Effects of slip and chemical reaction models on three-dimensional nonequilibrium viscous shock-layer flows

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Three-dimensional finite rate chemically reacting viscous shock-layer flows over complex geometries have been analyzed using seven- and eleven-species air models. The viscous shock-layer code for analyzing nonequilibrium flow over multiconics using a seven-species air model has been modified to include an elevenspecies air model. The viscous shock-layer code with seven-species model has been modified to include wall-slip conditions, and the results for fully catalytic and noncatalytic surfaces with slip are presented. For the cases under consideration, the surface-measurable quantities computed using the two models agree well with each other. Wall slip had negligible effect on electron number density, whereas with shock slip, an order of magnitude increase in electron density was predicted.