BAE Flies UAV With Supersonically Blown Air

For the first time in aviation history, an aircraft has been manoeuvred in flight using supersonically blown air, removing the need for complex movable flight control surfaces, BAE Systems announced.

In a series of ground-breaking flight trials that took place in the skies above north-west Wales, the MAGMA unmanned aerial vehicle (UAV) demonstrated two innovative flow control technologies which could revolutionise future aircraft design.

MAGMA, designed and developed by researchers at The University of Manchester in collaboration with engineers from BAE Systems, successfully trialled the two ‘flap-free’ technologies earlier this month at the Llanbedr Airfield.

MagmaUAVinfographic
Using new technologies that replacing moving control surfaces with a simpler ‘blown air’ solution, BAE’s MAGMA drone has shown the way for engineers to create better-performing aircraft that are lighter, more reliable and cheaper to operate. (Photo courtesy: BAE Systems)

The technologies have been designed to improve the control and performance of aircraft. By replacing moving surfaces with a simpler ‘blown air’ solution, the trials have paved the way for engineers to create better-performing aircraft that are lighter, more reliable and cheaper to operate. The technologies could also improve an aircraft’s stealth as they reduce the number of gaps and edges that currently make aircraft more observable on the radar.

Developing such technologies helps to ensure the UK has the right technologies and skills in place for the future and could be applied to the development of a Future Combat Air System. It is the latest technological breakthrough to come from a number of BAE Systems collaborations with academia and industry, that will help the UK to deliver more advanced capability, more quickly, and through shared investment.

Julia Sutcliffe, Chief Technologist, BAE Systems Air, said, “MAGMA is a great example of how collaborating with bright minds at British universities can deliver ground-breaking research and innovation. Our partnership with The University of Manchester has identified cutting-edge technology, in this case flap-free flight, and turned what began as a feasibility study into a proven capability in just a number of months. It demonstrates how STEM can be applied in the real-world and I hope the success of these trials inspires the next generation of much-needed engineers and scientists.”

The technologies demonstrated in the trials were:
— Wing Circulation Control: Taking air from the aircraft engine and blowing it supersonically through narrow slots around a specially shaped wing tailing edge in order to control the aircraft.
— Fluidic Thrust Vectoring: Controlling the aircraft by blowing air jets inside the nozzle to deflect the exhaust jet and generate a control force.

The trials form part of a long-term collaboration between BAE Systems, academia and the UK government to explore and develop flap-free flight technologies, and the data will be used to inform future research programmes. Other technologies to improve aircraft performance are being explored in collaboration with NATO Science and Technology Organisation.

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