Showing posts with label aerodynamics. Show all posts
Showing posts with label aerodynamics. Show all posts

Tuesday, April 24, 2012

How Bee Navigation May Assist Transportation And Travel

When landing, bees adjust their flight speed and altitude by measuring the optic flow generated by the ground. Credit: Xia Di

Bee Navigation Aids Robot Aircraft -- Cosmos

A scientist’s passion for bees and their remarkable flying skills is opening up undreamed-of possibilities in human transportation and travel.

Air travel is likely to become a great deal safer, more precise and efficient in future - thanks to the humble honeybee. From take-off to landing, both piloted and pilotless aircraft as well as ground vehicles are now starting to employ the vision and navigation strategies of these remarkable flying insects.

A wide range of aerial tasks that are repetitive or dangerous for humans, such as checking reservoirs, inspecting power transmission lines, bushfire and weather monitoring, mapping and exploring, and crop dusting as well as defence roles may soon be carried out based on what we have learned from bees. One day their abilities may even help us to explore Mars.

Read more ....

My Comment: A detailed look on how they fly.

Thursday, March 18, 2010

Tough Coatings For Airplanes

Image: Paper for airplanes: This paper (top), made from layers of tiny clay discs and a polymer (seen under the microscope at bottom), might be used as a strong, lightweight coating for buildings and airplanes. Credit: Andreas Walther

From Technology Review:

A strong material inspired by abalone shells could be applied over large areas.

For decades, materials scientists have looked to naturally existing composites as inspiration for tough, lightweight materials that could lighten vehicles. Such materials could save on fuel costs, protect airplanes, and be used in engine turbines that run more efficiently. The material that lines abalone shells, called nacre, has been of particular interest: it's lightweight and strong, yet shatter-resistant. But mimicking the microscale structures responsible for its properties has been difficult, and hasn't resulted in materials that can be manufactured on a large scale.

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Monday, December 28, 2009

The Top 9 Airplane Tech Advances Of The Last 10 Years

Northrop Grumman RQ-4 Global Hawk

From Popular Mechanics:

The aughts capped 100 years of powered flight, pushing the technologies introduced in the 20th century to their limits. This past decade has seen the development of the biggest passenger airplanes, the fastest, most agile and stealthiest fighters, and the joy of flight brought to the amateur pilot as never before. The coming decade promises breakthroughs such as combat-ready unmanned aerial vehicles, commercial rocket planes, hypersonic jets, and more. Here's a look back at the aviation milestones of the aughts and a glimpse of what the coming decade might hold.

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Monday, December 14, 2009

Video: NASA Drops A Helicopter From Midair To Test New Anti-Crash Tech



From Popular Science:

No stranger to rough landings, NASA just engineered a crash of its own design to test a new crash countermeasure for helicopters. NASA dropped a donated Army MD-500 carrying four crash test dummies from 35 feet, to determine whether a new honeycomb cushion made of Kevlar strapped to the bottom of the copter could absorb the brunt of the impact. The result: a more or less intact MD-500, and the cool impact video below.

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Friday, December 11, 2009

Using Airplane Know-How To Harness Wave Energy

Image credit: SSgt Danny Washburn, U.S. Air Force Academy, Department of Aeronautics

From Live Science:

This is the view looking into the test section of the U.S. Air Force Academy water tunnel. Three blades of a cycloidal turbine — part of a new wave energy system — are visible at the far end. Engineer Stefan Siegel and his colleagues test the turbine in the tunnel under conditions that emulate shallow-water waves. Wave energy isn't new, but Siegel and his Academy colleagues are the first to apply their aerodynamics training to the problem.

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Sunday, December 6, 2009

Copying Birds May Save Aircraft Fuel

Photo: Corbis

From The Economist:

BOTH Boeing and Airbus have trumpeted the efficiency of their newest aircraft, the 787 and A350 respectively. Their clever designs and lightweight composites certainly make a difference. But a group of researchers at Stanford University, led by Ilan Kroo, has suggested that airlines could take a more naturalistic approach to cutting jet-fuel use, and it would not require them to buy new aircraft.

The answer, says Dr Kroo, lies with birds. Since 1914, and a seminal paper by a German researcher called Carl Wieselsberger, scientists have known that birds flying in formation—a V-shape, echelon or otherwise—expend less energy. The air flowing over a bird’s wings curls upwards behind the wingtips, a phenomenon known as upwash. Other birds flying in the upwash experience reduced drag, and spend less energy propelling themselves. Peter Lissaman, an aeronautics expert who was formerly at Caltech and the University of Southern California, has suggested that a formation of 25 birds might enjoy a range increase of 71%.

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Tuesday, November 17, 2009

Don't Pack Your Parachute: Totally Free Fall



From New Scientist:

ON A bright day in 1912, an Austrian tailor named Franz Reichelt jumped off the Eiffel Tower in Paris, France. This was no suicide attempt. Reichelt was wearing a special overcoat of his own design that was supposed to let him glide gently to the ground. Sadly, it didn't work. As the crowd watched and movie cameras whirred, the "flying tailor" plunged 60 metres to his death.

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Sunday, November 1, 2009

Autopia Planes, Trains, Automobiles And The Future of Transportation Little X-Plane Pushes Bottom Edge Of The Envelope


From Autopia:

Flight test programs at Edwards Air Force Base and NASA’s Dryden Flight Research Center usually are off-limits to outsiders, but we got a peek at one of its coolest programs, the X-48B, when the Air Force recently threw open the gates for an open house.

The X-48B is the latest in a long line of experimental X-planes, and the joint venture between NASA and Boeing’s Phantom Works is unlike most that came before. The blended wing-body aircraft isn’t some sort of sierra hotel fighter jet, it doesn’t have a pilot on board and it’s not even full-size. Despite being an

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Thursday, October 29, 2009

‘Impossible’ Device Could Propel Flying Cars, Stealth Missiles

From the Danger Room:

The Emdrive is an electromagnetic drive that would generate thrust from a closed system — “impossible” say some experts.

To critics, it’s flat-out junk science, not even worth thinking about. But its inventor, Roger Shawyer, has doggedly continued his work. As Danger Room reported last year, Chinese scientists claimed to validate his math and were building their own version.

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My Comment: If this is even remotely possible, warfare as we know it will completely change. Again .... it is a big if.

Thursday, October 15, 2009

Gallery: Let the X-Planes Begin


From Autopia:

Few aircraft are as storied as the experimental series known as the X-Planes. These flying laboratories date to the mid-1940s and took us ever higher, further and faster.

The first, the Bell X-1, was developed to explore transonic flight after fighter pilots began experiencing control problems as they approached the speed of sound in dives. Since then, a long list of X-Planes — and other test aircraft lacking the official ‘X’ moniker — have explored the unknown edge of aerodynamics and aviation. From the early days of supersonic flight and speed records to the possibilities of unmanned combat aircraft, X-Planes have, as their pilots say, pushed the edge of the envelope.

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Friday, October 2, 2009

How Aviation Can Come Clean

Image: Flying wing: The Boeing X-48B, an unmanned prototype with a 6.4-meter wingspan, has a blended-wing design that could one day replace that of today's commercial planes. Credit: NASA

From Technology Review:

Advanced technology won't be enough for the industry to meet its own greenhouse-gas targets.

Last week the global aviation industry called on the United Nations to establish a single, worldwide policy for reducing aviation greenhouse-gas emissions, in an attempt to avoid a costly network of regional regulations. The industry proposed two primary goals--that by 2020 it should stop increasing its greenhouse emissions, and that by 2050 it should cut its emissions by 50 percent compared to 2005 levels.

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Saturday, September 19, 2009

Secrets Of Insect Flight Revealed: Modeling The Aerodynamic Secrets Of One Of Nature's Most Efficient Flyers

Smoke visualization in Oxford University's wind tunnel showing the airflow over a flying locust's wings. (Credit: Animal Flight Group, Dept. of Zoology, Oxford University and Dr John Young, UNSW@ADFA)

From Science Daily:

ScienceDaily (Sep. 18, 2009) — Researchers are one step closer to creating a micro-aircraft that flies with the manoeuvrability and energy efficiency of an insect after decoding the aerodynamic secrets of insect flight.

Dr John Young, from the University of New South Wales (UNSW) in Australia, and a team of animal flight researchers from Oxford University's Department of Zoology, used high-speed digital video cameras to film locusts in action in a wind tunnel, capturing how the shape of a locust's wing changes in flight. They used that information to create a computer model which recreates the airflow and thrust generated by the complex flapping movement.

Read more ....

Wednesday, August 26, 2009

Video: UAV In A Firefight Of A Different Kind



From Autopia:


Unmanned aerial aircraft see a lot of action on the battle front, but not all the battles are in Iraq or Afghanistan. Some firefights are waged on the home front.

Earlier this month in Alaska, a 40-pound Insitu Scan Eagle saw duty fighting wildfires after dense haze grounded conventional aircraft. The UAV is operated by the University of Alaska, which according to university officials is the first entity other than NASA or the Department of Homeland Security allowed to fly an unmanned aircraft beyond the line of sight in civil airspace.

Read more ....

Saturday, August 22, 2009

Building Safer Airplanes Out of Teeth

Smile for Airplane Safety!: Curtiss P-40 Warhawk USAF Museum

From Popular Science:

In a recent study, molars beat materials science.

Airplane design could be improved with a little inspiration from mammalian chompers. Or so said aerospace engineer Herzl Chai of Tel Aviv University in a press release Wednesday.

Read more ....

Friday, August 21, 2009

Who Said Anything About Landing? The Unmanned Surveillance Plane That Can fly For Five Years Non-Stop

Shape-shifter: The Z-wing configuration allows the
aircraft to absorb solar power when in sunlight


From The Daily Mail:

It might look like alien technology but this aircraft is no UFO. It's an Odysseus solar-powered aircraft that aims to be able to stay in the air for over five years continuously.

It has a Z-wing configuration that spans almost 500ft (150 metres) so that the aircraft's shape can be adjusted when in sunlight to absorb as much solar power as possible.

Then when it is in darkness, it flies flat in a straight line for aerodynamic efficiency with the energy collected stored in onboard batteries used to drive the aircraft's electric motors.

Read more ....

Thursday, August 20, 2009

Why Large Carbon-Fibre Planes Are Still Grounded

Image: Still grounded (Image: Boeing)

From New Scientist:

IF YOU want to know why carbon-fibre planes such as the Boeing 787 are still on the tarmac, it's worth rewinding to the 1950s.

That's when the UK's chances of dominating the post-war aviation market were dashed by fatal in-flight failures of the de Havilland Comet, the first airliner to sport a pressurised aluminium fuselage. Metal fatigue induced by repeated pressurisation cycles created cracks that started around the plane's window frames. "Although much was known about metal fatigue, not enough was known about it by anyone, anywhere," lamented Geoffrey de Havilland in his autobiography.

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Saturday, August 15, 2009

Legacy B-52 To Launch Futuristic WaveRider

The X-51A WaveRider hypersonic flight test vehicle was uploaded to an Air Force Flight Test Center B-52 for fit testing at Edwards Air Force Base. (Credit: USAF)

From CNET:

The X-51A WaveRider is one step closer to its inaugural test flight later this year, now that airmen at Edwards Air Force Base have successfully "mated" the scramjet-propelled vehicle to a B-52 Stratofortress.

In December, an Air Force Flight Test Center B-52 is scheduled to papoose the X-51A to 50,000 feet over the Pacific Ocean before cutting it loose. At that point, a solid rocket booster from an ATACMS missile will fire up, accelerating the X-51 to about Mach 4.5. That's when the supersonic combustion ramjet kicks in, pushing the WaveRider to more than Mach 6 for up to five minutes, longer than all of its predecessors combined. NASA tests have reached Mach 9.6, or nearly 7,000 mph, according to some reports, but not for very long. The previous record was less than 10 seconds. Flight data will be telemetered back to Edwards Force Base before the X-51A test vehicle crashes into the Pacific.

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Wednesday, August 5, 2009

A More Efficient Spacecraft Engine

Photo: Ion power: NASA’s new ion-propulsion system is undergoing testing at the Jet Propulsion Laboratory in Pasadena, CA. Credit: NASA

From Technology Review:

NASA's new ion-propulsion system could be ready for launch as soon as 2013.

NASA engineers have finished testing a new ion-propulsion system for earth-orbiting and interplanetary spacecraft. The system is more powerful and fuel-efficient than its predecessors, enabling it to travel farther than ever before.

Ion propulsion works by electrically charging, or ionizing, a gas using power from solar panels and emitting the ionized gas to propel the spacecraft in the opposite direction. The concept was first developed over 50 years ago, and the first spacecraft to use the technology was Deep Space 1 (DS1) in 1998. Since then, one other spacecraft has used ion propulsion: the Dawn mission to the outer solar system, launched in 2007.

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Friday, July 31, 2009

Laser Propulsion: Wild Idea May Finally Shine

From Space.com:

New laser propulsion experiments are throwing light on how to build future hypersonic aircraft and beam spacecraft into Earth orbit.

Indeed, a "Lightcraft revolution" could replace today's commercial jet travel. Passengers would be whisked from one side of the planet to the other in less than an hour - just enough time to get those impenetrable bags of peanuts open. Furthermore, beamed energy propulsion can make flight to orbit easy, instead of tenuous and dangerous.

That's the belief of Leik Myrabo an aerospace engineering professor at Rensselaer Polytechnic Institute in Troy, NY. He's an expert in directed energy applications, aerospace systems, space prime power, and advanced propulsion.

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Tuesday, June 30, 2009

What Supersonic Looks Like

A U.S. Air Force F-22 Raptor aircraft participating in Northern Edge 2009 executes a supersonic flyby over the flight deck of the aircraft carrier USS John C. Stennis (CVN 74) while the ship is underway in the Gulf of Alaska on June 22, 2009. The visual effect is created by moisture trapped between crests in a sound wave at or near the moment a jet goes supersonic. Credit: DoD/Petty Officer 1st Class Ronald Dejarnett, U.S. Navy

From Live Science:

The breaking of the sound barrier is not just an audible phenomenon. As a new picture from the U.S. military shows, Mach 1 can be quite visual.

This widely circulated new photo shows a Air Force F-22 Raptor aircraft participating in an exercise in the Gulf of Alaska June 22, 2009 as it executes a supersonic flyby over the flight deck of the aircraft carrier USS John C. Stennis.

The visual phenomenon, which sometimes but not always accompanies the breaking of the sound barrier, has also been seen with nuclear blasts and just after space shuttles launches, too. A vapor cone was photographed as the Apollo 11 moon-landing mission rocketed skyward in 1969.

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