Rolls-Royce will be working with APUS, an aviation engineering company based in Strausberg, close to Berlin, and the Brandenburg University of Technology (BTU), Cottbus, in developing a hybrid electric flight demonstrator based on its hybrid M250 propulsion system. The project is being supported by the Brandenburg Government under the regional programme to develop research, innovation and technology (ProFIT), managed by the Investment Bank of the State of Brandenburg (ILB), and is scheduled for a duration of three years. The collaboration will enable one of the world’s most comprehensive hybrid aerospace turbine engine development and integration programmes and pave the way for experimental flights on aircraft after 2021.
This project will include an APUS i-5 plane to demonstrate the practical application of hybrid electric technology for a 4000kg conventional take-off and landing flight test vehicle. The system could be used across a range of transport platforms to enable distributed electric propulsion, including EVTOL’s (hybrid electric vertical take-off and landing vehicles), general aviation aircraft and hybrid helicopters in the future.
Dr. Dirk Geisinger, Director Business Aviation and Chairman Rolls-Royce Deutschland, said: “We thank the Brandenburg Government sincerely for its continued support and are delighted to be working with APUS and the Brandenburg University of Technology on this groundbreaking demonstrator programme. This is an important step forward in developing propulsion systems that will enable a new class of quieter and cleaner air transport. At the same time this will further strengthen our Dahlewitz site, which is one of the hubs for the advancement of hybrid-electric propulsion in our company.”
Rob Watson, Director of Rolls-Royce Electrical said: “We have already ground tested the hybrid version of the M250 gas turbine in a demonstration setting in Series Hybrid, Parallel Hybrid and Turbo-Electric operating modes. The M250 hybrid is planned to be used as a propulsion plant with power ranging from 500kW to 1MW and has the potential to transform aviation power. Rolls-Royce has pioneered every significant development of the aviation industry and it is only natural that we play our part in this exciting next step of electrification.”
Prof. Dr. Georg Möhlenkamp, Chair for Power Electronics & Electrical Drive Systems, BTU Cottbus-Senftenberg said: “We are very pleased to be a partner within this important project. Being responsible for electric hybrid system functional modelling, dynamic modelling of system performance and electro-mechanical system test support acknowledges our strong competencies in this field and represents a first visible step in our strategy to collaborate with Rolls-Royce on sustainable aircraft propulsion.”
Phillip Scheffel, Chief Executive Officer, APUS aeronautical engineering GmbH, added: “As the supplier for the iron bird test airframe, installation hardware design and hybrid system installation partner, we are keen to take this project forward and to achieve experimental flight clearance together. Receiving funding from Brandenburg Government helps greatly to realise our exciting plans and enable significant learnings for a range of other electro hybrid aircraft systems.”
Funding for this hybrid electric flying project was requested within the framework of the ProFIT promotion guideline issued by the Brandenburg Ministry of Economics and Energy. The application was submitted in the typical two-stage process with the support of Wirtschaftsförderung WFBB and the Business Development Bank of the State of Brandenburg, ILB. The financial ProFIT support is provided by the State of Brandenburg from the European Regional Development Fund and federal and state funds. All project partners would particularly like to thank the ILB for the accompanying consultations and the European Regional Development Fund for the co-financing.
Rolls-Royce engineers based in the United States, UK, Germany, Norway and Singapore have developed the M250 engine into a hybrid-electric propulsion system. The system demonstrator project announced today will integrate a M250 gas turbine engine with a high energy density battery system, electric generators, power converters and an advanced power management and control system.
The M250 hybrid power pack complements the AE 2100 2.5MW system being developed for larger aircraft, including regional aviation, and is being tested with Airbus on the E-Fan-X demonstrator platform.
The M250 gas turbine engine has powered more than 170 varieties of helicopters and fixed-wing aircraft, in both military and civilian service. Rolls-Royce selected this engine for its maturity, power-density, ease of maintenance, and high reliability. The total M250-powered fleet has logged more than 250 million engine flight hours, with more than 33,000 engines delivered to the market.