Magnetohydrodynamic Flow of Viscous Fluid in a Slot Between Curvilinear Surfaces of Revolution
This paper contains the study of the magnetohydrodynamic, steady, laminar flow of viscous fluid in a slot between curvilinear surfaces of revolution having a common axis of symmetry. The boundary layer equations are expressed in terms of the intrinsic curvilinear coordinate system x, θ, γ. The method of perturbation is used to solve the boundary layer equations. As a result, the formulae for parameters of the flow, i.e. the velocity components Vx, Vθ, Vγ and pressure p are obtained.
References
W.F. HUGHES and R.A. ELKO, Magnetohydrodynamic lubrication flow between parallel rotating disks, J. Fluid Mech., 13, 1962.
E.R. MAKI, D.C. KUZMA and R.J. DONNELLY, Magnetohydrodynamic lubrication flow between parallel plates, J. Fluid Mech., 26, 1966.
S. KAMIYAMA, Inertia effects in MHD hydrostatic thrust bearing, Trans. ASME , ser. F, 91 , 4, 1969 .
E. WALICKI, Motion of viscous fluids in slide bearings, Rep. of Akad. Techn.-Roln., 50, 18 , 1977.
E. WALICKI, J. SAWICKI and M. ZIEJEWSKI, Inertia effect in magnetic throughflow of viscous fluid in a slot between fixed surfaces of revolution, Mec'. Appliqu'ee, 23, 6, 1978.