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1. Energy balance and performance assessment of PV systems installed at a positive-energy building (PEB) solar energy research centre.

Author

Zomer, C., Custódio, I., Goulart, S., Mantelli, S., Martins, G., Campos, R., Pinto, G., and Rüther, R.

Subjects

*POSITIVE systems, *SOLAR energy, *ELECTRIC motor buses, *INDUSTRIALIZED building, *ENERGY consumption, *ENERGY consumption of buildings

Abstract

• Over time evolution of energy balance and performance of PV systems of a building. • PV systems supplied more energy than the building needs, so the building is a PEB. • BIPV/BAPV can generate all the building energy needs + recharge electric vehicles. • The PV systems could have supplied even more energy if they had operated ideally. • The ground-mounted PV systems usually had higher yields than the BIPV/BAPV systems. • Widespread use of electric vehicles will demand more energy generation from ZEBs. The energy balance and performance of all Photovoltaic (PV) systems installed at Fotovoltaica/UFSC solar energy laboratory (www.fotovoltaica.ufsc.br) in Florianópolis, Brazil (27° S; 48° W) were demonstrated over time, from Aug/2017 to Feb/2020. The laboratory was designed as a zero-energy building (ZEB) with PV systems installed on rooftops and façades, not maximising annual generation, but to achieve a compromise between aesthetic appeal and the energy output. Further PV systems were installed on the same site in the shapes of a carport, an electric bus (eBus) shelter and charging station, and different ground-mounted PV systems fixed at latitude tilt and single-axis tracking. Monthly analyses were carried out during the period, such as the solar irradiation availability on site, changes in the number of building occupants, the increase of installed capacity of PV systems, and energy generation and consumption. With 111 kWp, the total PV generation in the period could supply 148% of building energy needs and 97% of the Fotovoltaica/UFSC Laboratory (building plus eBus). However, there were some downtime events in certain PV systems due to R&D activities, which affected total energy production. If systems had operated at their optimal performance all the time, the laboratory could have generated 38% more energy, which means 134% of building plus eBus consumption. Therefore, the Fotovoltaica/UFSC Laboratory can be considered not only a ZEB, but a positive-energy building (PEB). The issues discussed in this paper apply not only to the particular case-study presented; they demonstrate the potential of BIPV in enabling energy positive buildings. [ABSTRACT FROM AUTHOR]

Published

2020