjects/Areas/Topics:
Energy and Economy
;
Energy Monitoring
;
Energy-Aware Systems and Technologies
;
Greener Systems Planning and Design
;
Renewable Energy Resources
;
Service Innovation and Design to Support Smart Cities
;
Smart Cities
Abstract:
Nowadays, the adoption of renewable energy sources distributed across the city is crucial for planning and developing the future Smart City. An accurate simulation and modelling of energy sources, such as Photovoltaic Panels (PV), is necessary to evaluate both economical and environmental benefits. With the growth of renewable sources in the city simulations of energy production became crucial for the DSO for evaluating retrofits or for network balancing events. In this paper, we present a software infrastructure for simulating the solar radiation and estimating the energy production of a district. The infrastructure simulates the PV production and evaluates the integration of such systems considering real electricity consumption data. In its core, the proposed solution models the behaviours of PV systems taking into account the digital surface of rooftops and sub-hourly meteorological data (e.g. solar radiation and temperature) to compute real-sky conditions. Then, such information
is used to feed a model of the hardware components of PV systems to gain more accurate estimations of energy production in the district in real-sky conditions.
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