G
Geniy V. Kuznetsov
Researcher at Tomsk Polytechnic University
Publications - 412
Citations - 4763
Geniy V. Kuznetsov is an academic researcher from Tomsk Polytechnic University. The author has contributed to research in topics: Ignition system & Combustion. The author has an hindex of 35, co-authored 375 publications receiving 3792 citations. Previous affiliations of Geniy V. Kuznetsov include Tomsk State University.
Papers
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The influence of initial sizes and velocities of water droplets on transfer characteristics at high-temperature gas flow
TL;DR: In this paper, the initial sizes and velocities of water droplets movement influence on integral characteristics of its transfer through high-temperature (more than 1000 K) gas area.
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Experimental investigation of mixtures and foreign inclusions in water droplets influence on integral characteristics of their evaporation during motion through high-temperature gas area
TL;DR: In this article, the influence of mixtures and foreign inclusions in water droplets on integral characteristics of their evaporation during the motion through high-temperature (more than 1000 K) gas area has been held.
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Experimental investigation of atomized water droplet initial parameters influence on evaporation intensity in flaming combustion zone
TL;DR: In this paper, the integral characteristics of typical extinguishing liquid (water) droplet evaporation in flaming combustion zone were carried out with varying of their basic initial parameters (sizes, relative concentration in a flow or current, temperature, screenings content, structure homogeneity, motion velocities into a flow).
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Water droplet deformation in gas stream: Impact of temperature difference between liquid and gas
TL;DR: In this paper, optical cross-correlation technics were used to measure the displacement velocity of droplets and the liquid convection as a function of time, and two deformation modes were identified.
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A numerical simulation of double-diffusive conjugate natural convection in an enclosure
TL;DR: In this article, the influence of Rayleigh number on fluid motion and heat and mass transfer in a cubical enclosure with finite thickness walls filled with air, submitted to temperature and concentration gradients, is studied numerically.