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This article is cited in 4 scientific papers (total in 4 papers)
Nonlinear engineering and robotics
Nonlinear Processes in Safety Systems for Substances
with Parameters Close to a Critical State
T. Raedera, V. A. Tenenevba, M. R. Korolevab, O. V. Mishchenkovaa a Kalashnikov Izhevsk State Technical University,
ul. Studencheskaya 7, Izhevsk, 426069 Russia
b Udmurt Federal Research Center UB RAS,
ul. T. Baramzinoi 34, Izhevsk, 426067 Russia
Abstract:
The paper presents a modification of the digital method by S. K. Godunov for calculating
real gas flows under conditions close to a critical state. The method is generalized to the case of
the Van der Waals equation of state using the local approximation algorithm. Test calculations
of flows in a shock tube have shown the validity of this approach for the mathematical description
of gas-dynamic processes in real gases with shock waves and contact discontinuity both in areas
with classical and nonclassical behavior patterns. The modified digital scheme by Godunov with
local approximation of the Van der Waals equation by a two-term equation of state was used for
simulating a spatial flow of real gas based on Navier – Stokes equations in the area of a complex
shape, which is characteristic of the internal space of a safety valve. We have demonstrated that,
under near-critical conditions, areas of nonclassical gas behavior may appear, which affects the
nature of flows. We have studied nonlinear processes in a safety valve arising from the movement
of the shut-off element, which are also determined by the device design features and the gas
flow conditions.
Keywords:
real gas, Van der Waals equation, critical state of substance, Godunov’s method.
Received: 02.03.2021 Accepted: 15.03.2021
Citation:
T. Raeder, V. A. Tenenev, M. R. Koroleva, O. V. Mishchenkova, “Nonlinear Processes in Safety Systems for Substances
with Parameters Close to a Critical State”, Rus. J. Nonlin. Dyn., 17:1 (2021), 119–138
Linking options:
https://www.mathnet.ru/eng/nd745 https://www.mathnet.ru/eng/nd/v17/i1/p119
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Abstract page: | 118 | Full-text PDF : | 36 | References: | 26 |
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