Tag: aviation

Largest jet engine ever test fired

9:31 am

The competition heats up: General Electric has completed the first test firing of the largest airplane jet engine ever built.

With a front fan spreading a full 11 ft (3.35 m), the GE9X is a world record holder and generates thrust in the order of 100,000 lb. To accommodate the aeronautical behemoth, the Peebles facility was recently upgraded with a larger air intake, extra fuel tanks to feed the giant engine, and high temperature gear to deal with the hotter, more efficient design.

GE says that the GE9X is currently undergoing its first Full Engine To Test (FETT). This is the next level of the test series, which began in 2011 at the component level, and marks the first test of the complete system, which comes only six months after the engine design was finalized. GE says that this relatively early testing was to ensure that the test data was available as soon as possible for the certification engines, which are scheduled to be installed in GE Aviation’s flying test bed for certification of flight testing in 2018.

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Virgin Galactic signs deal for supersonic plane

6:18 pm

The competition heats up: Virgin Galactic has signed a deal with Boom, the start-up company trying to build the first commercial supersonic passenger jet since the Concorde.

Boom, which has spent the past three months participating in Y Combinator’s startup accelerator program in Silicon Valley, has inked a deal with Virgin. As part of the deal, Virgin has taken an option in Boom’s first 10 planes, while Virgin Galactic, the private space exploration company, will assist with manufacturing and testing through its manufacturing arm, The Spaceship Company.

I hope Boom is more successful than Virgin Galactic in getting its project off the ground. If not, than it will be a long time before we see this plane take off.

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Turning planes into trucks

9:14 am

The competition heats up: Airbus has patented a concept for having the cargo/passenger section of an airplane modular and removable.

Instead of a single hull, aeroplanes would essentially be built with a hole in their fuselage between the nose cone and the tail section, into which modular compartments could be fitted and removed. The compartments, which could take on the purpose of a passenger, luxury passenger or freight unit, would be transferred between the aircraft and airport via a docking module, which according to Airbus would (ideally) be integrated into airport terminal buildings.

For passenger planes this idea really doesn’t work. However, for cargo it is brilliant. Like trucks, it allows cargo to be loaded without using the expensive flight infrastructure.

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Boeing’s first stealth plane concept

10:57 am

Boeing has just released the few remaining photos and documents relating to a 1960s stealth plane concept, including pictures of a half-scale prototype.

The concept dates back to the early 1960s, with a one-half scale model of the aircraft being built sometime between 1962 and 1963. The aircraft was an exercise in utilizing specific materials and shapes to drastically reduce the radar cross-section of a tactical aircraft. From this pioneering design, five Boeing “stealth” patents were awarded, and they only appear to have shown up in public records in the early 1990s, decades after they were officially filed. 

The model of Quiet Bird was said to have been tested at Boeing’s Wichita facility in 1962-1963, all of which occurred on a radar range. No actual flight testing of Quiet Bird itself was said to have happened, though. But the tests were highly successful: they proved that it was possible to drastically decrease the radar signature of a tactical aircraft.

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Boeing’s 747 is finally heading for retirement

10:19 pm

After 45 years of service, Boeing’s 747, the world’s first jumbo jet, is finally facing retirement as airlines consider more modern planes for their fleets.

The plane that so audaciously changed the shape of the world is now on the wrong side of history. Airlines are retiring older 747s – JAL no longer flies them – and Boeing’s attempt at catch-up, the latest 747-8 model, has had technical problems and is selling only very slowly. The air above my garden will not be troubled by 747s for very much longer.

The article gives brief but detailed outline of the 747’s history, and why passengers and pilots still love it. I love it because of this:

The 747 was America at its proud and uncontaminated best. ‘There’s no substitute for cubic inches,’ American race drivers used to say and the 747 expresses that truth in the air. There is still residual rivalry with the upstart European Airbus. Some Americans, referring to untested new technologies, call it Scarebus. There’s an old saying: ‘If it ain’t Boeing, I ain’t going.’

A comparison to the European Concorde is illuminating. The supersonic Anglo-French plane was an elite project created for elite passengers to travel in near space with the curvature of the Earth on one hand and a glass of first growth claret on the other. The 747 was mass-market, proletarianising the jet set. It was Coke, not grand cru and it was designed by a man named Joe. Thus, the 747’s active life was about twice that of Concorde.

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Footage of the Red Baron from 9/17/17

6:01 pm

An evening pause: No music this time, only some history. Hat tip Tim Biggar, who notes “Couple of interesting things: The Fokker used a 9 cyl radial (clearly seen when they prime the cyls before takeoff). Unlike most modern designs, the crankshaft was bolted to the frame and did not rotate. The prop was bolted to the engine case and the entire engine case rotated. Lots of gyroscopic force made it hard to maneuver.

“The ‘flight suit’ and the gauntlets are worth noting.

“I think that may be Goering on the left (plain uniform with Iron Cross) at the 3:05 mark.

“At the end we see a Sopwith he shot down and the Brit pilot who lived.”

I note the sense of comradarie between these pilots at the end. In World War I there still was a sense of behaving civilly (as in civilization) even during war.

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Airbus patents design for a supersonic ramjet airplane

8:55 am

The competition heats up: Two Airbus engineers have gotten a patent for a supersonic jet that would use suborbital space engineering, including hydrogen-oxygen engines as well as a ramjet, to fly at 20 to 30 miles elevation.

On a typical flight, it would take off like a conventional plane using ordinary turbojet engines, but once in the air, an open door in the stern of the plane reveals a rocket motor. When this fires, it sends the aircraft into a near vertical trajectory, accelerating it to supersonic speeds.

As the airplane approaches Mach one, the turbojets shut down and retract into the fuselage. On completion of the acceleration phase the plane is now flying at anywhere from Mach 4 to Mach 4.5 at an altitude of 30,000 to 35,000 m (100,000 to 150,000 ft). The rocket motor shuts down and is again concealed as the aft door slides shut to reduce drag. A ramjet now kicks in and the aircraft cruises along its flight path and can cover a range of 9,000 km (5,600 mi) in three hours – the equivalent of Tokyo to Los Angeles or Paris to San Francisco. Meanwhile, the wing fuselage design dissipates the sonic shock wave over 110 to 175 km (68 to 109 mi) and angles it at 11 to 15 degrees so it doesn’t reach the ground. At the end of the journey, split flaps reduce speed and the turbojets take over for approach and landing.

As the article notes, it is unlikely this jet will ever be built, as patented. The patent however illustrates the growing interest by commercial operators of these radical aerospace designs. While this specific design might never fly, many aspects of it are going to start appearing in flying ships in the next few decades.

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The UK launches a 3D printed airplane drone

10:01 am

A University of Southampton team, under a project for the Royal Navy of the United Kingdom, have built and launched an entirely 3D printed unmanned air vehicle (UAV) from a navy ship.

Produced under the institution’s Project Triangle, the Southampton University Laser Sintered Aircraft (SULSA) UAV was launched via catapult from the patrol vessel HMS Mersey, and flew over the Wyke Regis training facility near Weymouth in the south of the country to land on Chesil beach. The 5min sortie covered a range of some 500m, with the UAV carrying a small video payload to record the mission so that operators could monitor it during the flight.

SULSA measures 150cm (59in) and weighs 3kg (6.6lb), and is made via 3D printing using laser sintered nylon. The university claims that SULSA is the world’s first UAV made entirely via the technique. It consists of four separately manufactured main parts that are assembled without the need for any additional tools.

The specific achievement here is interesting, but its significance in illustrating the growing use of unmanned drones and 3D printing is more important. Very soon, a large percentage of everything we own will be built with 3D printing technology, lowering the cost while making construction easier. As for drones, they carry both positive and negative possibilities.

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