NASA's Atmospheric Effects of Aviation Project (AEAP) is developing a scientific basis for assessment of the atmospheric impact of subsonic and supersonic aviation. A primary goal is to assist assessments of United Nations scientific organizations and hence, consideration of emissions standards by the International Civil Aviation Organization (ICAO). Engine tests have been conducted at AEDC to fulfill the need of AEAP. The purpose of these tests is to obtain a comprehensive database to be used for supplying critical information to the atmospheric research community. It includes (1) simulated sea-level-static test data as well as simulated altitude data; and (2) intrusive (extractive probe) data as well as non-intrusive (optical techniques) data. A commercial-type bypass engine with aviation fuel was used in this test series. The test matrix was set by parametrically selecting the temperature, pressure, and flow rate at sea-level-static and different altitudes to obtain a parametric set of data.
Experimental Characterization of Gas Turbine Emissions at Simulated Flight Altitude Conditions
1996
158 pages
Report
No indication
English
Aircraft , Jet & Gas Turbine Engines , Air Pollution & Control , Emission , Aircraft engines , Gas turbines , Altitude , Flight simulation , Test and evaluation , Data bases , Simulation , Methodology , Optics , Parametric analysis , Test methods , Aeronautics , Standards , Supersonic flight , Aviation fuels , Supersonic characteristics , Atmospheres , Subsonic flight , Scientific organizations , Supersonic aircraft , Aeap(Atmospheric effects of aviation project)
Aircraft Engine Emissions Measurements at Simulated Flight Altitude Conditions
British Library Conference Proceedings | 1997
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