Aerial Warfare

UK Industry Reveals New Technologies for Next Generation Flying Combat Air Demonstrator

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UK Industry Reveals New Technologies for Next Generation Flying Combat Air Demonstrator
UK Industry Reveals New Technologies for Next Generation Flying Combat Air Demonstrator

Engineers from the UK’s leading combat air industry partners have released more details about work taking place to deliver the UK’s first flying combat air demonstrator for a generation. Experts from BAE Systems, Rolls-Royce, Leonardo UK, MBDA and the Ministry of Defence (MOD) are collaborating with a range of British small and medium sized enterprises (SMEs) to develop the technologies needed to deliver the UK’s next generation supersonic stealth combat aircraft, Tempest. The Flying Technology Demonstrator, first announced by the UK Government in July 2022, is set to fly within the next four years and is being designed using a range of innovative digital techniques and transformative processes, combined with the expertise of the UK’s world-class defence industry.

At a brand new facility, at BAE Systems in Warton, Lancashire, test pilots from BAE Systems, Rolls-Royce and the Royal Air Force (RAF) have already flown more than 150 hours of the demonstrator aircraft in a new bespoke simulator, providing crucial evidence to support flight trials. In a first for military aircraft design, BAE Systems’ engineers have used auto coding to create safety-critical systems software in a matter of days rather than weeks. This enables rapid assessment of the flight control systems during more complex flight manoeuvres with the simulator capturing crucial data about how the jet will handle and perform, years before its first flight.

At a brand new facility, at BAE Systems in Warton, Lancashire, test pilots from BAE Systems, Rolls-Royce and the Royal Air Force (RAF) have already flown more than 150 hours of the demonstrator aircraft in a new bespoke simulator.
At a brand new facility, at BAE Systems in Warton, Lancashire, test pilots from BAE Systems, Rolls-Royce and the Royal Air Force (RAF) have already flown more than 150 hours of the demonstrator aircraft in a new bespoke simulator. (Photo by BAE Systems)

Engineers have also been carrying out aerodynamic engine testing, harnessing new advanced manufacturing processes to produce an engine duct which is uniquely shaped to slow the air from supersonic to sub-sonic speeds at the engine face. The intake has fewer moving parts than a traditional fighter jet design, enhancing the aircraft’s stealthy design. The test was conducted at Rolls-Royce’s site in Filton, Bristol, in the same facility where the Concorde Olympus engine was tested in the 1960s. Working alongside UK crew escape specialist, Martin Baker, a team of BAE Systems engineers has led ejection seat trials, using a rocket-propelled sled travelling at speeds of more than 500mph.

“It’s now 40 years since our people led the demonstrator aircraft programme which gave birth to Typhoon and the work we’re doing today is another once-in-a-generation opportunity to write the next chapter in aviation history. Right across the Tempest programme we’re using digital techniques and innovative design and engineering methods, to ensure we can deliver Tempest in service by 2035. We already have 1,000 people involved in this programme across UK industry and the supply chain, with young apprentices and graduates working alongside some of our most experienced engineers. This work will continue to act as a beacon, attracting the very best talent and experience to pass on to future generations of engineers needed for the UK to remain an industry leader in defence and aerospace capability,” Neil Strang, Tempest Programme Director, BAE Systems said.

Engineers have also been carrying out aerodynamic engine testing, harnessing new advanced manufacturing processes to produce an engine duct which is uniquely shaped to slow the air from supersonic to sub-sonic speeds at the engine face.
Engineers have also been carrying out aerodynamic engine testing, harnessing new advanced manufacturing processes to produce an engine duct which is uniquely shaped to slow the air from supersonic to sub-sonic speeds at the engine face. (Photo by BAE Systems)

The Flying Demonstrator programme is a remarkable effort to design and build a supersonic stealth jet that will prove integration and develop our national skills, while providing data and learning in support of Tempest entering service by 2035. Today, for the first time, we are able to lift the lid on some of the key work that is taking place on this important programme,” Richard Berthon, Director Future Combat Air for the MOD said.

“The aerodynamic testing has been invaluable in several ways. Not only has it validated complex digital techniques and models, but it has fostered highly collaborative working practices between the BAE Systems and Rolls-Royce teams. We have been delighted with the results and now move forward with confidence that together we can deliver on the next stage of the Flying Demonstrator development,” Conrad Banks, Chief Engineer, Rolls-Royce Defence Future Programmes said.

Experienced engineers have worked alongside junior team members to pass on vital skills which can be taken forward into future developments of Tempest. This range of novel technologies will demonstrate and test key elements of the next generation combat air design as well as skills, tools, processes and techniques needed to develop Tempest, the aircraft that will be delivered through the Global Combat Air Programme, with the UK, Italy and Japan. In July 2022, Ben Wallace, Secretary of State for Defence, announced plans for a new combat air demonstrator to fly within five years. The design and development of the demonstrator aircraft represents an important milestone, showcasing the success and talent of our engineers, programmers and software developers.”

Engineers have also been carrying out aerodynamic engine testing, conducted at Rolls-Royce’s site in Filton, Bristol, in the same facility where the Concorde Olympus engine was tested in the 1960s.
Engineers have also been carrying out aerodynamic engine testing, conducted at Rolls-Royce’s site in Filton, Bristol, in the same facility where the Concorde Olympus engine was tested in the 1960s. (Photo by BAE Systems)
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