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Preprints of the Keldysh Institute of Applied Mathematics, 2016, 005, 24 pp.
(Mi ipmp2081)
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This article is cited in 1 scientific paper (total in 1 paper)
Implicit Euler–Lagrange difference scheme for three-dimensional gasdynamics calculations using concerted approximations to mass and momentum balance equations
V. A. Gasilov, A. Yu. Krukovskiy, Yu. A. Poveschenko, I. P. Tsygvintsev
Abstract:
We propose a variant of the two-stage Eulerian–Lagrangian difference scheme for gas dynamics calculations in the three-dimensional approximation. Energy balance equation in the original gas-dynamic system of equations is written in the "entropy" form — with respect to the gas medium internal energy. The initial equations of continuity and momentum are divergent-conservative, therefore they are approximated as conservative balance equations. Using the constructed difference approximations to gasdynamics equations we derive a kinetic energy balance equation that does not contain nonphysical source terms. The kinetic energy balance can be combined with that of the internal energy thus producing the equation which is a gasdynamic form of the total energy conservation law. In accordance with the physical processes occurring inside the gas flow an internal energy and kinetic energy can pass through the mutual transformations without the influence of 'source terms' caused by approximation effects.
Keywords:
gasdynamics, arbitrary Lagrange–Euler, concerted approximation, implicit twostage totally conservative finite-difference scheme.
Citation:
V. A. Gasilov, A. Yu. Krukovskiy, Yu. A. Poveschenko, I. P. Tsygvintsev, “Implicit Euler–Lagrange difference scheme for three-dimensional gasdynamics calculations using concerted approximations to mass and momentum balance equations”, Keldysh Institute preprints, 2016, 005, 24 pp.
Linking options:
https://www.mathnet.ru/eng/ipmp2081 https://www.mathnet.ru/eng/ipmp/y2016/p5
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