Peer-Reviewed Journal Details
Mandatory Fields
Farrell, PA; Hegarty, AF; Miller, JJH; O'Riordan, E; Shishkin, GI
2003
November
International Journal For Numerical Methods In Fluids
Computing realistic Reynolds-uniform error bound's for discrete derivatives of flow velocities in the boundary layer for Prandtl's problem
Published
()
Optional Fields
singular perturbation problem experimental error analysis Prandtl's problem Reynolds-uniform error bounds
43
8
895
902
In this paper, we describe an experimental error analysis technique for computing realistic values of the parameter-uniform order of convergence and error constant in the maximum norm associated with a parameter-uniform numerical method for solving singularly perturbed problems. We then employ this technique to compute Reynolds-uniform error bounds in the maximum norm for appropriately scaled discrete derivatives of the numerical solutions generated by a fitted-mesh upwind finite-difference method applied to Prandtl's problem arising from laminar flow past a thin flat plate. Here the singular perturbation parameter is the reciprocal of the Reynolds number. This illustrates the efficiency of the technique for finding realistic parameter-uniform error bounds in the maximum norm for numerical approximations to scaled derivatives of solutions to problems in cases where no theoretical error analysis is available. Copyright (C) 2003 John Wiley Sons, Ltd.
0271-2091
10.1002/fld.573
Grant Details