Effect of Magnetic Field on Oscillatory Flow Past Parallel Plates in a Rotating System with Heat and Mass Transfer

Authors

  • Pawan Kumar Sharma

  • Sushil Kumar Saini

Keywords:

MHD, porous medium, incompressible fluid, natural convection, heat and mass transfer

Abstract

This communication investigates the effect of magnetic filed on oscillatory flow with the combined effects of fluctuating heat and mass transfer past vertical parallel porous flat plates. It is assumed that vertical channel is rotating with angular velocity . The periodic suction velocity is assumed at the plate and other plate oscillating with periodic free stream velocity. The governing equations are solved by adopting complex variable notations. The analytical expressions for velocity and temperature fields are obtained using perturbation technique. The effects of various parameters on mean primary, mean secondary velocity, mean temperature, mean concentration, transient velocity, transient temperature, transient concentration and rate of heat and mass transfer in terms of amplitude and phase differences have been discussed and shown graphically.

How to Cite

Pawan Kumar Sharma, & Sushil Kumar Saini. (2014). Effect of Magnetic Field on Oscillatory Flow Past Parallel Plates in a Rotating System with Heat and Mass Transfer. Global Journal of Science Frontier Research, 14(F4), 17–35. Retrieved from https://journalofscience.org/index.php/GJSFR/article/view/1259

Effect of Magnetic Field on Oscillatory Flow Past Parallel Plates in a Rotating System with Heat and Mass Transfer

Published

2014-03-15