Studying thermal conductivity of magnetic nanofluids in constant magnetic field

Abstract: Abstract. The thermal conductivity of magnetic nanofluids in a constant magnetic field is investigated. The concentration dependence of the thermal conductivity coefficient of magnetic fluids based on water and iron oxide nanoparticles Fe 3 O 4 in a constant magnetic field is obtained. The dependence of the thermal conductivity coefficient of nanofluid on the nanoparticles size in a magnetic field is obtained. The temperature effect on the thermal conductivity of magnetic nanofluid in a constant magnetic field… Show more

“…It was observed that the increment in average convective heat transfer is 13% and 10% with and without magnetic field effect compared to the used distilled water as the working fluid. Pryazhnikov et al [13] studied the thermal conductivity of Fe 3 O 4 /Water nanofluid under the magnetic field effect. They observed that the thermal conductivity of nanofluid increases up to 30% under the magnetic field effect.…”

Effect of constant magnetic field on Fe3O4-Cu/water hybrid nanofluid flow in a circular pipe

“…It was observed that the increment in average convective heat transfer is 13% and 10% with and without magnetic field effect compared to the used distilled water as the working fluid. Pryazhnikov et al [13] studied the thermal conductivity of Fe 3 O 4 /Water nanofluid under the magnetic field effect. They observed that the thermal conductivity of nanofluid increases up to 30% under the magnetic field effect.…”

Effect of constant magnetic field on Fe3O4-Cu/water hybrid nanofluid flow in a circular pipe

Investigation of the optimum design of magnetic field arrangement to enhance heat transfer performance of Fe3O4-water magnetic nanofluid