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  1. Burmasheva N.V. Larina E.A. Prosviryakov E.Yu. Features of selecting boundary conditions when describing flows of stratified fluids // Procedia Structural Integrity. 2022. Vol. 40. P. 75-81. [10.1016/j.prostr.2022.04.009].
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  2. Burmasheva N.V. Prosviryakov E.Yu. Isothermal shear flows of viscous vortex fluids in a thin slit // Procedia Structural Integrity. 2022. Vol. 40. P. 85-89. [10.1016/j.prostr.2022.04.010].
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  3. Goruleva L.S. Prosviryakov E.Yu. Inhomogeneous Couette–Poiseuille shear flow // Procedia Structural Integrity. 2022. Vol. 40. P. 171-179. [10.1016/j.prostr.2022.04.023].
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  4. Privalova V.V. Prosviryakov E.Yu. A New Class of Exact Solutions of the Oberbeck–Boussinesq Equations Describing an Incompressible Fluid // Theoretical Foundations of Chemical Engineering. 2022. V. 56. P. 331–338. [10.1134/S0040579522030113].
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  5. Burmasheva N.V. Prosviryakov E.Yu. Exact Solutions to the Navier – Stokes Equations for Describing the Convective Flows of Multilayer Fluids / Russian Journal of Nonlinear Dynamics. 2022. Vol. 18. - no. 3. P. 397-410. [10.20537/nd220305].
    Scopus 

  6. Gorshkov A.V. Prosviryakov E.Yu. Stagnation points of an inhomogeneous solution describing convective Ekman flow in the oceanic equatorial zone // Diagnostics, Resource and Mechanics of materials and structures. 2022. Iss. 1. P. 52–66. [10.17804/2410-9908.2022.1.052-066].

  7. Goruleva L.S. Prosviryakov E.Yu. Unidirectional Steady-State Inhomogeneous Couette Flow with a Quadratic Velocity Profile Along a Horizontal Coordinate // Diagnostics, Resource and Mechanics of Materials and Structures. 2022. Iss. 3. P. 47-60. [10.17804/2410-9908.2022.3.047-060].

  8. Ershkov S.V. Prosviryakov E.Yu. Leshchenko D. Flow of a Viscous Incompressible Fluid from a Moving Point Source // Symmetry. 2022. No. 14. 2156 p. [10.3390/ sym14102156].

  9. Prosviryakov E.Yu. Goruleva L.S. Nonuniform Couette–Poiseuille Shear Flow with a Moving Lower Boundary of a Horizontal Layer // Technical Physics Letters. 2022. Vol. 48. Iss. 9. P. 450-454. [10.1134/S1063785022090024].

  10. Bashurov V.V. Prosviryakov E.Yu. Steady thermo-diffusive shear Couette flow of incompressible fluid. Velocity field analysis // VESTNIK SAMARSKOGO GOSUDARSTVENNOGO TEKHNICHESKOGO UNIVERSITETA-SERIYA-FIZIKO-MATEMATICHESKIYE NAUKI. 2021. Vol. 25. Iss. 4. P. 781-793. DOI: https://doi.org/10.14498/vsgtu1878.
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  11. Burmasheva N.V. Prosviryakov E.Yu. Exact solutions to the Navier–Stokes equations describing stratified fluid flows // VESTNIK SAMARSKOGO GOSUDARSTVENNOGO TEKHNICHESKOGO UNIVERSITETA-SERIYA-FIZIKO-MATEMATICHESKIYE NAUKI. 2021. Vol. 25. Iss. 3. P. 491-507. DOI: https://doi.org/10.14498/vsgtu1860.
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  12. Burmasheva N.V. Larina E.A. Prosviryakov E.Yu. A Couette-Type Flow with a Perfect Slip Condition on a Solid Surface // Vestnik Tomskogo gosudarstvennogo universiteta, Matematika i mekhanika [Tomsk State University Journal of Mathematics and Mechanics]. 2021. Iss. 74. P. 79-94. DOI 10.17223/19988621/74/9.
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  13. Prosviryakov E.Yu. Recovery of radial-axial velocity in axisymmetric swirling flows of a viscous incompressible fluid in the Lagrangian consideration of vorticity evolution // VESTNIK UDMURTSKOGO UNIVERSITETA-MATEMATIKA MEKHANIKA KOMPYUTERNYE NAUKI. 2021. Vol. 31. Iss. 3. P. 505-516. DOI: 10.35634/vm210311.
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  14. Burmasheva N.V. Prosviryakov E.Yu. Exact Solutions to the Oberbeck–Boussinesq Equations for Shear Flows of a Viscous Binary Fluid with Allowance Made for the Soret Effect // BULLETIN OF IRKUTSK STATE UNIVERSITY-SERIES MATHEMATICS. 2021. Vol. 37. P. 17-30. https://doi.org/10.26516/1997-7670.2021.37.17.
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  15. Ershkov S.V. Prosviryakov E.Yu. Burmasheva N.V. Christianto Victor Towards understanding the algorithms for solving the Navier–Stokes equations // Fluid Dynamics Research. 2021. Vol. 53. 044501. https://doi.org/10.1088/1873-7005/ac10f0.
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  16. Burmasheva N.V. Prosviryakov E.Yu. Exact Solutions for Steady Convective Layered Flows with a Spatial Acceleration // Russian Mathematics. 2021. Vol. 65. No. 7. P. 8-16. DOI: 10.3103/S1066369X21070021.
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  17. Privalova V.V. Prosviryakov E.Yu. Layered Marangoni convection with the Navier slip condition // SADHANA-ACADEMY PROCEEDINGS IN ENGINEERING SCIENCES. 2021. Vol. 46. Iss. 1. Article number: 55. https://doi.org/10.1007/s12046-021-01585-5.0.
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  18. Ershkov S.V. Rachinskaya A. Prosviryakov E.Yu. Shamin R.V. On the Semi-Analytical Solutions in Hydrodynamics of Ideal Fluid Flows Governed by Large-Scale Coherent Structures of Spiral-Type // Symmetry-Basel. 2021. Vol. 13. Article ID 2307. https://doi.org/ 10.3390/sym13122307.
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  19. Baranovskii E.S. Burmasheva N.V. Prosviryakov E.Yu. Exact solutions to the Navier-Stokes equations with couple stresses // Symmetry-Basel. 2021. V. 13. No. 8. Article ID 1355. https://doi.org/10.3390/sym13081355.
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  20. Burmasheva N.V. Prosviryakov E.Yu. Exact Solution for Couette-Type Steady Convective Concentration Flows // Journal of Applied Mechanics and Technical Physics. 2021. Vol. 62. No. 7. P. 155-166. DOI: 10.1134/S0021894421070051.
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  21. Goruleva L.S. Prosviryakov E.Yu. The Couette Poiseuille Inhomogeneous Shear Flow with the Motion of the Lower Boundary of the Horizontal Layer // Chemical Physics and Mesoscopy. 2021. Vol. 23. No. 4. P. 403-411. DOI: 10.15350/17270529.2021.4.36.
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  22. Burmasheva N.V. Prosviryakov E.Yu. A Class of Exact Solutions with Spatial Acceleration for the Description of Viscous Incompressible Fluid Flows in the Field of Mass Forces [Electronic resource] // Diagnostics, Resource and Mechanics of materials and structures. 2021. Iss. 1. P. 6-25. DOI: 10.17804/2410-9908.2021.1.006-025.
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  23. Burmasheva N.V. Prosviryakov E.Yu. Exact Solutions of the Navier–stokes Equations for Describing an Isobaric One-Directional Vertical Vortex Flow of a Fluid [Electronic resource] // Diagnostics, Resource and Mechanics of materials and structures. 2021. Iss. 2. P. 30-51. DOI: 10.17804/2410-9908.2021.2.030-051.
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  24. Gorshkov A.V. Prosviryakov E.Yu. Analytical Study of the Ekman Angle for the Benard–marangoni Convective Flow of Viscous Incompressible Fluid [Electronic resource] // Diagnostics, Resource and Mechanics of materials and structures. 2021. Iss. 4. P. 34-49. DOI: 10.17804/2410-9908.2021.4.34-49.
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  25. Prosviryakov E.Yu. Gravitational Principle of Minimum Pressure for Incompressible Flows [Electronic resource] // Diagnostics, Resource and Mechanics of materials and structures. 2021. Iss. 2. P. 22-29. DOI: 10.17804/2410-9908.2021.2.022-029.
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  26. Prosviryakov E.Yu. Burmasheva N.V. Analysis of Specific Kinetic Energy for the Birikh–ostroumov Shear Diffusion Flow [Electronic resource] // Diagnostics, Resource and Mechanics of materials and structures. 2021. Iss. 3. P. 55-70. DOI: 10.17804/2410-9908.2021.3.055-070.
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  27. Burmasheva N.V. Prosviryakov E.Yu. Thermocapillary Convection of a Vertical Swirling Liquid // Theoretical Foundations of Chemical Engineering. 2020. Vol. 54. No. 1. P. 230–239. DOI: 10.1134/S0040579519060034.
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  28. Burmasheva N.V. Larina E.A. Prosviryakov E.Yu. A Layered Unidirectional Flow of a Viscous Incompressible Fluid Induced in a Closed Layer by a Nonuniform Distribution of Temperature and Pressure Fields, with Allowance for the Perfect Slip Condition // AIP Conference Proceedings. 2020. Vol. 2315. 020011. https://doi.org/10.1063/5.0036715.
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  29. Burmasheva N.V. Larina E.A. Prosviryakov E.Yu. Unidirectional Convective Flow of Viscous Incompressible Fluid in a Closed Horizontal Layer with the Perfect Slip Condition // AIP Conference Proceedings. 2020. Vol. 2315. 020010. https://doi.org/10.1063/5.0036714.
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  30. Burmasheva N.V. Prosviryakov E.Yu. Analysis of Non-One-Dimensional Shear Concentration Convective Flows of a Viscous Incompressible Fluid in a Plane Horizontal Layer with Motionless Boundaries // AIP Conference Proceedings. 2020. Vol. 2315. – 020007. https://doi.org/10.1063/5.0036710.
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  31. Burmasheva N.V. Prosviryakov E.Yu. Diffusion Poiseuille Flow of a Viscous Incompressible Binary Fluid in a Horizontal Layer with Motionless Boundaries // AIP Conference Proceedings. 2020. Vol. 2315. 020012. https://doi.org/10.1063/5.0036716.
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  32. Burmasheva N.V. Prosviryakov E.Yu. Studying the Concentration Field Distribution in Shear Concentration Convective Flows of a Viscous Incompressible Fluid in a Plane Horizontal Layer with Immobile Boundaries // AIP Conference Proceedings. 2020. Vol. 2315. 020008. https://doi.org/10.1063/5.0036711.
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  33. Burmasheva N.V. Prosviryakov E.Yu. The Properties of Isobars in Shear Concentration Convective Flows of a Viscous Incompressible Fluid in a Plane Horizontal Layer with Motionless Boundaries // AIP Conference Proceedings. 2020. Vol. 2315. 020009. https://doi.org/10.1063/5.0036712.
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  34. Gorshkov A.V. Prosviryakov E.Yu. Analytical Study of the Ekman Angle for the Isothermal Flow of a Viscous Incompressible Fluid in View of the Navier Boundary Condition // AIP Conference Proceedings. 2020. Vol. 2315. 020018. https://doi.org/10.1063/5.0036889.
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  35. Gorshkov A.V. Prosviryakov E.Yu. Inhomogeneous Isobaric Poiseuille-Ekman Flow of a Viscous Incompressible Fluid // AIP Conference Proceedings. 2020. Vol. 2315. 050009. https://doi.org/10.1063/5.0036899.
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  36. Gorshkov A.V. Prosviryakov E.Yu. Inhomogeneous Isothermal Equatorial Poiseuille – Ekman Flow // AIP Conference Proceedings. 2020. Vol. 2315. 050008. https://doi.org/10.1063/5.0036894.
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  37. Gorshkov A.V. Prosviryakov E.Yu. Large-Scale Convective Ekman Flow of Viscous Incompressible Fluid in the Equatorial Zone // AIP Conference Proceedings. 2020. Vol. 2315. 050007. https://doi.org/10.1063/5.0036897.
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  38. Gorshkov A.V. Prosviryakov E.Yu. Nonstationary Laminar Bénard-Marangoni Convection for Newton-Richmann Heat Exchange // AIP Conference Proceedings. 2020. Vol. 2315. 050010. https://doi.org/10.1063/5.0036896.
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  39. Privalova V.V. Prosviryakov E.Yu. A Three-Dimensional Model of the Couette-Type Convective Flow with the Heating Condition at the Fluid Boundary // AIP Conference Proceedings. 2020. Vol. 2315. 020036. https://doi.org/10.1063/5.0036688.
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  40. Privalova V.V. Prosviryakov E.Yu. An Exact Solution for the Rayleigh-Benard Convective Flow with Quadratic Heating at the Upper Boundary of a Fluid Layer // AIP Conference Proceedings. 2020. Vol. 2315. 020034. https://doi.org/10.1063/5.0036685.
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  41. Privalova V.V. Prosviryakov E.Yu. An Exact Solution of the Convective Couette Flow Under the Parabolic Heating Condition at the Lower Boundary of a Fluid Layer // AIP Conference Proceedings. 2020. Vol. 2315. 050021. https://doi.org/10.1063/5.0036691.
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  42. Privalova V.V. Prosviryakov E.Yu. Convective Couette-Poiseuille Type Flows with Quadratic Heating of One Fluid Layer Boundary // AIP Conference Proceedings. 2020. Vol. 2315. 020033. https://doi.org/10.1063/5.0036683.
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  43. Privalova V.V. Prosviryakov E.Yu. Gradient Flow of a Non-Isothermal Fluid Under the Quadratic Heating Condition at the Upper Boundary // AIP Conference Proceedings. 2020. Vol. 2315. 020035. https://doi.org/10.1063/5.0036686.
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  44. Privalova V.V. Prosviryakov E.Yu. The Influence of Gradient Pressure Effects on the Velocity Field in a Three-Dimensional Convective Flow // AIP Conference Proceedings. 2020. Vol. 2315. 020037. https://doi.org/10.1063/5.0036690.
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  45. Burmasheva N.V. Prosviryakov E.Yu. A Class of Exact Solutions for Two-Dimensional Equations of Geophysical Hydrodynamics with Two Coriolis Parameters // BULLETIN OF IRKUTSK STATE UNIVERSITY-SERIES MATHEMATICS. 2020. Vol. 32. P. 32-48. DOI: https://doi.org/10.26516/1997-7670.2020.32.33.
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  46. Burmasheva N.V. Prosviryakov E.Yu. On Marangoni shear convective flows of inhomogeneous viscous incompressible fluids in view of the Soret effect // Journal of King Saud University – Science. 2020. Vol. 32. Iss. 8. P. 3364–3371. https://doi.org/10.1016/j.jksus.2020.09.02.
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  47. Ershkov S.V. Christianto V. Rachinskaya A. Prosviryakov E.Yu. A Nonlinear Heuristic Model for Estimation of Covid-19 Impact to World Population // Romanian Reports in Physics. 2020. Vol. 72. Article no. 605. WOS: 000562620700016.
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  48. Burmasheva N.V. Prosviryakov E.Yu. Exact solution of Navier–Stokes equations describing spatially inhomogeneous flows of a rotating fluid // Trudy Instituta Matematiki i Mekhaniki URO RAN. 2020. Vol. 26. No. 2. P. 79–87. DOI: 10.21538/0134-4889-2020-26-2-79-87.
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  49. Prosviryakov E.Yu. Exact solutions to generalized plane Beltrami–Trkal and Ballabh flows // VESTNIK SAMARSKOGO GOSUDARSTVENNOGO TEKHNICHESKOGO UNIVERSITETA-SERIYA-FIZIKO-MATEMATICHESKIYE NAUKI. 2020. Vol. 24. No. 2. P. 319-330. DOI: https://doi.org/10.14498/vsgtu1766.
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  50. Burmasheva N.V. Prosviryakov E.Yu. Convective layered flows of a vertically whirling viscous incompressible fluid. Temperature field investigation // VESTNIK SAMARSKOGO GOSUDARSTVENNOGO TEKHNICHESKOGO UNIVERSITETA-SERIYA-FIZIKO-MATEMATICHESKIYE NAUKI. 2020. Vol 24. Iss. 3. P. 528-541. DOI: 10.14498/vsgtu1770.
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  51. Burmasheva N.V. Prosviryakov E.Yu. Exact solution for stable convective concentration flows of a couette type // Vychislitel'naya mehanika sploshnyh sred. 2020. Vol. 13. No. 3. P. 337-349. DOI: 10.7242/1999-6691/2020.13.3.27.
    РИНЦ 

  52. Burmasheva N.V. Prosviryakov E.Yu. An Exact Solution for Describing the Unidirectional Marangoni Flow of a Viscous Incompressible Fluid with the Navier Boundary Condition. Temperature Field Investigation [Electronic resource] // Diagnostics, Resource and Mechanics of materials and structures. 2020. Iss. 1. P. 6-23. DOI: 10.17804/2410-9908.2020.1.006-023.

  53. Burmasheva N.V. Prosviryakov E.Yu. Isothermal Layered Flows of a Viscous Incompressible Fluid with Spatial Acceleration in the Case of Three Coriolis Parameters [Electronic resource] // Diagnostics, Resource and Mechanics of materials and structures. 2020. Iss. 3. P. 29-46. DOI: 10.17804/2410-9908.2020.3.029-046.

  54. Burmasheva N.V. Prosviryakov E.Yu. Studying the Stratification of Hydrodynamic Fields for Laminar Flows of Vertically Swirling Fluid [Electronic resource] // Diagnostics, Resource and Mechanics of materials and structures. 2020. Iss. 4. P. 62-78. DOI: 10.17804/2410-9908.2020.4.062-078.

  55. Burmasheva N.V. Prosviryakov E.Yu. Exact Solution for Describing a Unidirectional Marangoni Flow of a Viscous Incompressible Fluid with the Navier Boundary Condition. Pressure Field Investigation [Electronic resource] // Diagnostics, Resource and Mechanics of materials and structures. 2020. Iss. 2. P. 61-75. DOI: 10.17804/2410-9908.2020.2.061-075.

  56. Burmasheva N.V. Prosviryakov E.Yu. Unidirectional Marangoni–Poiseuille Flows of a Viscous Incompressible Fluid with the Navier Boundary Condition // AIP Conference Proceedings. 2019. Vol. 2176. 030021. – https://doi.org/10.1063/1.5135145.
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  57. Prosviryakov E.Yu. Non-helical exact solutions to the Euler equations for swirling axisymmetric fluid flows // Vestn. Samar. Gos. Tekhn. Univ., Ser. Fiz.-Mat. Nauki [J. Samara State Tech. Univ., Ser. Phys. Math. Sci.].. 2019. Vol. 23. No. 4. P. 1–7. https://doi.org/10.14498/vsgtu1715.
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  58. Burmasheva N.V. Prosviryakov E.Yu. Convective layered flows of a vertically whirling viscous incompressible fluid. Velocity field investigation // Vestnik Samarskogo Gosudarstvennogo Tekhnicheskogo Universiteta, Seriya Fiziko-Matematicheskie Nauki. 2019. Vol. 23. No. 2. P. 341-360. DOI: 10.14498/vsgtu1670.
    WoS  Scopus 

  59. Zubarev N.M. Prosviryakov E.Yu. Exact Solutions for the Layered Three-Dimensional Nonstationary Isobaric Flows of Viscous Incompressible Fluid // Journal of Applied Mechanics and Technical Physics. 2019. Vol. 60. No. 6.. 10.1134/S0021894419060075.
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  60. Burmasheva N.V. Larina E.A. Prosviryakov E.Yu. Unidirectional Convective Flows of a Viscous Incompressible Fluid with Slippage in a Closed Layer // AIP Conference Proceedings. 2019. Vol. 2176. 030023. – https://doi.org/10.1063/1.5135147.
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  61. Burmasheva N.V. Prosviryakov E.Yu. Layered Convective Flows of Vertically Swirling Incompressible Fluid Affected by Tangential Stresses // AIP Conference Proceedings. 2019. Vol. 2176. 030025. – https://doi.org/10.1063/1.5135149.
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  62. Burmasheva N.V. Prosviryakov E.Yu. Unidirectional Thermocapillary Flows of a Viscous Incompressible Fluid with the Navier Boundary Condition // AIP Conference Proceedings. 2019. Vol. 2176. 030002. –https://doi.org/10.1063/1.5135126.
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  63. Koroleva (Chekhomova) L.F. Prosviryakov E.Yu. Models of Matter Self-Organization in Dissipative Kinetic Processes for Obtaining an Active Biomaterial with Transdermal Ability to Restore and Strengthen Bone Tissue // AIP Conference Proceedings. 2019. Vol. 2176. 030008. – https://doi.org/10.1063/1.5135132.
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  64. Privalova V.V. Prosviryakov E.Yu. An Inhomogeneous Couette-Type Flow with a Perfect Slip Condition at the Lower Boundary of an Infinite Fluid Layer // AIP Conference Proceedings. 2019. Vol. 2176. 030012. – https://doi.org/10.1063/1.5135136.
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  65. Privalova V.V. Prosviryakov E.Yu. Convective Couette-Type Flows Under Condition of Slip and Heating at the Lower Boundary // AIP Conference Proceedings. 2019. Vol. 2176. 030024. – https://doi.org/10.1063/1.5135148.
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  66. Privalova V.V. Prosviryakov E.Yu. Exact Solution of the Convective Flow of a Viscous Fluid Layer with a Heated Lower Boundary // AIP Conference Proceedings. 2019. Vol. 2176. 030022. – https://doi.org/10.1063/1.5135146.
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  67. Kirillova V.V. Prosviryakov E.Yu. Cardiac remodeling in patients with atrial fibrillation in chronic heart failure // Europace. March, 2019. Vol. 21. 381 p. ii 62. –DOI: https://doi.org/10.1093/europace/euz093.
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  68. Privalova V.V. Prosviryakov E.Yu. Simonov M.A. An Exact Solution for the Description of the Gradient Flow of a Vortex Fluid // AIP Conference Proceedings. 2019. Vol. 2176. – 020012. https://doi.org/10.1063/1.5135124.
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  69. Privalova V.V. Prosviryakov E.Yu. Simonov M.A. Nonlinear Gradient Flow of a Vertical Vortex Fluid in a Thin Layer // Russian Journal of Nonlinear Dynamics. 2019. Vol. 15. No. 3. P. 271-283. DOI: 10.20537/nd190306.
    Scopus 

  70. Privalova V.V. Prosviryakov E.Yu. Nonlinear isobaric flow of a viscous incompressible fluid in a thin layer with permeable boundaries // Vichislitel’naya mekhanika sploshnyh sred. 2019. Vol. 12. No. 2. P. 230-242. DOI: 10.7242/1999-6691/2019.12.2.20.
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  71. Prosviryakov E.Yu. New Class of Exact Solutions of Navier-Stokes Equations with Exponential Dependence of Velocity on Two Spatial Coordinates. 2018. Vol. 53. No. 1. P. 107-114. DOI: 10.1134/S0040579518060088.
    WoS  Scopus 

  72. Kirillova V. Prosviryakov E.Yu. Diastolic dysfunction of the right ventricle as an early diagnostic marker of heart failure // European Journal of Heart Failure. 2018. Vol. 20 (Suppl. S1). P. 223-224. DOI: 10.1002/ejhf.1197.
    WoS  Scopus 

  73. Gorshkov A.V. Prosviryakov E.Yu. Ekman Convective Layer Flow of a Viscous Incompressible Fluid // Izvestiya. Atmospheric and Oceanic Physics. 2018. Vol. 54. – No. 2. P. 189–19. DOI: 10.7868/S0003351518020101.
    WoS  Scopus 

  74. Prosviryakov E.Yu. Spevak L.F.  Layered Three-Dimensional NonUniform Viscous Incompressible Flows // Theoretical Foundations of Chemical Engineering. 2018. Vol. 52. No. 5. P. 765-770. DOI: 10.1134/S0040579518050391.
    WoS  Scopus 

  75. Privalova V.V. Prosviryakov E.Yu. Couette–Hiemenz exact solutions for the steady creeping convective flow of a viscous incompressible fluid, with allowance made for heat recovery // VESTNIK SAMARSKOGO GOSUDARSTVENNOGO TEKHNICHESKOGO UNIVERSITETA-SERIYA-FIZIKO-MATEMATICHESKIYE NAUKI. 2018. Vol. 22. No. 3. P. 532-548. DOI: 10.14498/vsgtu1638.
    WoS  VAC list 

  76. Prosviryakov E.Yu. Dynamic equilibria of a nonisothermal fluid // VESTNIK SAMARSKOGO GOSUDARSTVENNOGO TEKHNICHESKOGO UNIVERSITETA-SERIYA-FIZIKO-MATEMATICHESKIYE NAUKI. 2018. Vol. 22. No. 4. DOI: 10.14498/vsgtu1651.
    WoS  VAC list 

  77. Burmasheva N.V. Prosviryakov E.Yu. Investigation of a Velocity Field for the Marangoni Shear Convection of a Vertically Swirling Viscous Incompressible Fluid // AIP Conference Proceedings. 2018. Vol. 2053. – 040011. – https://doi.org/10.1063/1.5084449.
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  78. Burmasheva N.V. Prosviryakov E.Yu. Investigation of Temperature and Pressure Fields for the Marangoni Shear Convection of a Vertically Swirling Viscous Incompressible Fluid // AIP Conference Proceedings. 2018. Vol. 2053. – 040012. – https://doi.org/10.1063/1.5084450.
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  79. Gorshkov A.V. Prosviryakov E.Yu. Isobaric Vortex Flow of a Viscous Incompressible Fluid with the Navier Boundary Condition // AIP Conference Proceedings. 2018. Vol. 2053. – 040030. – https://doi.org/10.1063/1.5084468.
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  80. Gorshkov A.V. Prosviryakov E.Yu. Large-Scale Convection Flow of an Incompressible Fluid on a Rotating Inclined Plane // AIP Conference Proceedings. 2018. Vol. 2053. – 040029. – https://doi.org/10.1063/1.5084467.
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  81. Privalova V.V. Prosviryakov E.Yu. Exact Solutions for Three-Dimensional Nonlinear Flows of a Viscous Incompressible Fluid // AIP Conference Proceedings. 2018. Vol. 2053. – 040077. – https://doi.org/10.1063/1.5084515.
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  82. Privalova V.V. Prosviryakov E.Yu. Linear Heating of the Upper Boundary of a Fluid Layer in the Case of Stationary Nonisothermal Couette Flow // AIP Conference Proceedings. 2018. Vol. 2053. – 040078. – https://doi.org/10.1063/1.5084516.
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  83. Prosviryakov E.Yu. A New Exact Solution for Convective Flows of a Rotating Viscous Incompressible Fluid // AIP Conference Proceedings. 2018. Vol. 2053. 020012. https://doi.org/10.1063/1.5084358.
    WoS 

  84. Privalova V.V. Prosviryakov E.Yu. Couette–Hiemenz exact solutions for the steady creeping convective flow of a viscous incompressible fluid, with allowance made for heat recovery // VESTNIK SAMARSKOGO GOSUDARSTVENNOGO TEKHNICHESKOGO UNIVERSITETA-SERIYA-FIZIKO-MATEMATICHESKIYE NAUKI. 2018. Vol. 22. No. 3. P. 532-548. DOI: 10.14498/vsgtu1638.
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  85. Privalova V.V. Prosviryakov E.Yu. Steady convective Coutte flow for quadratic heating of the lower boundary fluid layer // Rus. J. Nonlin. Dyn. 2018. Vol. 14. No. 1. P. 69-79.
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  86. Privalova V.V. Prosviryakov E.Yu. Exact Solutions for a Couette–Hiemenz Creeping Convective Flow with Linear Temperature Distribution on the Upper Boundary [Electronic resource] // Diagnostics, Resource and Mechanics of materials and structures. 2018. Iss. 2. P. 92-109. DOI: 10.17804/2410-9908.2018.2.092-109.
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  87. Rozhkova E.A. Gorshkov A.V. Prosviryakov E.Yu. Layered Marangoni Convection during Heat Transfer According to the Newton’s Law of Cooling. Part 1. Investigation of the Velocity Field // Khimicheskaya fizika i mezoskopiya. 2018. Vol. 20. No. 1. P. 15-27. DOI:10.20537/nd1801007.
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  88. Burmasheva N.V. Prosviryakov E.Yu. Exact Solution for the Layered Convection of a Viscous Incompressible Fluid at Specified Temperature Gradients and Tangential Forces on the Free Boundary // AIP Conf. Proc. 2017. Vol. 1915. – 040005.
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  89. Gorshkov A.V. Prosviryakov E.Yu. Complex Large-Scale Convection of a Viscous Incompressible Fluid with Heat Exchange According to Newton’s Law // AIP Conf. Proc. 2017. Vol. 1915. – 040019.
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  90. Gorshkov A.V. Prosviryakov E.Yu. Convective Flow in the Solid Rotation of a Viscous Incompressible Fluid // AIP Conf. Proc. 2017. Vol. 1915. – 040020.
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  91. Prosviryakov E.Yu. Waves of Pressure in Viscous Incompressible Fluid // AIP Conf. Proc. 2017. Vol. 1915. – 020006.
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  92. Prosviryakov E.Yu. Spevak L.F. Exact Solutions for Layered Thermocapillary Convection of a Viscous Incompressible Fluid with Specified Stresses on the Bottom // AIP Conf. Proc. 2017. Vol. 1915. – 030019.
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  93. Prosviryakov E.Yu. Spevak L.F. Simulation of a Viscous Flow in Layered Composites in View of the Thermocapillary Effect // AIP Conf. Proc. 2017. Vol. 1915. – 040047.
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  94. Burmasheva N.V. Prosviryakov E.Yu. Exact Solutions for Natural Convection of Layered Flows of a Viscous Incompressible Fluid with Specified Tangential Forces and the Linear Distribution of Temperature on the Layer Boundaries [Electronic resource] // . – URL: http://dream-journal.org/issues/2017-4/2017-4_145.html // Diagnostics, Resource and Mechanics of materials and structures. 2017. Iss. 4. P. 16-31.

  95. Burmasheva N.V. Prosviryakov E.Yu. Exact solutions for layered large-scale convection induced by tangential stresses specified on the free boundary of a fluid layer – doi:10.1088/1757-899X/208/1/012010. // IOP Conference Series: Materials Science and Engineering. 2017. Vol. 208. – 012010.
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  96. Prosviryakov E.Yu. Spevak L.F. Exact Solutions for Stationary and Unsteady Layered Convection of a Viscous Incompressible Fluid with the Specified Velocities at the Bottom . – doi:10.1088/1757-899X/208/1/012035. // IOP Conference Series: Materials Science and Engineering. 2017. Vol. 208. – 012035.
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  97. Burmasheva N.V. Prosviryakov E.Yu. A large-scale layered stationary convection of an incompressible viscous fluid under the action of shear stresses at the upper boundary. Velocity field investigation // Vestnik Samarskogo gosudarstvennogo tekhnicheskogo universiteta. Seriya: Fiziko-matematicheskie nauki. 2017. Vol. 21. – No. 1. P. 180-196.

  98. Gorkunov E.S. Prosviryakov E.Yu. Complex Stationary Convection with Third-Kind Boundary Conditions at the Boundaries of a Fluid Layer [Electronic resource] // Diagnostics, Resource and Mechanics of materials and structures. 2016. Iss. 2. P. 34-47.

  99. Aristov S.N. Prosviryakov E.Yu. Nonuniform Convective Couette Flow // Fluid Dynamics. 2016. Vol. 51. – No. 5. P. 581-587.

  100. Aristov S.N. Prosviryakov E.Yu. Unsteady Layered Vortical Fluid Flows // Fluid Dynamics. 2016. Vol. 51. – No. 2. P. 148-154.

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