NASA/DERA Collaborative ProgramThis report is an interim report. The work reported are the results from the combustor testing, the first phase of testing in the DERA/NASA collaborative program. A program of work was developed by DERA and NASA utilizing specialist facilities within the UK, and specialist measurement techniques developed within the U.S. Under a Memorandum of Understanding (MoU) between the UK and U.S. governments, the joint UK/U.S. funded program commenced. The objective of the program was to make combustor and engine exit plane emissions measurements, including particulate and sulphur measurements, for kerosene fuels with different sulphur levels. The combustor test program was performed in August/September 2000. Although probe issues complicated the test program, a consistent set of data, including CO, NO(x), NO, NO2, CO2, O2, smoke number, particulate number density and size distribution, SO2, SO3 and HONO were collected at the exit plane of the DERA TRACE engine combustor. A second probe was utilized to measure spatial location of CO, NO(x), NO, NO2 and CO2 concentrations. Data are therefore available for development of aerosol, particulate and aerosol precursor chemistry sub-models for inclusion into CFD. Inlet boundary conditions have been derived at the exit of the combustion system for the modelling of the DERA TRACE engine. The second phase of the program is to perform identical measurements at the engine exit, to allow a full data set to be available. This will be performed in July 2001 at the Glenn test facility, DERA Pyestock.
Document ID
20020083065
Acquisition Source
Glenn Research Center
Document Type
Contractor Report (CR)
Authors
Whitefield, Phillip D. (Missouri Univ. Rolla, MO United States)
Hagen, Donald E. (Missouri Univ. Rolla, MO United States)
Wormhoudt, Jody C. (Aerodyne Research, Inc. Billerica, MA United States)
Miake-Lye, Richard C. (Aerodyne Research, Inc. Billerica, MA United States)
Brundish, Kevin (Defence Evaluation Research Agency Farnborough, United Kingdom)
Wilson, Christopher W. (Defence Evaluation Research Agency Farnborough, United Kingdom)