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Troshin, Aleksei Igorevich
Statistics
Total publications: 10
Scientific articles: 10
Candidate of physico-mathematical sciences
E-mail:

https://www.mathnet.ru/eng/person113047
List of publications on Google Scholar

Publications in Math-Net.Ru Citations
2026
1. A. A. Aksenov, E. V. Babich, S. Bakhne, V. Ya. Borovoy, S. M. Bosnyakov, V. V. Vlasenko, G. E. Dumnov, S. V. Zhluktov, R. N. Zhuchkov, A. S. Kozelkov, E. V. Kolesnik, D. A. Korchazhkin, N. S. Kuranosov, S. V. Matyash, S. V. Mikhailov, V. E. Mosharov, V. N. Radchenko, E. M. Smirnov, A. A. Sobachkin, E. V. Strel'tsov, V. A. Talyzin, A. I. Troshin, N. A. Kharchenko, A. Chuprikov, M. A. Yakunov, “Testing the numerical calculation methods and programs using the example of the problem for estimating the heat flow in the area of a separated flow due to shock wave on a flat sharp plate with a vertical sharp wedge mounted on it”, Mat. Model., 38:1 (2026),  123–154  mathnet
2025
2. G. S. Mostipan, A. I. Troshin, “Dispersion error comparison of non-dissipative schemes for scale-resolving simulations of turbulent flows”, Mat. Model., 37:5 (2025),  109–124  mathnet
3. A. I. Troshin, A. O. Budnikova, “Influence of the hybrid RANS/LES method type on simulation results of a shock wave-induced turbulent boundary layer separation”, Mat. Model., 37:5 (2025),  22–40  mathnet
2023
4. A. I. Troshin, S. V. Bakhne, “Application of hybrid RANS/LES methods for the simulation of shock-induced turbulent boundary layer separation”, Mat. Model., 35:10 (2023),  36–52  mathnet; Math. Models Comput. Simul., 16:1 (2024), 100–111 2
5. S. Bakhne, A. I. Troshin, “Comparison of upwind and symmetric WENO schemes in large eddy simulation of basic turbulent flows”, Zh. Vychisl. Mat. Mat. Fiz., 63:6 (2023),  1024–1039  mathnet  elib; Comput. Math. Math. Phys., 63:6 (2023), 1122–1136 2
2019
6. S. M. Bosniakov, A. V. Wolkov, A. P. Duben, V. I. Zapryagaev, T. K. Kozubskaya, S. V. Mikhaylov, A. I. Troshin, V. O. Tsvetkova, “Comparison of two higher accuracy unstructured scale-resolving approaches applied to dual-stream nozzle jet simulation”, Mat. Model., 31:10 (2019),  130–144  mathnet  elib; Math. Models Comput. Simul., 12:3 (2020), 368–377 4
7. S. Bakhne, S. M. Bosniakov, S. V. Mikhailov, A. I. Troshin, “Comparison of gradient approximation methods in schemes designed for scale-resolving simulations”, Mat. Model., 31:10 (2019),  7–21  mathnet  elib; Math. Models Comput. Simul., 12:3 (2020), 357–367 2
8. E. S. Matyash, A. A. Savelyev, A. I. Troshin, M. V. Ustinov, “Allowance for gas compressibility in the $\gamma$-model of the laminar–turbulent transition”, Zh. Vychisl. Mat. Mat. Fiz., 59:10 (2019),  1779–1791  mathnet  elib; Comput. Math. Math. Phys., 59:10 (2019), 1720–1731  isi  scopus 8
2018
9. S. M. Bosnyakov, S. V. Mikhaylov, V. Yu. Podaruev, A. I. Troshin, “Unsteady high order accuracy DG method for turbulent flow modeling”, Mat. Model., 30:5 (2018),  37–56  mathnet; Math. Models Comput. Simul., 11:1 (2019), 22–34 8
2015
10. A. I. Troshin, “Account of longitudinal flow inhomogeneity in modeling of turbulent mixing layers and jets”, Mat. Model., 27:9 (2015),  3–16  mathnet  mathscinet  elib

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