Clarkson University
The CAMP building
Of Interest
CRCD Home
ME 437 Home
Syllabus
Assignments
Downloads
Site Map
Course Notes
Engineering Mathematics
Review of Viscous Flows
Review of Computational Fluid Mechanics

Particle Adhesion
Simulation Methods
Experimental Techniques
Applications
Search Powered by Google

The National Science Foundation
ME 437 The National Science Foundation
 Viscous Flows
Navier-Stokes Equation, Vorticity, Stream Function | Exact Solutions | Drag on Spherical Particles | Creeping Flows | Nonspherical Particles

Incompressible Viscous Flows

Plane Stagnation Flows

Potential axisymmetric stagnation flow is described as

The steady state Navier-Stokes equation for axisymmetric flows is given as

where

Similar to the plane flow case we look for a solution of the form

with

Using (25) and (26), Equation (22) reduces to

or

The boundary conditions are

or

Integrating (28) we find

For equation (31) to be valid at large z,

Introducing a change of variables

Equation (31) becomes

subject to

The numerical solutions of the flow filed are very similar to the plane stagnation flow case shown in Figure 2 with a slightly fuller velocity profile. The details of the numerical solution are discussed by Schlichting (1960).



Dr. Goodarz Ahmadi | Turbulence & Multiphase Fluid Flow Laboratory | Department of Mechanical & Aeronautical Engineering
Copyright © 2002-2005 Dr. Goodarz Ahmadi. All rights reserved.
Potsdam, New York, 13699
ahmadi@clarkson.edu