Let's back up for a moment. Aircraft change their position in flight by changing the positions of various small surfaces primarily on the wings and the vertical stabilizer. A "typical" configuration looks like this:
The main drawback to all this is mechanical (or electrical) complexity which in turn brings maintenance and weight issues. "Fly by wire", followed by "fly by light", are terms that come from replacing mechanical linkages; that is, cables on pulleys, first with electrically controlled activation of the surface, then with fiber optic command activation. Instead, these researchers intend to control the aircraft by blowing air from the engine in the right directions and places
Magma Aviation Project is a new concept that will remove the complex moving parts, and reduce the weight and maintenance costs needed for aircraft to manipulate the air. As a result, aircraft will be able to travel quieter and more efficient. The project looks to accomplish this feat without any control surfaces—no ailerons, flaps, or tails.The test vehicle, the Magma drone, flew its first successful test flight on December 13.
Two key technologies allow the aircraft to manipulate air differently. First, the aircraft will have wing circulation control. This siphons the air from the aircraft’s jet engine and dispels it at supersonic speed through the trailing edge over the back of the wing, proving lift control. It eliminates the need for any mechanical moving surfaces. The second technological advantage is fluidic thrust vectoring. By using jets of air, the aircraft can deflect the exhaust and change the aircraft’s direction.
Clyde Warsop, Engineering Fellow here at BAE Systems, said: “The technologies we are developing with The University of Manchester will make it possible to design cheaper, higher performance, next generation aircraft.”I was unable to find a better (bigger, more legible) version of the graphic from the original source Machine Design article which describes what the system does.
It occurs to me that flaps are most needed during takeoff and landing, but during takeoff is a bad time to take some of the engine thrust to do anything else. While commercial aircraft are rated to perform a safe takeoff and landing if one of their two engines dies at the worst moment, adding more thrust requirements for the tiny amount of time of takeoff might be the point of diminishing returns.
File this away as something to keep an eye on. Flapless demo aircraft have flown before, I just don't find evidence that aircraft without ailerons have flown before. It seems revolutionary.
I'd want an ejection seat...ReplyDelete
United Airlines Flight 232 - A McConnell Douglas DC-10 - already demonstrated the capability back in July of 1989. Landings are an issue. And as you note, takeoffs as well.ReplyDelete
I should have remembered that crash last night. For readers, the tail mounted engine in the DC-10 disintegrated and took out all of the hydraulic systems that run the control surfaces so that the redundant systems were all destroyed at once. The crash killed roughly a third of the passengers on the jumbo jet, but it always struck me as miraculous that as many people survived as did.Delete
What little control the pilots had was obtained by throttling the engines up and down. Jet engines respond slowly and they were unable to control the aircraft well enough to land safely.
The other part of their problem is that airplanes have to slow down to land, and the only way they could do that is by reducing thrust, which dropped the nose. If they hadn't reduced power as they did when they did, they would have overshot the runway and crashed into the Missouri River.Delete
Likely this concept will be targeted towards unmanned aircraft, to increase their range. Versions carrying humans will come much later, after it has been thoroughly wrung out.ReplyDelete
There is a school of thought that manned fighters are going away, since the mechanical systems can handle far higher G-loads than people can.Delete
Just a thought, maybe the wing warping controls of the Wright brothers just had to wait for technology to catch up.ReplyDelete
There are a number of NASA you tube videos that cover the Prandtl-D wing form that are well worth the time to watch. The best is with a NASA engineer and some also cover the students that worked with him. It imitates the way a sea bird flies. indyjonesouthereReplyDelete