Account Menu

IP Address:

British technology company to ‘transform’ air and space travel with pioneering new engine design


For a small technology company trying to revolutionize low-cost commercial space travel, the sale of a minority stake to aerospace giant BAE Systems could turn out to be the defining moment in its quest.

Its Sabre engines for commercial air travel can go from zero to five times the speed of sound, and up to 25 times the speed of sound for space travel.

Experts believe hypersonic air travel could enable people to one day journey anywhere in the world within four hours. At Reaction Engines, based in Oxfordshire, they think this could be a reality within 10 to 15 years.

However, before last month’s deal, Reaction was a highly respected research business, but with limited funding had been effectively stuck as a start-up since its foundation in 1989.

Now, with the backing of a major strategic partner, the 75-employee company and its team of rocket scientists should be course to expand their orbit.

With BAE’s backing and an additional government funding commitment of £60m, Reaction will be able to move to the next critical engineering development stage, while remaining an independent company.

Guiding its “unique” Sabre engine concept towards a seminal breakthrough has been an evolutionary experience.

Recently-installed managing director Mark Thomas admits the deal took time. “They [BAE Systems] have put in £21m, which implies the company is valued at £100m,” he says.

“I spent much of the five months I’ve been here working on that process. It was very clear to me that we needed a big industrial aerospace company and one of the key capabilities we were looking for was systems integration.

“It’s a combination of jet engine technologies and rocket technologies, so actually it’s a complex system (requiring everything to function as one unit). When we looked at organizations with that ability, BAE Systems were top of the list.”….

Read Full Story


An artist’s impression of how the new engine would look in ground tests

, , , , ,