B
Boris Kichatov
Researcher at Russian Academy of Sciences
Publications - 58
Citations - 334
Boris Kichatov is an academic researcher from Russian Academy of Sciences. The author has contributed to research in topics: Combustion & Emulsion. The author has an hindex of 8, co-authored 52 publications receiving 229 citations. Previous affiliations of Boris Kichatov include Moscow Institute of Physics and Technology & Moscow Aviation Institute.
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Foamed emulsion – Fuel on the base of water-saturated oils
TL;DR: In this paper, the influence of magnesium oxide particles and type of surfactant on the stability of foamed emulsion and the speed of flame propagation in it was analyzed and it was shown that even at water content of 90% there still is opportunity of fire propagation in the foam.
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Combustion of emulsion-based foam
TL;DR: In this article, the experimental and theoretical investigations of flame propagation in foams based on hydrocarbon-in-water emulsions are presented, and it is shown that a decrease in the content of fuel in the initial emulsion leads to an increase in the amplitude of pulsations in the velocity of flame propagating.
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Experimental study of foamed emulsion combustion: Influence of solid microparticles, glycerol and surfactant
TL;DR: The use of water as a part of hydrocarbon fuel represents one of the perspective directions in elaborating new types of combustible systems as discussed by the authors, and issues of foamed emulsion combustion on the basis of experimental research.
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Oxidative torrefaction of briquetted birch shavings in the bentonite
A. I. Leontiev,Boris Kichatov,Boris Kichatov,Alexey Korshunov,Alexey Korshunov,Alexey Kiverin,Natalia Medvetskaya,Ksenia Melnikova +7 more
TL;DR: In this article, the effects of the thickness of the briquette and the height of the bentonite layer on the mass yield and energy yield of the biomass were investigated in a muffle furnace.
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Effect of gaseous coolant temperature on the transpiration cooling for porous wall in the supersonic flow
A. I. Leontiev,Andrei Saveliev,Boris Kichatov,Alexey Kiverin,Alexey Kiverin,Alexey Korshunov,Vladimir Sudakov +6 more
TL;DR: In this paper, the problems of transpiration cooling for porous wall in the supersonic flow is considered and the experimental results are presented for the porous wall temperature distribution along the mainstream, the Mach number of the stream was 2, and the total temperature was + 20 °C.