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@article{MM_2022_34_11_a0,
author = {V. V. Vyshinskiy and A. M. Razdobarin},
title = {Improve the quality of calculations of grid-based methods by using criteria of independent verification of the calculations},
journal = {Matemati\v{c}eskoe modelirovanie},
pages = {3--18},
publisher = {mathdoc},
volume = {34},
number = {11},
year = {2022},
language = {ru},
url = {http://geodesic.mathdoc.fr/item/MM_2022_34_11_a0/}
}
TY - JOUR AU - V. V. Vyshinskiy AU - A. M. Razdobarin TI - Improve the quality of calculations of grid-based methods by using criteria of independent verification of the calculations JO - Matematičeskoe modelirovanie PY - 2022 SP - 3 EP - 18 VL - 34 IS - 11 PB - mathdoc UR - http://geodesic.mathdoc.fr/item/MM_2022_34_11_a0/ LA - ru ID - MM_2022_34_11_a0 ER -
%0 Journal Article %A V. V. Vyshinskiy %A A. M. Razdobarin %T Improve the quality of calculations of grid-based methods by using criteria of independent verification of the calculations %J Matematičeskoe modelirovanie %D 2022 %P 3-18 %V 34 %N 11 %I mathdoc %U http://geodesic.mathdoc.fr/item/MM_2022_34_11_a0/ %G ru %F MM_2022_34_11_a0
V. V. Vyshinskiy; A. M. Razdobarin. Improve the quality of calculations of grid-based methods by using criteria of independent verification of the calculations. Matematičeskoe modelirovanie, Tome 34 (2022) no. 11, pp. 3-18. http://geodesic.mathdoc.fr/item/MM_2022_34_11_a0/
[1] S. K. Godunov, “Raznostnyi metod rascheta udarnykh voln”, UMN, 12:1(73) (1957), 176–177 | MR | Zbl
[2] S. K. Godunov, “Raznostnyi metod chislennogo rascheta razryvnykh reshenii uravnenii gidrodinamiki”, Matem. sb., 47(89):3 (1959), 271–306 | Zbl
[3] Godunov S.K. (red.), Chislennoe reshenie mnogomernykh zadach gazovoi dinamiki, Nauka, M., 1976, 400 pp. | MR
[4] A. A. Samarskii, Iu. P. Popov, Raznostnye metody resheniia zadach gazovoi dinamiki, Nauka, M., 1992 | MR
[5] K. Laflin, “Data Summary and Comparison”, 2nd AIAA CFD Drag Prediction Workshop, 2003
[6] N. T. Frink, W. E. II. Milholen, “Assessment of the Unstructured Grid Software TetrUSS for Drag Prediction of the DLR-F6 Configuration”, 2nd AIAA CFD Drag Prediction Workshop, 2003 | Zbl
[7] C. L. Rumsey, S. M. Rivers, J. H. Morrison, Study of CFD Variation on Transport Configurations from the Second Drag-Prediction Workshop, AIAA Paper No 2004-0394, 25 pp.
[8] S. E. Kratkovskii, “O neobkhodimosti verifikatsii i validatsii metodov priamogo chislennogo modelirovaniia vychislitelnoi gidrodinamiki”, Iadernaia i radiatsionnaia bezopasnost, 2021, no. 3 (101), 16–25
[9] Z. C. Zheng, S. H. Lim, “Validation and Operation of a Wake Vortex/Shear Interaction Model”, Journal of Aircraft, 37:6.17 (2000) | DOI
[10] I. S. Bosniakov, G. G. Sudakov, “Verifikatsiia inzhenernoi modeli razrusheniia vikhrevogo sleda za samoletom s pomoshchiu metoda modelirovaniia bolshikh vikhrei”, Trudy MFTI, 7:2 (2015), 83–98
[11] S. M. Bosniakov, A. R. Gorbushin, I. A. Kursakov, S. V. Matiash, S. V. Mikhailov, V. Iu. Padaruev, “O verifikatsii i validatsii vychislitelnykh metodov i programm na osnove metoda Godunova”, Uchenye zapiski TsAGI, 48:7 (2017), 1–17
[12] Roach P.J., Computational Fluid Dynamics, Hermosa Publishers, Albuquerque, NM, 1982, 620 pp. | MR
[13] V. V. Vyshinsky, G. B. Sizykh, “The Verification of the Calculation of Stationary Subsonic Flows and the Presentation of Results”, MM, 11:1 (2019), 97–106 | MR | Zbl
[14] V. V. Vyshinsky, G. B. Sizykh, “Verification of the Calculation of Stationary Subsonic Flows and Presentation of Results”, GCM50 2018, SIST 133, eds. Petrov I.B. et al., 2019, 228–235 | MR
[15] M. A. Brutyan, V. V. Vyshinsky, A. M. Razdobarin, “Application of criteria for independent verification of solutions to improve the numerical calculation quality”, Uchenye zapiski TsAGI, LIII:4 (2022), 26–32
[16] S. M. Bosniakov, V. V. Vlasenko, M. F. Engulatova, N. A. Zlenko, S. V. Matiash, S. V. Mikhailov, Programmnyi kompleks dlia sozdaniia geometrii LA, sozdaniia mnogoblochnoi 3-kh mernoi raschetnoi setki, polucheniia polei techeniia pri pomoshchi resheniia sistemy uravnenii Eilera i sistemy uravnenii Navie-Stoksa, osrednennykh po vremeni, i obrabotki rezultatov rascheta (EWT-TsAGI), Svidetelstvo o gosudarstvennoi registratsii programmy dlia EVM No 2008610227
[17] V. V. Vyshinskii, K. T. Zoan, “Chislennoe modelirovanie obtekaniia fragmentov landshafta i voprosy verifikatsii reshenii”, Uchenye zapiski TsAGI, LI:6 (2020), 60–68
[18] V. V. Vyshinsky, M. A. Kudrov, K. A. Zudov, “On the flight operating safety in the mountainous zone airport”, Proc. 29th Congress of the Intern. Council of the Aeronautical Sci. (St. Petersburg, Russia, 07-12.09.14), 11 pp.
[19] V. A. Anikin, V. V. Vyshinsky, O. A. Pashkov, E. V. Streltsov, “Using the maximum pressure prin-ciple for verification of calculation of stationary subsonic flow”, Herald of the Bauman Moscow State Technical University. Ser. Mechanical Eng., 6(129) (2019), 4–16 | DOI | MR
[20] A. B. Airapetov, V. V. Vyshinskii, A. V. Katunin, “K voprosu o verifikatsii raschetov statsionarnykh dozvukovykh techenii okolo plokhoobtekaemykh tel”, Uchenye zapiski TsAGI, 2021, no. 1, 34–40
[21] V. V. Vyshinskii, K. T. Zoan, “Modelirovanie kogerentnykh struktur v atmosfere i otsenka ikh vozdeistviia na samolet”, Inzhenernyi zhurnal: nauka i innovatsii, 2021, no. 6 (114) | DOI
[22] V. V. Vyshinskii, K. T. Zoan, “Aerodinamika samoleta v vozmushchennoi atmosfere”, Trudy MFTI, 13:2 (2021), 40–48 | MR
[23] V. V. Vyshinskii, K. T. Zoan, “Obtekanie gornogo landshafta v okrestnosti aeroporta Danang atmosfernym vetrom i voprosy bezopasnosti poleta”, Nauchnyi vestnik MGTU GA, 24:06 (2021), 27–41