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Title	Mathematical Modelling of Swirling Pulverized Coal Flames
Creator	Weber, Roman; Peters, Andre F.; Breithaupt, Peter P.; Visser, B. Martien
Publisher	Digitized by J. Willard Marriott Library, University of Utah
Date	1993
Spatial Coverage	presented at Tulsa, Oklahoma
Abstract	The present study is concerned with mathematical modeling of swirling pulverized coal flames. The attention is focused on the near burner zone properties of high- and low-NOx flames issued from an Acrodynamically Air Staged Burner of 3.4 MW thermal input. The swirling combusting flows are calculated using the k-e model and second-order models of turbulence. The Eulerian balance equations for enthalpy and mass fractions of oxygen, volatilcs, carbon monoxide and final combustion products (CO2+H2O) are solved. The Lagrangian particle tracking is accompanied by appropriate models of coal devolatilization and char combustion. Nitric oxide emissions are calculated using a NOx post-processor for thermal-, prompt- and fuel-NO. The objective of this paper is to examine whether the engineering information required for designing industrial burners is obtainable through the mathematical modeling. To this end. the flame computations, including NO emissions, are compared with the measured in-flame data. The guidelines as to the combination of physical sub-models and model parameters needed for quality predictions of different flame types are given.
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Language	eng
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ID	7735
Reference URL	https://collections.lib.utah.edu/ark:/87278/s6mp55tq

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Reference URL	https://collections.lib.utah.edu/ark:/87278/s6mp55tq/7733