Open Access
Issue
EPJ Web of Conferences
Volume 82, 2015
Thermophysical Basis of Energy Technologies
Article Number 01037
Number of page(s) 5
DOI https://doi.org/10.1051/epjconf/20158201037
Published online 20 January 2015
  1. Zaharevich A.V. Ignition model fuel compositions single mixed, heated up to high temperatures particle./ A.V. ZaharevichV.T. Kuznetsov, G.V. Kuznetsov, V.I. Maksimov/Combust, 2008. 44. No. 5. — P. 54–57
  2. Zaharevich A.V. The influence of experimental conditions on the ignition characteristics of the dispersed wood. A.V. Zaharevich/Engineering Physics, 2014. 87. No. 1. – P. 93–97
  3. Zaharevich A.V. Influence of conditions of heat transfer characteristic Stick ignition of liquid fuel/G.V. Kuznetsov, A.V. Zaharevich, N.S. Pups/Chemical and Petroleum Engineering, 2014. No. 7. – P. 9–12
  4. Kuznetsov G.V. Ignition of condensed matter “hot” particles./G.V. Kuznetsov, G.Y. Mamontov, G.V. Taratushkin/Chemical Physics, 2004. 23. No. 23. – P. 67–72
  5. Kuznetsov G.V. Numerical simulation of ignition of condensed matter at high temperature particle./ G.V. Kuznetsov, G.Y. Mamontov, G.V. Taratushkin / 40, 2004. No. 1. – P. 78–85
  6. Vysokomornaya O.V. Modeling ignition of liquid fuel local heating source in a burning liquid/G.V. Kuznetsov, P.A. Strizhak, O.V. Vysokomornaya/ Chemical Physics., 2011. 30. No. 8. – P. 62–67
  7. Glushko D.O. Numerical simulation of solid-state ignition metallized condensed matter at high temperature particle./ D.O. Glushko G.V., Kuznetsov, P.A. Strizhak,/Chemical Physics. 30, 2011. No. 12. – P. 35
  8. Salomatov V.V. Theoretical study of the combustion of coal-water fuel droplet./Salomatov V.V., Kravchenko I.V./Part 1. Heating step//Combustion and plasma chemistry, 2007. 5, no. 3 – P. 178–188
  9. Salomatov V.V. Theoretical study of the combustion of coal-water fuel droplet./Salomatov V.V., Kravchenko I.V./CH.II. Stage evaporation//Combustion and plasma chemistry, 2007. 5, no. 3 – P. 189–197
  10. Salomatov V.V., Syrodoy S.V. and GutarevaN.Y. Modelling of heat and mass transfer to solve the problem of particle ignition water-coal fuel//2014 IOP Conferense Series.: Materials Science Engineering 66 012040
  11. Salomatov V.V., Syrodoy S.V. and Gutareva N.Y. Concentration organic components in the hydrocarbon fuel particles conditions and characteristic of ignition.//EPJ Web of Conferences 76, 01018 (2014)
  12. Kuznetsov G.V. Mathematical modeling of thermal and thermochemical processes during combustion of intumescent coatings og nezaschitnyh./VL. Fears, A.N. Garashchenko G.V. Kuznetsov, V.P. Rudzinskii/Combust, 2001. 37. No. 2. – P. 63–73
  13. Chudnovsky A.F. Thermal characteristics of dispersed materials. – M .: Fizmatlit, 1962. – 456 p.
  14. Dulnev G.N. Zarichnyak Y.P. The thermal conductivity of the mixtures and composite materials. – L.: Energy, 1974. – 264 p.

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