Steady-state energy and exergy evaluation are performed on two designs of a hybrid building integrated
photovoltaic thermal (BPT) unit and a thermal wheel (SRX). The working principles of these designs in summer
are similar such that the warm outside air is precooled by exchanging heat with air coming out of the building in
SRX and then enters the building. Also, other outlet air from SRX passes through the BPT unit and cools PV
modules, boosting their efficiency. The working principle of the design A in winter are that the outside air is
preheated by receiving heat from the building exhaust air in SRX and then preheated again by passing through
the BPT system. The design B works in the same way in winter, with the air passing through the BPT system first
and then the SRX. The outcomes revealed that the annual total rate of thermal energy, electrical energy and
thermal exergy outputs of the design A are 23183.4 kW h, 5994 kW h, 261.6 kW h, respectively, while these
values for the design B are respectively 22785.2 kW h, 6030. 6 kW h and 243 kW h. In addition, it was found that
the overall energy/exergy performance of design A is better/worse than design B.