Stabilization of higher‐order high resolution schemes for the compressible Navier‐Stokes equations

Abstract

Proposes a measure to stabilize the fourth(fifth)‐order high resolution schemes for the compressible Navier‐Stokes equations. Solves the N‐S equations of the volume fluxes and the low‐Reynolds number k‐ε turbulence model in general curvilinear co‐ordinates by the delta‐form implicit finite difference methods. Notes that, in order to simulate the flow containing weak discontinuities accurately, it is very effective to use some higher‐order TVD upstream‐difference schemes in the right‐hand side of the equations of these methods; however, the higher‐order correction terms of such schemes in general amplify the numerical disturbances. Therefore, restricts these terms here by operating the minmod functions to the curvatures so as to suppress the occurrence of new inflection points. Computes an unsteady transonic turbine cascade flow where vortex streets occur from the trailing edge of blades and interact with shock waves. Finds that the stabilization measure improves not only the computational results but also the convergency for such a complicated flow problem.