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OLS Field Name OLS Field Data
Main Title Characteristic Time Correlation of Emissions from Conventional Aircraft Type Flames.
Author Tuttle, J. H. ; Colket, M. B. ; Mellor., A. M. ;
CORP Author Purdue Univ., Lafayette, Ind. Combustion Lab.;Environmental Protection Agency, Washington, D.C.
Year Published 1976
Report Number PURDU-CL-76-05; EPA-R-802650-02;
Stock Number PB-258 269
Additional Subjects Gas turbine engines ; Combustion ; Exhaust gases ; Aircraft engines ; Enthalpy ; Exhaust emissions ; Combustion chambers ; Gas analysis ; Design criteria ; Performance evaluation ; Nitrogen oxides ; Carbon monoxide ; Mathematical models ; Burners ; Chemical reactions ; Evaporation ; Turbulent diffusion ; Air pollution ; Air to fuel ratio
Library Call Number Additional Info Location Last
NTIS  PB-258 269 Most EPA libraries have a fiche copy filed under the call number shown. Check with individual libraries about paper copy. 06/23/1988
Collation 144p
Abstract The overall combustion process occurring within a liquid spray fueled burner is analyzed in terms of the ongoing dominant subprocesses, with particular emphasis on those subprocesses deemed most critical to pollutant emissions. Liquid fuel evaporation, turbulent mixing, and chemical reaction are each considered separately and are characterized by time scales which typify the importance of each subprocess. An axisymmetric burner consisting of a flame stabilized in the wake of a disc with a liquid fuel spray injected into the wake region from the center of the disc is considered experimentally. The basic flame structure behind the disc is composed of a hollow reaction region (shear layer) along the boundary between the recirculation zone and the free stream. Guided by the model of the flame structure, the developed characteristic times are combined to form burner output correlating parameters. The success of these parameters is demonstrated by the correlation of both carbon monoxide and oxides of nitrogen exhaust emissions from the disc burner for various geometries, a wide range of burner operating conditions, and two non-similar fuels. The developed characteristic time model is extended to a conventional gas turbine combustor, GT-309. The model predicts the effect of changes in both combustor inlet conditions and combustor geometry on exhaust emissions and is used to demonstrate the design of a low NOx burner of the GT-309 class.
NTIS Title Notes Final rept..
PUB Date Free Form May 76
Category Codes 21B; 68A; 81A
NTIS Prices PC A07/MF A01
Document Type NT
Cataloging Source NTIS/MT
Control Number 326630043
Origin NTIS
Type CAT