Avramenko A. A.

 Vice head of Institute for science, head of department of heat and mass transfer and hydrodynamics in components of thermal power equipment, doctor of technical sciences, professor, corresponding member of National Academy of Sciences of Ukraine.

          Well-known in Ukraine and abroad, a scientist in the field of thermal physics, doctor of technical sciences (1997), professor (2011), corresponding member of National Academy of Sciences of Ukraine (2009), winner of Tolubinsky prize, winner of State Prize of Ukraine.

          Andriy Avramenko was born on February 21, 1960 in Kiev. In 1986 he entered to graduate school of Institute Thermophysics Engineering. In 1990 he defended his PhD thesis. In 1997 he defended his doctoral thesis.

The thesis has been revealed the mechanism of linear and nonlinear effects of centrifugal instability on heat transfer and hydrodynamic processes in curvilinear flows. In 2009 A.A. Avramenko was elected a corresponding member of National Academy of Sciences of Ukraine on the specialty “Thermal Physics”. Now A.A. Avramenko is working on the modeling of heat transfer and heat power pro-processes using group methods. He developed a method for studying the hydrodynamic and heat transfer processes, using group method and showed how on the basis of this theory one can solve different problems of thermal physics. A.A. Avramenko developed a theory of turbulence in porous media on the basis of the renormalization group, which makes it possible to take into account nonlinear effects of hydrodynamic resistance. Scientist investigates instability in the bio-technology and bioconvection – a new direction on the edge of biology and thermophysics. Applying the methods of non-linear disturbances he got bioconvection

criteria of instability for different media and in conditions of influence of various factors. Using its symmetry properties, self-similar theory of laminar and turbulent flow and heat transfer for nanofluids was built for single- and two-phase flows. Under his leadership experimental gap for the study of the heat transfer during of crisis boiling in turbulent flows was restored, He is co-author of a number mo-monographs. In addition, the scientist takes an active part in international scientific-governmental programs and collaborating with scientists from the United States, of Great Britain, Mexico, Holland, France. He has published papers in internationally renowned scientific journals such as, «Journal of Fluids Mechanics», «Physics of Fluids», «International Journal Heat and Mass Transfer», «Proceed-ings of the Royal Society» and others. In 2011 he got prize for one of the best paper in the international journal «International Journal of Numerical Methods for Heat and Fluid Flow».

 

Awards and grants:

 

  1. The Award of National Academy of Sciences for Scientists (Premium with Medal, 1993)
  2. Ukrainian Presidential Fellowship for Scientists (1994-1996)
  3. European Commission (PECO) Research Fellowship, 1995 (Cardiff, UK)
  4. George Soros Fellowship for Senior Faculty Members, 1998-1999
  5. Royal Society Grant, 1994-1996 (with the Cardiff University, UK)
  6. U.S. CRDF and Ukrainian Government Grant, 1997-1999 (with the University of Minnesota, USA)
  7. U.S. National Research Council’s Collaboration in Basic Science and Engineering (COBASE) grants program: Project Development Grant, 1999 (with the Notre Dame University, USA)
  8. NATO Linkage Grant, 1999-2001 (North Carolina State University, USA)
  9. NATO Expert-visit Grant, 2001-2002 (North Carolina State University, USA)
  10. NSF Grant, 2003 (North Carolina State University, USA)
  11. Grant of North Carolina State University, 2004 (North Carolina State University, USA)
  12. NATO Linkage Grant, 2005-2007 (North Carolina State University, USA)
  13. The Award of National Academy of Sciences for Thermophysics (2009)
  14. NATO Linkage Grant, 2011 – 2013 (North Carolina State University, USA)
  15. State Prize of Ukraine (2014)

 

List

of publications ranked by «THOMSON REUTERS»

(Institute for Scientific Information ISI)

  1. Khalatov A.A., Avramenko A.A., Borisov I.I. Gas screen for a convex surface with external turbulence and a negative pressure // High Temperature. – 1991. – 29, N 1. – P. 96 – 102.
  2. Heat transfer and flow in the convex and concave walls of gas turbine nozzle blades with intensive secondary and vortex flows / A.A. Khalatov, A.A. Avramenko, L.V. Syskov, M.A. Litvinenko, S.A. Khalatov // Heat Transfer Research. – 1993. – 25, N 4. – P. 468 – 481.
  3. Khalatov A.A., Avramenko A.A. Taylor-Gortler turbulent instability on a concave surface with suction // High Temperature. – 1994. – 32, N 1. – P. 68 – 70.
  4. Khalatov A.A., Avramenko A.A., Kobzar S.G. The effect of external turbulence on the Taylor-Gortler instability // High temperature. – 1995. – 33, No 5. – P. 803 – 805.
  5. Avramenko A.A., Khalatov A.A. Effect of the pressure gradient on Taylor-Gortler vortices in a turbulent boundary layer over a concave wall // Heat transfer research. – 1995. – 26, No 3-8. – P. 167 – 172.
  6. Avramenko A.A., Kobzar S.G. Taylor-Gortler centrifugal instability of a turbulent boundary layer // Heat transfer research. – 1995. – 26, No 3-8. – P. 341 – 343.
  7. Avramenko A.A., Kobzar S.G., Khalatov A.A. Nonlinear effect of Taylor-Gortler vortices in turbulent boundary layers // Heat transfer research. – 1995. – 26, No 3-8. – P. 533 – 537.
  8. Khalatov A.A., Avramenko A.A. Taylor-Gortler instability in the boundary layer on a concave surface // Heat transfer research. – 1996. – 27, No 1-4. – P. 108 – 111.
  9. Avramenko A.A., Kobzar S.G., Khalatov A.A. The Taylor-Gortler instability in the and its effect on heat transfer in a turbulent boundary layer on a concave surface // Heat transfer research. – 1996. – 27, No 5-8. – P. 542 – 545.
  10. Avramenko A.A., Kobzar S.G., Khalatov A.A. Energy balance of Taylor-Gortler vortices // Heat transfer research. – 1997. – 28, No 7. – P. 421 – 425.
  11. Avramenko A. A. Heat transfer in the zone of boundary layer separation // Heat Transfer Research (Publisher: Begell House, USA) – 1998. – 29, N.6-8 – P. 391 – 396.
  12. Avramenko A. A., Kobzar S.G. Effect of centrifugal instability on boundary layer heat transfer at a concave surface // Heat Transfer Research (Publisher: Begell House, USA) – 1999. – 30, N.4-6. – P. 231 – 237.
  13. Avramenko A. A. Self-similar analysis of turbulent hydrodynamic and temperature boundary layers // High temperature (USA). – 2000. – 38, No 3. – P. 428 – 433.
  14. Avramenko A. A. The properties of symmetry and self-similarity of equations of convective heat transfer and hydrodynamics // High temperature. – 2002. – 40, No 3. – P.387 – 398.
  15. Avramenko A. A., Kobzar S.G., Shevchuk I.V., Kuznetsov A.V., Iwanisov L.T. Symmetry of turbulent boundary-layer flows: Investigation of different eddy viscosity models // Acta Mechanica. – 2001.- 151, N 1-2.- P.1-14.
  16. Vargas M., Sierra F.Z., Ramos E., Avramenko A.A. Steady natural convection in a cylindrical cavity // Int. Comm. Heat Mass Transfer. – 2002. – 29, N 2. – P. 213 – 221.
  17. Kuznetsov A.V., Avramenko A.A. A 2D analysis of stability of bioconvection in a fluid saturated porous medium – estimation of the critical permeability value // Int. Comm. Heat Mass Transfer. – 2002. – 29, N 2. – P. 175 – 184.
  18. Cuevas S., Sierra F. Z., Avramenko A. A. Magnetic damping of steady streaming vortices in an oscillatory viscous flow over a wavy wall // Magnetohydrodynamics . – 2002. – 38, N 4. – C. 345 – 358.
  19. Kuznetsov A.V., Avramenko A.A, Geng P. A Similarity Solution for a Falling Plume in Bioconvection of Oxytactic Bacteria in a Porous Medium // International Communications in Heat and Mass Transfer – 2003. – 30, N 1. – P. 37 – 46.
  20. Kuznetsov A.V., Avramenko A.A. Stability analysis of bioconvection of gyrotactic motile microorganisms in a fluid saturated porous medium // Transport in Porous Media. – 2003. – 53. – Р. 95 – 104.
  21. Kuznetsov A.V., Avramenko A.A. Analysis of stability of bioconvection of motile oxytactic bacteria in a horizontal fluid saturated porous layer // International Communications in Heat and Mass Transfer – 2003. – 30, N 5. – P. 593 – 602.
  22. Kuznetsov A.V., Avramenko A.A. The effect of deposition and declogging on the critical permeability in bioconvection in a porous medium // Acta Mechanica. – 2003. – 160, N 1-2. – P. 113 – 125.
  23. Nield D.A., Kuznetsov A.V., Avramenko A.A. The onset of bioconvection in a horizontal porous-medium layer // Transport in Porous Media. – 2004. – 54. – Р. 335 – 344.
  24. Kuznetsov A.V., Avramenko A.A. Effect of small particles on the stability of bioconvection in a suspension of gyrotactic microorganisms in a layer of finite depth // International Communications in Heat and Mass Transfer. – 2004. – 31, N 1. – P. 1 – 10.
  25. Kuznetsov A.V., Avramenko A.A., Geng P. Analytical investigation of a falling plume caused by bioconvection of oxytactic bacteria in a fluid saturated porous medium // International Journal of Engineering Science. – 2004. – 42. – P. 557 – 569.
  26. A.A. Avramenko, S.G. Kobzar, I.V. Shevchuk, A.V. Kuznetsov, B.I. Basok Laminar forced convection in curved channel with vortex structures // Int. J. Turbo and jet engines. – 2004. – 21, N 1. – P.19 – 28.
  27. Ramos E., Storey B.D., Sierra F., Zuсiga R.A., Avramenko A. Temperature distribution in oscillatory flow with a sinusoidal wall temperature // International J. Heat and Mass Transfer. – 2004. – 47, N 22. – P. 4929 – 4938.
  28. Becker S.M., Kuznetsov A.V, Avramenko A.A. Numerical modeling of a falling bioconvection plume in a porous medium // Fluid Dynamics Research. – 2004. – 33. – P. 323 – 339.
  29. Avramenko A.A., Kuznetsov A.V. Stability of a suspension of gyrotactic microorganisms in superimposed fluid and porous layers // Int. Comm. Heat Mass Transfer. – 2004. – 31, No. 8. – P. 1057–1066.
  30. Avramenko A.A., Kobzar S.G., Shevchuk I.V., Kuznetsov A.V., Basok B.I. Laminar forced convection in curved channel with vortex structures // Int. J. Thermal and Fluid Sciences. – 2004. – 13, N 2. – P.143 – 149.
  31. Pavlenko A.M., Basok B.I., Avramenko A.A. Heat conduction of a multi-layer disperse particle of emulsion // Heat transfer research. – 2005. – 36, N 1-2. – P. 55 – 61.
  32. Kuznetsov A.V., Avramenko A.A. Effect of Fouling on Stability of Bioconvection of Gyrotactic Microorganisms in a Porous Medium // Journal of Porous Media. – 2005. – vol. 8. – P. 45 – 53.
  33. Avramenko A.A., Kuznetsov A.V. Linear Instability Analysis of a Suspension of Oxytactic Bacteria in Superimposed Fluid and Porous Layers // Transport in Porous Media. – 2005. – vol. 61. – P. 157-175.
  34. Avramenko A.A., Kuznetsov A.V., Basok B.I., Blinov D.G. Investigation of stability of a laminar flow in a parallel-plate channel filled with a fluid saturated porous medium // Phys. Fluids. – 2005. – 17. – P. 094102-1 – 094102-6.
  35. Avramenko A.A., Kuznetsov A.V. Renormalization group model of macroscopic turbulence in porous media // Transport in Porous Media. – 2006. – vol. 63. – P. 175 – 193.
  36. Avramenko A.A., Kuznetsov A.V. The onset of convection in a suspension of gyrotactic microorganisms in superimposed fluid and porous layers: effect of vertical throughfow // Transport in Porous Media. – 2006. – vol. 65. – P. 159 – 176.
  37. Blinov D.G., Avramenko A.A., Fialko N.M., Prokopov V.G., Sherenkovskii Yu.V., Yurchuk V.L. Transformation of independent variables of problem for increasing the POD method efficiency // Int. Comm. Heat Mass Transfer. – 2007. – 34. – P. 432 – 439.
  38. Avramenko A.A., Kuznetsov A.V., Nield D.A. Instability of slip-flow in a channel occupied by a hyper-porous medium // Journal of Porous Media. – 2007. – vol. 10. – P. 435 – 442.
  39. 3 Avramenko A.A., Kuznetsov A.V. Flow instability in a curved porous channel formed by two concentric cylindrical surfaces // Transport in Porous Media. – 2007. – vol. 69. – P. 373 – 381.
  40. Avramenko A.A., Kuznetsov A.V. Flow in a Curved Porous Channel with a Rectangular Cross Section // Journal of Porous Media. – 2008. – vol. 11. – P. 241 – 246.
  41. Kuznetsov A.V., Avramenko A.A. Generalized Fourier series solution of equations governing molecular-motor-assisted transport of adenoviral vectors in a spherical cell // Int. Comm. Heat Mass Transfer. – 2008. – 35. – P. 395 – 403.
  42. Kuznetsov A.V., Avramenko A.A. Analytical investigation of transient molecular-motor-assisted transport in elongated cells // Cent. Eur. J. Phys. – 2008 – 6(1) – P. 45-51.
  43. Kuznetsov A. V., Avramenko A. A., Blinov D. G. Numerical modeling of molecular-motor-assisted transport of adenoviral vectors in a spherical cell // Computer Methods in Biomechanics and Biomedical Engineering. – 2008. – Volume 11, N 3. – P. 215 – 222.
  44. Kuznetsov A. V., Avramenko A. A. The method of separation of variables for solving equations describing molecular-motor-assisted transport of intracellular particles in a dendrite or axon // Proc. Royal Soc. A – 2008. – 464. – P. 2867 – 2886.
  45. Dolinsky A. A., Kovetskaya M. M., Skitsko A. I., Avramenko A. A., Basok B. I. Nonstationary heat transfer crisis in annular dispersed flows // Journal of Engineering Thermophysics. – 2008. – Vol. 17, No. 2. – P. 126 – 129.
  46. Dolinsky A. A., Tyrinov A. I., Avramenko A. A., Basok B. I., Teslya A. I. Numerical simulation of water jet breakup under the influence of flow velocity oscillations // Journal of Engineering Thermophysics. – 2008. – Vol. 17, No. 2. – P. 130 – 133.
  47. Avramenko A. A., Kuznetsov A. V. Start-up flow in a channel or pipe occupied by a fluid-saturated porous medium // Journal of Porous Media. – 2009. – vol. 12. – P. 361 – 367.
  48. Kuznetsov A. V., Avramenko A. A. A minimal hydrodynamic model for a traffic jam in an axon // Int. Comm. Heat Mass Transfer. – 2009. – 36, N 1. – P. 1 – 5.
  49. Kuznetsov A. V., Avramenko A. A. A macroscopic model of traffic jams in axons // Mathematical Biosciences. – 2009. – 218, N 2 –P. 142 – 152.
  50. Kuznetsov A. V., Avramenko A. A., Blinov D. G. Macroscopic modeling of slow axonal transport of rapidly diffusible soluble proteins // Int. Comm. Heat Mass Transfer. – 2009. – 36, N 4. – P. 293 – 296.
  51. Kuznetsov A. V., Avramenko A. A., Blinov D. G. Effect of protein degradation in the axon on the speed of the bell-shaped concentration wave in slow axonal transport // Int. Comm. Heat Mass Transfer. – 2009. – 36, N 7. – P. 641 – 645.
  52. Avramenko A. A., Kuznetsov A. V. Instability of a slip flow in a curved channel formed by two concentric cylindrical surfaces // European Journal of Mechanics B/Fluids. – 2009. – 28, N 6. – P. 722–727.
  53. Kuznetsov A. V., Avramenko A. A., Blinov D. G. Modeling the effect of a microtubule swirl on fast axonal transport // Int. Comm. Heat Mass Transfer. – 2010. – 37, N 3. – P. 234 – 238.
  54. Avramenko A. A., Kuznetsov A. V. The onset of bio-thermal convection in a suspension of gyrotactic microorganisms in a fluid layer with an inclined temperature gradient // International Journal of Numerical Methods for Heat & Fluid Flow. – 2010. – 20, No. 1 – P. 111 – 129.
  55. Avramenko A. A., Kuznetsov A. V. Bio-thermal convection caused by combined effects of swimming of oxytactic bacteria and inclined temperature gradient in a shallow fluid layer // International Journal of Numerical Methods for Heat & Fluid Flow. – 2010. – 20, N 2. – P. 157 – 173.
  56. Kuznetsov A. V., Avramenko A. A., Blinov D. G. Effect of diffusion on slowing the velocity of a bell-shaped wave in slow axonal transport // Int. Comm. Heat Mass Transfer. – 2010. – 37, N 7. – P. 770 – 774.
  57. Kuznetsov A. V., Avramenko A. A., Blinov D. G. Modeling traffic jams in slow axonal transport // Journal of Mechanics in Medicine and Biology. – 2010. – Vol. 10, No 3. – P. 445 – 465.
  58. Kuznetsov A. V., Avramenko A. A., Blinov D. G. Effect of cytoskeletal element degradation on merging of concentration waves in slow axonal transport // Cent. Eur. J. Phys. – 2011 – 9(4) – P. 898 – 908.
  59. Kuznetsov A. V., Avramenko A. A., Blinov D. G. Investigation of the role of diffusivity on spreading, rate, and merging of the bell-shaped waves in slow axonal transport // Int. J. Numer. Meth. Biomed. Engng. – 2011. – 27. – P. 1040 – 1053.
  60. Avramenko A. A., Blinov D. G., Shevchuk I. V. Self-similar analysis of fluid flow and heat-mass transfer of nanofluids in boundary layer // Phys. Fluids. – 2011. – 23. – P. 082002-1 – 082002-8.
  61. Basok B. I., Avramenko A. A., Gotsulenko V. V. Thermal convective instability in a liquid layer in a system with rotating pivots // High Temperature. – 2011. – 49, N 6. – P. 897 – 902.
  62. Avramenko A. A., Blinov D. G., Shevchuk I. V., Kuznetsov A. V. Symmetry analysis and self-similar forms of fluid flow and heat-mass transfer in turbulent boundary layer flow of a nanofluid // Phys. Fluids. – 2012. – 24. – P. 092003-1 – 092003-20.
  63. Kuznetsov A. V., Blinov D. G., Avramenko A. A., Kuznetsov I. A. Error correction in intracellular transport: Numerical investigation of rerouting of a pulse of misdirected axonal cargos in a dendrite // Computers in Biology and Medicine. – 2012. – Vol. 42., N 12. – P. 1196 – 1203.
  64. Kuznetsov A. V., Blinov D. G., Avramenko A. A., Shevchuk I. V., Tyrinov A. I., Kuznetsov I. A. Approximate modelling of the leftward flow and morphogen transport in the embryonic node by specifying vorticity at the ciliated surface // J. Fluid Mech. – 2014. – vol. 738. – P. 492 – 521.
  65. Avramenko A. A., Shevchuk V. I., Tyrinov A. I., Blinov D. G. Heat transfer at film condensation of stationary vapor with nanoparticles near a vertical plate // Applied Thermal Engineering. – 2014. – 73. – P. 389 – 396.
  66. Avramenko A. A., Shevchuk V. I., Tyrinov A. I., Blinov D. G. Heat transfer at ?lm condensation of moving vapor with nanoparticles over a ?at surface // International Journal of Heat and Mass Transfer. – 2015. – 82. – P. 316 – 324.
  67. Avramenko A. A., Shevchuk V. I., Tyrinov A. I., Blinov D. G. Heat transfer in stable film boiling of a nanofluid over a vertical surface // International Journal of Thermal Sciences. – 2015. – 92. – P. 106 – 118.
  68. Avramenko A. A., Tyrinov A. I., Shevchuk I. V. An analytical and numerical study on the start-up flow of slightly rarefied gases in a parallel-plate channel and a pipe // Phys. Fluids. – 2015. – 27. – P. 042001-1 – 042001-18.
  69. Avramenko A. A., Tyrinov A. I., Shevchuk I. V. Theoretical investigation of steady isothermal slip flow in a curved microchannel with a rectangular cross-section and constant radii of wall curvature // European Journal of Mechanics B/Fluids. – 2015. – 54. – P. 87– 97.
  70. Avramenko A. A., Shevchuk I. V., Harmand S., Tyrinov A. I. Thermocapillary instability in an evaporating two-dimensional thin layer film // International Journal of Heat and Mass Transfer. – 2015. – 91. – P. 77 – 88.
  71. Avramenko A. A., Tyrinov A. I., Shevchuk I. V. Start-up slip flow in a microchannel with a rectangular cross section // Theor. Comput. Fluid Dyn. – 2015. – 29. – P. 351 – 371.
  72. Avramenko A. A., Tyrinov A. I., Shevchuk I. V., Dmitrenko N. P. Dean instability of nano- fluids with radial temperature and concentration non-uniformity // Phys. Fluids. – 2016. (accepted).

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