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Computer Research and Modeling, 2021, Volume 13, Issue 3, Pages 513–540
DOI: https://doi.org/10.20537/2076-7633-2021-13-3-513-540
(Mi crm899)
 

This article is cited in 3 scientific papers (total in 3 papers)

MODELS IN PHYSICS AND TECHNOLOGY

Numerical study of the interaction of a shock wave with moving rotating bodies with a complex shape

A. V. Sosina, D. A. Sidorenkob, P. S. Utkinb

a Moscow Institute of Physics and Technology, 9 Institutskiy per., Dolgoprudny, Moscow Region, 141701, Russia
b Institute for Computer Aided Design of the Russian Academy of Sciences, 19/18 2nd Brestskaya st., Moscow, 123056, Russia
References:
Abstract: The work is devoted to the development of a computational algorithm of the Cartesian grid method for studying the interaction of a shock wave with moving bodies with a piecewise linear boundary. The interest in such problems is connected with direct numerical simulation of two-phase media flows. The effect of the particle shape can be important in the problem of dust layer dispersion behind a passing shock wave. Experimental data on the coefficient of aerodynamic drag of non-spherical particles are practically absent.
Mathematical model is based on the two-dimensional Euler equations, which are solved in a region with varying boundaries. The defining system of equations is integrated using an explicit scheme and the Cartesian grid method. The computational algorithm at the time integration step includes: determining the step value, calculating the dynamics of the body movement (determining the force and moment acting on the body; determining the linear and angular velocities of the body; calculating the new coordinates of the body), calculating the gas parameters. At each time step, all cells are divided into two classes — external (inside the body or intersected by its boundaries) and internal (completely filled with gas). The solution of the Euler equations is constructed only in the internal ones. The main difficulty is the calculation of the numerical flux through the edges common to the internal and external cells intersected by the moving boundaries of the bodies. To calculate this flux, we use a two-wave approximation for solving the Riemann problem and the Steger-Warming scheme. A detailed description of the numerical algorithm is presented.
The efficiency of the algorithm is demonstrated on the problem of lifting a cylinder with a base in the form of a circle, ellipse and rectangle behind a passing shock wave. A circular cylinder test was considered in many papers devoted to the immersed boundary methods development. A qualitative and quantitative analysis of the trajectory of the cylinder center mass is carried out on the basis of comparison with the results of simulations presented in eight other works. For a cylinder with a base in the form of an ellipse and a rectangle, a satisfactory agreement was obtained on the dynamics of its movement and rotation in comparison with the available few literary sources. Grid convergence of the results is investigated for the rectangle. It is shown that the relative error of mass conservation law fulfillment decreases with a linear rate.
Keywords: shock wave, Cartesian grid method, Euler equations, particle lifting, particle rotation.
Funding agency Grant number
Russian Science Foundation 20-71-00084
The work was supported by the Russian Science Foundation (project No. 20-71-00084).
Received: 17.02.2021
Revised: 17.03.2021
Accepted: 25.03.2021
Document Type: Article
UDC: 534.222.2, 519.63
Language: Russian
Citation: A. V. Sosin, D. A. Sidorenko, P. S. Utkin, “Numerical study of the interaction of a shock wave with moving rotating bodies with a complex shape”, Computer Research and Modeling, 13:3 (2021), 513–540
Citation in format AMSBIB
\Bibitem{SosSidUtk21}
\by A.~V.~Sosin, D.~A.~Sidorenko, P.~S.~Utkin
\paper Numerical study of the interaction of a shock wave with moving rotating bodies with a complex shape
\jour Computer Research and Modeling
\yr 2021
\vol 13
\issue 3
\pages 513--540
\mathnet{http://mi.mathnet.ru/crm899}
\crossref{https://doi.org/10.20537/2076-7633-2021-13-3-513-540}
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    Citing articles in Google Scholar: Russian citations, English citations
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