ATI’s Scott Pendry highlights some of the ATI’s views contained in the Institute’s recent response to the DfT Aviation 2050 green paper.

The DfT’s consultation on the future of aviation comes at an exciting time and we welcomed the paper. Arguably right now is an inflection point for air transport, a period when aviation is poised to go through the biggest change in fifty years as a result of aircraft designs and operating concepts enabled by new technologies including electric propulsion and the increased use of automation.  As a result of these changes, existing aircraft will not only become more efficient but new markets will be created, such as low-cost regional routes and urban/city air routes, which will take advantage of new aircraft designs.  It’s a hugely exciting time for aerospace – not only will these innovations improve connectivity, they will be enabled by technologies that are environmentally sustainable and, as my colleague Simon Weeks wrote recently, could benefit from significant ATI funding for improved environmental performance.

Given our role in establishing the Future Flight Challenge, our response talked extensively about the transformative impact the Challenge will have in considering, and ultimately developing, the infrastructure, policy and regulation required to incorporate new forms of electric, autonomous and unmanned aviation into the air transport system.  However, the consultation also gave us a few concerns – if we, the UK, really want to have a long-term aviation strategy out to 2050, we need to consider the infrastructure required to enable future air transport concepts and intermodality, concepts that will underpin the operation and commercial feasibility of new forms of air transport.

The key role of infrastructure

Connectivity is crucial to promoting regional growth and increased productivity, but new routes and markets won’t be created without the physical infrastructure required to enable new vehicles to take-off and land (either vertically or horizontally), charge and wait for passengers.

With the pace of electric aircraft development increasing, the Aviation 2050 Strategy needs to ensure that infrastructure development is in step with technology development, as failure to do so could stifle the development of new air transport operations in the UK.

For urban air mobility VTOL aircraft, a distributed network of ‘vertiports’ or ‘skyports’ (VTOL hubs with multiple take-off and landing pads, as well as charging infrastructure) or single-aircraft vertistops (a single VTOL pad with minimal infrastructure) is essential. Likewise, for conventional take-off and landing aircraft, a network of small airports and airfields, complete with suitable charging infrastructure and maintenance facilities is an absolute necessity.

A further infrastructure consideration is the provision of 5G communication networks which will allow the precise navigation that is needed for new aerial vehicles, many of which will be operated autonomously.

Intermodality – aviation should be an integral part of the future transport mix

New aircraft will only become a useful component of tomorrow’s mobility if they are integrated into the overall transport network of cities and regions – new urban and regional aircraft should be thought of within the context of multi-modal transport solutions.

It’s therefore important that the final Aviation 2050 paper recognises that new skyports and smaller airports/airfields should also be treated as connectivity hubs, ready for multimodal journeys to and from destinations which might also involve a pooled car, bus or rail journey at either end.

Electrification and automation – a growing focus of the ATI

We’re working with established organisations in the sector, as well as more disruptive companies from outside the sector, to identify new projects which will position the UK as a world leader in the development of electric and autonomous aircraft. The E-Fan X is one of our most high-profile projects and, thanks to the Paris Airshow, is now gaining a significant amount of media attention.

There are many more projects like E-Fan X that we are keen to support and we want to work with companies of all sizes who have innovative ideas that will keep the UK competitive.

To read the ATI’s response to the DfT in full, please click here.

The Aerospace Technology Institute (ATI) and Innovair, the Swedish programme for aeronautics, together with delivery partners Innovate UK and Vinnova, have today announced the award of four projects that are being funded under a joint aerospace funding call between the UK and Sweden.

The call, operated under the EUREKA Network Projects programme, was developed to foster industry-led collaborative R&D projects between the UK and Sweden to advance both countries’ aerospace industries. UK organisations were given the opportunity to apply for a share of up to £2.25 million to develop aerospace technology in partnership with Swedish companies.

The success of the call was announced at the EUREKA Global Innovation Summit being hosted in Manchester (14th-16th May 2019).

The projects selected will conduct research with strong market potential for the UK and Sweden and, guided by the respective aerospace strategies of the UK and Sweden, cover a range of technology areas, including materials, propulsion and systems.

Two such projects focus on high temperature electronics and the analysis of complex sensors and electric components in aircraft.

With aircraft using ever-greater electrical applications, there is a growing need for new high-temperature electronics and the project, focusing on new transistor devices, will pave the way for more electric applications in aircraft. The benefits of more electrical applications are numerous, including reduced weight, greater reliability, lower maintenance costs and increased efficiency. The project is led by Rolls-Royce and is supported by Ascatron AB and other organisations from Sweden.

The sensors and electrical analysis project, led by ESI Group in Sweden and with International Technegroup as UK partners, will look at electromagnetic interference with aircraft systems. A better understanding will enable more complex sensors to be fitted to aircraft, improving the operation of the aircraft and the passenger experience by increasing connectivity.

Commenting on the call, the UK’s Ambassador to Sweden, His Excellency David Cairns said:

For two countries such as Britain and Sweden our economic development depends on high-quality research, innovation, technology, development, and collaboration, and in perhaps no sector is this more important than aerospace. Through this joint funding call both our countries will close gaps in capability, gain access to new partners, bolster existing capability, and encourage greater levels of trade and investment between both our countries.

Simon Edmonds, Deputy Executive Chair and Chief Business Officer, Innovate UK, said:

As the UK prepares to welcome international businesses and innovation agencies to the EUREKA Global Innovation Summit, Innovate UK, alongside BEIS and the ATI, is proud to be supporting these projects funded through the EUREKA Network Project Call in Aerospace 2018, with Sweden. They demonstrate the vital role that that collaboration with the global supply chain plays in supporting the success of the UK Aerospace industry.

Malcolm Scott, Corporate Development Officer at the ATI, said:

Over the last few years we have shared our respective aerospace strategies, identified areas for mutual collaboration and have taken time to build the case for a joint R&D funding call. We are delighted to be able to award funding to these projects, which will facilitate new relationships and close capability gaps in both the UK and Sweden and we hope to strengthen ties with Swedish colleagues by holding a further call in 2020.

Director General of the Swedish Innovation Agency Vinnova, Darja Isaksson said:

To stay competitive within aeronautics you have to collaborate with the best nations to reach excellence in engineering. The long-term benefit of this funding call will be to accelerate the development of aerospace technology by working together and it is very important to do so in light of pressing environmental concerns.