Combustor kinetic energy efficiency analysis of the hypersonic research engine data
Abstract
A one-dimensional method for measuring combustor performance is needed to facilitate design and development scramjet engines. A one-dimensional kinetic energy efficiency method is used for measuring inlet and nozzle performance. The objective of this investigation was to assess the use of kinetic energy efficiency as an indicator for scramjet combustor performance. A combustor kinetic energy efficiency analysis was performed on the Hypersonic Research Engine (HRE) data. The HRE data was chosen for this analysis due to its thorough documentation and availability. The combustor, inlet, and nozzle kinetic energy efficiency values were utilized to determine an overall engine kinetic energy efficiency. Finally, a kinetic energy effectiveness method was developed to eliminate thermochemical losses from the combustion of fuel and air. All calculated values exhibit consistency over the flight speed range. Effects from fuel injection, altitude, angle of attack, subsonic-supersonic combustion transition, and inlet spike position are shown and discussed. The results of analyzing the HRE data indicate that the kinetic energy efficiency method is effective as a measure of scramjet combustor performance.
- Publication:
-
1993 JANNAF Propulsion Meeting, Volume 1
- Pub Date:
- November 1993
- Bibcode:
- 1993jann....1..309H
- Keywords:
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- Combustion Efficiency;
- Fuel Combustion;
- Inlet Nozzles;
- Kinetic Energy;
- Nozzle Efficiency;
- Supersonic Combustion Ramjet Engines;
- Angle Of Attack;
- Combustion Chambers;
- Energy Conservation;
- Energy Methods;
- Fuel Injection;
- Performance Tests;
- Spacecraft Propulsion and Power