The ASuMED prototype outperforms state-of-the-art e-motors with normal conductive technologies. The project work focused on the development of an innovative motor topology, a superconducting stator and rotor, a magnetization system as well as a light and highly efficient cryostat for the motor.
Novel numerical modeling methods were developed, which will be applicable for further R&D projects.
A lightweight airborne cryocooling system has been developed, which proves the applicability of such a system in commercial aircrafts.
Further, a highly dynamic, fail-safe and robust control of the SC machine is realized by a modular inverter topology.
Technical targets:
- development and demonstration of a new fully superconducting motor concept for high power aircraft propulsion with both superconducting stator and rotor, for an evaluation under lab conditions (TRL 4),
- high-temperature superconducting (HTS) stator with an electric loading of >450kA/m and integrated magnetization system,
- rotor concept using HTS stacks operating like permanent magnets and a magnetic loading of >2.5 T,
- light, highly efficient cryostat for the motor combined with an associated power converter,
- prototype for demonstration with ~1 MW power at 6.000rpm thermal loss <0.1%, and scalability to higher power values,
- investigation of a new airborne cryogenic cooling system,
- novel numerical 2D/3D modelling methods for superconducting motors,
- innovative modular inverter topology with enhanced failure protection.
Main economic and societal impacts of the project will be:
- As an essential enabler for DP based large civil transport aircraft, the application of the ASuMED developments will have a large environmental impact, and will help to meet the target reductions of noise by 71db, NOx by 75% and fuel burn by 70% (compared to the year 2000 base case).
- The competitiveness of the European aviation industry will be strengthened by new market opportunities. Electric DP can be considered as a disruptive technology, which has the potential to completely change existing value chains. An early leadership of EU companies is necessary to develop new products, services and solutions resulting in a massive economic growth in the EU aviation industry.
- Highest efficiency of the new systems reduces fuel consumption and may enable longer flight ranges or different mission profiles.
- The project’s results can be applied in further markets, e.g. wind turbines, transportation (rail and shipping), new torque motors for industrial drives etc.