M. N. Petrov, A. A. Tambova, V. A. Titarev, S. V. Utyuzhnikov, A. V. Chikitkin, “FlowModellium software package for calculating high-speed flows of compressible fluid”, Zh. Vychisl. Mat. Mat. Fiz., 58:11 (2018), 1932–1954; Comput. Math. Math. Phys., 58:11 (2018), 1865

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Zhurnal Vychislitel'noi Matematiki i Matematicheskoi Fiziki, 2018, Volume 58, Number 11, Pages 1932–1954
DOI: https://doi.org/10.31857/S004446690003544-9 (Mi zvmmf10848)

This article is cited in 21 scientific papers (total in 21 papers)

FlowModellium software package for calculating high-speed flows of compressible fluid

M. N. Petrov^a, A. A. Tambova^a, V. A. Titarev^ab, S. V. Utyuzhnikov^ac, A. V. Chikitkin^a

^a Moscow Institute of Physics and Technology, Dolgoprudnyi, Russia
^b Federal Research Center “Computer Science and Control”, Russian Academy of Sciences, Moscow, Russia
^c University of Manchester, Manchester, UK

Citations (21)

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DOI: https://doi.org/10.31857/S004446690003544-9

Abstract: The development of the software package FlowModellium designed for simulating high-speed flows of continuum medium taking into account nonequilibrium chemical reactions is described. The numerical method and the two-level parallel algorithm used in the package are presented. Examples of computations are discussed.

Key words: supersonic flows, computational fluid dynamics, nonequilibrium chemistry, unstructured mesh, TVD scheme, supercomputer computations.

Funding agency	Grant number
Russian Science Foundation	18-19-00098

Received: 18.11.2015
Revised: 04.06.2018

English version:
Computational Mathematics and Mathematical Physics, 2018, Volume 58, Issue 11, Pages 1865–1886
DOI: https://doi.org/10.1134/S0965542518110118

Bibliographic databases:

Document Type: Article

UDC: 517.958

Language: Russian

Citation: M. N. Petrov, A. A. Tambova, V. A. Titarev, S. V. Utyuzhnikov, A. V. Chikitkin, “FlowModellium software package for calculating high-speed flows of compressible fluid”, Zh. Vychisl. Mat. Mat. Fiz., 58:11 (2018), 1932–1954; Comput. Math. Math. Phys., 58:11 (2018), 1865–1886

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Linking options:

https://www.mathnet.ru/eng/zvmmf10848

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This publication is cited in the following 21 articles:

Mikhail PETROV, Sofia ZIMINA, “An application of space-filling curves to improve results of turbulent aerodynamics modeling with convolutional neural networks”, Chinese Journal of Aeronautics, 37:2 (2024), 81
I. V. Voronich, N. S. Smirnova, V. A. Titarev, “Algorithm for Mesh Adaptation to a Flow Field with a Bow Shock Wave”, Comput. Math. and Math. Phys., 64:9 (2024), 2111
Panagiotis Tsoutsanis, Xesus Nogueira, “Arbitrary-Order Unstructured Finite-Volume Methods for Implicit Large Eddy Simulation of Turbulent Flows with Adaptive Dissipation/Dispersion Adjustment (ADDA)”, Journal of Computational Physics, 2024, 113653
M. N. Petrov, S. V. Zimina, “Surrogatnaya neirosetevaya model dlya vosstanovleniya polya techeniya v seriinykh raschetakh statsionarnykh turbulentnykh techenii s razresheniem pristennoi oblasti”, Kompyuternye issledovaniya i modelirovanie, 16:5 (2024), 1195–1216
V. S. Abramov, M. N. Petrov, “Primenenie metoda Dynamic Mode Decomposition dlya poiska neustoichivykh mod v zadache o laminarno-turbulentnom perekhode”, Kompyuternye issledovaniya i modelirovanie, 15:4 (2023), 1069–1090
Konstantin Volkov, Hypersonic and Supersonic Flight - Advances in Aerodynamics, Materials, and Vehicle Design, 2023
L. Freret, C. N. Ngigi, T. B. Nguyen, H. De Sterck, C. P. T. Groth, “High-Order CENO Finite-Volume Scheme with Anisotropic Adaptive Mesh Refinement: Efficient Inexact Newton Method for Steady Three-Dimensional Flows”, J Sci Comput, 94:3 (2023)
Yang X., Ji X., Shyy W., Xu K., “Comparison of the Performance of High-Order Schemes Based on the Gas-Kinetic and Hllc Fluxes”, J. Comput. Phys., 448 (2022), 110706
Petrov M., Utyuzhnikov S., Chikitkin A., Smirnova N., “Extension of Near-Wall Domain Decomposition to Modeling Flows With Laminar-Turbulent Transition”, Commun. Comput. Phys., 31:2 (2022), 645–668
Chen Z., Zhang F., Liu J., Chen B., “A Vertex-Based Reconstruction For Cell-Centered Finite-Volume Discretization on Unstructured Grids”, J. Comput. Phys., 451 (2022), 110827
Antonis F. Antoniadis, Dimitris Drikakis, Pericles S. Farmakis, Lin Fu, Ioannis Kokkinakis, Xesús Nogueira, Paulo A.S.F. Silva, Martin Skote, Vladimir Titarev, Panagiotis Tsoutsanis, “UCNS3D: An open-source high-order finite-volume unstructured CFD solver”, Computer Physics Communications, 279 (2022), 108453
Kazuhiko Komatsu, Yuta Hougi, Masayuki Sato, Hiroaki Kobayashi, “A hierarchical wavefront method for LU-SGS”, Computers & Fluids, 245 (2022), 105572
Igor A. Kryukov, Igor E. Ivanov, Elena V. Larina, Smart Innovation, Systems and Technologies, 274, Advances in Theory and Practice of Computational Mechanics, 2022, 63
S. V. Zimina, M. N. Petrov, “Primenenie algoritma Random Forest dlya postroeniya lokalnogo operatora, utochnyayuschego rezultaty raschetov v zadachakh vneshnei aerodinamiki”, Kompyuternye issledovaniya i modelirovanie, 13:4 (2021), 761–778
A. V. Chikitkin, E. K. Kornev, V. A. Titarev, “Numerical solution of the Boltzmann equation with s-model collision integral using tensor decompositions”, Comput. Phys. Commun., 264 (2021), 107954
V. A. Titarev, A. A. Frolova, V. A. Rykov, P. V. Vashchenkov, A. A. Shevyrin, Y. A. Bondar, “Comparison of the Shakhov kinetic equation and DSMC method as applied to space vehicle aerothermodynamics”, J. Comput. Appl. Math., 364 (2020), 112354
M. Petrov, S. Utyuzhnikov, A. Chikitkin, V. Titarev, “On extension of near-wall domain decomposition to turbulent compressible flows”, Comput. Fluids, 210 (2020), 104629
A. Chikitkin, S. Utyuzhnikov, M. Petrov, V. Titarev, “Non-overlapping domain decomposition for modeling essentially unsteady near-wall turbulent flows”, Comput. Fluids, 202 (2020), 104506
V. A. Titarev, E. M. Shakhov, “A hybrid method for the computation of a rarefied gas jet efflux through a very long channel into vacuum”, Comput. Math. Math. Phys., 60:11 (2020), 1936–1949
V. A. Titarev, “Application of the Nesvetay code for solving three-dimensional high-altitude aerodynamics problems”, Comput. Math. Math. Phys., 60:4 (2020), 737–748

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