Friday, December 7, 2018

Interesting Article With Totally Misleading Headline

The Guardian (UK) titles the article "First Ever Plane With No Moving Parts Takes Flight", but that's not true at all.  It's not what they mean.

They mean it's a plane without a motor that has moving parts.  Thousands of simple gliders with no moving parts have flown.  If you've folded up a paper plane and thrown it, that was a plane with no moving parts.  They actually say it correctly in the article:
The first ever “solid state” plane, with no moving parts in its propulsion system, has successfully flown for a distance of 60 metres, proving that heavier-than-air flight is possible without jets or propellers.
The glorified paper plane shown flying in the article is flying with ionic wind propulsion.  The approach uses a powerful electric field to generate charged nitrogen ions, which are then expelled from the back of the aircraft, generating thrust.

Ionic propulsion is not a new idea; it has been investigated off and on since the 1920s, and always found to be impractical.  No aircraft has ever been known to fly with purely ionic propulsion.  NASA investigated it in 2009 (pdf warning).  Technologies change, though, and no branch of technology changes faster than electronics.  Could it be the shrinking of power supply components can make the approach feasible?  The investigator this time is MIT aeronautics instructor Steven Barrett, who “...went through a period of about five years, working with a series of graduate students to improve fundamental understanding of how you could produce ionic winds efficiently, and how that could be optimised.”


In the prototype plane, wires at the leading edge of the wing have 600 watts of electrical power pumped through them at 40,000 volts. This is enough to induce “electron cascades”, ultimately charging air molecules near the wire. Those charged molecules then flow along the electrical field towards a second wire at the back of the wing, bumping into neutral air molecules on the way, and imparting energy to them. Those neutral air molecules then stream out of the back of the plane, providing thrust.

The end result is a propulsion system that is entirely electrically powered, almost silent, and with a thrust-to-power ratio comparable to that achieved by conventional systems such as jet engines.
The abstract of their paper in Nature points out:
Here we demonstrate that a solid-state propulsion system can sustain powered flight, by designing and flying an electroaerodynamically propelled heavier-than-air aeroplane. We flew a fixed-wing aeroplane with a five-metre wingspan ten times and showed that it achieved steady-level flight.  All batteries and power systems, including a specifically developed ultralight high-voltage (40-kilovolt) power converter, were carried on-board. We show that conventionally accepted limitations in thrust-to-power ratio and thrust density 4,6,7, which were previously thought to make electroaerodynamics unfeasible as a method of aeroplane propulsion, are surmountable.

One of the indoor test flights of their "five meter wingspan" aircraft - which resembles a box kite.  If you squint.  It was launched by what seems to be similar to an aircraft carrier catapult, raising questions about just what sort of thrust to power ratio they can achieve.  Model airplanes with two-stroke internal combustion engines are capable of taking off without a catapult.  On the other hand, by all accounts this prototype is very early in the development process and a primitive design. 

Does this represent some sort of new paradigm in aviation that will lead to passenger airplanes powered by ionic acceleration like this?  Maybe it doesn't achieve that level, but instead becomes part of a niche market; maybe for drones, maybe replace the cellphone-relaying, high-altitude balloons that go high and stay over one point on the ground?   Something like those options might well happen.



9 comments:

  1. Generate a coronal discharge, and then blow it back.

    Interesting.....

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    Replies
    1. It might be the future, DRJIM.

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    2. It will be less efficient at high altitudes because the air density is lower. This prototype isn't very impressive, though. If you applied 600 watts (most of a horsepower!) to a conventional prop you could fly a proper drone and carry a real payload.

      This will go nowhere unless they can increase the efficiency of imparting momentum to the ambient air molecules.

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    3. When I said, " Model airplanes with two-stroke internal combustion engines are capable of taking off without a catapult. " I should have mentioned power or displacement. I'm thinking a few CCs of displacement.

      This thing barely outflew unpowered paper airplanes and they're making a big deal out of it. The little balsa planes with windup rubber band propellers that we had as kids would outperform it.

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    4. When I was a little kid (eight or so) I was forced to spend a summer with a grandparent's relative I barely knew, and had absolutely nothing to do for entertainment -- until I discovered what you could do with glue, balsa, a plastic propeller, and a rubber band.

      I learned a great deal about drag and stability that summer!

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  2. carbon-neutral air travel

    I was gonna say that as a joke, but there it is at the top of the article.

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    Replies
    1. Coal-powered, actually, with perhaps a little natural gas and neutrons mixed in.

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    2. That really seems to be the emphasis. It's OK if the thing is coal powered because Greenies think the electricity magically appears. Just like it magically gets from the wind turbines to the grid without needing power lines.

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  3. If some of the grids were placed above the wing, that might increase lift a little.

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