Journal of Applied Mathematics and Mechanics (about journal) Journal of Applied
Mathematics and Mechanics

Russian Academy of Sciences
 Founded
in January 1936
(Translated from 1958)
Issued 6 times a year
ISSN 0021-8928
(print version)

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IssuesArchive of Issues2016-1pp.44-56

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S.T. Surzhikov, "Radiation aerothermodynamics of the Stardust space vehicle," J. Appl. Math. Mech. 80 (1), 44-56 (2016)
Year 2016 Volume 80 Issue 1 Pages 44-56
DOI 10.1016/j.jappmathmech.2016.05.008
Title Radiation aerothermodynamics of the Stardust space vehicle
Author(s) S.T. Surzhikov (Institute of Mechanics Problems, Russian Academy of Sciences, Moscow, surg@ipmnet.ru)
Abstract This paper presents a radiation-gasdynamic model and the results of calculating the radiative-convective heating of the Stardust space vehicle, obtained using the NERAT(2D)-ASTEROID computer code designed for solving the full system of equations of the radiation-gas dynamics of a viscous, conductive, physically and chemically non-equilibrium gas and radiation transfer in a two-dimensional geometry. The system of continuum mechanics equations is solved by the explicit method using a simplified procedure for solving the problem of the decomposition of an arbitrary discontinuity. The system of equations of energy conservation of translational degrees of freedom of gas particles and vibrational degrees of freedom of nitrogen, oxygen, and nitrogen oxide molecules is solved by the implicit finite difference method. A multiblock and multigrid procedure is used to obtain a numerical solution. Calculation of the transfer of selective thermal radiation is done using the line-by-line method on specially generated inhomogeneous calculation grids over the wavelength of radiation, making it possible to achieve an appreciable saving of computing resources. In a single cycle of the computing process, the spectral optical properties of high-temperature gases are calculated using ab initio quasi-classical and quantum mechanics methods.
Received 01 September 2015
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