COMBUSTION AND EXPLOSION [GORENIE I VZRYV (MOSKVA)]
Vol. 8 No. 1 Year 2015 Editor-in-Chief and Chair of Editorial Council Professor S. M. Frolov
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Contents
1. Initial stages of acetylene pyrolysis. Formation of vinylacetylene
I. V. Bilera, Yu. A. Borisov, and Yu. A. Kolbanovskii
p. 5-11
2. Detailed kinetic mechanism of oxidation and combustion of iso-pentane
and iso-hexane
B. Ya. Basevich, A. A. Belyaev, S.N. Medvedev, V. S. Posvyanskii,
and S.M. Frolov
p. 12-20
3. Detailed and global kinetic mechanisms for surrogate fuel
B. Ya. Basevich, A. A. Belyaev, S.N. Medvedev, V. S. Posvyanskii,
and S.M. Frolov
p. 21-28
4. Database for calculating laminar and turbulent combustion of aviation kerosene — air mixtures.
A. A. Belyaev, V. Ya. Basevich, and S. M. Frolov
p. 29-36
5. Basic model of combustion of a mixture of hydrocarbons and its parametric analysis.
V. I. Bykov and S. B. Tsybenova
p. 37-41
6. Experimental investigation of self-ignition of binary methane mixtures with C3—C5 alkane additives in air.
K. Ya. Troshin, A. V. Nikitin, A. A. Borisov, and V. S. Arutyunov
p. 42-49
7. Surface burning in a volumetric foam metal matrix with the ceramic coating.
V. M. Nikolaev and V. M. Shmelev
p. 50-56
8. Combustion surface limits for a volumetric foam metal matrix with ceramic coating.
N. Ya. Vasilik, V. S. Arutyunov, A. A. Zakharov, and V. M. Shmelev
p. 57-62
9. Radiation effeciency and ecological safety of infrared metal foam burners with ceramic coatings.
N. Ya. Vasilik and V. M. Shmelev
p. 63-70
10. New processes for low-tonnage conversion of hydrocarbon gases.
V. S. Arutyunov, V. I. Savchenko, V. M. Shmelev, I. V. Sedov, O. V. Shapovalova, I. G. Fokin, A. V. Nikitin, L. N. Strekova, A. I. Tarasov, A. S. Dmitruk, and K. A. Timofeev
p. 71-79
11. Unified kinetic model of soot formation during pyrolysis and oxidation of aliphatic and aromatic hydrocarbons in shock waves.
G. L. Agafonov, I. V. Bilera, P. A. Vlasov, I. V. Zhil'tsova, Yu. A. Kolbanovskii, V. N. Smirnov, and A. M. Tereza
p. 80-88
12. Homogeneous pyrolysis of n-pentane under pulsed adiabatic compression.
I. V. Bilera
p. 89-96
13. Investigation of combustion and pollutant formation procesess in cylinder of a high-speed diesel engine based on a three-dimensional model of the working process.
S. S. Sergeev and R. Z. Kavtaradze
p. 97-105
14. On the possibility of determining the structure and rate of gas flow in the rapid compression machine by analysis of the motion of burning particles.
V. V. Leschevich, O. G. Penyazkov, and S. Yu. Shimchenko
p. 106-115
15. Computations of flow in a model high-speed combustor using different kinetic schemes.
V. V. Vlasenko and A. A. Shiryaeva
p. 116-125
16. Simulation of flow in a high-speed combustor in two- and three-dimensional formulation.
S. M. Frolov, A. E. Zangiev, I. V. Semenov, V. V. Vlasenko, O. V. Voloshchenko, A. A. Nikolaev, and A. A. Shiryaeva
p. 126-135
17. Approximate method of calculation of chemically reacting gas mixtures of detonation products.
V.A. Shargatov, S. A. Gubin, and A. V. Krivosheev
p. 136-144
18. Pulsating detonation wave investigation using shock-capturing methods and calculations in shock-attached frame.
A. Lopato and P. Utkin
p. 145-150
19. Experimental studies of small samples bench rocket engine with a continuously-detonation combustors.
S. M. Frolov, V. S. Aksenov, P. A. Gusev, V. S. Ivanov, S. N. Medvedev,
and I. O. Shamshin
p. 151-163
20. Prediction ability of reaction mechanisms for modeling of continuously rotating detonation in propane—air mixture.
D. I. Babushenko, V. I. Kopchenov, N. S. Titova, and A. M. Starik
p. 164-172
21. Parametric study of the influence of nozzle on thrust performance of continuous-detonation combustion chamber.
A. V. Dubrovskii, V. S. Ivanov, and S. M. Frolov
p. 173-182
22. The multicomponent version of HMSA closure for CO2, N2, and O2 shock Hugoniots simulation.
A. A. Anikeev, Yu. A. Bogdanova, and S. A. Gubin
p. 183-189
23. Calculation of shock Hugoniots for H2 and D2 based on the theoretical equation-of-state model.
Yu. A. Bogdanova, S. A. Gubin, and A. A. Anikeev
p. 190-197
24. Approximation of the thermodynamic properties of ammonia.
A. V. Dubrovskii, N. M. Kuznetsov, and S. M. Frolov
p. 198-214
25. Approximation of the thermodynamic properties of acetylene.
A. V. Dubrovskii, N. M. Kuznetsov, and S. M. Frolov p. 215-228
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