Slip Boundary Condition Effects on the Rate of Heat Transfer in A Micro channel Including Viscous Dissipation

“…Çetin [17] developed the thermal systems with modified design inclusive of convective heat transfer in a microchannel operating at small Reynolds numbers. Anyanwu et al [18] illustrated the importance of the Nusselt number at the two walls of the channel, which shows an unbounded swing which varies with an increase in parameters of fluid-wall interface and rarefaction. Li and Hrnjak [19] microchannel heat exchanger model was developed by taking into consideration the transport properties and thermodynamics of the refrigerant and oil combination very recently, Chamkha et al [20] published their analytical, experimental and, numerical studies based on broad extensive assessment of nanofluid purposes in microchannels.…”

Free Convection in a Vertical Slit Micro-channel with Super-hydrophobic Slip and Temperature Jump Conditions

“…Çetin [17] developed the thermal systems with modified design inclusive of convective heat transfer in a microchannel operating at small Reynolds numbers. Anyanwu et al [18] illustrated the importance of the Nusselt number at the two walls of the channel, which shows an unbounded swing which varies with an increase in parameters of fluid-wall interface and rarefaction. Li and Hrnjak [19] microchannel heat exchanger model was developed by taking into consideration the transport properties and thermodynamics of the refrigerant and oil combination very recently, Chamkha et al [20] published their analytical, experimental and, numerical studies based on broad extensive assessment of nanofluid purposes in microchannels.…”

Free Convection in a Vertical Slit Micro-channel with Super-hydrophobic Slip and Temperature Jump Conditions