The Electric Airplane Is Coming

An anonymous reader writes "The electric car is so yesterday; electric airplanes are coming. A battery electric-powered ultralight aircraft has been flying for the last year. A series-hybrid motor glider and a concept for an all-electric, 50-seat passenger plane were introduced at the Paris Air Show."

First post from an electric airplane!

[GameboyRMH]

Writing from my Alienware laptop while running Crysis, powered by the cig. port! This is so much fu^H^H NO CARRIER

Re:

[Bob the Super Hamste]

This is probably the best first post I have seen in a while

When?

[impaledsunset]

From TFA: 'The power capacity of battery technology, he continued, would have to grow by “at least a factor of four before we are near where we need to be to accomplish this.'

This is when electric aeroplanes would become really feasible.

SMES

[Tatarize]

You could use superconductive storage today and get the right battery-weight. It would actually weigh much less than jet fuel to add enough power to a series of superconductive coils and store the power. A typical coil of SMES in current use can get about a 1 MW/h which is 3600 Megajoules, typically a kilo of jetfuel has something like 44 megajoules of power, so one coil would replace 81 kilos of jet fuel. You'd need like 57 thousand kilos of jetfuel to go a typical 3,500 statute mile flight. Which is 705 s

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[bwayne314]

You also didn't take into account that the jet-fuel payload decreases throughout the duration of the flight as it is burned up, typically by the end of the flight most of the fuel is gone and the plane is much lighter, resulting is better fuel efficiency. While batteries can't be dumped out of the plane after they are discharged.

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[Jeremi]

While batteries can't be dumped out of the plane after they are discharged.

Sure they can. ;^)

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[Tatarize]

I didn't have to. The truth is that a 1 MW/h SMES weighs about as much as a horseshoe. To replace 81 kilos of jet fuel. It's *significantly* lighter. And then you get to rip off a lot of parts of the plane as generally useless and just use a much smaller electric engines. And I calculated it for a 747, rather than any other plane. I'm already using much less weight it's fine. The average weight of the fuel is much less than with the jet fuel. And the values I used for jet-fuel were the averages already so i

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[wagnerrp]

The truth is that a 1 MW/h SMES weighs about as much as a horseshoe.

MW/h. You keep using that word. I do not think it means what you think it means.

none of which I bothered to take into account, because they only help my case.

Nothing can help your case if you can't keep your god damned units straight. It makes you look like someone who is just regurgitating crap they read off some internet webring, without understanding any of its implications.

Re:SMES

[fluffy99]

When you start using units like 'megawatts per hour' to describe energy, nothing else you say engineering related has any credibility.

Huh? When you're talking about electricity *storage* you have to say how long a device can supply the stated power for.

Methinks YOU'RE the one who just dashed your credibility on the rocks of /.

Try megawatt x hours, not megawatts/hour. Using the wrong units hinders your credibility.

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[antdude]

Why were you using dial-up Internet? ;)

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[Teancum]

Why were you using dial-up Internet? ;)

Because it is faster than trying to use Comcast.

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[antdude]

Then, why subscribe to Comcast? ;)

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[marcosdumay]

A missing carrier can be a serious problem for a plane.

So does this mean I can stop seeing those ads

[Bob the Super Hamste]

So does this mean I can stop seeing those ads and comments stating that we don't have anything to run our planes on other than oil based products.

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[GameboyRMH]

Maybe some day, but right now this is only practical for light and ultralight aircraft. Still no replacement in sight for large aircraft.

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[Mindcontrolled]

Well, we have at least seen test flights by major airlines on biodiesel - then again, a turbine driven engine will probably eat most flammable crap thrown at it. Obviously bio fuels are not really a replacement at the current state, though algae derived stuff might be able to be mass produced in somewhat sufficient quantities at some point. The most sensible "replacement" would probably be not having bloody strawberries flown in over half the world in freaking winter...Personally, I'd not count that as a lo

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[vlm]

a turbine driven engine will probably eat most flammable crap thrown at it

Soot and ash production make them extremely unhappy. Even the finest powdered anthracite coal just isn't clean enough. Other than that, yes correct.

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[Mindcontrolled]

Ah, yeah - that was a bit too general. I didn't even think about powdered coals - what I really meant was "any flammable distillate, however crappy". I guess the problem with coal would be the inevitable content of silicates that glass up and become hellish abrasives, rather than the soot, though?

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[wagnerrp]

Exactly. Anything hard and solid that makes it through the combustor will tear up a high pressure turbine.

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[michelcolman]

Well, it's correct for old jet engines, but the newer models are so fine-tuned to their specific fuel that they need a fair bit of tweaking before then can run anything else without having a significantly reduced power output and life span.

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[afidel]

I'd rather not eat gruel for half the year TYVM. Now as to electric planes, I'm not sold. Even if the electric system is twice or even four times as efficient per unit of energy you still have to deal with the fact that kerosene/JP1 is about 40x more dense per unit weight and 80 times per unit volume than Lithium Ion batteries.

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[Mindcontrolled]

Importing strawberries all year long and eating gruel for half the year is a wee bit of a false dichotomy, isn't it? True on the lack of energy density difference between kerosene and current batteries, though.

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[afidel]

Not really, fresh local foodstuffs are only available from about mid June to late October around here. If it weren't for imported foods we'd have to go back to using canned, jarred, and otherwise preserved foods for half the year. Now it might be a bit of a stretch because a lot of things can be moved by ship and rail, but that too has consequences as it leads growers to try to minimize losses in shipping which leads to monoculture and a less healthy and tasty products that are more durable.

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[Mindcontrolled]

True, but there is a continuum - and a lot of fresh produce can be shipped without airfreight, and thereby a lot more energy efficiently. I am not saying that we should go without any fresh imported stuff in winter, but some of it is frankly ridiculous as we are doing it now - and, beside any moral consideration - not affordable given the oil supply situation that will hit us in the next 2 decades. That's not a "you are doing it wrong" argument - that's a "barring radical new developments, we will simply no

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[element-o.p.]

...a lot of fresh produce can be shipped without airfreight, and thereby a lot more energy efficiently...

As was said earlier in this post, that depends entirely upon where you live. I live in Anchorage, Alaska. You can get here by other than by air, but not reliably. Anchorage is (barely, I'll admit) north of the dividing line between ice-free and iced-in seaports. There are two reasonably major highways through Canada, but they both are subject to icy roads in the winter, and as they are in the mountains, that can cause problems as well. There are a lot of railways in south-central Alaska, but I don't kn

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[ryanov]

What is wrong with using canned or jarred vegetables?

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[afidel]

The flavor and texture suck compared to fresh and they normally use salt as a preservative which I need to avoid over-consumption of.

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[element-o.p.]

You cook the nutrients out of them and add a boatload of preservatives, some of which cause allergic or other reactions in some people, for starters.

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[Bob the Super Hamste]

Well it is a start. Those ads always bothered me especially since there are planes that run on things other than fossil fuels, alcohol probably being the next most common. That and the fact the ads were always by oil companies.

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[GameboyRMH]

I always saw the fact that fossil fuels are the only practical fuel for large aircraft as an argument to reduce oil use. If it gets too expensive before we improve battery tech to the point that it can power large aircraft then we're going to hit a big air travel crunch. No point wasting the oil in cars that could just as easily run on electricity from some other source.

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[michelcolman]

But... they showed this beautiful model! You know, made on a computer! Shiny and everything! So this thing must be basically finished, right?

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[fuzzyfuzzyfungus]

Probably not, given that synthesizing hydrocarbon fuels from virtually anything with available hydrogen and carbon is doable if you merely want energy storage rather than cheap energy. The uphill battle for things like batteries is not merely that they aren't where we want them to be for storage; but the fact that their oil-based competitors provide both storage and cheap energy at the same time.

Unlike scarce elements, like helium, that have unique physical properties, oil isn't especially special chemic

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[lyml]

Synthesizing hydrocarbon fuels, though possible, is not only expensive. It is really expensive.

If you exclude other fossil fuels as a suitable candidate (while they can be synthesized into liquid hydrocarbons at an efficiency of about 0.5 they are also running out). The chain electricity->synthetic jet fuel->combustion engine is about one tenth as effective as electricity->battery->electric engine.

So while battery tech might not be quite there yet, even if wide scale synthesis of jet fuel was al

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[Grishnakh]

The chain electricity->synthetic jet fuel->combustion engine is about one tenth as effective as electricity->battery->electric engine.

So while battery tech might not be quite there yet, even if wide scale synthesis of jet fuel was already existing, there would still be a drive force towards electric airplanes.

The entire problem is battery tech, and it's not looking like this is going to change any time soon. The efficiency problem really isn't that important, because our crappy battery tech sim

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[lyml]

I agree with you, battery technology is the problem holding back widespread adoption of electric vehicles. However, for some applications, mopeds, short-distance automobiles and ultra-light aircraft (the articles example) battery technology has already reached sufficient capacity (and those application will use predominantly battery technology once economies of scale kicks in, it has already happened with mopeds).

Though an order of magnitude more capacity is far more capacity than needed. Currently the most

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[aevan]

Shouldn't ever have had to see them. The Russians made a hydrogen-fueled commercial airliner (Tu-155) 23 years ago. They later changed fuels to nat gas, but she initially was oil free (fuel-wise).

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[zAPPzAPP]

Yes, they now run on atoms and stuff.

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[prefec2]

We could always use hydrogen to fuel planes. The question is: Is it wise to use planes for short distance travel when we could use more energy efficient personal transportation devices? The electricity has to come from somewhere and we have to go a long distance to rebuild our energy system with renewable energy. Well maybe in the US where we have not a large high speed train net, planes are the only fast mass transportation facility, but in Europe we definitely could use trains as a replacement.

Finally

[tripleevenfall]

The personal flying car is here.

Amazingly fantastic batteries!

[localman57]

A battery electric-powered ultralight aircraft has been flying for the last year.

Flying FOR A YEAR? Crap. My Volt only goes 35 miles then I have to charge it or burn gas. I want one of those airplane batteries!

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[vlm]

A battery electric-powered ultralight aircraft has been flying for the last year.

Flying FOR A YEAR? Crap. My Volt only goes 35 miles then I have to charge it or burn gas. I want one of those airplane batteries!

The solar impulse guys are planning on about one month. My experience with lithium batteries seems to be either they die at about 50 charge cycles or they run for about 500 cycles, with few failures in between... if they get a good set of batts then 2 or 3 years would be possible.

http://en.wikipedia.org/wiki/Solar_Impulse [wikipedia.org]

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[edalytical]

My Volt only goes 35 miles

Sucker! Just wait until you have to replace those batteries because it only holds a charge for a measly mile.

Storage capacitor manhattan project

[xtal]

We need this more than any other technology right now, and it's a solvable problem.

Want something to stimulate the economy? That'd do it.

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[Jeng]

We need this more than any other technology right now, and it's a solvable problem

Is it in the same category of solvable problems that Fusion is in?

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[localman57]

Yeah. What do you think we're gonna use to fill all those capacitors?

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[Teancum]

What will be the one little thing that makes the difference?

Considering that the entire Tokamak concept is a blind alley and needs to be abandoned completely in terms of fusion research. There are some interesting scientific discoveries that are happening with that research and it isn't completely going to waste, but I would be completely shocked if somehow a Tokamak-derived fusion reactor ever became a practical device.

It was a very good idea to try out the ideas to see if they worked, and it wasn't a completely poor choice in terms of thinking it could work. But

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[The Grim Reefer2]

It's a shame that the world is scared silly about anything nuclear now. I'd guess that projects like this [wikipedia.org]would be more feasible with modern reactor tech.

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[MrEricSir]

The ghost of Osama Bin Laden is wetting his pants over this idea.

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[localman57]

No, he just does that sometimes. Last week he was in the middle of shoveling a load of brimstone, and the same thing happened.

A storage technologyt is not needed.

[Shivetya]

A safe compact limited need to fuel power source is needed and only one thing fits the bill, fusion. Current planes already give up an immense amount of their weight for fuel so why would we want to continue that practice? If we are going to break from fossil fueled aviation then go all out.

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[wagnerrp]

Kerosene is around 6.7 pounds per gallon, meaning that 50000 gallons of fuel weighs around 335000 pounds, not 34000 pounds. Over 40% of the aircraft's loaded weight is spent in fuel.

How can you say the stupid things you posted? How can you not be bothered to check basic facts?

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[Ihmhi]

You can't blow up an entire country with a storage capacitor, and that's why a project (that is so greatly needed) will never get that sort of funding.

The only way you'd get enough money to get significant research on a good storage capacitor was if you were in Texas and it came attached to a chair.

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[Teancum]

Just what we need.... a multi-billion dollar project that literally flushes away money like there is no tomorrow. It turns out that the Manhattan Project wasn't nearly so desperate either and it would have been interesting to see how World War II might have ended had it not gone one. Certainly it turns out that Germany was so far behind in nuclear physics research that the entire concept of a nuclear bomb was merely an afterthought by the time the Manhattan Project was completed.

The other problem is that

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[nschubach]

Not sure, but I bought some of them US made LEDs when I moved into my new house. I didn't, however, buy all LED because they are incredibly white light (vs the halogen replacements I got for the normal bulbs.)

Not in any practical sense

[jpmorgan]

Not in any practical sense. Weight is critically important in aviation, and kerosene has an order of magnitude higher specific energy than the best batteries.

http://en.wikipedia.org/wiki/Energy_density#Energy_densities_ignoring_external_components [wikipedia.org]

Every pound counts

[Quila]

That's why airlines charge for luggage now.

If you could do the whole trip on battery, it's going to take many, many tons of batteries -- far more than fuel as you said -- and depending on your electricity generation source you could be putting out more pollution in the end anyway.

If it augments fuel in a hybrid configuration, then every pound of battery makes you burn fuel faster. Where are the savings? You don't get to do regenerative braking either.

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[Bob the Super Hamste]

I have often wondered if I could fill my carry on with some really dense material, enough so that I can lift it but would exceed their weight limit for carry on and still have all the stuff I need for my trip as they never seem to check that. I think the whole checked luggage thing is more of a way for them to artificially lower their prices, it seems reasonable to have 1 free checked bag per person, but the we'll charge you for any checked bags is a scam, just include it in the price. Nothing is worse tha

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[vlm]

I think the whole checked luggage thing is more of a way for them to artificially lower their prices.

Also baggage fees are not taxed / not taxed at the same rate as passenger fees.

They should simplify it and if you're willing to carry it, its free, and if you want to check it, you pay "UPS" "Fedex" airmail type rate. That also gets them out of the lost luggage problem. Especially on a return trip, I'd be more than willing to go "UPS ground" to my house and save them the cost of airmail and save me the time of picking the bags up.

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[YrWrstNtmr]

I have often wondered if I could fill my carry on with some really dense material, enough so that I can lift it but would exceed their weight limit for carry on and still have all the stuff I need for my trip as they never seem to check that.

And you want to put this in the flimsy plastic bin over my head? No thank you.

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[hawguy]

Nothing is worse than the idiot who is trying to stuff their oversize duffel bag in the overhead compartment and not break things. Since my carry on has hard sides I put mine in the same compartment as theirs and make it fit, usually I don't stop until I hear something break.

Gee and my pet peeve is when I put my modestly sized soft-sided carry-on into the overhead bin, and then someone comes in with a hardsided bag and tries to shove it into the already full bin, crushing my bag and any fragile contents I've carefully packed int he middle of my clothes. (like that bag of pretzels that now becomes pretzel dust)

The thing I hate most about the hard-sided luggage is that it uses the same space whether it's half full or completely full, taking up more room than it needs to. Plus, w

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[hawguy]

I have often wondered if I could fill my carry on with some really dense material, enough so that I can lift it but would exceed their weight limit for carry on and still have all the stuff I need for my trip as they never seem to check that.

I don't understand why you'd want to do that? To force them to gate check it? On most full flights I've been on lately, they gate-check any carryons for free because they don't want delays while people try to shove too many bags into overstuffed overhead bins.

If you just want to make your bag heavy, bring some empty collapsible water bladders like you'd use for hiking then fill them after you're past security - 6 gallons of water will give you about 50 lbs of weight.

See what an economy-class meal used to be

[Quila]

Scroll down

http://www.everythingpanam.com/1960_-_1970.html [everythingpanam.com]

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[Jeremi]

OTOH, also take note of what an economy-class plane ticket used to cost. (Adjust for inflation, of course)

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[TheRaven64]

Depends on the aircraft. For a light aircraft, you could get about 1kW in typical usage, assuming about 5 square metres of wing surface that are useable. Let's see what that would do with a Cessna 140:

Mass is 658 kg, fully fuelled, and the maximum rate of climb is 3.5m/s. Assuming 100% efficiency, that would require about 20kW, but at practical levels, it's much more - probably close to the 63kW maximum output of the engine. However, in straight and level flight, the energy requirements for an aircraft

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[vijayiyer]

A typical aircraft economy cruise is 55% of peak power. Fast cruise is 75% power. 1 kW would not go all that long of a ways towards powering the aircraft. Also, while the 140 is a beautiful aircraft, it's not exactly a speed demon.

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[Baloroth]

The difference is that locomotives have huge inertial mass, so they require massive power to get moving. Once moving, they require significantly less power to stay in motion, courtesy of the laws of motion. Therefore, electric-hybrid makes sense: batteries provide the initial power, so you can build a smaller diesel than you would otherwise need. Larger jumbo-jets, on the other hand, pretty much fly like a brick with wings. They run at close to full power pretty much the whole flight (I think its actually 7

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[hawguy]

The difference is that locomotives have huge inertial mass, so they require massive power to get moving. Once moving, they require significantly less power to stay in motion, courtesy of the laws of motion. Therefore, electric-hybrid makes sense: batteries provide the initial power, so you can build a smaller diesel than you would otherwise need. .

I don't think diesel-electric locomotives use any battery power to power the drive wheels. The advantage of the electric motor is that it generates high torque at low-speed to get the locomotive started, with no change in gear ratio needed as it picks up speed. The diesel engine driving the generator gets to run at its optimal speed regardless of how fast the locomotive is going.

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[Grishnakh]

Hybrid technology is pretty much useless in aviation. Hybrid powertrains add a lot of weight to cars, so there's a tradeoff there. There's two primary reasons to use hybrid technology:

1) to recapture energy lost during braking. This is why hybrid cars have city mileage figures close to or sometimes better than highway figures, unlike regular cars where there's a big difference. Cars in the city waste a lot of power accelerating to speed, and then using the brakes to exhaust all that potential energy as

Let's do some numbers

[Quila]

I''m researching this as I go, so I don't know what the result will be, but I have a good guess.

Take the General Electric GE90, a powerful, efficient turbofan. It produces a wide range of thrusts, but I'll stick with the simple 500 kN near the top. It weighs 8,283 kg.

An EMD 710 diesel locomotive engine used in an efficient V20 configuration produces 3,098 kW and weighs 18,365 kg dry.

It obviously gets complicated from there because we're comparing power to thrust. How about, since you're thinking diesel-elec

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[lyml]

While what you're saying is true (that todays batteries are not energy dense enough). There are other advantages to a purely electric battery system making energy density not the only factor.

1. Higher efficiency of electric motors
2. Lower cost of fuel
3. Lower weight of electric motors

In fact, the article mentions that before it would be feasible to replace fuel with batteries for heavy aircraft battery capacity needs to increase by a factor of 4. When it does the switch-over would be fast due to the ve

SmartFish

[o'reor]

This electric plane [smartfish.ch] looks promising too, even though it's only a model airplane so far. Not sure there are many partners interested though...

Man that's one long flight!

[flibbidyfloo]

"A battery electric-powered ultralight aircraft has been flying for the last year."

    And boy, are its batteries tired!

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[ArsonSmith]

Two drums and a symbol fall of a cliff....

bump bump ching

Are electric planes even legal?

[BetterSense]

It's been a while since I left the airplane scene, but from what I remember, the FAA requires small-engine airplanes to have reciprocating engines.

I've never seen a reciprocating electric motor, so are electric airplanes even legal?

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[onkelonkel]

Why can't they have rotary engines or turbines?

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[Grishnakh]

Some of them do. There's no such requirement, the parent is ignorant. Lots of people have made experimental aircraft with Mazda rotary engines, and I've seen small homebuilt helicopters with tiny turbine engines. The Robinson R-66 helicopter just came out which has a turbine, and that's a production craft.

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[vijayiyer]

There are plenty of small aircraft with turbines, and small aircraft retrofits with turbines (Bonanzas, Cessna 210s, etc).

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[robot_love]

It's illegal in the same way that going faster than 8mph was illegal in cars a hundred years ago. Once the technology is proven, it won't be illegal anymore.

Slow down.

[MaWeiTao]

Of all the modes of transport available to humans, air travel would be hit hardest by a true fuel shortage. If we were to run out of oil in the next few years the we'd just transition to electric cars. Many, if not most, trains already run on electricity. There are alternatives for shipborne travel, coal, wind, nuclear and possibly even electric. There is, however, no viable alternative for air travel except for dirigibles. Unless, I suppose, someone were willing to give nuclear-powered aircraft a shot. Needless to say, intercontinental travel would get significantly slower for quite a while.

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[Grishnakh]

Many, if not most, trains already run on electricity.

No, they don't. They run on oil, just like everything else (diesel to be precise). They merely use a series-hybrid system so they can run the engine constantly and get much more torque than the diesel engine can generate. There's no batteries there. These systems have been in locomotives for many decades now, along with most large construction equipment.

Of course, since the actual propulsion is electric, you could power them from something else theore

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[ErikZ]

We will never "Run out of oil".

It's remarkably easy to make more, just using sunlight, water, and genetically engineered microbes.

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[bertok]

Sure, energy is fungible.

The problem is that all such methods add a substantial overhead in terms of % loss of energy and as a significant infrastructure expense. For example, it's surprisingly hard to expose microbes to sunlight without fouling issues, or contamination from other microbes. A lot of trivial demonstrations have been done, but a small, short-term project that isn't intended to make a profit is a far cry from doing this on an industrial scale, where the people operating the system are poorly e

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[petermgreen]

No, they don't. They run on oil, just like everything else (diesel to be precise).

Afaict this varies a lot by country. In france for example the majority of railways are electrified while in germany about half are and in the UK just under a third is and afaict in the USA very few railways are electrified.

Of course oil won't just suddenly "run out". Production will decline and prices will go up as sources gradually dry up. The question is will that rise come slowly enough for society to adapt. Another major concern is that environmental damage from the fossil fuel industry is likely to in

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[Grishnakh]

Afaict this varies a lot by country. In france for example the majority of railways are electrified while in germany about half are and in the UK just under a third is and afaict in the USA very few railways are electrified.

Sorry, my American bias was showing. Here in the USA, we don't have any passenger rail to speak of (Amtrak is lame), so when he said "trains", I immediately thought of freight trains. AFAIK, all freight trains use diesel-electric propulsion. I don't know for sure, but I would imagine

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[petermgreen]

AFAIK, all freight trains use diesel-electric propulsion. I don't know for sure, but I would imagine that the power demands of a freight locomotive would be too high for the type of electrification you see on light-rail or the European-style passenger rail systems.

I've definately seen electric locomotives runnining off the 25KV overhead lines we have round here (manchester, UK) pulling freight trains. They probablly aren't as big as the american freight trains though.

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[Grishnakh]

Where? I've never heard of any. The best I've heard of are the Teslas, and even those can only do 100 or so miles, certainly not 300. Are these cars you speak of something that can be produced? Or will they not meet safety standards and other requirements that would make them something that could actually be manufactured and sold?

CNG kinda sucks as a fuel, BTW. I've been in CNG-powered cars, and they have a giant problem: no cargo space. The entire trunk is taken up by a giant CNG tank, which gives si

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[prefec2]

Indeed. However, we could transform the Trans-Siberia-Express route into a high speed train route. Ok we would still need twice the time to get to China. The transatlantic travel will fall back to 1940/1950 speed. But we will have Internet and so communication will be as fast as ever ;-)

Bad title

[bigsexyjoe]

The linked article does describe the efforts to create but it emphasizes that they need many advances to make it happen and that it isn't coming for at least twenty years.

weight

[DaveGod]

I thought the primary problem with electric cars was the amount of power that can be stored for the weight of the batteries? Weight is an even more important issue for planes.

I would have thought batteries would need to be able to store twice (or thereabouts) the energy per kg since presumably they wont be allowed to jettison spent batteries. True aeroplane fuel is expensive but then it's saving costs on weight, something that also translates into emissions.

I guess the research is valuable regardless, but e

Best feature: Crash Proof

[SuperKendall]

The thing that's most spectacular is that the regenerative braking means you'll never hit the ground in a fall!

turnaround

[Bitsy Boffin]

Commercially, I don't see batteries working, simply because it would affect the turnaround time of aircraft drastically, an aircraft on the tarmac charging it's batteries is an aircraft that is not making money.

Not yet

[jklovanc]

It is easy to create a picture of a cool craft [nocookie.net] based on technology that does not exist yet. The trick is in implementing the technology.

Re:Hovering Vehicle

[JustinOpinion]

What you're describing will not work. You're trying to violate the laws of physics, similar to proposals of perpetual motion machines. It's a neat thought experiment, in order to identify the problems, but it won't work in the real world.

From basic Newtonian mechanics, we know that for every force there will be an equal and opposite reactive force. A closed system will not be able to achieve motion without an external force: either a force applied to other objects (e.g. pushing against the ground, or pushing against (a.k.a. 'blowing') a fluid like air or water) or by ejecting matter (as in a rocket).

Specifically regarding your design: As I understand it, you basically want an object where internally forces are applied to inclined planes, in order to push the planes 'upwards'. You imagine that this can be done in a way where there is no corresponding opposing force also pushing the object downwards. You try to get around this problem by imagining a decoupling where internal masses are momentarily not touching the main mass: so you have one piece that fires a 'bullet' horizontally, which hits the inclined plane (pushing it upwards). You imply that this means there is no corresponding opposing force. However you mention offhand that you will recover the 'bullets' and reuse them. But if the bullet hits the inclined plane, and pushes it upwards, then the bullet will be correspondingly deflected downwards. When the bullet hits the recovery mechanism, it will impart to it a downward force equal and opposite to the upward force that the inclined plane felt. The two forces will cancel out: the plane is pushed up, the recover mechanism is pushed down.

You can imagine putting the recovery mechanism further away from the inclined plane. But, at best this just creates a time lag between when the inclined plane is pushed upwards, and the bullet-recovery mechanism is pushed downwards. So the vehicle will jolt up-down but on average will stay in the same place and thus will not hover against the constant force of gravity. This is inescapable since the planes and the recovery mechanism are mechanically coupled to one another. The only way to solve this is to remove the recovery mechanism, and let the bullets shoot out the bottom of the object, so that the planes are pushed upwards and the opposing force is carried away by the bullets, out of the object. Of course 'flying' by shooting a gun downwards is generally inefficient, which is why we've invented things like helicopters, which push air downwards instead. That way you don't have to carry around a bunch of bullets; you just use the mass and hydrodynamic properties of the fluid you're flying through.

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[MrEricSir]

No, batteries behave like a bomb even under normal use. Remember the rash of exploding laptop batteries a few years ago?

Chances are any form of energy crammed into a tiny space that can be easily converted to electricity has some inherent danger to it.

Re:LOL

[Grishnakh]

Don't be dumb; there's an infinite number of molecules out there that can be made from the elements on the periodic table. For instance, carbon nanotubes have only been discovered relatively recently, and have all kinds of interesting and useful properties, yet carbon the element has been known since ancient times, and is probably one of the first elements named and understood by scientists when they first invented chemistry. More recently, it's been discovered that you can make nanotubes with boron and boron nitride, which have very different properties from the carbon variety (BN tubes are insulators, whereas carbon tubes are conductors).

http://www.newscientist.com/article/dn13143-boron-nanotubes-could-outperform-carbon.html [newscientist.com]

This is just the tip of the iceberg. There's an untold number of "metamaterials" out there waiting to be discovered, things which don't occur in nature in any significant quantity, have all kinds of amazing properties, and are made from simple elements that we've known about for ages (boron and nitrogen aren't exactly new discoveries).

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[Grishnakh]

I'm sorry, but you seem to be an idiot.

Who cares if something dissolves in air? If its properties are useful enough, then you put it in an air-free environment, or you put something on top of it to keep air away. We invented this thing a while ago that does this, it's called "paint". Works great for keeping steel and iron from rusting.

The bulk properties of carbon nanotubes have already been demonstrated, and they're not very far away from making composites with them that enough tensile strength for a sp

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[Grishnakh]

Did you not see his reply? Sorry, but that kind of post deserves belittling. For most posts, yes I try to avoid belittling people since people can have genuine disagreements, and I've certainly been mistaken from time to time, but that one was so over-the-top stupid I couldn't help it.

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[FlyingGuy]

Really???

JP4 has an energy density of 42.8 MJ/kg A fully loaded 747 carries 139200 kg of JP4.

That is 5,957,760 MJ of energy. Got a fuel cell that can do that?

Just for fun lets say you use VERY cool propellers and you get 20% bump in efficiency, that is still not going to come anywhere even close.

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[Teancum]

Fuel cells can burn JP4 or whatever you want to have it convert to electricity. The fuel energy density is therefor the same for fuel cells as it is for "ordinary" internal combustion engines.... the only difference is how the fuel is burned and how the oxygen is applied to the fuel.

That said, the efficiency of the fuel being burned and being able to supply the motor with sufficient energy given the size of the fuel cell is something to argue about. Fuel cells work fine for astronauts, but then again you

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[FlyingGuy]

While this is really cool, it simply cannot scale to 747 size.