Исследование и разработка систем с высокоэффективными термодинамическими циклами

  • Руководитель: Бараненко Александр Владимирович

Публикации

  1. 28. Bulat M.P., Bulat P.V. The analysis centric isentropic compression waves // World Applied Sciences Journal - 2013, Vol. 27, No. 8, pp. 1023-1026 [SJR: 0.191]
    подробнее >>
  2. 27. Bulat P.V., Bulat M.P. Development of the bottom pressure calculation methods // Life Science Journal - 2014, Vol. 11, No. 7(Issue Spec.), pp. 203-208 [SJR: 0.136]
    подробнее >>
  3. 26. Ilina T.E., Bulat M.P. Non-stationary Operation Regimes of the Gas Bearings // Research Journal of Applied Sciences, Engineering and Technology - 2014, Vol. 8, No. 2, pp. 215-220 [SJR: 0.149]
  4. 25. Agarwal R., Hrnjak P.S. Effect of sensible heat, condensation in superheated and subcooled region incorporated in unified model for heat rejection in condensers in horizontal round smooth tubes // Applied Thermal Engineering - 2014, Vol. 71, No. 1, pp. 378-388 [IF: 3.043, SJR: 1.718]
    подробнее >>
  5. 24. Bulat P.V., Silnikov M.V., Chernyshov M.V. Spherical shock-wave – 2D surface interaction // Research Journal of Applied Sciences, Engineering and Technology - 2015, Vol. 9, No. 6, pp. 428-433 [SJR: 0.149]
    подробнее >>
  6. 23. Ilyina T.E., Prodan N.V., Bulat P.V. Model pad geometry analysis // Modern Applied Science - 2015, Vol. 9, No. 9, pp. 322-332 [SJR: 0.178]
    подробнее >>
  7. 22. Bulat P.V., Bulat M.P. Gas-dynamic variable relation on opposite sides of the gas-dynamic discontinuity // Research Journal of Applied Sciences, Engineering and Technology - 2015, Vol. 9, No. 12, pp. 1097-1104 [SJR: 0.149]
    подробнее >>
  8. 21. Uskov V.N., Bulat P.V. The problem of constructing the optimal configuration of shock and detonation waves // Life Science Journal - 2014, Vol. 11, No. 8(Is Spec), pp. 311-314 [SJR: 0.136]
    подробнее >>
  9. 20. Bulat M.P., Bulat P.V. The history of the gas bearings theory development // World Applied Sciences Journal - 2013, Vol. 27, No. 7, pp. 893-897 [SJR: 0.191]
    подробнее >>
  10. 19. Bulat M.P., Bulat P.V. Comparison of turbulence models in the calculation of supersonic separated flows // World Applied Sciences Journal - 2013, Vol. 27, No. 10, pp. 1263-1266 [SJR: 0.191]
    подробнее >>
  11. 18. Bulat P.V. About the detonation engine // American Journal of Applied Sciences - 2014, Vol. 11, No. 8, pp. 1357-1364 [SJR: 0.254]
    подробнее >>
  12. 17. Bulat P.V., Silnikov M.V., Chernyshov M.V. Shock wave refraction at gas media interface // Indian Society for Education and Environment - 2016, Vol. 9, No. 30, pp. 98751 [SJR: 0.273]
    подробнее >>
  13. 16. Ilina E.E., Ilina T.E., Bulat P.V. Analysis of the application of turbulence models in the calculation of supersonic gas jet // American Journal of Applied Sciences - 2014, Vol. 11, No. 11, pp. 1914-1920 [SJR: 0.254]
    подробнее >>
  14. 15. Bulat P.V., Bulat M.P. On the concept of the wave compressor and optimal shock wave structures // Advances and Applications in Fluid Mechanics - 2016, Vol. 19, No. 4, pp. 913-922
    подробнее >>
  15. 14. Bulat P.V., Bulat M.P. Discontinuity of gas-dynamic variables in the center of the compression wave // Research Journal of Applied Sciences, Engineering and Technology - 2014, Vol. 8, No. 23, pp. 2343-2349 [SJR: 0.149]
    подробнее >>
  16. 13. Prodan N.V. History of bottom pressure oscillations researches // Life Science Journal - 2014, Vol. 11, No. 7(Issue Spec.), pp. 242-245 [SJR: 0.136]
    подробнее >>
  17. 12. Uskov V.N., Bulat P.V. Shock and detonation wave in terms of view of the theory of interaction gasdynamic discontinuities // Life Science Journal - 2014, Vol. 11, No. 8(Is Spec), pp. 307-310 [SJR: 0.136]
    подробнее >>
  18. 11. Рыдалевская М.А., Ворошилова Ю.Н., Uskov V.N. Direct Shocks in Vibrationally Nonequilibrium Diatomic Gases at Various Distances from Critical Cross-section of Nozzle // American Journal of Applied Sciences - 2014, Vol. 11, No. 11, pp. 1921-1926 [SJR: 0.254]
    подробнее >>
  19. 10. Beschastnyh V.N., Bulat P.V. Method of sliding bearings static characteristics calculation // American Journal of Applied Sciences - 2014, Vol. 11, No. 11, pp. 1959-1963 [SJR: 0.254]
    подробнее >>
  20. 9. Khovalyg D.M., Hrnjak P.S., Baranenko A.V., Jacobi A.M. Interactions between parallel minichannels during flow boiling of R134a // ASME 2014 12th International Conference on Nanochannels, Microchannels, and Minichannels, ICNMM 2014, Collocated with the ASME 2014 4th Joint US-European Fluids Engineering Division Summer Meeting - 2014, pp. 1-8
    подробнее >>
  21. 8. Bulat M.P., Bulat P.V. Design of gas-static bearing - Statement of problem // World Applied Sciences Journal - 2013, Vol. 27, No. 7, pp. 888-892 [SJR: 0.191]
    подробнее >>
  22. 7. Prodan N.V. History of base pressure experimental research // Life Science Journal - 2014, Vol. 11, No. 7(Issue Spec.), pp. 238-241 [SJR: 0.136]
    подробнее >>
  23. 6. Bulat P.V. On the design of optimal shock-wave structures for wave compressors // Modern Applied Science - 2014 [SJR: 0.178]
  24. 5. Bulat P.V., Bulat M.P., Ilina T.E., Smirnova O.S. Concept car hybrid power plant based on the air aluminum electrochemical generator // Research Journal of Applied Sciences, Engineering and Technology - 2015, Vol. 10, No. 2, pp. 230-234 [SJR: 0.149]
  25. 4. Prodan N.V., Uskov V.N., Bulat P.V. Pressure fluctuations in the gasostatic bearing supply system on supercritical operation mode // Research Journal of Applied Sciences, Engineering and Technology - 2014, Vol. 8, No. 1, pp. 109-112 [SJR: 0.149]
  26. 3. Bulat P.V., Bulat M.P., Ilina T.E. The concept hybrid energy plant based on aluminum aqueous hydrogen generator // Research Journal of Applied Sciences, Engineering and Technology - 2014 [SJR: 0.149]
  27. 2. Bulat M.P., Bulat P.V. Basic classification of the gas-lubricated bearings // World Applied Sciences Journal - 2013, Vol. 28, No. 10, pp. 1444-1448 [SJR: 0.191]
    подробнее >>
  28. 1. Bulat P.V. On compression shock calculation // American Journal of Applied Sciences - 2016 [SJR: 0.254]