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Failure Behavior and Control Based Mitigation for a Parallel Hybrid Propulsion SystemNASA is pursuing research to advance Electrified Aircraft Propulsion (EAP) technologies that address fuel burn and emission reduction goals. EAP brings the potential for improved performance over the state of the art. However, for these systems to be practical and certifiable, they need to possess adequate robustness to adverse conditions including a variety of system failures that are not applicable to conventional turbofans today. Numerous EAP concepts interface gas turbine engines with an electrical power system that includes electric machines and sometimes electrical energy storage. The expansion of the powertrain increases the probability of encountering a failure and introduces new failure modes. Failures within the electrical power system may also impact the gas turbine engine(s) to which the electrical powertrain is coupled. This effort investigates failures originating in the electrical power system and their impact on the parallel hybrid propulsion system. Reversionary control strategies are also demonstrated to reduce the impact of the failures. Failure mitigation strategies were devised and employed in simulation. Various failure scenarios were simulated including those occurring during steady state operation, transients, and takeoff and landing scenarios. The timing of the failure and delay in failure identification and activation of mitigation strategies are noteworthy variables in the study. While the system remained stable throughout all failure scenarios, delays in failure identification could result in undesirable conditions such as increased operating temperatures and reduced stall margin. The results demonstrate successful mitigation of failures through reversionary control modes and help to generate confidence in the robustness of the conceptual parallel hybrid propulsion system.
Document ID
20230017718
Acquisition Source
Glenn Research Center
Document Type
Presentation
Authors
Jonathan Kratz
(Glenn Research Center Cleveland, Ohio, United States)
Donald Simon
(Glenn Research Center Cleveland, Ohio, United States)
Date Acquired
December 5, 2023
Subject Category
Aircraft Propulsion and Power
Meeting Information
Meeting: AIAA Science & Technology (SciTech) Forum 2024
Location: Orlando, FL
Country: US
Start Date: January 8, 2024
End Date: January 12, 2024
Sponsors: American Institute of Aeronautics and Astronautics
Funding Number(s)
WBS: 081876.02.03.10.01
Distribution Limits
Public
Copyright
Portions of document may include copyright protected material.
Keywords
Failure behavior
fault analysis
control
control-based mitigation
parallel hybrid propulsion
electrified aircraft propulsion
hybrid propulsion
reversionary control
parallel hybrid
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