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Transportation

Vancouver Seaplane Company To Resume Test Flights With Electric Plane (www.cbc.ca) 62

A Vancouver seaplane company says its retro-fitted all electric airplane is set to take to the skies for more test flights this year, as it pushes forward with its plans to make commercial air travel cheaper and greener. CBC.ca reports: "There's no wavering in our confidence and determination and interest in getting this done," said Harbour Air CEO Greg McDougall. Founded by McDougall in 1982, Harbour Air uses small propeller planes to fly commercial flights between the Lower Mainland, Seattle, Vancouver Island, the Gulf Islands and Whistler.

In the last few years it has turned its attention to becoming a leader in green urban mobility, which would do away with the need to burn fossil fuels for air travel. In December 2019, McDougall flew one of Harbour Air's planes, a more than 60-year-old DHC-2 de Havilland Beaver float plane, which had been outfitted with a Seattle-based company's electric propulsion system, for three minutes over Richmond B.C.

Harbour Air joined with Seattle-based company MagniX in early 2019 to design the e-plane's engine, which was powered by NASA-approved lithium-ion batteries that were also used on the International Space Station. At the time, based on the success of that inaugural flight, McDougall had hoped to be using the plane to fly passengers on its routes, such as between downtown Vancouver and downtown Victoria, by the end of this year. Now, that timeline has been pushed back at least one year due to the pandemic.

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Vancouver Seaplane Company To Resume Test Flights With Electric Plane

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  • ... safely and comfortably get me where I want to go when I want to go faster than ground transportation at an affordable price.

  • so if something goes wrong and it gets partially submerged in water, perhaps damaged, what can be done to keep the passengers/crew safe from electric shock drowning ? I suppose they can wire the batteries to try to avoid having a strong electric field through the passenger area, but if the plane is damaged then presumably the original wiring geometry can't be guaranteed.
  • ... serious and sensible application for commercial electric flight I have seen. All the other fantasies so far were based on unrealistic assumptions and neglecting reality (Lilium comes to mind, besides many more which look more like an instrument to separate gullible investors from their money). Now here the boundary conditions look more credible:

    - Only short hops between islands
    - Power demand to get over the hump on take-off is easier to satisfy with electric motors
    - Lots of possible landing spo

    • by tlhIngan ( 30335 )

      The thing with electric planes is the mass is constant. You land with the same weight as when you started.

      If you don't know why that's that a good thing - shifting mass means a changing CG, and planes are carefully loaded to ensure that the CG stays within a specified rage (the CG envelope) from full tanks to empty. As the plane uses up its fuel, it gets lighter.

      Helicopter pilots often have to seal with chifting CG as passengers get on and off, or when carrying cargo that is dropped off.

      An electric plane do

      • The thing with electric planes is the mass is constant. You land with the same weight as when you started.

        If you don't know why that's that a good thing - shifting mass means a changing CG, and planes are carefully loaded to ensure that the CG stays within a specified rage (the CG envelope) from full tanks to empty. As the plane uses up its fuel, it gets lighter.

        Helicopter pilots often have to seal with chifting CG as passengers get on and off, or when carrying cargo that is dropped off.

        An electric plane doesn't have its CG change. This itself can make for more interesting aircraft designs because without fuel changing the CG, the design can be different to allow for narrower CG ranges that are defined more by carrying capacity than fuel.

        CG is extremely important on a plane. Get too tail heavy, and kiss your butt goodbye. I did a lot of flying some years ago, and always traveled heavy - My equipment was essentially another passenger. Puddle jumpers for the first and last legs of the flight One time a really obese guy got on the plane, and they had to move him to a different seat to balance the plane. I knew why, and felt a bit like an asshole for his embarrassment, because it was my equipment that made for the balance problem. 400 pound gu

  • I mean, truly I wish him luck considering we haven't actually solved the electrical vehicle weight issue for something relatively simpler like delivery trucks.

    (Almost invariably, someone will come here INSISTING they've been commercialized: they have not. Such is the typical "if I wish hard enough it will exist" of the electric car lobby.)

  • by minogully ( 1855264 ) on Tuesday January 26, 2021 @08:43AM (#60992828) Journal
    How much energy would be saved if electric planes were launched similar to how jets take off from aircraft carriers.

    Would the savings be marginal or make a big impact?
    • Some back of the envelope calculation:
      1) Speed at rotation is maybe 1/3 of cruise speed
      2) Kinetic energy is a function of the square of velocity
      3) This would do nothing for the change in potential energy getting the plane to cruising altitude

      So I'd say it would saved much less than 10% of total trip energy.

      • That would however increase the range roughly for the same amount.

      • "it would saved much less than 10% of total trip energy". Much less, I'd say. If rotation (which presumably happens at the same time as the plane clears the catapult), is 1/3 cruise speed, then you've saved 11% (1/9th) of the energy it takes to get to cruise speed without a catapult. You still have to get to altitude (your point 3), and then cruise to wherever you're going, pushing aside air all the way.

        Also, when planes launch off a carrier, they're full throttle (with afterburner going, IIRC); the cat

        • I was thinking about the regen during descent, but I gave up on it as a worthwhile means to save energy because what happens right after descent is landing, where battery recharging can happen off the grid. So, not much of a point, that I see. But I could be missing something.
    • by cusco ( 717999 )

      There would be fuel savings from the launch, but catapult launches are extremely stressful for the airframe. The entire structure of the aircraft would have to be beefed up, which adds weight. I suspect it would be a non-starter because of that concern.

      On the other hand, taxiing a jumbo jet from the gate to the end of the runway uses a huge amount of fuel. I asked a pilot why they didn't tow the plane to the end of the runway, and his response was that if a last minute issue prevented them from taking of

      • You seem not to be aware how close after each other passenger jets are launching.
        Of course a plane "stranded" at one edge of the runway would block the runway.

        However modern planes are starting to use electric engines in the wheels to taxi from and to the runway.

        • by cusco ( 717999 )

          Oh, I got that all right, I just don't know why the cart that towed Aircraft 2 into place couldn't also remove Aircraft 1 out of the way.

          Wasn't aware they're using electric engines in the wheels, cool development.

    • by AmiMoJo ( 196126 )

      It would probably be worse overall due to added weight. The amount of energy used at take-off is a small part of the overall flight, but you have to carry the extra weight the whole way.

      It would probably have to be a very, very big catapult as well, so that acceleration could be low and not rip the aircraft apart. You also need time to reset it and ground crew to attach it, working in a dangerous zone where aircraft are moving at speed.

  • On a sea plane. I saw what you did there.

  • by donfede ( 6215 ) on Tuesday January 26, 2021 @10:15AM (#60993184) Homepage

    What about shedding weight by dumping expended batteries mid flight, possibly in a controlled manner with parachutes? This could be a bit like rocket booster stages, where more recent models are recoverable (space-x style).

  • Electric planes with lithium batteries are a PR gimmick at best. The Beaver can barely take off with the pilot on board. There is no room in the cabin for a passenger due to the battery packs. A better battery with at least 10x the energy density will be needed to give the seaplane capacity for a 20 minute flight with passengers, and that battery is nowhere on the horizon. Great, you strapped wings to this pig and it staggered into the air. You could have done something useful to reduce C02 emissions such a

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