1995
DOI: 10.2172/95504
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Radiation-turbulence interactions in pulverized-coal flames. Technical report for quarter VI, December 15, 1994--March 30, 1995

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“…Accurate prediction of the particle and velocity distributions are critical for predicting flame characteristics and ultimately heat fluxes in a pulverised fuel (pf) combustion system. In commercial CFD codes, detailed models for combustion, emissions, turbulence and radiative heat transfer are used; however, because of the computational limitations many of the processes are simplified and in particular turbulence-radiation interactions (TRI) [4,5] are normally neglected. Recent experience in modelling pf coal and co-firing cases by authors [6,7] emphasised particularly the difficulty of accurate prediction of radiation in a coal-fired furnace due to shortcomings of some of the submodels.…”
Section: Introductionmentioning
confidence: 99%
“…Accurate prediction of the particle and velocity distributions are critical for predicting flame characteristics and ultimately heat fluxes in a pulverised fuel (pf) combustion system. In commercial CFD codes, detailed models for combustion, emissions, turbulence and radiative heat transfer are used; however, because of the computational limitations many of the processes are simplified and in particular turbulence-radiation interactions (TRI) [4,5] are normally neglected. Recent experience in modelling pf coal and co-firing cases by authors [6,7] emphasised particularly the difficulty of accurate prediction of radiation in a coal-fired furnace due to shortcomings of some of the submodels.…”
Section: Introductionmentioning
confidence: 99%