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  • By the 1960's, the idea that a jet could take off and land vertically was no longer

  • the stuff of science fiction, and freeing jets from needing runways was

  • going to revolutionize their use.

  • While the British led the way with the first jump jet fighter, Germany set out to build

  • something even more ambitious.

  • The world's first vertical jet lift transport, combining the speed and range of a jet with

  • more lifting power than just about any helicopter in the world.

  • This was a plane that would revolutionize Germany's air force.

  • A truly versatile machine that could even redefine air travel itself.

  • But developing the world's first VTOL transport would be fraught with technical challenges.

  • It's called Vertical Take Off and Landing, or VTOL.

  • And getting a jet to do it would prove to be one of the most difficult challenges in

  • aviation history.

  • Without forward motion, a plane's wings can't generate any lift, and it means a

  • VTOL jet must rely entirely on its engines to get airborne, by directing thrust downwards.

  • But making enough power to lift off vertically is only part of the challenge.

  • Jet thrust must also keep the aircraft stable and oriented.

  • Because while hovering, conventional control surfaces aren't able to control the aircraft.

  • And a VTOL jet still needs to fly like a conventional plane.

  • And one approach is to use dedicated lift jets to get airborne and a separate jet for

  • conventional forward flight.

  • Another approach is to develop an engine that can do both.

  • Vector thrust downwards for vertical lift and rearwards for forward flight.

  • A third way is to combine dedicated lift jets and vectored thrust.

  • These were enormous engineering challenges.

  • But throughout the 1960s, several countries launched VTOL jet development programs.

  • Because freeing jets from needing runways could make all the difference in the next

  • major conflict.

  • During the Second World War, a grass field was just about all that military aircraft

  • needed to get airborne.

  • Grass fields are hard to destroy and easy to replace.

  • And a World War Two-era fighter needed only a few hundred feet of it.

  • But in little over a decade that all changed.

  • Because jet aircraft needed thousands of feet of concrete runway to get airborne, creating

  • a strategic vulnerability.

  • In the opening hours of a conflict, runways were going to be the first targets and their

  • destruction would render an entire air force inoperable.

  • During the Cold War, nowhere was this vulnerability more apparent than in West Germany, where

  • most air bases were just a few hundred kilometers from Soviet Bloc countries.

  • Within easy striking distance of aircraft and cruise missiles.

  • But VTOL jets could operate without runways.

  • And for West Germany, the technology seemed like the perfect solution.

  • Because aircraft could be stationed throughout the country, away from threats.

  • Kept hidden under the cover of forests or inside buildings Aircraft could even use the

  • country's Autobahn highway network to stage operations.

  • In 1960, West Germany set out to build an air force around VTOL technology.

  • Starting with the development of a supersonic fighter with unique pivoting wing-tip jets

  • engines.

  • A year later, work also began on a VTOL strike fighter, a ground attack aircraft to serve

  • as the mainstay of West- German air force.

  • But critical for supporting these aircraft out in the field would be a jet lift transport.

  • A plane that could deliver supplies and personnel to remote forward operating bases.

  • And in 1962, West German aircraft builder Dornier was assigned the enormous challenge

  • of developing it.

  • Getting a jet to lift off vertically was difficult enough.

  • A VTOL transport would also need to lift several tons of cargo.

  • And to do it, engineers would need to develop everything from new flight control systems,

  • engine layouts, to avionics.

  • This is the Dornier Do-31.

  • The world's only vertical jet lift transport.

  • Using the combined power of two vectored thrust turbofans and eight lift jets in wing-tip

  • pods, the Do 31 could generate an incredible 66,000 pounds of thrust.

  • More vertical lifting power than just about any helicopter in the world.

  • To keep the aircraft stable, engineers developed an advanced computerized flight control system.

  • Working around the limits of 1960's technology with an innovative part-digital, part-analog

  • hybrid computer.

  • In forward flight, the lift jets would be shut off and the Do 31

  • would fly like a conventional plane.

  • And it could reach speeds of over 700km an hour and carry 36 fully equipped troops or

  • nearly six tons of cargo.

  • An unprecedented combination of speed, range and lifting capacity.

  • But developing the world's first VTOL jet transport would be fraught with technical

  • challenges.

  • And it took Dornier almost five years to develop the Do 31's technologies.

  • But by 1967, confidence in the aircraft was growing and soon test flights were proving

  • that Germany's jet lift transport was more than capable of fulfilling it's design mission.

  • And as Dornier moved closer to a production version, some even saw the potential for vertical

  • jet lift technology to revolutionize commercial aviation.

  • Because VTOL airliners would operate from helipads, maybe even directly

  • from building rooftops.

  • But VTOL jet travel was going to have to wait.

  • As the 1960s drew to a close, the Cold War evolved into a new phase.

  • An all out war with the Soviet Union now seemed less likely.

  • And it meant the development of VTOL capable jets was now less of a strategic priority.

  • And getting a jet to reliably take off and land vertically proved to be far more challenging

  • and dangerous than originally anticipated.

  • By 1968 it was clear that Germany's VTOL fighter jet wasn't going to

  • meet it's design objectives.

  • And with rising development costs the program was cancelled.

  • And that put the future of Do 31 in doubt

  • More than anything, what west Germany needed was a partner

  • to help shoulder development costs.

  • And while Dornier managed to get the attention of the U.S military and aerospace industry,

  • partnerships never materialized.

  • Like other VTOL jets, the Do 31 had some serious limitations.

  • Sure, its ten jets could lift more than just about any helicopter in the world.

  • Much of what they were actually lifting was the aircraft's own weight.

  • Ten jet engines and the fuel needed to keep them all running made the Do 31 incredibly

  • complex and heavy.

  • And the noise would've been a deal breaker for any civil application.

  • Dornier tried to impress crowds at the 1969 Paris air show, flying alongside Britain's

  • harrier jump jet in a coordinated aerial display.

  • But excitement over VTOL was starting to fade and the plane garnered little in the way of

  • serious interest.

  • And without a development partner or buyers, Dornier was forced to

  • cancel the project in 1970.

  • The attack aircraft it was intended to support would eventually suffer a similar fate.

  • Of the many VTOL projects launched in the 1950s and 60s, most would end in failure.

  • Unable to overcome monumental engineering challenges or the inherent limitations of

  • jet lift technology

  • The world's only jet lift transport promised to combine the speed and range of a jet, with

  • the versatility of a helicopter.

  • A machine designed to address a pressing strategic challenge.

  • Decades earlier Japanese engineers were also trying to solve their own strategic problem.

  • And their solution would be to combine the stealth of a submarine with the strike capabilities

  • of an aircraft carrier.

  • Japan's underwater aircraft carriers were some of the most fascinating machines to come

  • out of the Second World War.

  • And you can learn their incredible story in my latest video.

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