Scientific publications

  1. Zolotko, Ya. I. Vovchuk, V. G. Shevchuk, N. I. Poletaev. Ignition and Combustion of Dust-Gas Suspensions. Combustion, Explosion and Shock Waves 2005, Volume 41, Issue 6, pp 611-621.
  2. I. Poletaev, A. V. Florko. Radiative characteristics of an aluminum dust flame. Condensed phase. Combustion, Explosion and Shock Waves 2007, Volume 43, Issue 4, pp 414-422.
  3. I. Poletaev, A. V. Florko. Spectral studies of the gas component of an aluminum dust flame. Combustion, Explosion, and Shock Waves 2008, Volume 44, Issue 4, pp 437-443.
  4. K. Kopeyka, V. V. Golovko, A. N. Zolotko, D.S. Darakov, V. M. Lyubarski, L. Raslavičius. Ignition and combustion of multicomponent biofuels. Heat and mass transfer in chemically reacting systems: VI Minsk International Heat and Mass Transfer Forum. Minsk 2008, Vol.2. P.338-339.
  5. I. Poletaev. Electric oscillations in the dust flame`s combustion zone. Comp. Modern Problems of Chemical and Radiation Physics, edited by I. G. Asovskiy, A. A. Berlin, G. B. Manelis, A.G. Merzhanov – Moscow, Chernogolovka, 2009.
  6. V. Golovko, A.K. Kopeyka, A. V. Florko. Combustion of the polymers thickened azide-ethanol. Comp. Modern Problems of Chemical and Radiation Physics, edited by I. G. Asovskiy, A. A. Berlin, G. B. Manelis, A.G. Merzhanov – Moscow, Chernogolovka, 2009.
  7. I. Poletaev. Fuel particles burning time determination in the asymmetric laminar flame. Comp. Modern Problems of Chemical and Radiation Physics, edited by I. G. Asovskiy, A. A. Berlin, G. B. Manelis, A.G. Merzhanov – Moscow, Chernogolovka, 2009.
  8. I. Poletaev, Yu. A. Doroshenko. Influence of the dust flame parameters on the combustion products dispersion characteristics. Comp. Modern Problems of Chemical and Radiation Physics, edited by I. G. Asovskiy, A. A. Berlin, G. B. Manelis, A.G. Merzhanov – Moscow, Chernogolovka, 2009.
  9. A. Koval’, A. V. Florko, Ya. I. Vovchuk. Emissivity characteristics of boron and boric oxide at high temperatures. Combustion, Explosion,  and Shock Waves 2010, Volume 46, Issue 2, pp 178-182.
  10. E. Sidorov, V. G. Shevchuk. Laminar flame in fine-particle dusts. Combustion, Explosion, and Shock Waves 2011, Volume 47, Issue 5, pp 518-522.
  11. I. Poletaev, A. N. Zolotko, Yu. A. Doroshenko. Degree of dispersion of metal combustion products in a laminar dust flame. Combustion, Explosion, and Shock Waves, March 2011, Volume 47, Issue 2, pp 153-165.
  12. S. Darakov, A.N. Zolotko, A.K. Kopeyka, P.O. Pavljuk. Rapeseed methyl ester combustion in air. Heat and mass transfer in chemically reacting systems: XIV Minsk International Heat and Mass Transfer Forum. Minsk 2012, Section 5, Art. 5-09.
  13. Poletaev N. I., Doroshenko Yu. A. Effect of addition of potassium carbonate to aluminum powder on the grain size of Al2O3 nanoparticles formed in the laminar dusty flame// Combustion, Explosion, and Shock Waves. – 2013, V.49, N.1. – P.26-37.
  14. H., Berezovskaya I. V.,  Zubar E. V., Efryushina N. P., Poletaev N.I.,  Doroshenko Yu.A., Stryganyuk G.B., Voloshinovskii A.S. Synthesis and luminescent of Ce3+-doped terbium-yttrium aluminum garnet // Journal of Alloys and Compaunds. – 2013. – V. 550. – P. 159-163.
  15. Berezovskaya I. V., Zadneprovski B. I., Poletaev N. I., Doroshenko Yu. A., Efryushina N. P., Zubar E. V., Dotsenko V. H. Luminescence Properties of Ce3+-doped terbium- aluminum Phosphor prepared with use of nanostructured reagents // Journal of Nano- and Electronic N. 1, 011007.
  16. E. Sidorov, V. G. Shevchuk, E. N. Kondrat’ev. Conductive-radiative model of a laminar flame in dust suspensions. Combustion, Explosion, and Shock Waves 2013, Volume 49, Issue 3, pp 257-263.
  17. Shevchuk V. G., Kondrat’ev E. N., Zolotko A. N., Sidorov A. E., Oparin A. S. Wave regimes of dust combustion. Combustion, Explosion, and Shock Waves, 2014, v. 50, #1, p. 80-86.
  18. I. Vovchuk, O. S. Rogylskaya, O. V. Simulina. Inflamation of hybrid system. I. Ignition limit // Gorenie i Plazmohimiya. – 2013. —Vol. 11, №2. P. 121-128.
  19. Poletaev N. I., Zolotko A. N., Doroshenko Yu. A., Khlebnikova M. E. Smoke Plasma in dust flame // Ukrainian Journal of Physics. — 2014. —V.59, No.4. — P.379-384.
  20. Boychuk L. V., Shevchuk V. G., Kondratyev E. K., Zolotko A. N. Laminar flames in the combined case I. Formulation of the problem. // Physics of Aerodisperse systems. —2012. —№49. —P. 67-77.
  21. Boychuk L. V., Shevchuk V. G., Kondratyev E. K., Zolotko A. N. The laminar flame in combined dusts. II. Two-temperature approach. // Physics of Aerodisperse systems. — 2012. —№49.  78-81.
  22. Zolotko A. N., Ushakova N. A., Demirova M. V. Heterogeneous self-ignition of single particle with parallel chemical reactions on its surface // Physics of Aerodisperse systems. —2010. —№47. —P. 91-99.
  23. Vovchyk Ya. I., Rogylskaya O. S., Storchak I. V. On the ignition of the particle hybrid gas-suspension // Physics of Aerodisperse systems. —2010. —№47. —С. 81-90.
  24. Boychuk L. V., Shevchuk V. G., Sidorov O.E. Oparin A.S. The Laminar flame in combined dusts. III. Experimental method. // Physics of Aerodisperse systems. 2012, №50, P. 63-72.
  25. Boychuk L.V., Shevchuk V.G., Sidorov O.E. Oparin A.S. The laminar flame in combined dusts. IV. Experimental investigations of Al + Zr; Al + Mg; Al +Fe dusts. // Physics of Aerodisperse systems. 2012, №50, P. 73-85.
  26. Poletaev N. I., Zolotko A. N., Doroshenko Yu. A., Khlebnikova M. E. Smoke Plasma in dust flame // Ukrainian Journal of Physics. — 2014. —V.59, No.4. — P.379-384.
  27. Viter R., Khranovsky V., Sturodub N., Poletaev N. I., et al. Application of room temperature Photoluminescence from ZnO nanorods for salmonella detection // IEEE Sensors Journal. — 2014. — V.14, No.6. —P. 228-234.
  28. S. Darakov, A. N. Zolotko, A. K. Kopeyka, P. O. Pavluk. Burning of rapeseed methyl ester droplets in air // Gorenie i Plazmohimiya. 2012. Vol. 10. №4. P. 299 – 304.
  29. S. Darakov, A. K. Kopeyka, A. N. Zolotko, P. O. Pavluk. About the biofuel blends ignition limit in an oxidizing atmosphere // Gorenie i Plazmohimiya. 2013. Vol. 11. №2. P. 116 – 120.
  30. S. Darakov, A. K. Kopeyka, Ph. K. Bulanin, L. Raslavičius. Rapeseed methyl ester droplet combustion rate constant effective value determination via numerical modeling. Third international conference on combustion and detonation “Ya. B. Zel’dovich Memorial”. October 27 – 31, 2014. Moscow, Russia.
  31. S. Darakov, A. N. Zolotko, A. K. Kopeika, P. O. Pavlyuk. Combustion of a suspensions of biofuel droplets in air. Combustion, Explosion, and Shock Waves, 2014, vol.50, №5, pp. 523-526.
  32. I. Poletaev, A.V. Florko,Y.A. Doroshenko,D.D. Polishchuk. On a Possibility of the Existence of Dusty Plasma Oscillation in the Front of an Aluminum Particle Flame// Ukrainian Journal of Physics 2008, vol.53, N 11, p.1066 – 1074.
  33. A. Doroshenko, N.I. Poletaev, and V.I. Vishnyakov. Dispersion of dust sizes in the plasma of aluminum dust flame// Physics of Plasmas 16, №9, 094504 (2009).
  34. V.E. Chechko, A.V.Gotsulskaya,V.Ya.Gotsulskiy, A.Yu.Popov. Detailed investigation of anomalous light scattering in gradient solutions with strong hydrogen bonds./ Ukr. J. Phys. Opt.
  35. Poletaev N. I. Electrical oscillations in combustion of magnesium particles in a constant electric field // Combustion, Explosion, and Shock Waves, 2012. V 47, N. 2, 151-162.
  36. А.К. Копейка, Раславичус Л., Семенов В.Г., Чернова Н.И., Керчис А. Transport Means, Proceedings of the17th International Conference, Kaunas university of technology, – Kaunas, October 24-25 2013, Kaunas. Technologija, p 83-86 ISSN1822-296 X.
  37. В.Я. Гоцульский, Н.П. Маломуж, В.Е. Чечко. ОСОБЕННОСТИ ТЕМПЕРАТУРНЫХ И КОНЦЕНТРАЦИОННЫХ ЗАВИСИМОСТЕЙ КОНТРАКЦИИ ВОДНЫХ РАСТВОРОВ ЭТАНОЛА/ЖУРНАЛ ФИЗИЧЕСКОЙ ХИМИИ, 2013, том 87, № 10, с. 1660–1667.
  38. E. Chechko, V.Ya. Gotsulsky, M.P. Malomuzh. Peculiar points in the phase diagram of the water-alcohol solutions/ Condensed Matter Physics, 2013, Vol. 16, No 2, DOI: 10.5488/CMP.16.23006.
  39. Vitaliy Bardik, Vladimir Gotsulskii, Evgen Pavlov, Nikolai Malomuzh, Dmitry Nerukh, Igor Yanchuk, Serhiy Lavoryk . Light scattering study of human serum albumin in pre-denaturation: Relation to dynamic transition in water at 42°C/ Journal of Molecular Liquids (Impact Factor: 1.68). 09/2012; 176:60. DOI:10.1016/j.molliq.2012.09.012.

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