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A Review of Hybrid-Electric Propulsion in Aviation: Modeling Methods, Energy Management Strategies, and Future Prospects

Feifan Yu, Jiajie Chen, Panao Gao, Yu Kong, Xiaokang Sun, Jiqiang Wang, Xinmin Chen

2025Aerospace18 citationsDOIOpen Access PDF

Abstract

Aviation is under increasing pressure to reduce carbon emissions in conventional transports and support the growth of low-altitude operations such as long-endurance eVTOLs. Hybrid-electric propulsion addresses these challenges by integrating the high specific energy of fuels or hydrogen with the controllability and efficiency of electrified powertrains. At present, the field of hybrid-electric aircraft is developing rapidly. To systematically study hybrid-electric propulsion control in aviation, this review focuses on practical aspects of system development, including propulsion architectures, system- and component-level modeling approaches, and energy management strategies. Key technologies in the future are examined, with emphasis on aircraft power-demand prediction, multi-timescale control, and thermal integrated energy management. This review aims to serve as a reference for configuration design, modeling and control simulation, as well as energy management strategy design of hybrid-electric propulsion systems. Building on this reference role, the review presents a coherent guidance scheme from architectures through modeling to energy-management control, with a practical roadmap toward flight-ready deployment.

Topics & Concepts

PropulsionSystems engineeringEngineeringEnergy managementField (mathematics)ControllabilityThermal management of electronic devices and systemsAerospace engineeringEfficient energy useEnergy (signal processing)Work (physics)Key (lock)Control (management)Energy engineeringIn-space propulsion technologiesEnergy transformationScheme (mathematics)Spacecraft propulsionProcess (computing)Advanced Battery Technologies ResearchElectric and Hybrid Vehicle TechnologiesAdvanced Combustion Engine Technologies