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Rudyak, Valerii Yakovlevich
Statistics
Total publications: 58
Scientific articles: 58

Number of views:
This page:2648
Abstract pages:17282
Full texts:7785
References:1591
Professor
Doctor of physico-mathematical sciences
Birth date: 15.06.1945
E-mail: , ,
Website: https://www.noan.nstu.ru/persons/rudyak/

https://www.mathnet.ru/eng/person26059
List of publications on Google Scholar
https://mathscinet.ams.org/mathscinet/MRAuthorID/194922

Publications in Math-Net.Ru Citations
2025
1. V. Ya. Rudyak, T. A. Rafalskaya, “Rheology of nanofluids containing single-walled carbon nanotubes”, Prikl. Mekh. Tekh. Fiz., 66:5 (2025),  92–104  mathnet  elib
2024
2. Valery Ya. Rudyak, Sergey L. Krasnoluckii, Evgeniy V. Lezhnev, “Molecular dynamics study of nanofluids viscosity with carbon tubes”, Nanosystems: Physics, Chemistry, Mathematics, 15:1 (2024),  37–45  mathnet  elib 1
3. V. A. Zhigarev, D. V. Guzei, E. I. Lysakova, V. Ya. Rudyak, A. V. Minakov, “A computational study of cuttings transport in a horizontal well with an oil-based drilling fluid modified by multiwalled carbon nanotubes”, Sib. Zh. Ind. Mat., 27:3 (2024),  57–73  mathnet; J. Appl. Industr. Math., 18:3 (2024), 598–611
2023
4. V. Ya. Rudyak, E. V. Lezhnev, “Stochastic modeling the transport coefficients of liquids”, Dokl. RAN. Math. Inf. Proc. Upr., 512 (2023),  27–32  mathnet  elib; Dokl. Math., 108:1 (2023), 264–268
5. Valery Ya. Rudyak, Evgeny V. Lezhnev, “Modeling the rarefied gas thermal conductivity in nanochannels”, Nanosystems: Physics, Chemistry, Mathematics, 14:2 (2023),  186–194  mathnet  elib 1
6. V. Ya. Rudyak, A. A. Belkin, T. A. Rafalskaya, “Molecular dynamics modeling rheology of nanofluids”, Pisma v Zhurnal Tekhnicheskoi Fiziki, 49:19 (2023),  3–6  mathnet  elib
2022
7. V. Ya. Rudyak, G. R. Dashapilov, A. V. Minakov, M. I. Pryazhnikov, “Viscoelastic properties of nanofluids with carbon tubes”, Pisma v Zhurnal Tekhnicheskoi Fiziki, 48:14 (2022),  3–6  mathnet  elib
8. V. Ya. Rudyak, A. V. Minakov, M. I. Pryazhnikov, D. V. Guzey, “Measurement of the thermal conductivity and heat transfer coefficient of nanofluids with single-walled nanotubes”, TVT, 60:5 (2022),  692–700  mathnet  elib; High Temperature, 60:5 (2022), 631–638 5
9. V. Ya. Rudyak, E. V. Lezhnev, D. N. Lyubimov, “On the anisotropy of gas transfer processes in nano- and microchannels”, Vestnik of Saint Petersburg University. Mathematics. Mechanics. Astronomy, 9:1 (2022),  152–163  mathnet; Vestn. St. Petersbg. Univ., Math., 9:1 (2022), 108–115 3
2021
10. P. V. Mokrushnikov, V. Ya. Rudyak, E. V. Lezhnev, “Mechanism of gas molecule transport through erythrocytes' membranes by kinks-solitons”, Nanosystems: Physics, Chemistry, Mathematics, 12:1 (2021),  22–31  mathnet  isi  elib 2
2020
11. A. V. Minakov, A. S. Lobasov, M. I. Pryazhnikov, L. S. Tarasova, N. Ya. Vasilenko, V. Ya. Rudyak, “Experimental study of the influence of nanoparticles on evaporation of fluids”, Zhurnal Tekhnicheskoi Fiziki, 90:1 (2020),  33–41  mathnet  elib; Tech. Phys., 65:1 (2020), 29–36 7
12. V. Ya. Rudyak, E. V. Lezhnev, “Stochastic molecular modeling the transport coefficients of rarefied gas and gas nanosuspensions”, Nanosystems: Physics, Chemistry, Mathematics, 11:3 (2020),  285–293  mathnet  isi  elib 2
13. V. Ya. Rudyak, E. V. Lezhnev, “Viscosity of gases in nanochannels”, Pisma v Zhurnal Tekhnicheskoi Fiziki, 46:20 (2020),  51–54  mathnet  elib; Tech. Phys. Lett., 46:10 (2020), 1045–1048 4
2019
14. V. Ya. Rudyak, A. V. Minakov, M. I. Pryazhnikov, “The electric conductivity of nanofluids with metal particles”, Pisma v Zhurnal Tekhnicheskoi Fiziki, 45:9 (2019),  36–39  mathnet  elib; Tech. Phys. Lett., 45:5 (2019), 457–460 9
15. V. Ya. Rudyak, E. V. Lezhnev, D. N. Lyubimov, “Simulation modeling of the transport coefficients for rarefied gases and gas nanosuspensions”, Vestn. Tomsk. Gos. Univ. Mat. Mekh., 2019, no. 59,  105–117  mathnet  elib 3
2018
16. V. Ya. Rudyak, A. A. Belkin, “Molecular dynamics simulation of fluid viscosity in nanochannels”, Nanosystems: Physics, Chemistry, Mathematics, 9:3 (2018),  349–355  mathnet  isi  elib 10
2017
17. V. Ya. Rudyak, S. L. Krasnolucki, “Simulation of the thermal conductivity of a nanofluid with small particles by molecular dynamics methods”, Zhurnal Tekhnicheskoi Fiziki, 87:10 (2017),  1450–1458  mathnet  elib; Tech. Phys., 62:10 (2017), 1456–1465 19
18. V. Ya. Rudyak, E. V. Lezhnyov, “Stochastic simulation of rarefied gas transport coefficients”, Mat. Model., 29:3 (2017),  113–122  mathnet  elib 6
19. V. Ya. Rudyak, I. G. Bord, “On stability of plane and cylindrical Poiseuille flows of nanofluids”, Prikl. Mekh. Tekh. Fiz., 58:6 (2017),  69–77  mathnet  elib; J. Appl. Mech. Tech. Phys., 58:6 (2017), 1013–1020 10
2016
20. V. Ya. Rudyak, A. V. Minakov, M. I. Pryazhnikov, “Thermal properties of nanofluids and their similarity criteria”, Pisma v Zhurnal Tekhnicheskoi Fiziki, 42:24 (2016),  9–16  mathnet  elib; Tech. Phys. Lett., 43:1 (2017), 23–26 19
2015
21. V. Ya. Rudyak, S. L. Krasnolucki, “Simulation of the nanofluid viscosity coefficient by the molecular dynamics method”, Zhurnal Tekhnicheskoi Fiziki, 85:6 (2015),  9–16  mathnet  elib; Tech. Phys., 60:6 (2015), 798–804 46
22. V. Ya. Rudyak, A. A. Belkin, “Statistical mechanics of transport processes of fluids under confined conditions”, Nanosystems: Physics, Chemistry, Mathematics, 6:3 (2015),  366–377  mathnet  isi  elib 8
23. M. I. Pryazhnikov, A. V. Minakov, V. Ya. Rudyak, “The influence of the size and material of nanoparticles and the heater size on the critical heat flux density in boiling nanofluids”, Pisma v Zhurnal Tekhnicheskoi Fiziki, 41:18 (2015),  53–59  mathnet  elib; Tech. Phys. Lett., 41:9 (2015), 891–893 7
24. A. V. Minakov, V. Ya. Rudyak, D. V. Guzey, A. S. Lobasov, “Measurement of the heat transfer coefficient of a nanofluid based on water and copper oxide particles in a cylindrical channel”, TVT, 53:2 (2015),  256–263  mathnet  elib; High Temperature, 53:2 (2015), 246–253  isi  elib  scopus 35
2014
25. Andrey A. Gavrilov, Valeriy Ya. Rudyak, “A model of averaged molecular viscosity for turbulent flow of non-Newtonian fluids”, J. Sib. Fed. Univ. Math. Phys., 7:1 (2014),  46–57  mathnet 9
26. A. V. Minakov, A. S. Lobasov, V. Ya. Rudyak, D. V. Guzey, M. I. Pryazhnikov, “Measuring of critical density of heat flow during boiling of nanoliquids on a cylindrical heater”, Pisma v Zhurnal Tekhnicheskoi Fiziki, 40:13 (2014),  44–51  mathnet  elib; Tech. Phys. Lett., 40:7 (2014), 562–564 13
27. D. V. Guzey, A. V. Minakov, V. Ya. Rudyak, A. A. Dekterev, “Measuring the heat-transfer coefficient of nanofluid based on copper oxide in a cylindrical channel”, Pisma v Zhurnal Tekhnicheskoi Fiziki, 40:5 (2014),  34–42  mathnet  elib; Tech. Phys. Lett., 40:3 (2014), 203–206 19
28. V. Ya. Rudyak, V. A. Andryushchenko, “Molecular dynamics modeling of nano-fluid separation in nanomembranes”, Vestn. Tomsk. Gos. Univ. Mat. Mekh., 2014, no. 4(30),  88–94  mathnet 1
2013
29. V. Ya. Rudyak, S. V. Dimov, V. V. Kuznetsov, “On the dependence of the viscosity coefficient of nanofluids on particle size and temperature”, Pisma v Zhurnal Tekhnicheskoi Fiziki, 39:17 (2013),  53–60  mathnet  elib; Tech. Phys. Lett., 39:9 (2013), 779–782 50
2012
30. A. V. Manakov, V. Ya. Rudyak, “An algorithm for joint modeling of filtration and geomechanical processes in the well bore zone”, Sib. Zh. Ind. Mat., 15:1 (2012),  53–65  mathnet 4
31. V. A. Andryushchenko, V. Ya. Rudyak, “Self-diffusion of fluid molecules in nanochannels”, Vestn. Tomsk. Gos. Univ. Mat. Mekh., 2012, no. 2(18),  63–66  mathnet 3
2011
32. V. Ya. Rudyak, A. A. Belkin, V. V. Egorov, D. A. Ivanov, “Simulation of flows in nanochannels by the molecular dynamics method”, Nanosystems: Physics, Chemistry, Mathematics, 2:4 (2011),  100–112  mathnet  elib
2010
33. Andrey V. Minakov, Valery Ya. Rudyak, Andrey A. Gavrilov, Alexander A. Dekterev, “On optimization of mixing process of liquids in microchannels”, J. Sib. Fed. Univ. Math. Phys., 3:2 (2010),  146–156  mathnet 5
34. V. Ya. Rudyak, S. L. Krasnolucki, “On thermal diffusion of nanoparticles in gases”, Zhurnal Tekhnicheskoi Fiziki, 80:8 (2010),  49–52  mathnet  elib; Tech. Phys., 55:8 (2010), 1124–1127 9
35. V. Ya. Rudyak, A. A. Belkin, “Modeling of transition coefficients of nanofluids”, Nanosystems: Physics, Chemistry, Mathematics, 1:1 (2010),  156–177  mathnet  elib
36. V. Ya. Rudyak, A. A. Belkin, E. A. Tomilina, “On the thermal conductivity of nanofluids”, Pisma v Zhurnal Tekhnicheskoi Fiziki, 36:14 (2010),  49–54  mathnet  elib; Tech. Phys. Lett., 36:7 (2010), 660–662 57
37. A. A. Gavrilov, A. V. Minakov, A. A. Dekterev, V. Ya. Rudyak, “A numerical algorithm for modeling laminar flows in an annular channel with eccentricity”, Sib. Zh. Ind. Mat., 13:4 (2010),  3–14  mathnet  mathscinet; J. Appl. Industr. Math., 5:4 (2011), 559–568 56
2009
38. Andrey V. Minakov, Alexander A. Dekterev, Andrey A. Gavrilov, Valery Ya. Rudyak, “Numerical Simulation of Working Process of Viscosity Turning Fork Sensor”, J. Sib. Fed. Univ. Math. Phys., 2:4 (2009),  456–468  mathnet 1
2008
39. V. Ya. Rudyak, A. A. Belkin, D. A. Ivanov, V. V. Egorov, “The simulation of transport processes using the method of molecular dynamics. Self-diffusion coefficient”, TVT, 46:1 (2008),  35–44  mathnet  elib; High Temperature, 46:1 (2008), 30–39  isi  elib  scopus 47
2005
40. V. Ya. Rudyak, “Kinetic theory in modern aerohydrodynamics”, Sib. Zh. Ind. Mat., 8:3 (2005),  120–148  mathnet  mathscinet  zmath 1
2003
41. V. Ya. Rudyak, G. V. Kharlamov, “The theory of equilibrium fluctuations of thermodynamic quantities in open systems with a small number of particles”, TVT, 41:2 (2003),  237–246  mathnet; High Temperature, 41:2 (2003), 201–209 5
2002
42. V. Ya. Rudyak, S. O. Savchenko, “Simulation of instability of a swirling flooded spout induced by a vortex flow”, Sib. Zh. Ind. Mat., 5:4 (2002),  139–149  mathnet  zmath 2
43. V. Ya. Rudyak, A. A. Belkin, “Equations of the multifluid hydrodynamics for heterogeneous systems with rotatory degrees of freedom”, Sib. Zh. Ind. Mat., 5:1 (2002),  145–156  mathnet  zmath 3
2001
44. V. Ya. Rudyak, G. V. Kharlamov, A. A. Belkin, “Diffusion of nanoparticles and macromolecules in dense gases and liquids”, TVT, 39:2 (2001),  283–291  mathnet; High Temperature, 39:2 (2001), 264–271 26
1999
45. V. Ya. Rudyak, “On a kinetic-hydrodynamical model for describing gas mixtures and suspensions”, Sib. Zh. Ind. Mat., 2:2 (1999),  168–175  mathnet  zmath 1
1998
46. V. Ya. Rudyak, “Nonlocal constitutive relations, hydrodynamic fluctuations, and classical models of hydrodynamics”, Sib. Zh. Ind. Mat., 1:1 (1998),  164–173  mathnet  mathscinet  zmath 2
1996
47. V. Ya. Rudyak, A. A. Belkin, “Equations of the multifluid hydrodynamics”, Mat. Model., 8:6 (1996),  33–37  mathnet  zmath 3
48. V. Ya. Rudyak, E. B. Isakov, “The stability of Poiseuille fluid of a two-phase fluid with a nonuniform particle distribution”, Prikl. Mekh. Tekh. Fiz., 37:1 (1996),  95–105  mathnet  elib; J. Appl. Mech. Tech. Phys., 37:1 (1996), 80–88 3
1989
49. M. S. Ivanov, V. Ya. Rudyak, “The basic kinetic equation and the method of direct statistical modelling”, Mat. Model., 1:7 (1989),  93–99  mathnet  zmath 3
50. V. Ya. Rudyak, “Transport-coefficients for a nonideal gas”, TVT, 27:4 (1989),  697–701  mathnet; High Temperature, 27:4 (1989), 548–552  isi 1
51. A. N. Veretentsev, P. I. Geshev, P. A. Kuibin, V. Ya. Rudyak, “On the development of the method of vortex particles as applied to the description of detached flows”, Zh. Vychisl. Mat. Mat. Fiz., 29:6 (1989),  878–887  mathnet  mathscinet  zmath; U.S.S.R. Comput. Math. Math. Phys., 29:3 (1989), 163–169 2
1987
52. V. Ya. Rudyak, “KINETIC-EQUATIONS OF THE IMPERFECT GAS WITH REAL INTERACTION POTENTIALS”, Zhurnal Tekhnicheskoi Fiziki, 57:8 (1987),  1466–1475  mathnet 1
1986
53. A. N. Veretentsev, V. Ya. Rudyak, N. N. Yanenko, “Construction of discrete vortex models of flows of an ideal incompressible fluid”, Zh. Vychisl. Mat. Mat. Fiz., 26:1 (1986),  103–113  mathnet  mathscinet  zmath; U.S.S.R. Comput. Math. Math. Phys., 26:1 (1986), 65–71 5
1985
54. V. Ya. Rudyak, N. N. Yanenko, “Allowance for intermolecular forces of attraction in the derivation of kinetic equations”, TMF, 64:2 (1985),  277–286  mathnet  mathscinet; Theoret. and Math. Phys., 64:2 (1985), 831–837  isi
55. V. Ya. Rudyak, “Derivation of a kinetic-equation of the Enskog type for a dense gas”, TVT, 23:2 (1985),  268–272  mathnet; High Temperature, 23:2 (1985), 215–219  isi 1
1982
56. V. Ya. Rudyak, N. N. Yanenko, “Kinetic equation of a moderately dense gas”, Dokl. Akad. Nauk SSSR, 264:6 (1982),  1336–1339  mathnet  zmath
1980
57. V. Ya. Rudyak, Sh. Smagulov, “On a hyperbolic modification of the Burgers equation”, Dokl. Akad. Nauk SSSR, 255:4 (1980),  801–804  mathnet  mathscinet  zmath
1973
58. V. Ya. Rudyak, “Derivation of equations of motion of a slightly rarefied gas around highly heated bodies from Boltzmann's equation”, Prikl. Mekh. Tekh. Fiz., 14:5 (1973),  52–56  mathnet; J. Appl. Mech. Tech. Phys., 14:5 (1973), 646–649 1

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