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Abalakin, Ilya Vladimirivich
Statistics Math-Net.Ru
Total publications: 36
Scientific articles: 36

Number of views:
This page:762
Abstract pages:14220
Full texts:5806
References:919
Candidate of physico-mathematical sciences
E-mail:

https://www.mathnet.ru/eng/person29400
List of publications on Google Scholar
List of publications on ZentralBlatt
https://mathscinet.ams.org/mathscinet/MRAuthorID/255445

Publications in Math-Net.Ru Citations
2022
1. N. S. Zhdanova, I. V. Abalakin, O. V. Vasilyev, “Generalized Brinkman volume penalization method for compressible flows around moving obstacles”, Matem. Mod., 34:2 (2022),  41–57  mathnet  mathscinet; Math. Models Comput. Simul., 14:5 (2022), 716–726 1
2021
2. V. O. Tsvetkova, I. V. Abalakin, V. G. Bobkov, N. S. Zhdanova, T. K. Kozubskaya, L. N. Kudryavtseva, “Simulation of flow near rotating propeller on adaptive unstructured meshes using immersed boundary method”, Matem. Mod., 33:8 (2021),  59–82  mathnet; Math. Models Comput. Simul., 14:2 (2022), 224–240 4
3. I. V. Abalakin, O. V. Vasilyev, N. S. Zhdanova, T. K. Kozubskaya, “Characteristic based volume penalization method for numerical simulation of compressible flows on unstructured meshes”, Zh. Vychisl. Mat. Mat. Fiz., 61:8 (2021),  1336–1352  mathnet  elib; Comput. Math. Math. Phys., 61:8 (2021), 1315–1329  isi  scopus 4
2020
4. V. G. Bobkov, I. V. Abalakin, T. K. Kozubskaya, “Method for prediction of aerodynamic characteristics of helicopter rotors based on edge-based schemes in code NOISEtte”, Computer Research and Modeling, 12:5 (2020),  1097–1122  mathnet 5
5. A. P. Duben, I. V. Abalakin, V. O. Tsvetkova, “About solid walls boundary conditions for viscous flow problems”, Matem. Mod., 32:11 (2020),  79–98  mathnet; Math. Models Comput. Simul., 13:4 (2021), 591–603 2
6. I. V. Abalakin, P. A. Bakhvalov, V. G. Bobkov, A. V. Gorobets, “Parallel algorithm for flow simulation in rotor-stator systems based on edge-bases schemes”, Matem. Mod., 32:6 (2020),  127–140  mathnet; Math. Models Comput. Simul., 13:1 (2021), 172–180
2019
7. I. V. Abalakin, V. A. Vershkov, N. S. Zhdanova, T. K. Kozubskaya, “Numerical simulation of acoustic fields induced by flow past oscillating solid”, Matem. Mod., 31:10 (2019),  98–116  mathnet  elib; Math. Models Comput. Simul., 12:3 (2020), 422–432 1
8. I. V. Abalakin, A. P. Duben, N. S. Zhdanova, T. K. Kozubskaya, L. N. Kudryavtseva, “Immersed boundary method on deformable unstructured meshes for airfoil aeroacoustic simulation”, Zh. Vychisl. Mat. Mat. Fiz., 59:12 (2019),  2046–2059  mathnet  elib; Comput. Math. Math. Phys., 59:12 (2019), 1982–1993  isi  scopus
2018
9. I. V. Abalakin, V. G. Bobkov, T. K. Kozubskaya, “Multimodel approach for helicopter rotor aeroacoustic and aerodynamic characteristics modeling using numerical simulation”, Keldysh Institute preprints, 2018, 047, 32 pp.  mathnet  elib
10. I. V. Abalakin, A. P. Duben, N. S. Zhdanova, T. K. Kozubskaya, “Simulation of unsteady turbulent flow around a cylinder prescribed by immersed boundary method”, Matem. Mod., 30:5 (2018),  117–133  mathnet; Math. Models Comput. Simul., 11:1 (2019), 74–85 4
11. I. V. Abalakin, P. A. Bahvalov, O. A. Doronina, N. S. Zhdanova, T. K. Kozubskaya, “Simulation of aerodynamics of a moving body prescribed by immersed boundaries on dynamically adaptative unstructured mesh”, Matem. Mod., 30:5 (2018),  57–75  mathnet; Math. Models Comput. Simul., 11:1 (2019), 35–45 2
12. I. V. Abalakin, N. S. Zhdanova, T. K. Kozubskaya, “Immersed boundary method for numerical simulation of inviscid compressible flows”, Zh. Vychisl. Mat. Mat. Fiz., 58:9 (2018),  1462–1471  mathnet  elib; Comput. Math. Math. Phys., 58:9 (2018), 1411–1419  isi  scopus 6
2017
13. I. V. Abalakin, V. G. Bobkov, T. K. Kozubskaya, “Implementation the low Mach number method for calculation of flows in the software package NOISEtte”, Matem. Mod., 29:4 (2017),  101–112  mathnet  elib; Math. Models Comput. Simul., 9:6 (2017), 688–696  scopus 11
2016
14. I. V. Abalakin, N. S. Zhdanova, S. A. Soukov, “Reconstruction of body geometry on unstructured meshes when using immersed boundary method”, Matem. Mod., 28:6 (2016),  77–88  mathnet  elib; Math. Models Comput. Simul., 9:1 (2017), 83–91  scopus 2
2015
15. I. V. Abalakin, P. A. Bahvalov, V. G. Bobkov, T. K. Kozubskaya, V. A. Anikin, “Numerical simulation of aerodynamic and acoustic characteristics of rotor in ring”, Matem. Mod., 27:10 (2015),  125–144  mathnet  elib; Math. Models Comput. Simul., 8:3 (2016), 309–324 14
16. I. V. Abalakin, N. S. Zhdanova, T. K. Kozubskaya, “The implementation of immersed boundary method for simulation of external flow on unstructured meshes”, Matem. Mod., 27:10 (2015),  5–20  mathnet  elib; Math. Models Comput. Simul., 8:3 (2016), 219–230 7
2014
17. I. V. Abalakin, A. V. Gorobets, N. S. Zhdanova, T. K. Kozubskaya, “Using Brinkman penalization method for numerical simulation viscous compressible flows over obstacles”, Keldysh Institute preprints, 2014, 011, 14 pp.  mathnet 3
2013
18. I. V. Abalakin, T. K. Kozubskaya, “Higher accuracy scheme based on edge-oriented quasi-1Â reconstruction of variables for solving aerodynamics and aeroacoustics problems on unstructured meshes”, Matem. Mod., 25:8 (2013),  109–136  mathnet  mathscinet 14
2012
19. I. V. Abalakin, P. A. Bakhvalov, A. V. Gorobets, A. P. Duben, T. K. Kozubskaya, “Parallel research code NOISEtte for large-scale CFD and CAA simulations”, Num. Meth. Prog., 13:3 (2012),  110–125  mathnet 43
2007
20. I. V. Abalakin, A. V. Gorobets, T. K. Kozubskaya, “Numerical experiments on acoustic liners”, Matem. Mod., 19:8 (2007),  15–21  mathnet  zmath 2
21. K. A. Daniel, I. V. Abalakin, T. K. Kozubskaya, “Study of impact of viscous-terms approximation on accuracy of numerical solution of gas dynamics equations”, Matem. Mod., 19:7 (2007),  85–92  mathnet  mathscinet  zmath
22. I. V. Abalakin, T. K. Kozubskaya, “High accuracy scheme for solving nonlinear aeroacoustics problems on unstructured meshes”, Matem. Mod., 19:7 (2007),  56–66  mathnet  mathscinet  zmath 11
2005
23. B. N. Chetverushkin, V. A. Gasilov, S. V. Polyakov, E. L. Kartasheva, M. V. Iakobovski, I. V. Abalakin, V. G. Bobkov, A. S. Boldarev, S. N. Boldyrev, S. V. D'yachenko, P. S. Kriniv, A. S. Minkin, I. A. Nesterov, O. G. Olkhovskaya, I. V. Popov, S. A. Sukov, “CFD software project GIMM study of hydrodynamic problems by parallel computing”, Matem. Mod., 17:6 (2005),  58–74  mathnet 6
2001
24. I. V. Abalakin, A. N. Antonov, M. A. Antonov, T. K. Kozubskaya, B. N. Chetverushkin, “Application of kinetically consistent finite difference schemes for turbulent supersonic jet noise prediction”, Matem. Mod., 13:10 (2001),  56–76  mathnet  zmath
25. I. V. Abalakin, A. V. Zhokhova, B. N. Chetverushkin, “Kinetically consistent schemes of a higher accuracy order”, Matem. Mod., 13:5 (2001),  53–61  mathnet  mathscinet  zmath 4
2000
26. I. V. Abalakin, A. V. Zhokhova, B. N. Chetverushkin, “Difference schemes based on kinetic splitting of flux vector”, Matem. Mod., 12:4 (2000),  73–82  mathnet  mathscinet  zmath 1
27. I. V. Abalakin, A. N. Antonov, I. A. Graur, B. N. Chetverushkin, “Application of the algebraic turbulent model to the unsteady flow simulation around a cavity”, Matem. Mod., 12:1 (2000),  45–56  mathnet  zmath 2
28. I. V. Abalakin, A. N. Antonov, M. A. Antonov, B. N. Chetverushkin, “Numerical simulation of supersonic jets using kinetical-consistent finite difference schemes”, Matem. Mod., 12:1 (2000),  25–37  mathnet  zmath
1998
29. I. V. Abalakin, A. V. Zhokhova, B. N. Chetverushkin, “Kinetically consistent difference algorithm for simulation of gasdynamic flows on triangular meshes”, Matem. Mod., 10:4 (1998),  51–60  mathnet 2
1997
30. I. V. Abalakin, A. V. Zhokhova, B. N. Chetverushkin, “Kinetically consistent difference schemes on irregular grids”, Matem. Mod., 9:7 (1997),  44–53  mathnet  mathscinet  zmath 1
1996
31. I. V. Abalakin, B. N. Chetverushkin, “Kinetically consistent finite difference schemes as a model for gasdynamic flow description”, Matem. Mod., 8:8 (1996),  17–36  mathnet  zmath 8
1994
32. I. V. Abalakin, B. N. Chetverushkin, “On an improvement of the gas flow description via kinetically-consistent difference schemes”, Matem. Mod., 6:7 (1994),  3–14  mathnet  mathscinet  zmath 1
1993
33. I. V. Abalakin, B. N. Chetverushkin, “Kinetically-consistent finite difference schemes as a model for the flows of slightly rarefied gases”, Matem. Mod., 5:5 (1993),  61–70  mathnet  mathscinet  zmath 3
1992
34. I. V. Abalakin, B. N. Chetverushkin, “Using kinetically-consistent difference schemes for prediction of slightly rarefied gas flows”, Matem. Mod., 4:11 (1992),  19–35  mathnet 1
35. I. V. Abalakin, A. B. Babakulov, Kh. A. Muzafarov, M. V. Iakobovski, “Prediction of slightly rarefied gas flows using transputer-based multiprocessor systems”, Matem. Mod., 4:11 (1992),  3–18  mathnet
1988
36. I. V. Abalakin, L. W. Dorodnicyn, T. G. Elizarova, “Direct numerical modeling of the Blasius problem”, Differ. Uravn., 24:7 (1988),  1107–1113  mathnet  mathscinet; Differ. Equ., 24:7 (1988), 701–706 4

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