Airbus Helicopters advances Clean Sky 2 high-speed efficient rotorcraft demonstrator
Completion of wind tunnel testing campaign validates aerodynamic design and paves the way for demonstrator design start
Global network of European industries already involved in the development of all major demonstrator components
Flight-testing phase to begin before the end of the decade
Berlin, 1 June 2016 – Airbus Helicopters earlier this year passed an important milestone in the development of the high-speed, compound helicopter demonstrator currently being built as part of the Clean Sky 2 European research programme. A mockup of the breakthrough airframe design has just undergone windtunnel testing in an Airbus facility. The tests proved the viability of the chosen design in terms of efficiency, sustainability and performance, paving the way for a preliminary design review expected end of 2016. Meanwhile, the overall project has passed its first official milestone involving all core partners by reaching the end of its pre-design phase.
Building upon the achievements of the company-funded and record-breaking X3 technology demonstrator, the Airbus Helicopters Clean Sky demonstrator will help refine the “compound” aerodynamic configuration and bring it closer to an operational design, with the end objective of meeting future requirements for increased speed, better cost-efficiency, as well dramatic reductions of emission and acoustic footprints. Flight-testing of the prototype is expected to start in 2019.
“We are honoured to be carrying out this project on behalf of the Clean Sky Joint Undertaking and the large number of European companies who are taking part in the development. Our ambition is to become the benchmark of the rotorcraft industry, and as such we are willing to drive a bold vision for the future of helicopter transportation”, said Jean-Brice Dumont, Airbus Helicopters Chief Technical Officer. “Our Clean Sky 2 demonstrator will not only be about going faster; it will help make speed smarter by seeking the best trade-off between cost-efficiency, sustainability and mission performance. We want to break the cost barrier usually associated with increased speed and range and pave the way for new missions sets for 2030 and beyond, by providing crucial emergency or door-to-door transportation services to European citizens where they need it most.”
Development of the Clean Sky 2 demonstrator relies on a wide European network of industrial partners who are bringing their technical skills and know-how to the project. While Airbus Helicopters facilities in France, Germany, Spain and Poland are involved in areas such as structural and mechanical design, other countries like Romania, Italy and the United Kingdom also highly contribute their expertise through a large number of design and manufacturing work packages.
Ron Van Manen, Clean Sky 2 Programme Manager, highlighted that “The LifeRCraft Demonstrator project in Clean Sky 2 will pull together capabilities from across the European Research Area, addressing technology gaps in systems, structures and overall design and demonstrating the viability of a compound rotorcraft design that can bring a fundamentally new combination of payload / range / speed to the aviation market. In particular where a rapid response or a key range requirement exists (such as in disaster relief, medical evacuation or search & rescue) this aircraft concept can bring important benefits to the public and open new market opportunities that will strengthen Europe’s already formidable competitive position in the vertical lift aviation sector”.
Photos (Ref.EXPH-1609-01 – EXPH-1609-02 – EXPH-1609-03 © Copyright Airbus Helicopters
EXPH-1609-01 ems © Copyright Airbus Helicopters Design Studio – 2016
Airbus Helicopters, a division of Airbus Group, provides the most efficient civil and military helicopter solutions worldwide. Its in-service fleet includes nearly 12,000 helicopters operated by more than 3,000 customers in 154 countries. Airbus Helicopters employs more than 22,000 people worldwide and in 2015 generated revenues of 6.8 billion euros.