This work is devoted to the experimental evaluation of the impact of a rotating magnetic field (RMF) on the
thermal-hydraulic characteristics of laminar forced convection of aqueous magnetite ferrofluid through a rifled
tube. The RMF consists of two small permanent magnets that revolve around the rifled tube. Considering the
clockwise and counterclockwise directions for the rotation of each magnets, four different arrangements were
considered for the RMF. The results were determined for different values of Reynolds number (Re), nanoparticle
concentration (φ) and rifling pitch (P). Nusselt number (Nu), friction factor and Performance Evaluation Criterion
(PEC) were considered as performance parameters. The analysis of the PEC parameter showed that from an
overall hydrothermal point of view, the use of rifled tube and RMF is desirable. In the absence of RMF, the
highest PEC was equal to 1.813, which occurred in the case of Re=2000, φ=0% and P=5 mm. In addition, among
the cases with RMF, the maximum PEC was equal to 1.601, which belonged to the case of Re=2000, φ=2% and
P=5 mm.