Abstract
The interaction of ideal-gas flows with obstacles is analyzed numerically. The study examines the effect of rotation of the supersonic jet on its structure and on the parameters of the normal modes that arise in collision with obstacles. The origin of rotation when the gas is ejected from an orifice in a cavity is also investigated.
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REFERENCES
S. B. Bazarov, G. S. Roslyakov, Yu. N. Sadkov, and M. V. Shustova, “Supersonic unrated jets and their interaction with obstacles,” Mat. Modelirovanie, 8, No. 6, 19–23 (1996).
S. B. Bazarov, G. S. Roslyakov, Yu. N. Sadkov, and M. V. Shustova, “Simulation of oscillation modes in a supersonic unrated jet hitting a cavity,” in: Inverse Problems in Natural Sciences [in Russian], Izd. MGU (1997), pp. 181–188.
G. S. Roslyakov and Yu. N. Sadkov, “The effect of harmonic conditions on oscillation modes in a Hartman resonator,” in: Methods of Mathematical Modeling [in Russian], Izd. MGU, (1998), pp. 69–75.
G. S. Roslyakov and Yu. N. Sadkov, “Oscillation modes during the interaction of supersonic flows with obstacles,” in: Applied Mathematics and Informatics [in Russian], No. 3, Izd. MGU (1999), pp. 71–79.
Yu. N. Sadkov, “A class of third-order accurate schemes for hyperbolic equations,” in: Numerical Methods in Aerodynamics [in Russian], Izd. MGU, Moscow (1980), pp. 85–91.
B. Sh. Al'bazarov, Simulating the Interactions of a Supersonic Jet with an Obstacle [in Russian], Candidate's Degree Thesis (Physics and Mathematics), Krasnoyarsk (1991).
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Roslyakov, G.S., Sadkov, Y.N. Ideal-Gas Axisymmetric Flows and Their Interaction with Obstacles. Computational Mathematics and Modeling 13, 143–150 (2002). https://doi.org/10.1023/A:1015262829452
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DOI: https://doi.org/10.1023/A:1015262829452