Abstract
AbstractA study of viscous and inviscid hypersonic flows using generalized upwind methods is presented. A new family of hybrid flux‐splitting methods is examined for hypersonic flows. The hybrid method is constructed by the superposition of the flux‐vector‐splitting (FVS) method and second‐order artificial dissipation in the regions of strong shock waves. The conservative variables on the cell faces are calculated by an upwind extrapolation scheme to third‐order accuracy. A second‐order‐accurate scheme is used for the discretization of the viscous terms. The solution of the system of equations is achieved by an implicit unfactored method. In order to reduce the computational time, a local adaptive mesh solution (LAMS) method is proposed. The LAMS method combines the mesh‐sequencing technique and local solution of the equations. The local solution of either the Euler or the NAVIER‐STOKES equations is applied for the region of the flow field where numerical disturbances die out slowly. Validation of the Euler and NAVIER‐STOKES codes is obtained for hypersonic flows around blunt bodies. Real gas effects are introduced via a generalized equation of state.
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