Prof. Dr. Igor V Shevchuk
Dr.-Ing. habil.
Campus Gummersbach
Steinmüllerallee 1
51643 Gummersbach
Raum 0.223
Postanschrift
+49 2261-8196-6443
igor_v.shevchuk@th-koeln.de
Sprechstunden
Campus Gummersbach, Raum 0.223
Nach Vereinbarung
Funktionen
- LaborleiterIn
- Praxissemesterbeauftragter (Allgemeiner Maschinenbau und Wirtschaftsingenieurwesen)
Lehrgebiete
- Thermodynamik
- Wärmeübertragung
- Wärmeübertragung- Simulationstechnik
- Energieeffiziente Produktion
Forschungsgebiete
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Heat/Mass Transfer & Fluid Mechanics in One- and Two-Phase Complex Flows and Nanofluids
Publikationen
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Lorenz approach for analysis of bioconvection instability of gyrotactic motile microorganisms
A.A. Avramenko, Kovetska, Y.Y.,, I.V. Shevchuk
Monographie
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Modelling of Convective Heat and Mass Transfer in Nanofluids with and without Boiling and CondensationModelling of Convective Heat and Mass Transfer in Nanofluids with and without Boiling and Condensation
Andriy A. Avramenko, Igor V. Shevchuk, 2022, Hg.: Springer Verlag
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Modelling of Convective Heat and Mass Transfer in Rotating FlowsModelling of Convective Heat and Mass Transfer in Rotating Flows
Igor V. Shevchuk, 2016, Hg.: Springer Verlag
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Convective heat and mass transfer in rotating disk systemsConvective heat and mass transfer in rotating disk systems
Igor V. Shevchuk, 2009, Hg.: Springer Verlag
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Heat Transfer and Fluid Flow in the Fields of Centrifugal Forces. Volume 4: Engineering and Technological Equipment.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
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Heat Transfer and Fluid Flow in the Fields of Centrifugal Forces. Volume 3: Swirl Flows.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
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Thermogasdynamics of Complex Flows over Curved SurfacesThermogasdynamics 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 Ukraine
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Heat Transfer and Fluid Flow in the Fields of Centrifugal Forces. Volume 2: Rotating SystemsHeat 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
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Heat Transfer and Fluid Flow in the Fields of Centrifugal Forces. Volume 1: Curvilinear Flows.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
Paper
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Shock waves in gas flows with nanoparticlesShock waves in gas flows with nanoparticles
A.A. Avramenko, I.V. Shevchuk, N.P. Dmitrenko, I.F. Skitsko, 2022, Hg.: Journal of Thermal Analysis and Calorimetry
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An asymptotic expansion method vs a self-similar solution for convective heat transfer in rotating cone-disk systemsAn asymptotic expansion method vs a self-similar solution for convective heat transfer in rotating cone-disk systems
I.V. Shevchuk, 2022, Hg.: Physics of Fluids
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Application of Prandtl, von Kármán, and lattice Boltzmann methods to investigations of turbulent slip incompressible flow in a flat channelApplication of Prandtl, von Kármán, and lattice Boltzmann methods to investigations of turbulent slip incompressible flow in a flat channel
A.A. Avramenko, A.I. Tyrinov, I.V. Shevchuk, 2022, Hg.: Physics of Fluids
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Symmetry and self-similar analysis of natural convection of van der Waals gases over a vertical plateSymmetry 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
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Shock Wave in van der Waals GasShock Wave in van der Waals Gas
A.A. Avramenko, I.V. Shevchuk, N.P. Dmitrenko, 2022, Hg.: Journal of Non-Equilibrium Thermodynamics
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Analytical simulation of normal shock waves in turbulent flowAnalytical simulation of normal shock waves in turbulent flow
A.A. Avramenko, A.I. Tyrinov, I.V. Shevchuk, 2022, Hg.: Physics of Fluids
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Simulation of the lubricant flow in thin slot channels with a moving wall under slip boundary conditionsSimulation 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
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Concerning the effect of radial thermal conductivity in a self-similar solution for rotating cone-disk systemsConcerning 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
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Self-similar Analysis of Eyring-Powell Fluid in Boundary Layer Without SimplificationSelf-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
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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)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 Calorimetry
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An Integral Method for Natural Convection of Van Der Waals Gases over a Vertical PlateAn 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
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Convective Instability of Nanofluids in Vertical Circular Porous MicrochannelsConvective Instability of Nanofluids in Vertical Circular Porous Microchannels
A.A. Avramenko, I.V. Shevchuk, A.I. Tyrinov, 2021, Hg.: Chaos, Solitons and Fractals
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Convective Instability in Slip Flow in a Vertical Circular Porous MicrochannelConvective 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
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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)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
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Heat transfer and fluid flow of helium coolant in a model of the core zone of a pebble-bed nuclear reactorHeat 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
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Unsteady convective heat transfer in nanofluids at instantaneous transition to film boilingUnsteady 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
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Comparison analysis of analytical and lattice Boltzmann methods for simulation of turbulence decay in flows in converging and diverging channelsComparison 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
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Heat transfer and hydrodynamics of slip confusor flow under second‑order boundary conditionsHeat 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
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An analytical investigation of natural convection of a Van der Waals gas over a vertical plateAn 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)
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Heat transfer and fluid flow during instantaneous unsteady condensationHeat 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
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Conditions of convective instability in a vertical circular microchannel with slippage effectsConditions 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
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Darcy–Brinkman–Forchheimer Model for Film Boiling in Porous MediaDarcy–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
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Unsteady theory of heat transfer and fluid flow during instantaneous transition to film boilingUnsteady 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
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Heat Transfer in Porous Microchannels with Second-Order Slipping Boundary ConditionsHeat 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
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Heat transfer due to revolving flow of Reiner-Rivlin fluid over a stretchable surfaceHeat 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
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Renormalization group analysis of heat transfer in the presence of endothermic and exothermic chemical reactionsRenormalization 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
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Heat transfer of incompressible flow in a rotating microchannel with slip boundary conditions of second orderHeat 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
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Lie group analysis and general forms of self-similar parabolic equations for fluid flow, heat and mass transfer of nanofluidsLie 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
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Application of renormalization group analysis to two-phase turbulent flows with solid dust particlesApplication 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
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Mixed Convection in Vertical Flat and Circular Porous MicrochannelsMixed 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
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Turbulent incompressible microflow between rotating parallel platesTurbulent incompressible microflow between rotating parallel plates
A.A. Avramenko, I.V. Shevchuk, A.V. Kravchuk, 2018, Hg.: European Journal of Mechanics - B/Fluids
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Instability of a vapor layer on a vertical surface at presence of nanoparticlesInstability 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
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Prandtl Number Effect on the Laminar Convective Heat Transfer From a Rotating DiskPrandtl 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
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Mixed convection in a vertical flat microchannelMixed 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
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Mixed convection in a vertical circular microchannelMixed 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
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Self-similar analysis of fluid flow, heat, and mass transfer at orthogonal nanofluid impingement onto a flat surfaceSelf-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
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Symmetry analysis for film boiling of nanofluids on a vertical plate using a nonlinear approachSymmetry 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
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Centrifugal instability of nanofluids with radial temperature and concentration non-uniformity between co-axial rotating cylindersCentrifugal 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
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Dean instability of nanofluids with radial temperature and concentration non-uniformityDean 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
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Start-up slip flow in a microchannel with a rectangular cross sectionStart-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
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Thermocapillary instability in an evaporating two-dimensional thin layer filmThermocapillary 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
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Theoretical investigation of steady isothermal slip flow in a curved microchannel with a rectangular cross-section and constant radii of wall curvatureTheoretical 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
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Heat transfer in stable film boiling of a nanofluid over a vertical surfaceHeat 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
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An analytical and numerical study on the start-up flow of slightly rarefied gases in a parallel-plate channel and a pipeAn 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
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Heat transfer at film condensation of moving vapor with nanoparticles over a flat surfaceHeat 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
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Heat transfer at film condensation of stationary vapor with nanoparticles near a vertical plateHeat 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
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Numerical Study of Convective Heat Transfer Enhancement in a Pipe Rotating Around a Parallel AxisNumerical 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
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Approximate Modeling of the Leftward Flow and Morphogen Transport in the Embryonic Node by Specifying Vorticity at the Ciliated SurfaceApproximate 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
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Review of fluid flow and convective heat transfer within rotating disk cavities with impinging jetReview 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
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On flow structure, heat transfer and pressure drop in varying aspect ratio two-pass rectangular channel with ribs at 45°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
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The Effects of Ribs and Tip Wall Distance on Heat Transfer for a Varying Aspect Ratio Two-Pass Ribbed Internal Cooling ChannelThe 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
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Validation and Analysis of Numerical Results for a Two-Pass Trapezoidal Channel With Different Cooling Configurations of Trailing EdgeValidation 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
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Symmetry analysis and self-similar forms of fluid flow and heat-mass transfer in turbulent boundary layer flow of a nanofluidSymmetry 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
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Flow structure, heat transfer and pressure drop in varying aspect ratio two-pass rectangular smooth channelsFlow 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
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Transient Thermal Field Measurements in a High Aspect Ratio Channel Related to Transient Thermochromic Liquid Crystal ExperimentsTransient 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
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Symmetry analysis and self-similar forms of fluid flow and heat-mass transfer in turbulent boundary layer flow of a nanofluidSymmetry 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
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Validation and Analysis of Numerical Results for a Varying Aspect Ratio Two-Pass Internal Cooling ChannelValidation 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
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Laminar Heat and Mass Transfer in Rotating Cone-and-Plate DevicesLaminar Heat and Mass Transfer in Rotating Cone-and-Plate Devices
Igor V. Shevchuk, 2011, Hg.: Journal of Heat Transfer - Transactions of the ASME
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Turbulent heat and mass transfer over a rotating disk for the Prandtl or Schmidt numbers much larger than unity: an integral methodTurbulent 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
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A new evaluation method for Nusselt numbers in naphthalene sublimation experiments in rotating-disk systemsA new evaluation method for Nusselt numbers in naphthalene sublimation experiments in rotating-disk systems
Igor V. Shevchuk, 2008, Hg.: Heat and Mass Transfer
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Aerothermal Efficiency of a Ribbed Channel in an Internal Gas Turbine Blade Cooling SystemAerothermal 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
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Unsteady conjugate laminar heat transfer of a rotating non-uniformly heated disk: Application to the transient experimental techniqueUnsteady 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
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Rotating disk heat transfer in a fluid swirling as a forced vortexRotating disk heat transfer in a fluid swirling as a forced vortex
I.V. Shevchuk, M.H. Buschmann, 2005, Hg.: Heat and Mass Transfer
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Aerodynamics and Turbulent Flow Heat Exchange in the Rotary Disk Air CleanerAerodynamics and Turbulent Flow Heat Exchange in the Rotary Disk Air Cleaner
I.V. Shevchuk, N.I. Delas, 2005, Hg.: Heat Transfer Research
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Transient laminar conjugate heat transfer of a rotating disk: theory and numerical simulationsTransient 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
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A new type of the boundary condition allowing analytical solution of the thermal boundary layer equationA 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
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Unsteady-State Laminar Heat Transfer in a Rotating Disk: Self- Similar SolutionUnsteady-State Laminar Heat Transfer in a Rotating Disk: Self- Similar Solution
Igor V. Shevchuk, 2004, Hg.: High Temparature
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A Self-Similar Solution of Navier–Stokes and Energy Equations for Rotating Flows between a Cone and a DiskA Self-Similar Solution of Navier–Stokes and Energy Equations for Rotating Flows between a Cone and a Disk
Igor V. Shevchuk, 2004
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Impingement Heat Transfer over a Rotating Disk: Integral MethodImpingement Heat Transfer over a Rotating Disk: Integral Method Read More: https://arc.aiaa.org/doi/abs/10.2514/2.6767?journalCode=jtht
I.V. Shevchuk, N. Saniei, X. T. Yan, 2003, Hg.: AIAA Journal of Thermophysics and Heat Transfer
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Symmetry of turbulent boundary-layer flows: Investigation of different eddy viscosity modelsSymmetry 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
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Effect of the wall temperature on laminar heat transfer in a rotating disk: an approximate analytical solutionEffect of the wall temperature on laminar heat transfer in a rotating disk: an approximate analytical solution
Igor V. Shevchuk, 2001, Hg.: High Temparature
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Turbulent heat transfer of rotating disk at constant temperature or density of heat flux to the wallTurbulent heat transfer of rotating disk at constant temperature or density of heat flux to the wall
Igor V. Shevchuk, 2000, Hg.: High Temparature
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Integral Method of Calculation of a Turbulent Centrifugal Underswirl Flow in a Gap between Parallel RotatingIntegral Method of Calculation of a Turbulent Centrifugal Underswirl Flow in a Gap between Parallel Rotating
Igor V. Shevchuk, 1999, Hg.: Heat Transfer Research
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Heat Transfer in Turbulent Centrifugal How between Rotating Discs with Flow Swirling at the InletHeat 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
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Lorenz approach for analysis of bioconvection instability of gyrotactic motile microorganismsLorenz approach for analysis of bioconvection instability of gyrotactic motile microorganisms
A.A. Avramenko, Y.Y. Kovetska, I.V. Shevchuk, 2023, Hg.: Chaos, Solitons and Fractals
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Integral Method for Calculating the Characteristics of a Turbulent Boundary Layer on a Rotating Disk: Quadratic Approximation of the Tangent of the Flow Swirl AngleIntegral 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
Auszeichnungen
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Certificate of Outstanding Contribution in Revieweing for International Journal of Heat and Mass Transfer (Elsevier, 2015, 2017)Certificate of Outstanding Contribution in Revieweing for International Journal of Heat and Mass Transfer (Elsevier, 2015, 2017)
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Certificate of Outstanding Contribution in Revieweing for International Journal of Thermal Sciences (Elsevier, 2017)Certificate of Outstanding Contribution in Revieweing for International Journal of Thermal Sciences (Elsevier, 2017)
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Certificate of Outstanding Contribution in Revieweing for Applied Thermal Engineering (Elsevier, 2014, 2017)Certificate of Outstanding Contribution in Revieweing for Applied Thermal Engineering (2014, 2017)
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Certificate of Outstanding Contribution in Revieweing for Aerospace Science and Technology (Elsevier, 2018)Certificate of Outstanding Contribution in Revieweing for Aerospace Science and Technology (Elsevier, 2018)
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Outstanding Reviewer of the Journal of Heat Transfer - Transactions of the ASME (2010)Outstanding Reviewer of the Journal of Heat Transfer - Transactions of the ASME (2010)
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Forschungsstipendium der Alexander von Humboldt-Stiftung (2003-2005)Forschungsstipendium der Alexander von Humboldt-Stiftung (2003-2005)
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Forschungsstipendium des DAAD (Deutscher Akademischer Austauschdienst, 2002)Forschungsstipendium des DAAD (Deutscher Akademischer Austauschdienst, 2002)
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Forschungsstipendium des Präsidenten der Ukraine (1996-1998)Forschungsstipendium des Präsidenten der Ukraine (1996-1998)
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Preis der Akademie der Wissenschaften der Ukraine (Premium und Ehrenmedaille, 1993)Preis der Akademie der Wissenschaften der Ukraine (Premium und Ehrenmedaille, 1993
Lebenslauf
2007 bis 2017 |
CFD expert and project leader in thermofluids bei MBtech Group GmbH & Co. KGaA CFD simulations (CFD code Star CCM+): a) air intakes, charge air distribution, water jackets, cyclones-separators; b) exhaust after-treatment, two-phase flow, mufflers; c) rotating machinery: turbochargers (incl. blow-by channels); water jet propulsion unit; d) conjugate heat transfer; thermal insulation; heat exchangers. CFD expert and project leader in thermofluids |
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2015 |
Habilitation an der Fakultät für Luft- und Raumfahrttechnik und Geodäsie, Universität Stuttgart Thema: „Modelling of Convective Heat and Mass Transfer in Rotating Flows“ Habilitation an der Universität Stuttgart |
2005 bis 2007 |
Wissenschaftlicher Mitarbeiter (Postdoc) an der Universität Stuttgart CFD simulations of two-pass ribbed channels of internal cooling systems of gas turbine blades using CFD code FLUENT Wissenschaftlicher Mitarbeiter (Postdoc) an der Universität Stuttgart |
2003 bis 2005 |
Alexander von Humboldt-Forschungsstipendiat an der Technischen Universität Dresden Analytical and numerical simulations of fluid flow, heat and mass transfer in rotating-disk systems Alexander von Humboldt-Forschungsstipendiat an der Technischen Universität Dresden |
1993 bis 2003 |
Senior Staff Scientist am Institut für technische Wärmephysik der Nationalen Akademie der Wissenschaften der Ukraine, Kiew Simulations of fluid flow, heat and mass transfer in different applications (energy, gas turbines, industrial engineering, agricultural applications). Methodology: CFD, integral method, analytical and numerical simulations Senior Staff Scientist am Institut für technische Wärmephysik der Nationalen Akademie der Wissenschaften der Ukraine, Kiew |
1990 |
Promotion am Institut für Technische Wärmephysik, Nationale Akademie der Wissenschaften der Ukraine in Kiew, Ukraine Thema „Heat transfer and hydrodynamics in the turbulent boundary layer over a curvilinear surface with streamwise pressure gradient“ Promotion am Institut für Technische Wärmephysik, Nationale Akademie der Wissenschaften der Ukraine in Kiew |
1986 bis 1993 |
Wissenschaftlicher Mitarbeiter am Institut für technische Wärmephysik der Nationalen Akademie der Wissenschaften der Ukraine, Kiew Simulations of fluid flow, heat and mass transfer in different applications (energy, gas turbines, industrial engineering, agricultural applications). Methodology: CFD, integral method, analytical and numerical simulations Wissenschaftlicher Mitarbeiter am Institut für technische Wärmephysik der Nationalen Akademie der Wissenschaften der Ukraine, Kiew |
1980 bis 1986 |
Studium: Technische Wärmephysik an der Nationalen Technischen Universität der Ukraine „Kiewer Polytechnisches Institut Igor Sikorsky“, Kiew Diplom-Ingenieur. Abschluss: „sehr gut“ (Diplom mit Auszeichnung) Studium: Technische Wärmephysik an der Nationalen Technischen Universität der Ukraine „Kiewer Polytechnisches Institut Igor Sikorsky“, Kiew |