Abstract
Penetrative convection due to purely internal heating in a horizontal ferrofluid-saturated porous layer is examined by performing linear stability analysis. Four different types of heat supply functions are considered. The Darcy model is used to incorporate the effect of the porous medium. Numerical solutions are obtained by using the Chebyshev pseudospectral method, and the results are discussed for all three boundary conditions: when both boundaries are impermeable and conducting; when both boundaries are conducting with lower boundary impermeable and free upper boundary; and when both boundaries are impermeable with lower boundary conducting and upper with constant heat flux. The effect of the Langevin parameter, width of ferrofluid layer, permeability parameter, and nonlinearity of the fluid magnetization has been observed at the onset of penetrative convection for water- and ester-based ferrofluids. It is seen that the Langevin parameter, width of ferrofluid layer, and permeability parameter have stabilizing effects on the onset of convection, while the nonlinearity of the fluid magnetization advances the onset of convection.
Highlights
IntroductionFerrofluids (i.e., fluids which contain stable colloidal suspensions of one-domain particles of ferromagnetic and ferrimagnetic materials in liquid carriers) belong to a special class of fluid that exhibit both magnetic and fluid properties [1]
Ferrofluids belong to a special class of fluid that exhibit both magnetic and fluid properties [1]
The numerical results are presented for water- and ester-based ferrofluids
Summary
Ferrofluids (i.e., fluids which contain stable colloidal suspensions of one-domain particles of ferromagnetic and ferrimagnetic materials in liquid carriers) belong to a special class of fluid that exhibit both magnetic and fluid properties [1]. Ferrofluids can be used as a coolant in thermal management devices (such as in loudspeakers and transformers as a coolant) and/or as a heat transfer medium in energy conversion systems such as heat exchangers and processes including boiling [3]. These fluids have been widely used in commercial applications in many areas such as sealing, damping, heat transfer, bearing, and sensing. In addition to the Fluids 2017, 2, 22; doi:10.3390/fluids2020022 www.mdpi.com/journal/fluids
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