
Accession Number : AD0762049
Title : Velocity and Temperature Development in the Entrance Region Between Two Rotating Concentric Cylinders.
Descriptive Note : Interim rept.,
Corporate Author : TENNESSEE UNIV KNOXVILLE DEPT OF MECHANICAL AND AEROSPACE ENGINEERING
Personal Author(s) : Kadivar,Mohamad Reza
Report Date : JUN 1973
Pagination or Media Count : 100
Abstract : The study concerns a numerical investigation of incompressible flow in the entrance region of a concentric annulus with the inside cylinder rotating. The elliptical Navier Stokes equations are reduced to parabolic equations with the aid of straining coordinates and assuming high leakage Reynolds number. The system of equations is numerically integrated by the classical marching techniques which were developed for parabolic systems. The nondimensional mathematical system of equations is solved by the classical central difference CrankNicholson implicit scheme. The z and phi momentum equations and the energy equation are put in the form of a tridiagonal matrix and are solved by the Gaussian reduction method. The program for the solution of velocity components was run without specifying any value for the Reynolds number. (Modified author abstract)
Descriptors : (*INCOMPRESSIBLE FLOW, CYLINDRICAL BODIES), HYDRODYNAMICS, NAVIER STOKES EQUATIONS, REYNOLDS NUMBER, HEAT TRANSFER, CURVE FITTING, COMPUTER PROGRAMS, NUMERICAL INTEGRATION, NUMERICAL ANALYSIS
Subject Categories : Numerical Mathematics
Fluid Mechanics
Distribution Statement : APPROVED FOR PUBLIC RELEASE