Abstract
An implicit-explicit flux vector splitting scheme which can be used in both explicit and implicit calculations is proposed and applied to a hypersonic thermochemical nonequilibrium flow problem. Since the consistency of these calculations must be remarkably good, the effort to make the present computational code has been greatly reduced. In this paper, consequently the numerical algorithm of the present scheme is weightedly explained.
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Gnoffo, P.A., McCandless, R.S. and Yee, H.C., “Enhancements to Program Laura for Computation of Three-Dimensional Hypersonic Flow,” AIAA Peper 87-0280 (1987).
Candler, G., “The Computation of Weakly Ionized Hypersonic Flows in Thermochemical Nonequilibrium,” Ph.D Thesis, Stanford University, (1988).
Park, C. and Yoon, S., “Fully Coupled Implicit Method for Thermochemical Nonequilibrium Air at Suborbital Flight Speeds.,” J. Spacecraft and Rockets, Vol.28, No.1 (1991), pp.31–39.
Imlay, S.T. and Eberhardt, S., “Nonequilibrium Thermo-Chemical Calculations using a Diagonal Implicit Scheme,” AIAA Peper 91-0468 (1991).
Daiguji, S., Yamamoto, S. and Ishizaka, K., “Numerical Simulation of Supersonic Mixing Layers Using a Fourth-Order Accurate Shock Capturing Scheme,” Proc. of the 13th International Conf. on Numerical Methods in Fluid Dynamics-Oxford, Lecture Notes in Phys., 414 (1992), pp.315–319, Springer-Verlag.
Yamamoto, S. and Daiguji, S., “Higher-Order-Accurate Upwind Schemes for Solving the Compressible Euler and Navier-Stokes Eghations,” J. Compu. & Fluids, Vol.22, No.2/3 (1993), pp.259–270.
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© 1995 Springer-Verlag
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Yamamoto, S., Nagatomo, H., Daiguji, H. (1995). An implicit-explicit flux vector splitting scheme for hypersonic thermochemical nonequilibrium flows. In: Deshpande, S.M., Desai, S.S., Narasimha, R. (eds) Fourteenth International Conference on Numerical Methods in Fluid Dynamics. Lecture Notes in Physics, vol 453. Springer, Berlin, Heidelberg. https://doi.org/10.1007/3-540-59280-6_141
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DOI: https://doi.org/10.1007/3-540-59280-6_141
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