Accession Number : ADA318391
Title : Formation and Emission of Nitrogen Oxide in Gas Turbine Engines: Plume Effluent Characteristics of TF3O-P111+ and TF33-P9 Engines.
Descriptive Note : Final technical rept. 1 Nov-17 Dec 93,
Corporate Author : CALIFORNIA UNIV IRVINE COMBUSTION LAB
Personal Author(s) : Dill, J. W. ; Sowa, W. A. ; Samuelsen, G. S.
PDF Url : ADA318391
Report Date : 30 JUN 1996
Pagination or Media Count : 47
Abstract : Phase I of this project focused on the creation of a spatial emissions map of the plume effluent in the exhaust stream directly behind the engine in a jet engine test cell (JETC). Both afterburning TF30-P111+ and non-after-burning TF33-P9 engines were tested. Measurements were taken in conjunction with actual engine tests for validity of the data. Temperature, oxides of nitrogen (NOx), carbon monoxide (CO) concentration, and velocity were among the characteristics measured radially and axially in the plume for each engine type. The main focus of this study was on NOx, consisting of nitric oxide (NO) and nitrogen dioxide (NO2). Measurements in the P111+ plume reveal levels of NOx above 300 ppm along the centerline of the effluent. A dip in the NOx emissions at afterburner shows signs of a reburning and/or dilution effect by the atmospheric combustion in the effluent. Significant amounts of NO2 are present in the effluent over the entire power range. Temperatures at military power reach 1100 deg F along the centerline, and CO values are below 80 ppm. Carbon monoxide concentrations decrease from idle to military power (full power, no afterburner), then rise sharply in afterburner. The CO peaks shift outward from centerline as do the temperatures due to the radial geometry of the afterburner combustion (over 10 percent CO at 2850 deg F).
Descriptors : *EMISSION, *JET ENGINES, *GAS TURBINES, *PLUMES, *NITROGEN OXIDES, *EFFLUENTS, POWER LEVELS, SPATIAL DISTRIBUTION, TEMPERATURE, TEST EQUIPMENT, COMBUSTION, GEOMETRY, MAPS, CARBON MONOXIDE, DILUTION, ATMOSPHERES, STREAMS, AFTERBURNERS, NITROGEN DIOXIDE.
Subject Categories : Inorganic Chemistry
Combustion and Ignition
Jet and Gas Turbine Engines
Distribution Statement : APPROVED FOR PUBLIC RELEASE