Publikationen

Veröffentlichungen im Überblick

Bücher

  • Modelling of Convective Heat and Mass Transfer in Nanofluids with and without Boiling and Condensation
    Andriy A. Avramenko, Igor V. Shevchuk, 2022, Hg.: Springer Verlag
  • Modelling of Convective Heat and Mass Transfer in Rotating Flows
    Igor V. Shevchuk, 2016, Hg.: Springer Verlag
  • Convective heat and mass transfer in rotating disk systems
    Igor V. Shevchuk, 2009, Hg.: Springer Verlag
  • Heat Transfer and Fluid Flow in the Fields of Centrifugal Forces. Volume 4: Engineering and Technological Equipment. A.A. Khalatov, A.A. Avramenko, I.V. Shevchuk, 2000, Hg.: Institute of Engineering Thermophysics, National Academy of Sciences of Ukraine
  • Heat Transfer and Fluid Flow in the Fields of Centrifugal Forces. Volume 3: Swirl Flows. A.A. Khalatov, A.A. Avramenko, I.V. Shevchuk, 2000, Hg.: Institute of Engineering Thermophysics, National Academy of Sciences of Ukraine
  • Thermogasdynamics of Complex Flows over Curved Surfaces
    A.A. Khalatov, I.V. Shevchuk, A.A. Avramenko, S.G. Kobzar, T.A. Zheleznaya, 1999, Hg.: Institute of Engineering Thermophysics, National Academy of Sciences of Ukrain
  • Heat Transfer and Fluid Flow in the Fields of Centrifugal Forces. Volume 2: Rotating Systems
    A.A. Khalatov, A.A. Avramenko, I.V. Shevchuk, 1996, Hg.: Institute of Engineering Thermophysics, National Academy of Sciences of Ukraine
  • Heat Transfer and Fluid Flow in the Fields of Centrifugal Forces. Volume 1: Curvilinear Flows. A.A. Khalatov, A.A. Avramenko, I.V. Shevchuk, 1996, Hg.: Institute of Engineering Thermophysics, National Academy of Sciences of Ukraine

Zeitschriften

  • Symmetry and self-similar analysis of natural convection of van der Waals gases over a vertical plate
  • A.A. Avramenko, I.V. Shevchuk, M.M. Kovetskaya, N.P. Dmitrenko, 2022, Hg.: International Journal of Heat and Mass Transfer
  • Concerning the effect of radial thermal conductivity in a self-similar solution for rotating cone-disk systems
  • I.V. Shevchuk, 2022, Hg.: International Journal of Numerical Methods for Heat & Fluid Flow
  • Analytical simulation of normal shock waves in turbulent flow
  • A.A. Avramenko, A.I. Tyrinov, I.V. Shevchuk, 2022, Hg.: Physics of Fluids
  • Simulation of the lubricant flow in thin slot channels with a moving wall under slip boundary conditions
  • A.A. Avramenko, I.V. Shevchuk, A.I. Tyrinov, M.M. Kovetskaya, N.P. Dmitrenko, 2022, Hg.: Physics of Fluids
  • Shock Wave in van der Waals Gas
  • A.A. Avramenko, I.V. Shevchuk, N.P. Dmitrenko, 2022, Hg.: Journal of Non-Equilibrium Thermodynamics
  • Self-similar Analysis of Eyring-Powell Fluid in Boundary Layer Without Simplification
  • A.A. Avramenko, M.M. Kovetskaya, I.V. Shevchuk, 2022, Hg.: Chinese Journal of Physics
  • Correction to: Heat Transfer and Hydrodynamics of Slip Confusor Flow Under Second‑Order Boundary Conditions : (Journal of Thermal Analysis and Calorimetry, (2021), 144, 3, (955-961), 10.1007/s10973-020-09517-x)
  • A.A. Avramenko, N.P. Dmitrenko, I.V.Shevchuk, 2021, Hg.: Journal of Thermal
  • Analysis and CalorimetryAn Integral Method for Natural Convection of Van Der Waals Gases over a Vertical Plate
  • A.A. Avramenko, I.V. Shevchuk, Yu.Yu. Kovetskaya, N.P. Dmitrenko, 2021, Hg.: Energies
  •  Convective Instability of Nanofluids in Vertical Circular Porous Microchannels
  • A.A. Avramenko, I.V. Shevchuk, A.I. Tyrinov, 2021, Hg.: Chaos, Solitons and Fractals
  • Convective Instability in Slip Flow in a Vertical Circular Porous Microchannel
  • A.A. Avramenko, I.V. Shevchuk, A.I. Tyrinov, 2021, Hg.: Transport in Porous Media
  • Correction to: Darcy–Brinkman–Forchheimer Model for Film Boiling in Porous Media : (Transport in Porous Media, (2020), 134, 3, (503-536), 10.1007/s11242-020-01452-7)
  • A.A. Avramenko, I.V. Shevchuk, M.M. Kovetskaya, Yu.Yu. Kovetska, 2021, Hg.: Transport in Porous Media
  • Heat transfer and fluid flow of helium coolant in a model of the core zone of a pebble-bed nuclear reactor
  • А.A. Avramenko, N.P. Dmitrenko, I.V. Shevchuk, A.I. Tyrinov, M.M. Kovetskaya, 2021, Hg.: Nuclear Engineering and Design
  • Unsteady convective heat transfer in nanofluids at instantaneous transition to film boiling
  • А.A. Avramenko, I.V. Shevchuk, N.P. Dmitrenko, A.A. Moskalenko, P.N. Lohvynenko, 2021, Hg.: International Journal of Thermal Sciences
  • Comparison analysis of analytical and lattice Boltzmann methods for simulation of turbulence decay in flows in converging and diverging channels
  • A.A. Avramenko, А.I. Tyrinov, I.V. Shevchuk, N.P. Dmitrenko, 2021, Hg.: ZAMM Zeitschrift fur Angewandte Mathematik und Mechanik
  • Heat transfer and hydrodynamics of slip confusor flow under second‑order boundary conditions
  • A.A. Avramenko, N.P. Dmitrenko, I.V. Shevchuk, 2021, Hg.: Journal of Thermal Analysis and Calorimetry
  • An analytical investigation of natural convection of a Van der Waals gas over a vertical plate
  • А.A. Avramenko, I.V. Shevchuk, M.M. Kovetskaya, 2021, Hg.: Fluids (MDPI)
  • Heat transfer and fluid flow during instantaneous unsteady condensation
  • А.A. Avramenko, I.V. Shevchuk, A.I. Tyrinov, M.M. Kovetska, 2021, Hg.: AIAA Journal of Thermophysics and Heat Transfer
  • Conditions of convective instability in a vertical circular microchannel with slippage effects
  • А.A. Avramenko, I.V. Shevchuk, 2020, Hg.: International Communications in Heat and Mass Transfer
  • Darcy–Brinkman–Forchheimer Model for Film Boiling in Porous Media
  • A.A. Avramenko, I.V. Shevchuk, M.M. Kovetskaya, Y.Y. Kovetska, 2020, Hg.: Transport in Porous Media
  • Unsteady theory of heat transfer and fluid flow during instantaneous transition to film boiling
  • А.A. Avramenko, I.V. Shevchuk, N.P. Dmitrenko, Yu.Yu. Kovetska, A.I. Tyrinov, 2020, Hg.: International Journal of Thermal Sciences
  • Heat Transfer in Porous Microchannels with Second-Order Slipping Boundary Conditions
  • A.A. Avramenko, Y.Y. Kovetska, I.V. Shevchuk, A.I. Tyrinov, V.I. Shevchuk, 2019, Hg.: Transport in Porous Media
  • Heat transfer due to revolving flow of Reiner-Rivlin fluid over a stretchable surface
  • B. Sahoo, I.V. Shevchuk, 2019, Hg.: Thermal Science and Engineering Progress
  • Renormalization group analysis of heat transfer in the presence of endothermic and exothermic chemical reactions
  • A.A. Avramenko, I.V. Shevchuk, 2019, Hg.: Mathematical Biosciences and Engineering
  • Heat transfer of incompressible flow in a rotating microchannel with slip boundary conditions of second order
  • A.A. Avramenko, N.P. Dmitrenko, I.V. Shevchuk, A.I. Tyrinov, V.I. Shevchuk, 2019, Hg.: International Journal of Numerical Methods for Heat and Fluid Flow
  • Lie group analysis and general forms of self-similar parabolic equations for fluid flow, heat and mass transfer of nanofluids
  • A.A. Avramenko, I.V. Shevchuk, 2019, Hg.: Journal of Thermal Analysis and Calorimetry
  • Application of renormalization group analysis to two-phase turbulent flows with solid dust particles
  • A.A. Avramenko, I.V. Shevchuk, A.V. Kravchuk, A.I. Tyrinov, V.I. Shevchuk, 2018, Hg.: Journal of Mathematical Physics
  • Mixed Convection in Vertical Flat and Circular Porous Microchannels
  • A.A. Avramenko, Yu.Yu. Kovetska, I.V. Shevchuk, A.I. Tyrinov, V.I. Shevchuk, 2018, Hg.: Transport in Porous Media
  • Turbulent incompressible microflow between rotating parallel plates
  • A.A. Avramenko, I.V. Shevchuk, A.V. Kravchuk, 2018, Hg.: European Journal of Mechanics - B/Fluids
  • Instability of a vapor layer on a vertical surface at presence of nanoparticles
  • A.A. Avramenko, I.V. Shevchuk, A.A. Moskalenko, P.N. Lohvynenko, Yu.Yu. Kovetska, 2018, Hg.: Applied Thermal Engineering
  • Prandtl Number Effect on the Laminar Convective Heat Transfer From a Rotating Disk
  • C. Helcig, S. aus der Wiesche, I.V. Shevchuk, 2017, Hg.: Journal of Heat Transfer - Transactions of the ASME
  • Mixed convection in a vertical flat microchannel
  • A.A. Avramenko, A.I. Tyrinov, I.V. Shevchuk, N.P. Dmitrenko, A.V. Kravchuk, V.I. Shevchuk, 2017, Hg.: International Journal of Heat and Mass Transfer
  • Mixed convection in a vertical circular microchannel
  • A.A. Avramenko, A.I. Tyrinov, I.V. Shevchuk, N.P. Dmitrenko, A.V. Kravchuk, V.I. Shevchuk, 2017, Hg.: International Journal of Thermal Sciences
  • Self-similar analysis of fluid flow, heat, and mass transfer at orthogonal nanofluid impingement onto a flat surface
  • A.A. Avramenko, I.V. Shevchuk, S. Abdallah, D.G. Blinov, and A I. Tyrinov, 2017, Hg.: Physics of Fluids
  • Symmetry analysis for film boiling of nanofluids on a vertical plate using a nonlinear approach
  • A.A.Avramenko, I.V. Shevchuk, S. Abdallah, D.G. Blinov, S. Harmand, A.I. Tyrinov, 2016, Hg.: Journal of Molecular Liquids
  • Centrifugal instability of nanofluids with radial temperature and concentration non-uniformity between co-axial rotating cylinders
  • A.A. Avramenko, A.I. Tyrinov, I.V. Shevchuk, and N.P. Dmitrenko, 2016, Hg.: European Journal of Mechanics - B/Fluids
  • Dean instability of nanofluids with radial temperature and concentration non-uniformity
  • A.A. Avramenko, A.I. Tyrinov, I.V. Shevchuk, and N.P. Dmitrenko, 2016, Hg.: Physics of Fluids
  • Start-up slip flow in a microchannel with a rectangular cross section
  • A.A. Avramenko, A.I. Tyrinov, I.V. Shevchuk, 2015, Hg.: Theoretical and Computational Fluid Dynamics
  • Thermocapillary instability in an evaporating two-dimensional thin layer film
  • A.A. Avramenko, I.V. Shevchuk, S. Harmand, A.I. Tyrinov, 2015, Hg.: International Journal of Heat and Mass Transfer
  • Theoretical investigation of steady isothermal slip flow in a curved microchannel with a rectangular cross-section and constant radii of wall curvature
  • A.A. Avramenko, A.I. Tyrinov, I.V. Shevchuk, 2015, Hg.: European Journal of Mechanics - B/Fluids
  • Heat transfer in stable film boiling of a nanofluid over a vertical surface
  • A.A. Avramenko, I.V. Shevchuk, A.I. Tyrinov, D.G. Blinov, 2015, Hg.: International Journal of Thermal Sciences
  • An analytical and numerical study on the start-up flow of slightly rarefied gases in a parallel-plate channel and a pipe
  • A.A. Avramenko, A.I. Tyrinov, I.V. Shevchuk, 2015, Hg.: Physics of Fluids
  • Heat transfer at film condensation of moving vapor with nanoparticles over a flat surface
  • A.A. Avramenko, I.V. Shevchuk, A.I. Tyrinov, D.G. Blinov, 2015, Hg.: International Journal of Heat and Mass Transfer
  • Heat transfer at film condensation of stationary vapor with nanoparticles near a vertical plate
  • A.A. Avramenko, I.V. Shevchuk, A.I. Tyrinov, D.G. Blinov, 2014, Hg.: Applied Thermal Engineering
  • Numerical Study of Convective Heat Transfer Enhancement in a Pipe Rotating Around a Parallel Axis
  • Aurélie Fasquelle, Julien Pellé, Souad Harmand and Igor V. Shevchuk, 2014, Hg.: Journal of Heat Transfer - Transactions of the ASME
  • Approximate Modeling of the Leftward Flow and Morphogen Transport in the Embryonic Node by Specifying Vorticity at the Ciliated Surface
  • A.V. Kuznetsov, D.G. Blinov, A. A. Avramenko, I.V. Shevchuk, A.I. Tyrinov and I.A. Kuznetsov, 2014, Hg.: Journal of Fluid Mechanics
  • Review of fluid flow and convective heat transfer within rotating disk cavities with impinging jet
  • S. Harmand, J. Pellé, S. Poncet, I.V. Shevchuk, 2013, Hg.: International Journal of Thermal Sciences
  • On flow structure, heat transfer and pressure drop in varying aspect ratio two-pass rectangular channel with ribs at 45°
  • Waseem Siddique, Igor V. Shevchuk, Lamyaa El-Gabry, Narmin B. Hushmandi, Torsten H. Fransson, 2013, Hg.: Heat and Mass Transfer
  • The Effects of Ribs and Tip Wall Distance on Heat Transfer for a Varying Aspect Ratio Two-Pass Ribbed Internal Cooling Channel
  • Sean C. Jenkins, Frank Zehnder, Igor V. Shevchuk, Jens von Wolfersdorf, Bernhard Weigand and Martin Schnieder, 2013, Hg.: Journal of Turbomachinery - Transactions of the ASME
  • Validation and Analysis of Numerical Results for a Two-Pass Trapezoidal Channel With Different Cooling Configurations of Trailing Edge
  • Waseem Siddique, Lamyaa El-Gabry, Igor V. Shevchuk and Torsten H. Fransson, 2013, Hg.: Journal of Turbomachinery - Transactions of the ASME
  • Symmetry analysis and self-similar forms of fluid flow and heat-mass transfer in turbulent boundary layer flow of a nanofluid
  • A. A. Avramenko, D. G. Blinov, I. V. Shevchuk, and A. V. Kuznetsov, 2012, Hg.: Physics of Fluids
  • Flow structure, heat transfer and pressure drop in varying aspect ratio two-pass rectangular smooth channels
  • Waseem Siddique, Lamyaa El-Gabry, Igor V. Shevchuk, Narmin B. Hushmandi, Torsten H. Fransson, 2012, Hg.: Heat and Mass Transfer
  • Transient Thermal Field Measurements in a High Aspect Ratio Channel Related to Transient Thermochromic Liquid Crystal Experiments
  • Sean C. Jenkins, Igor V. Shevchuk, Jens von Wolfersdorf and Bernhard Weigand, 2012, Hg.: Journal of Turbomachinery - Transactions of the ASME
  • Symmetry analysis and self-similar forms of fluid flow and heat-mass transfer in turbulent boundary layer flow of a nanofluid
  • A.A. Avramenko, D.G. Blinov, I.V. Shevchuk, and A.V. Kuznetsov, 2011, Hg.: Physics of Fluids
  • Validation and Analysis of Numerical Results for a Varying Aspect Ratio Two-Pass Internal Cooling Channel
  • Igor V. Shevchuk, Sean C. Jenkins, Bernhard Weigand, Jens von Wolfersdorf, Sven Olaf Neumann and Martin Schnieder, 2011, Hg.: Journal of Heat Transfer - Transactions of the ASME
  • Laminar Heat and Mass Transfer in Rotating Cone-and-Plate Devices
  • Igor V. Shevchuk, 2011, Hg.: Journal of Heat Transfer - Transactions of the ASME
  • Turbulent heat and mass transfer over a rotating disk for the Prandtl or Schmidt numbers much larger than unity: an integral method
  • Igor V. Shevchuk, 2009, Hg.: Heat and Mass Transfer
  • A new evaluation method for Nusselt numbers in naphthalene sublimation experiments in rotating-disk systems
  • Igor V. Shevchuk, 2008, Hg.: Heat and Mass Transfer
  • Aerothermal Efficiency of a Ribbed Channel in an Internal Gas Turbine Blade Cooling System
  • Igor V. Shevchuk, Sean C. Jenkins, Jens von Wolfersdorf, Bernhard Weigand, 2007, Hg.: European Conference; 7th, Turbomachinery fluid dynamics and thermodynamics; 2007; Athens
  • Unsteady conjugate laminar heat transfer of a rotating non-uniformly heated disk: Application to the transient experimental technique
  • Igor V. Shevchuk, 2006, Hg.: International Journal of Heat and Mass Transfer
  • Rotating disk heat transfer in a fluid swirling as a forced vortex
  • I.V. Shevchuk, M.H. Buschmann, 2005, Hg.: Heat and Mass Transfer
  • Aerodynamics and Turbulent Flow Heat Exchange in the Rotary Disk Air Cleaner
  • I.V. Shevchuk, N.I. Delas, 2005, Hg.: Heat Transfer Research
  • Transient laminar conjugate heat transfer of a rotating disk: theory and numerical simulations
  • T. Indinger, I.V. Shevchuk, 2004, Hg.: International Journal of Heat and Mass Transfer
  • A new type of the boundary condition allowing analytical solution of the thermal boundary layer equation
  • Igor V. Shevchuk, 2005, Hg.: International Journal of Thermal Sciences
  • Unsteady-State Laminar Heat Transfer in a Rotating Disk: Self- Similar Solution
  • Igor V. Shevchuk, 2004, Hg.: High Temparature
  • A Self-Similar Solution of Navier–Stokes and Energy Equations for Rotating Flows between a Cone and a Disk
  • Igor V. Shevchuk, 2004
  • Impingement Heat Transfer over a Rotating Disk: Integral Method
  • I.V. Shevchuk, N. Saniei, X. T. Yan, 2003, Hg.: AIAA Journal of Thermophysics and Heat Transfer
  • Symmetry of turbulent boundary-layer flows: Investigation of different eddy viscosity models
  • A.A. Avramenko, S.G. Kobzar, I.V. Shevchuk, A.V. Kuznetsov, L.T. Iwanisov, 2001, Hg.: Acta Mechanica
  • Effect of the wall temperature on laminar heat transfer in a rotating disk: an approximate analytical solution
  • Igor V. Shevchuk, 2001, Hg.: High Temparature
  • Turbulent heat transfer of rotating disk at constant temperature or density of heat flux to the wall
  • Igor V. Shevchuk, 2000, Hg.: High Temparature
  • Integral Method of Calculation of a Turbulent Centrifugal Underswirl Flow in a Gap between Parallel Rotating
  • Igor V. Shevchuk, 1999, Hg.: Heat Transfer Research
  • Heat Transfer in Turbulent Centrifugal How between Rotating Discs with Flow Swirling at the Inlet
  • I.V. Shevchuk, A.A. Khalatov, H. Karabay, J.M. Owen, 1998, Hg.: Heat Transfer Research
  • Integral Method for Calculating the Characteristics of a Turbulent Boundary Layer on a Rotating Disk: Quadratic Approximation of the Tangent of the Flow Swirl Angle
  • I.V. Shevchuk, A.A. Khalatov, 1997, Hg.: Heat Transfer Research

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