Abstract :
Hybrid photovoltaic/thermal (PV/T or PVT) solar systems consist of PV modules coupled to water or air heat extraction devices,
which convert the absorbed solar radiation into electricity and heat. At the University of Patras, an extended research on PV/T systems
has been performed aiming at the study of several modifications for system performance improvement. In this paper a new type of PV/T
collector with dual heat extraction operation, either with water or with air circulation is presented. This system is simple and suitable for
building integration, providing hot water or air depending on the season and the thermal needs of the building. Experiments with dual
type PV/T models of alternative arrangement of the water and the air heat exchanging elements were performed. The most effective
design was further studied, applying to it low cost modifications for the air heat extraction improvement. These modifications include
a thin metallic sheet placed in the middle of the air channel, the mounting of fins on the opposite wall to PV rear surface of the air channel
and the placement of the sheet combined with small ribs on the opposite air channel wall. The modified dual PV/T collectors were combined
with booster diffuse reflectors, achieving a significant increase in system thermal and electrical energy output. The improved PV/T
systems have aesthetic and energy advantages and could be used instead of separate installation of plain PV modules and thermal collectors,
mainly if the available building surface is limited and the thermal needs are associated with low temperature water or air heating.
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