Add to ORKGA simplified gross thrust computing technique for the HiMAT J85-GE-21 engine using altitude facility data was evaluated. The results over the full engine envelope for both the standard engine mode and the open nozzle engine mode are presented. Results using afterburner casing static pressure taps are compared to those using liner static pressure taps. It is found that the technique is very accurate for both the standard and open nozzle engine modes. The difference in the algorithm accuracy for a calibration based on data from one test condition was small compared to a calibration based on data from all of the test conditions
Validating gas generator method of calculating jet engine thrust, and evaluation of XB-70-1 engine p...
Computer program for determining performance and system requirements of electrically propelled space...
During the highly maneuverable aircraft technology (HiMAT) flight test program recently completed at...
The technique which relies on afterburner duct pressure measurements and empirical corrections to an...
A simplified gross thrust calculation technique was evaluated in flight tests on an F-15 aircraft us...
In support of performance testing of the X-29A aircraft at the NASA-Ames, various thrust calculation...
A real time computer program was implemented on a F-15 jet fighter to monitor in-flight engine perfo...
The gross thrust of an experimental airplane was determined by each method using the same flight man...
An investigation is underway to determine the benefits of a new propulsion system optimization algor...
Jet engine calibration tests were conducted in an altitude facility using a contoured bellmouth inle...
An airflow and thrust calibration of an F100 engine was conducted in coordination with a flight test...
A performance seeking control (PSC) algorithm has undergone initial flight test evaluation in subson...
Two variations of gas generator method to calculate thrust of afterburning turbofan engines installe...
The use of computerized simulations of the steady state and transient performance of jet engines thr...
New flight test maneuvers and analysis techniques for evaluating the dynamic response of in-flight t...
Validating gas generator method of calculating jet engine thrust, and evaluation of XB-70-1 engine p...
Computer program for determining performance and system requirements of electrically propelled space...
During the highly maneuverable aircraft technology (HiMAT) flight test program recently completed at...
The technique which relies on afterburner duct pressure measurements and empirical corrections to an...
A simplified gross thrust calculation technique was evaluated in flight tests on an F-15 aircraft us...
In support of performance testing of the X-29A aircraft at the NASA-Ames, various thrust calculation...
A real time computer program was implemented on a F-15 jet fighter to monitor in-flight engine perfo...
The gross thrust of an experimental airplane was determined by each method using the same flight man...
An investigation is underway to determine the benefits of a new propulsion system optimization algor...
Jet engine calibration tests were conducted in an altitude facility using a contoured bellmouth inle...
An airflow and thrust calibration of an F100 engine was conducted in coordination with a flight test...
A performance seeking control (PSC) algorithm has undergone initial flight test evaluation in subson...
Two variations of gas generator method to calculate thrust of afterburning turbofan engines installe...
The use of computerized simulations of the steady state and transient performance of jet engines thr...
New flight test maneuvers and analysis techniques for evaluating the dynamic response of in-flight t...
Validating gas generator method of calculating jet engine thrust, and evaluation of XB-70-1 engine p...
Computer program for determining performance and system requirements of electrically propelled space...
During the highly maneuverable aircraft technology (HiMAT) flight test program recently completed at...