Slip Effects on Unsteady Oblique Stagnation Point Flow of Nanofluid in a View of Inclined Magnetic Field

Abstract: This study may be applicable in heavy power engine and cooling of a nuclear reactor, insulation for buildings, petroleum reservoir operations, and magnetic material processing solar energy collectors. In this manuscript, the slip results are evaluated for the non-Newtonian fluid on the oblique stagnation point flow of induced magnetic field over the oscillating surface. The valuation of heat flux is examined through the Fourier law of heat transfer. The metallic nanoparticle Copper Cu is within the base fluid,… Show more

“…Anuar et al [21] investigated the numerical solution of the stagnation-point flow and the heat transfer analysis of radiative Maxwell hybrid nanofluids over a nonlinear stretching channel. Rizwana et al [22] examined the slip effects on radiative oblique stagnation-point nanofluid with convective heat-transfer effect in the presence of the inclined magnetic field. In their research, Giri et al [23] investigated the nanoparticle diameter effect and the interfacial layer effect on the MHD flow of nanofluid and the melting heat flow inside a rotating plate channel positioned horizontally.…”

Melting Heat Transfer Rheology in Bioconvection Cross Nanofluid Flow Confined by a Symmetrical Cylindrical Channel with Thermal Conductivity and Swimming Microbes

“…Anuar et al [21] investigated the numerical solution of the stagnation-point flow and the heat transfer analysis of radiative Maxwell hybrid nanofluids over a nonlinear stretching channel. Rizwana et al [22] examined the slip effects on radiative oblique stagnation-point nanofluid with convective heat-transfer effect in the presence of the inclined magnetic field. In their research, Giri et al [23] investigated the nanoparticle diameter effect and the interfacial layer effect on the MHD flow of nanofluid and the melting heat flow inside a rotating plate channel positioned horizontally.…”

Melting Heat Transfer Rheology in Bioconvection Cross Nanofluid Flow Confined by a Symmetrical Cylindrical Channel with Thermal Conductivity and Swimming Microbes

Simultaneous features of Wu's slip, nonlinear thermal radiation and activation energy in unsteady bio-convective flow of Maxwell nanofluid configured by a stretching cylinder

Thermal analysis of micropolar nanofluid in partially heated rectangular enclosure rooted with wavy heated rods