DLR & NASA acknowledge students' award-winning aircraft concepts
29 September 2017
The students were encouraged to design an aircraft of the future featuring quiet supersonic flight, lightweight construction and low emissions.
DLR and NASA’s joint student competition put two specific challenges forward: Take aviation technology in new directions with novel ideas and develop aircraft designs that reinvent passenger flight beyond the sound barrier or that are revolutionarily quiet and low-emission. The winners presented their work at a joint symposium attended by recognised aviation researchers at NASA's Langley Research Centre. The German team from TU Munich won for their ‘Urban Liner’ concept.
"The joint design competition once again demonstrates our excellent cooperation with NASA in aeronautics research," says Rolf Henke, DLR Executive Board Member for Aeronautics research. "The diversity of ideas and concepts from both sides of the Atlantic is impressive and demonstrates the power of joint initiatives to provide new solutions for greener air transport with less noise and emissions."
The DLR part of the challenge totalled 63 students from seven German universities. The NASA part included 167 students from 12 United States universities. "To solve aviation challenges in the United States and around the world, NASA and partners like the DLR need a highly skilled and motivated aeronautics workforce", comments NASA Associate Administrator for Aeronautics Jaiwon Shin. "To that end we sponsor activities, like this challenge, that connect students with real-world NASA research goals and with unique NASA experiences."
In addition to design proposals for quieter flights, the competition also called for efficient supersonic jets. The conceived aircraft should be able to transport at least 200 passengers, or 12 in the case of the supersonic aircraft, and be implemented by 2035. Participating teams from Germany and the United States each chose one of the topics for their competition entry.
Revolutionarily quiet and low-emission flying
The German winning team from TU Munich made it to the award ceremony in Braunschweig with their 'Urban Liner', an unusual-looking aircraft with a hybrid drive. The most striking feature is the single engine, which is attached at the rear between the tailplanes. This configuration reduces fuel consumption by 50 percent and nitrogen oxide emissions by as much as 80 percent, according to the analysis of the Munich students, who are taking part in the symposium at NASA Langley Research Centre. There, they met five winning teams from the United States. "We are proud to present our 'Urban Liner' at NASA in this special setting," says team leader Christian Decher, who has travelled here with his fellow students and team colleagues Daniel Metzler and Soma Varga. "We have consciously and consistently worked on designing an aircraft with lower noise and emissions in our concept."
In the NASA part of the competition, the winner in the subsonic low noise category was the 'GRYPHON' by students from Columbia University in New York. GRYPHON is a ray-shaped 'blended wing body', which is equipped with distinctive, high-efficiency narrow wings. Completing the award-winning concept is an integrated turbo-electric propulsion system that is distributed over the entire body and uses boundary layer ingestion to reduce drag.
An innovative concept for a supersonic aircraft – an environmental successor to Concorde as it were– was presented by a team from the University of Stuttgart in the German competition and awarded third place there. The concept 'HELESA' proposes a long-stretched aircraft with distinctive variable forward swept wings. On the US side, the concept 'Nimbus', submitted by students from Virginia Tech won in this category. The supersonic business jet features cranked delta wings, a pronounced lightweight design, as well as sonic boom mitigation and airport noise reduction.
Germany and the United States have been working closely together in the field of aerospace systems for a long time. In aeronautics research, both partners are particularly involved in joint research projects in the areas of air traffic management, low-noise and low-emission flying, as well as joint test flights that investigate alternative aviation fuels.