This experimental study aims to energetically and exergetically compare the performance of a PVT
system with sheet-and-plain serpentine tube collector (base PVT system) with two cases of modified PVT
systems. The modified PVT systems are the replacements of plain serpentine tube with rifled serpentine
tube with 3 ribs (3-start rifled PVT system) and 6 ribs (6-start rifled PVT system). The electrical parameter
of the PV module without cooling is compared with the three cases of the PVT system with cooling. The
cooling fluid is water/magnetite nanofluid. The effect of nanofluid flow rates (20e80 kg/h) and nanoadditive
volume concentrations (0e2%) over the three cases of the PVT system is investigated to propose
a suitable combination of flow rate and NA concentration offering the best energetic and exergetic
performances. Thus, the 6-start rifled PVT system achieved a maximum of 22.5% and 3.8% higher overall
energy efficiency, and 5.9%, and 1.9% higher overall exergy efficiency than the base and 3-start rifled PVT
systems at flow rate and concentration of 80 kg/h and 2%. Finally, the electrical power generated by the
base, 3-start rifled, and 6-start rifled PVT systems achieved maximum enhancement of 27.5%, 29.5%, and
31.5% compared to the PV module without cooling.