Some computational problems in boundarylayer flows
Abstract
The 'standard problem' formulated involves laminar or turbulent nonsimilar flows in two dimensions. Basic ideas regarding the boxscheme method developed by Keller (1970) are considered. Two nonstandard problems which are easily solved by iterative application of standard problems are examined. These nonstandard problems include inverse problems in which the wall shear is specified and the pressure gradient term is unknown. An approach for the computation of threedimensional boundary layer flows also is described.
 Publication:

Numerical Methods in Fluid Dynamics
 Pub Date:
 1975
 DOI:
 10.1007/BFb0019723
 Bibcode:
 1975LNP....35....1K
 Keywords:

 Boundary Layer Flow;
 Laminar Boundary Layer;
 Numerical Analysis;
 Reversed Flow;
 Three Dimensional Boundary Layer;
 Turbulent Boundary Layer;
 Boundary Layer Equations;
 Boundary Layer Separation;
 Finite Difference Theory;
 NewtonRaphson Method;
 Pipe Flow;
 Two Dimensional Boundary Layer;
 Wall Flow;
 Fluid Mechanics and Heat Transfer