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Title Unsteady Processes in Droplet Combustion Applications to Hazardous Waste Incineration
Creator Bergan, Nina E.
Publisher Digitized by J. Willard Marriott Library, University of Utah
Date 1987
Spatial Coverage presented at Palm Springs, California
Abstract Using numerical methods, we analyze the unsteady processes governing combustion of droplets under conditions found in a typical waste incinerator. Our primary objectives are to identify and correlate parameters affecting the residence time of chlorinated hydrocarbon droplets in an incinerator. Two different numerical simulations are performed. The first is a one-dimensional solution of the unsteady Navier-Stokes equations for multi-component, spherically symmetric droplet combustion. The second model is a onedimensional Lagrangian model of droplet motion to study the sensitivity of droplet trajectory to combustion parameters. The multicomponent model calculates temperature and concentration profiles to study ignition, burning rates, and extinction of multicomponent droplets. Results from this model agree with experimental trends, but predict burning rates conservatively low, in that actual droplets burn faster than our predictions and thereby achieve a higher destruction efficiency. The trajectory model is used to show the relative importance of burning rates and drag on the droplet penetration distance. Results show that the droplet trajectory is sensitive to Reynolds number definitions used in drag correlations. The burning rate also plays an important role in calculating droplet penetration distances. The paper concludes with recommendations on droplet modeling techniques for hazardous waste incineration, and practical implications of our findings.
Type Text
Format application/pdf
Language eng
Rights This material may be protected by copyright. Permission required for use in any form. For further information please contact the American Flame Research Committee.
Conversion Specifications Original scanned with Canon EOS-1Ds Mark II, 16.7 megapixel digital camera and saved as 400 ppi uncompressed TIFF, 16 bit depth.
Scanning Technician Cliodhna Davis
ARK ark:/87278/s6f1928q
Setname uu_afrc
ID 4018
Reference URL https://collections.lib.utah.edu/ark:/87278/s6f1928q

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Title Page 13
Format application/pdf
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Setname uu_afrc
ID 4013
Reference URL https://collections.lib.utah.edu/ark:/87278/s6f1928q/4013
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