Modeling of dynamics, heat transfer, and combustion in two-phase turbulent flows: 2. Flows with heat transfer and combustion |
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Authors: | L.I. Zaichik V.A. Pershukov M.V. Kozelev A.A. Vinberg |
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Affiliation: | Institute for High Temperatures of the Russian Academy of Sciences, Moscow, Russia |
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Abstract: | The objective of this part of the paper is to summarize the information concerning the authors' works in the field of simulation of two-phase gas-particle turbulent flows with heat transfer and combustion. A kinetic equation had been derived for the probability density function (PDF) of the particle velocity, temperature, and mass distributions in turbulent flows. This PDF equation is used for the construction of the governing conservation equations of mass, momentum, and heat transfer in the dispersed particle phase.The numerical scheme incorporates two-phase fluid dynamics, convective and radiative heat transfer, and combustion. The proposed models have been applied to the calculation of various particle-laden turbulent flows in jets, combustion and gasification chambers, and furnaces. |
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Keywords: | mathematical model kinetic equation probability density function turbulence particle gas combustion gasification radiation jet chamber furnace |
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