Future Proof

Future Proof taking some time out

2009-08-11T14:01:49Z

Aimee Turner is currently taking some time away from looking into aviation's future but she will return shortly. In the meantime why not follow one of Flightglobal's other blogs or take a look at our future aviation concepts gallery on AirSpace.

Graphene to overcome supersonic engine speed limits

2009-07-14T11:02:42Z

US research engineers at Princeton plan to study how fuel additives made of tiny particles

of graphene can help supersonic jets fly faster and make diesel engines cleaner and more

efficient.

Physorg.com reports that to create the graphene particles, researchers will remove carbon dioxide molecules from graphite oxide which leaves a irregular bond pattern that creates a buckle in the otherwise flat graphene molecule. This ridge prevents the graphene molecule from folding into ball.

The interdisciplinary team of scientists led by Princeton engineers has been awarded a $3 million grant to study such fuel additives made of tiny particles known as nanocatalysts made up of snippets of molecular sheets carbon only a few Angstroms thick.

These particles have been shown to help fuels ignite and burn faster, a quality that could lead to the next generation of combustion engines.

For supersonc aircraft to travel even faster, engines must operate at faster speeds and fuel must move through them more rapidly, but the ignition time and burn rate of current jet fuels limits the speed of the engines.

"Right now we don't know what actual reactions enhance the combustion rates when the particles are added to fuels," said Ilhan Aksay, a professor of chemical engineering at Princeton and the lead investigator on the project. "If we understand it further, we can make it more effective."

The funding, which comes from the Air Force as part of the 2009 American Recovery and Reinvestment Act Research Program, will be used to tackle a fundamental barrier to designing faster supersonic aircraft.

VIDEO: Zero emissions aircraft makes first flight

2009-07-09T13:47:18Z

The world's first piloted aircraft capable of taking to the air using only power from fuel

cells has flown, producing zero carbon dioxide emissions during the landmark mission.

Click here to watch the video.

The Antares DLR-H2 - developed by the German Aerospace Centre DLR together with Lange

Aviation, BASF Fuel Cells and Denmark's Serenergy - has a range of 750 kilometres (465

miles) and can fly for five hours at maximum flying speeds of approximately 170 kilometres per hour.

DLR says it has improved fuel cell performance capabilities and efficiency to such an

extent that the motor glider can take off using fuel cell power alone.

"This enables us to demonstrate the true potential of this technology," said DLR's Johann-Dietrich Wörner who concedes however that fuel cell use constitutes a more likely alternative to existing onboard energy systems than main propulsion alternatives.

The system uses hydrogen as its fuel which is converted into electrical energy in a direct, electrochemical reaction with oxygen in the ambient air, without any combustion occurring and producing only water.

To accommodate the fuel cell and the hydrogen supply, two additional external load carriers weighing 100 kgs were slung under the specially reinforced wings whose aeroelastic properties had to be reconfigured to safeguard flight stability.

The fuel cell system used to power the Antares delivers up to 25 kilowatts of electrical power although operates at an efficiency level of approximately 52 percent when the aircraft is flying in a straight line, which requires around ten kilowatts of power.

The total efficiency of the drive system from tank to powertrain, including the propeller, is around 44 percent, making it about twice as efficient as conventional propulsion technologies based on combustion processes.

Another innovation is the way its fuel cell is connected to the main electric motor that powers the aircraft. Developed jointly with Lange Aviation and the College of Advanced Technology in Berne/Biel, it is capable of taking in and controlling voltages from 188 to 400 V increasing efficiency, cost and, reliability.

The Antares DLR-H2 will be based at Lufthansa Technik in Hamburg where, over the next `three years, it will be acting as a flying test platform for the fuel cell test activities of DLR as part of its Fuel Cell Labs project.

Pentagon looks to catapults to launch aircraft

2009-07-03T14:00:43Z

Proving that defence kit boffins are really just big schoolboys at heart, FutureProof gets wind

of the Pentagon awarding half a billion dollars to develop a radical new electromagnetic

catapult, intended to toss navy jets off future aircraft carriers.

The Electro Magnetic Aircraft Launch System (EMALS) could replace Cold War-era steam

catapults after it was announced that General Atomics has won $573 million ceiling-priced

contract to build one for the next planned US fleet carrier, CVN 78 or USS Gerald R Ford.

Here's the low-down: "General Atomics, San Diego, Calif., is being awarded a $573,000,000

ceiling priced, undefinitized contract action for the production of the Electromagnetic Aircraft

Launch System (EMALS) CVN 78 Shipset. EMALS is the catapult launch system on CVN-

78 class aircraft carriers, replacing the steam catapults used on prior generations of aircraft

carriers. Work will be performed in San Diego, Calif., (49 percent); Tupelo, Miss., (19

percent); Mankato, Minn., (12 percent); Waltham, Mass., (4 percent); and various locations

across the United States (16 percent), and work is expected to be completed in September

2015. Contract funds will not expire at the end of the current fiscal year."

As for its application in civil air transport, airfield power devices assist take-off and landing

allowing aircraft to use less installed

power and less energy is nothing

new.

One idea from the Out of the Box

European think tank whose Gallery of

image ideas can be found here

would be to use a maglev propulsive

rail to allow the aircraft to take-off from

virtually a flat surface.

A floating airport at sea could also be

considered with international super-

hub airports located in international

seas.

Being floating structures these could

be turned into the wind to maximize

capacity.

And as for landing the aircraft, what

about water-borne landings or

parafoil-assisted descents?

Flying farther: Singaporean fuel cell boosts UAV capabilities

2009-07-01T15:01:36Z

Aeropak, the latest in fuel cell power systems, could increase the flight endurance of

small and stealthy electric unmanned aerial systems (UAS) by as much as 300 per cent,

making them more effective in persistent intelligence, surveillance and reconnaissance

missions.

The new fuel cell system, developed by Horizon Fuel Cell Technologies, is also designed for

high-impact and able to operate at up to 22,000 feet (6,500m).

Weighing in at just 4.4 lbs (2kg), it integrates fuel cell technology with new refillable dry-fuel

cartridges, storing 900Wh of usable electrical energy, thus providing up to four times the

endurance capability of advanced lithium batteries currently in use.

Horizon says the miniaturized power system also makes it very easy to use as drop-in

replacement for battery packs currently in service, eliminating costly airframe modifications.

In addition to increasing flight endurance, the new fuel cell system also makes it possible

for small tactical UAS to integrate more power-hungry electronic devices such as

electro-optical sensors, infrared cameras and laser designators.

The new fuel cell systems can also be used to power remote ground systems and recharging

stations, or even serve as an auxiliary electric power supply for larger systems.

Wings that waggle could cut emissions by 20%

2009-05-22T13:34:51Z

Wings which force air to waggle sideways could cut airline fuel bills by 20% according to research funded by the UK's Engineering and Physical Sciences Research Council (EPSRC) and Airbus.

The new approach, which promises to dramatically reduce mid-flight drag, uses tiny air powered jets which redirect the air, making it flow sideways back and forth over the wing.

The jets work by the Helmholtz resonance principle - when air is forced into a cavity the pressure increases, which forces air out and sucks it back in again causing an oscillation - the same phenomenon that happen when blowing over a bottle.

Dr Duncan Lockerby, from the University of Warwick, who is leading the project, said: "This has come as a bit of a surprise to all of us in the aerodynamics community. It was discovered, essentially, by waggling a piece of wing from side to side in a wind tunnel."

"The truth is we're not exactly sure why this technology reduces drag but with the pressure of climate change we can't afford to wait around to find out. So we are pushing ahead with prototypes and have a separate three-year project to look more carefully at the physics behind it."

Engineers have known for some time that tiny ridges known as 'riblets' - like those found on sharks bodies - can reduce skin-friction drag, (a major contorbiutor to mid-flight drag), by around 5%. But the new micro-jet system being developed by Dr Lockerby and his colleagues could, they claim, reduce skin friction drag by up to 40%.

The research, being carried out with scientists at Cardiff, Imperial, Sheffield, and Queen's University Belfast, is still at concept stage although it is hoped the new wings could be ready for trials as early as 2012.

Dr Lockerby tells Future Proof: "The wings/aircraft surface make the airflow "waggle" rather than the wings waggle structurally... which would be quite disconcerting to the passengers I sense.

"We envision many thousands of small cavities sunk within the surface of the aircraft. Each cavity would have one or a series of outlets that air would flow in and out of; directed perpendicular to the direction of travel.

"This creates an oscillation in the airflow very near to the surface - the boundary layer - which, via a physical mechanism we are working to fully understand, reduces the frictional drag."

Hypersonic technology trial goes live

2009-05-22T10:09:29Z

Australian and US scientists have successfully tested hypersonic aircraft technology which could revolutionise international flight.

The Australian reports that the trial was the first of up to 10 tests to be conducted at the Woomera desert range as part of a joint US-Australian military research operation.

The programme, called Hypersonic International Flight Research Experimentation, is investigating hypersonics technology and its potential for next generation aeronautics.

Hypersonics is the study of flight exceeding approximately five times the speed of sound, and this trial has successfully tested the flight and mission control systems that will be used in future experiments.

The test vehicle was carried into space aboard a rocket launched from Woomera and then dived back into the atmosphere to test the hypersonic flight technology.

Nitrogen gas valves were used as thrusters to manoeuvre the craft in space and correctly position it for reentry into the atmosphere, offering scientists a wealth of new data.

During trials of similar technology in 2007, the defence department said travelling time from Sydney to London could be cut to as little as two hours for the 17,000-kilometre flight.

Pentagon joins Boeing's flying circus

2009-05-21T12:58:45Z

US military research scientists at DARPA have asked Boeing for help in exploiting the aerodynamic benefits of formation flying to save fuel in military aircraft.

Called "Formation Flight For Aerodynamic Benefit", the effort builds on previous work by NASA in 2001-2002 which used a pair of specially instrumented F18 jets.

According to the report on those trials, significant performance benefits were obtained during the flight test phase.

Drag reductions of more than 20 per cent and fuel flow reductions of more than 18 per cent were measured at flight conditions of Mach 0.56 and an altitude of 25,000 ft.

The Register reports that the NASA project was intended to move forward and actually demonstrate fuel savings over a long flight, and develop autopilot equipment which could hold following jets exactly in the sweet spot for best results relative to the aircraft ahead.

However the NASA effort was shelved due to funds drying up.

Although not an entirely new concept, aircraft flying in formation could offer a way of increasing range of aircraft in formation without transferring fuel.

"This opens a new design space for aircraft conceived and operated as a networked system. As always, there are challenges to overcome. One challenge is precisely maintaining the relative position of two aircraft, or many aircraft, to take full advantage of the reduction in drag due to lift. Only birds now do this routinely, and they can't explain it to us ..." says the agency's Dr Thomas Beutner.

The Boeing deal will see an initial simulation phase before flight tests in the wake of a large military transport aircraft. Later work could see autonomous self separation using stationkeeping equipment - possibly applied to manned or unmanned future aircraft fleets custom designed operated as networked systems.

VIDEO: Nature's shape shifters reveal hover secrets

2009-05-20T14:05:44Z

You'd be justifiably alarmed to see an aircraft's wing twist through 45 degrees, but the flapping wings of a hoverfly deform like this 300 times every second.

Add to this a large flap which flips up at right angles to the rest of the wing during manoeuvres, and you have what is generally termed an "unconventional" configuration.

With the aid of lasers and high-speed cameras filming at 4000 frames per second, Oxford University scientists have begun to unravel the hoverfly's secrets by reconstructing how the wings' three-dimensional shape changes through the stroke.

Intriguingly, the hinged flap at the base of the wing seems to be intimately involved in the hoverfly's extraordinary manoeuvering performance.

Aircraft designers are unlikely to stop using rigid wings anytime soon, but for small and highly manoeuvrable micro-aircraft, bendy wings might just be the next big thing. Watch the video here.

A report of the research, 'Deformable wing kinematics in free-flying hoverrflies', is published online in Journal of the Royal Society, Interface.

The research was undertaken by Dr Simon Walker, Professor Adrian Thomas and Dr Graham Taylor of the Oxford Animal Flight Group, part of the Department of Zoology at the University of Oxford.

NASA's brain-dump spins off

2009-05-20T11:08:08Z

NASA has managed to tick all the green boxes with their latest effort to link algae-based fuel production with a cheap method of sewage treatment - growing algae for biofuel in plastic bags full of shite floating in the ocean.

The effort which comes out of NASA's Ames Research Center in California, has three goals: produce biofuels with few resources in a confined area, help cleanse wastewater, and capture carbon dioxide.

As Scientific American reports, the process starts with algae being placed in sewage-filled semipermeable membranes specially developed by NASA to recycle astronauts' wastewater on space missions.

The membranes let freshwater leave but prevent saltwater from moving in. The algae then feast on nutrients in the sewage bag, cleansing the water and producing lipids used later as fuel.

And apparently even if the bags leak, the saltwater would kill the freshwater algae, preventing the escape of an invasive species.

Cancer scanning technology detects explosives

2009-05-20T10:57:57Z

Manchester Airport will be the first in the UK to buy a scanning system used in cancer hospitals to detect explosives in luggage.

It has ordered a Rapiscan RTT high-speed baggage screening system which uses computed tomography, or CT, scans of the type used in medicine to estimate the size of tumours.

Airports generally use x-rays to scan baggage because CT scans, although more effective, take too long. Rapiscan's new RTT machine , whose name stands for real time tomography, delivers 3-D images claims to work just as quickly as an x-ray.

The machine can also detect viscosity levels in liquids, alerting security staff to fluids containing explosives.

Rapiscan which is headquartered in California, owns a UK cargo division in Congleton which makes machines for scanning cargo and vehicles while its CXR research and development arm, set up a base in the UK in 2006 to collaborate with the University of Manchester on 3-D scanning.

European R&D: all work and no pay-back

2009-05-20T10:50:20Z

A higher level of research and development spend by Europe neither guarantees future innovations will come from Europe nor delivers more creativity, higher profit or a greater market share, according to one US-based think tank.

A new study by the Center for Strategic and International Studies concludes that while Europeans spend a lot on R&D, much of what they develop is not commercially useful. This would explain relatively high R&D expenses per employee, but low conversion of R&D spending into sales.

US companies, on the other hand, commercialize their R&D more effectively, getting more sales out of a given level of research investment. This, they argue, is consistent with relatively larger defence procurements; for US companies, investment in a new product is more likely to result in relatively larger sales. It is also consistent with the pressure to perform the capital markets place on US public companies.

Do European companies really spend more seeking innovation, while their transatlantic cousins are more likely to find and commercialize it?

Video: Airbus charts RNP Quovadis venture

2009-05-13T15:50:46Z

European airframer Airbus has just announced it is to sell and provide required navigation performance (RNP) services to air navigation authorities, airlines and airports through a new 100 per cent subsidiary called Quovadis.

Services on offer from July 2009 will range from RNP procedures design, testing and flight operations packaging, to RNP training.

To support the new business, Airbus has signed a cooperation agreement for RNP procedure design with the French Civil Aviation University (ENAC) in Toulouse, and CGx AERO in SYS, a specialist in aeronautical and geographic information systems based in Castres, France.

Check out this series of video which show what US based procedures design specialist Naverus do in this area and Flight's latest environment special report on advanced air navigation procedures.

VIDEO: DLR's robots vow "They'll be back"

2009-05-13T12:59:25Z

Remember Isaac Asimov's three laws of robotics?

Namely:

A robot may not injure a human being or, through inaction, allow a human being to come to harm.
A robot must obey orders given to it by human beings, except where such orders would conflict with the First Law. A robot must protect its own existence as long as such protection does not conflict with the First or Second Law.

Well, these crazy guys at DLR - or the German Aerospace Centre - are on their way to Kobe, Japan, for the IEEE International Conference of Robotics and Automation where they attempt to depict experiments of robots crashing into human test dummies.

As the journalist from Engadget points out, the guys who videoed their experiements, obviously took a sadistic pleasure in their research which explores human-robot accidents so that robots can be made safer. Check out the cold-blooded laughter after the first gruesome impact.... far too reminiscent of the Stanford Prison Experiment if you ask me....

VIDEO: The original claims over how 9/11 affected the climate

2009-05-13T12:43:03Z

Did you read my blog posting disputing the claim that the three-day absence of contrails had a significant influence on the climate post-9/11?

According to US scientists who studied US skies after the September 11 terrorist attacks in 2001, the absence of artificial clouds caused by the grounding of all civil aircraft triggered variations in the earth's temperature range by 1.1 degrees Celsius (2 degrees Fahrenheit) each day.

Here's a great video to watch about those original claims.