Numerical study of magnetic field effect on nano-fluid forced convection in a channel

In this study heal transfer and fluid flow analysis in a straight channel utilizing nano fluid is numerically studied, while flow field is under magnetic field. Usage of nano-particles in base fluid and also applying magnetic held transverse to fluid velocity are two ways recommended in this paper to enhance heat exchange in straight duct. The fluid temperature at the channel inlet (T-in) is taken less than that of the walls (T-w). With assuming thermal equilibrium state of both the fluid phase and nano-particles and ignoring the slip velocity between the phases, single phase approach is used for modeling of nano-fluid. The governing equations are numerically solved in the domain by the control volume approach based on the SIMPLE technique. Numerical studies are performed over a range of Reynolds number, nano-fluid volume fraction and Hartmann number. The influence of these parameters is investigated on the local and average Nusselt numbers. Computations show excellent agreement with the literature. From this study, it is concluded that heat transfer in channels can enhance up to 75% due to the presence of nanoparticles and magnetic field in channels. In industrial applications for cooling or healing purposes, the recommended ways in this paper, can provide helpful guidelines to the manufacturers to enhance efficiencies without heat exchanger area increase. (c) 2014 Elsevier By. All rights reserved,