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Development of the Future Aircraft Propulsion System Based on HTS Electrical Equipment With Liquid Hydrogen Cooling

Dmitry Dezhin, Irina Dezhina

2022IEEE Transactions on Applied Superconductivity42 citationsDOI

Abstract

Development of the electric propulsion systems for future electric aircrafts is one of the most important challenges in aviation science. Moving away from fossil fuels and transition to clean hydrogen energy involves the use of electric machines to produce thrust in future aircraft. However, such a transition also requires new electrical equipment that can operate at cryogenic temperatures of liquid hydrogen, which will be used as fuel for future aircraft. The article describes an approach to the development of a Hydrogen Electric Propulsion System (HEPS) for future aircrafts, which is being carried out at the Moscow Aviation Institute. This system is based on superconducting electrical machines, cryoelectronic and a hydrogen cooling system. The main difficulties on the way of creating HEPS are described. The schemes of the developed superconducting electrical machines with high specific power are presented. A diagram of one of the variants of the electric propulsion system for future aircraft based on superconducting components is illustrated. The features of HEPS simulation and its cooling system modelling are described. Some results of Hydrogen Electric Propulsion System components development are discussed.

Topics & Concepts

Liquid hydrogenPropulsionElectrically powered spacecraft propulsionAerospace engineeringElectric powerAircraft fuel systemNuclear engineeringElectric power systemWater coolingAutomotive engineeringHydrogen vehicleMechanical engineeringEnvironmental scienceHydrogenHydrogen fuelEngineeringPower (physics)PhysicsChemistryCombustionVapor lockOrganic chemistryCombustion chamberQuantum mechanicsAdvanced Aircraft Design and TechnologiesRocket and propulsion systems researchMaterial Properties and Applications
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