Affiliation:
1. Department of Engineering Mathematics, A.U College of Engineering Andhra University Vishakapatnam India
2. Department of Mathematics Aditya Engineering College (A) Surampalem Andhra Pradesh India
Abstract
AbstractIn a rotational model, the Hall effect on two‐liquid magnetohydrodynamics plasma flows of ionized gases between two nonconducting horizontal channel plates in a slip regime is researched. The produced magnetic field is omitted under the presumption that the Reynolds magnetic number is low. The modeled governing equations are solved by using the existing analytical method so as to obtain solutions in closed form. We use the first order slip to obtain exact results for the velocity, temperature fields, and hence the rates of heat transfer coefficient. On the basis of different values for the Hartmann number, slip, Hall, and rotation parameters, also viscosity, density, height, and electrical conductivity ratios of the two fluids, a parametric investigation of the velocity, temperature fields is initiated. It was concluded that the velocity declined with the augmented values of Hartmann number and the fluid velocity and temperature profiles in both the zones oscillate with the effect of the Hall parameter. In addition to that, the stimulations are present in the heat transfer coefficient rate with various values of the slip and rotational parameters.
Subject
Fluid Flow and Transfer Processes,Condensed Matter Physics
Reference69 articles.
1. Theory of the laminar flow of an electrically conductive liquid in a homogeneous magnetic field;Hartmann J;Mat Phys Medd Kgl DanskevidSelskab,1937
2. Steady motion of conducting fluids in pipes under transverse magnetic fields
3. The instability of a layer of fluid heated from below and subject to Coriolis forces;Chandrasekhar S;Proc Royal Soc London,1953
4. Heat transfer in magnetohydrodynamic flow between parallel plates
5. Duct flow in magnetohydrodynamics
Cited by
1 articles.
订阅此论文施引文献
订阅此论文施引文献,注册后可以免费订阅5篇论文的施引文献,订阅后可以查看论文全部施引文献