Three-dimensional steady supersonic duct flow using Lagrangian formulation |
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Authors: | C. Y. Loh M. -S. Liou |
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Affiliation: | (1) Internal Fluid Mechanics Division, NASA Lewis Research Center, M.S. 5-11, 44135 Cleveland, OH, USA |
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Abstract: | In this paper, numerical simulation of three-dimensional supersonic flow in a duct is presented. The flow field in the duct is complex and can find its applications in the inlet of air-breathing engines. A unique streamwise marching Lagrangian method is employed for solving the steady Euler equations. The method was first initiated by Loh and Hui (1990) for 2-D steady supersonic flow computations and then extended to 3-D computation by the present authors Loh and Liou (1992). The new scheme is shown to be capable of accurately resolving complicated shock or contact discontinuities and their interactions. In all the computations, a free stream of Mach numberM=4 is considered.This article was processed using Springer-Verlag TEX Shock Waves macro package 1.0 and the AMS fonts, developed by the American Mathematical Society. |
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Keywords: | Lagrangian conservation form 3-D supersonic duct flow TVD scheme Wave interactions |
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