The intent of the present investigation is to conduct; experimentally, the effects of nanofluid of water/
magnetite and flow channel arrangement on photovoltaic thermal (PVT) systems. Three different configurations
of the collector in PVT were researched in various nanofluid’s flow rate of M_ ¼ 20:0
80:0 ðkg =hrÞ, and nano concentration of 4 ¼ 0:0 2:0%. The studied arrangements of flow channels in
the collector are a sheet-and-plain serpentine tube (PVT-0S), a sheet-and-finned serpentine tube with
four fins (PVT-4S) and a sheet-and-finned serpentine tube with eight fins (PVT-8S). The electrical efficiency
is compared between the cited three cases and the PV panel without cooling system. The
maximum energetic, exergetic and electrical performances were found at the flow rate of
M_ ¼ 80 ðkg =hrÞ and nano concentration of 4 ¼ 2:0%. It was observed that the PVT-8S system provides
the most efficient configuration since the overall energy efficiency (h) in the PVT-8S system are 5:87%,
and 15:59% higher than the PVT-4S, and PVT-0S systems. Further, the PVT-8S system demonstrated the
maximum value of exergy efficiency (G ¼ 14:51%) compared to other studied systems. It was also shown
that the electrical efficiency (L) augments significantly with the adding the cooling systems to the PV
panel. The increase in the electrical efficiency was 12:06%, 10:87%, and 8:40% for the PVT-8S, PVT-4S, and
PVT-0S systems; respectively.