Numerical Modelling Of Oxy Pulverized Coal Combustion And Thermodynamic Analysis Of 660 Mw Oxy Pulverized Coal Fired Power Plant

Abstract

newline Oxy-coal combustion has attained a considerable interest among researchers as a leading newlinetechnology for the mitigation of greenhouse gases emission of the coal-fired power newlinegeneration system. The oxy-coal combustion technique employs approximately 95% pure newlineoxygen and recycled flue gases (RFG) mainly consisting of carbon dioxide and water newlinevapour instead of air for combustion. The furnace design and operational characteristics of newlineoxy-coal combustion atmosphere are a challenging task; hence, computational fluid newlinedynamics (CFD) modelling should be appropriately employed for the purpose. CFD newlinemodelling technique can analyze reactive flow field, temperature distribution, species newlineconcentration and heat transfer properties of oxy-coal combustion atmosphere effectively newlineand efficiently.