Litcius/Paper detail

ASCEND: The first step towards cryogenic electric propulsion

Ludovic Ybanez, Alexandre Colle, Emelie Nilsson, Frederick Berg, Gowtham Galla, M. Tassisto, Jean Rivenc, Florian Kapaun, Gerhard Steiner

2022IOP Conference Series Materials Science and Engineering71 citationsDOIOpen Access PDF

Abstract

Abstract If a cold source such as liquid H 2 or cryogenic fuel is available, cryogenic and high-temperature superconductivity technologies are promising to significantly increase performance of electric propulsion systems. A first study for aeronautic applications shows that the power density of electrical components could be multiplied 2 to 3 times to reach more than 30kW/kg for electric motors and power electronics, the weight of cables can be considerably reduced, and the efficiency increased by more than 50% with a voltage between below 500 V for multi-megawatt applications. With ASCEND, AIRBUS intends to demonstrate the potential and feasibility of a cryogenic and superconducting powertrain to breakthrough aircraft electric propulsion performance.

Topics & Concepts

PropulsionElectrically powered spacecraft propulsionPowertrainAutomotive engineeringElectric motorCryogenicsElectric powerPower electronicsElectronicsNuclear engineeringPower (physics)Electrical engineeringVoltageBattery (electricity)Aerospace engineeringMaterials scienceEngineeringPhysicsTorqueThermodynamicsQuantum mechanicsSuperconducting Materials and ApplicationsSuperconductivity in MgB2 and AlloysSpacecraft and Cryogenic Technologies