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:First post from an electric airplane!

[Bob+the+Super+Hamste]

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

Re:First post from an electric airplane!

[GameboyRMH]

I figure anything I can do to take the opportunity away from the trolls is a positive contribution :)

Re:First post from an electric airplane!

This is probably the worst second post I have seen in a while.

Re:First post from an electric airplane!

This is so much fu^H^H NO CARRIER

lol.... ATH0

wow that brings back memories

Re:First post from an electric airplane!

[antdude]

Why were you using dial-up Internet? ;)

Re:First post from an electric airplane!

[marcosdumay]

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

Re:First post from an electric airplane!

[Teancum]

Why were you using dial-up Internet? ;)

Because it is faster than trying to use Comcast.

Re:First post from an electric airplane!

[antdude]

Then, why subscribe to Comcast? ;)

Re:First post from an electric airplane!

[Teancum]

I've pondered that very same question myself :)

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.

Re:So does this mean I can stop seeing those ads

[GameboyRMH]

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

Re:So does this mean I can stop seeing those ads

[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 loss - waiting for seasonal products to come up again doubles the enjoyment anyway.

Re:So does this mean I can stop seeing those ads

[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 chemically except for the fact that centuries or millenia of ancient sunlight conveniently shoved it up the chemical-potential-energy slope for us. If you have energy available by some other means, shoving hydrogen and carbon up the slope yourself in order to store energy in a convenient chemical form is perfectly doable.

Re:So does this mean I can stop seeing those ads

[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.

Re:So does this mean I can stop seeing those ads

[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.

Re:So does this mean I can stop seeing those ads

No, of course, airplanes fly by wishes and hard drives. When will I stop seeing posts from clueless dreamers who don't understand basic physical reality and engineering limits? Idiots who conflate our information processing capacity with real-world results. Gigahertz don't propel mass. Gigabytes don't fly at the speed of sound.

Re:So does this mean I can stop seeing those ads

[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).

Re:So does this mean I can stop seeing those ads

[michelcolman]

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

Re:So does this mean I can stop seeing those ads

[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?

Re:So does this mean I can stop seeing those ads

[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.

Re:So does this mean I can stop seeing those ads

[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.

Re:So does this mean I can stop seeing those ads

[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.

Re:So does this mean I can stop seeing those ads

[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.

Re:So does this mean I can stop seeing those ads

[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 not be able to afford it" argument.

Re:So does this mean I can stop seeing those ads

[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 already existing, there would still be a drive force towards electric airplanes.

Re:So does this mean I can stop seeing those ads

[ryanov]

What is wrong with using canned or jarred vegetables?

Re:So does this mean I can stop seeing those ads

[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.

Re:So does this mean I can stop seeing those ads

[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 simply makes it completely infeasible to have real electric airplanes: they weigh too much for the amount of energy they store, whereas liquid fuels (whether kerosene/JP1, diesel (yes, there's airplanes that can run on diesel), or a vegetable-derived version of one of these) have a much, much higher energy density, making them useful for aviation. Because an aircraft has to use its power to lift itself up in the air, against the force of gravity, along with its powerplant and its fuel supply, things are a little different than with ground-based vehicles. Powerplants with a high power-to-weight ratio are very important, as is fuel with a high energy density. It's even worse in helicopters.

Right now, there's already a big desire to start moving to electric cars and away from fossil fuels there. However, again, battery tech is the limiting factor. Everything else is a solved problem; high-performance electric motors are no problem, and there's electric accessories available (A/C compressors, power steering, etc.). But we're still a ways from having good battery tech for cars that'll make fossil fuel engines obsolete, and our best electric cars don't even have a 100-mile range it seems, plus the recharge time is a big problem. And electric cars don't come close to matching the comfort or performance of midsize, average regular cars. The battery tech needed for electric aircraft will be another order of magnitude or two better than what electric cars need, so we're really a long way from this goal.

Battery technology that's an order of magnitude or two better than what we have now would literally change the world, as all the other pieces are in place to have electric vehicles. It's the only thing holding us back. But there's no way to know how far away this revolution is. Someone might invent something much better in 10 years, or it might take 200.

Re:So does this mean I can stop seeing those ads

[zAPPzAPP]

Yes, they now run on atoms and stuff.

Re:So does this mean I can stop seeing those ads

[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 know about railways to Anchorage from the lower-48. If you live outside of Anchorage, all bets are off -- Iliamna, for example, is only about 200 miles from here, but the *ONLY* way to get there is by air. Likewise for most of the rest of bush Alaska.

Re:So does this mean I can stop seeing those ads

[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.

Re:So does this mean I can stop seeing those ads

[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.

Re:So does this mean I can stop seeing those ads

This doesn't, but stuff like this should. At the very bottom, they mention their jet fuel. It does technically create an oil, so saying it replaces petroleum-based products would be more accurate. Considering there have already been 747s that have flown on algae-derived fuels, a move towards electric motors in airplanes seem unnecessary, if it's only being done for environmental reasons. The only thing that stands between us and replacing traditional jet fuel with an algae-based alternative is market forces and ramping up production.

There could very well be other benefits to planes with electric motors, but it's quite a ways behind algae if we want to consider it as a green alternative to petroleum-based commercial air travel and freight.

Re:So does this mean I can stop seeing those ads

[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 energy dense batteries are not used for economical reasons (recharge times also play a big part) and cars with the highest capacity batteries would have enough juice to replace modern heavier weight cars due to the much more efficient electrical engine (roughly 4 times as efficient) and more lightweight motor system. Given time the prices of these batteries should fall down to reasonable levels making their way into consumer vehicles.

An improvement by a factor two would make electrical vehicles capable of replacing trucks (the diesel-cycle is about third as efficient as electrical engines) and an improvement by a factor four enough for commercial airlines (jet engines are about half as efficient as electrical engines)

Now in my post I discussed fuel efficiency because these markets are very price sensitive to the cost of fuel. Airplanes in particular might even go so far as to switch to battery technology even when the system is a net loss (x kg of battery gives you shorter range than x kg of synthetic fuel) given that the route is possible with battery technology since synthetic fuel would cost about ten times as much as charging the batteries and a major cost per flight is fuel.

Re:So does this mean I can stop seeing those ads

[wagnerrp]

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

Re:So does this mean I can stop seeing those ads

[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.

Re:So does this mean I can stop seeing those ads

Use potassium chloride instead of sodium chloride then.

Re:So does this mean I can stop seeing those ads

Then take multivitamins you pretentious twat.

Re:So does this mean I can stop seeing those ads

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 loss - waiting for seasonal products to come up again doubles the enjoyment anyway.

Nothing wrong with waiting.

But often people will try to grow things in environments that they are not naturally suited. Doing this can use far more energy than transporting the food. Imagine Canadian grown bananas that use heated greenhouses - few food miles, but high energy cost!

Re:So does this mean I can stop seeing those ads

[tehcyder]

What is wrong with using canned or jarred vegetables?

How about, they taste like shit and aren't as good for you?

Re:So does this mean I can stop seeing those ads

[tehcyder]

Then take multivitamins you pretentious twat.

Yes, because no one realy needs any fresh food at all. Just live off burgers and fries and take a few multivitamins, no down side to that at all.

You're the fucking twat.

Re:So does this mean I can stop seeing those ads

[ryanov]

Big deal, if shipping fresh everything to everywhere is an environmental disaster.

Re:So does this mean I can stop seeing those ads

[ryanov]

No, jackass, you eat what's in season. If something's not in season, you don't eat it right then. People lived that way for years and years somehow.

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!

Re:Amazingly fantastic batteries!

[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

Re:Amazingly fantastic batteries!

[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.

Re:Amazingly fantastic batteries!

Whoosh.

Re:Amazingly fantastic batteries!

[DigiShaman]

Technically the Chevy Volt is a hybrid with the option to charge from an outlet too. At least with the Honda Insight, the battery packs are warranted for 157,000 miles or 10 years. Which ever comes first. I'd imagine Toyota is pretty close in reliability if not better. Both are have excellent R&D and engineering behind them.

Now personally, I would never own a pure electric such as the Nissan Leaf which only has a range of 73 miles. While the battery is estimated to hold at least 70% of its charging capacity after 10 years, the range still sucks for anything except urban commutes. Oh, and about that 73 mile range. That's without using AC or heat.

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.

Re:Storage capacitor manhattan project

[RocketChild]

Yeah, but GE would just offshore the batteries to be built in China and keep the tax savings for themselves.

Re:Storage capacitor manhattan project

[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?

Re:Storage capacitor manhattan project

[The+Grim+Reefer2]

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

Re:Storage capacitor manhattan project

[localman57]

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

Re:Storage capacitor manhattan project

[MrEricSir]

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

Re:Storage capacitor manhattan project

[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.

Re:Storage capacitor manhattan project

Expect, we can't have Capacitor Manhattan Project. The key ingredient to the Manhattan project was that we knew for a fact that a Nucleus's divided from a neutron release an extra neutron. So we really knew where to start looking. For a Capacitor project to work we need to have some thing to start with and build the tech around it that will make it work. Maybe their is an idea out there that needs funding to make it commercial but I think business and investors would jump at any thing that looked remotely promising. There has to be some basic understanding or we'll just be stumbling around in the dark. Everyone in nuclear physics understood the basics for how an atomic bomb should work. Get a dense and large enough mass of fissile material together for long enough and kaboom. The only questions where what is the best material, how to obtain said material, and how to make it go kaboom. Also, efficiency wasn't more then an after thought.

Re:Storage capacitor manhattan project

Fusion is solvable, if we were to get behind it 100% and throw money at building, testing, and theorizing solutions to it.

They are building ITER & DEMO...What will be the one little thing that makes the difference?

Re:Storage capacitor manhattan project

[elgol]

Actually, the first plant is being built in the USofA
.

Re:Storage capacitor manhattan project

[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.

Re:Storage capacitor manhattan project

[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 once such a mega-project is started... how do you kill the bureaucratic beast that has been created? Sad experience shows that once a bureaucracy is established, it takes something on the order of a political revolution or massive natural disaster to get rid of the thing, even if its purpose for being no longer exists. The Manhattan Project bureaucracy still lives on with Los Alamos National Laboratory. That they still are doing stuff that is productive is perhaps a good thing, but I would say that by 2011 the original project need has long since been accomplished.

Re:Storage capacitor manhattan project

[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 the sad thing is that after billions of dollars have been spend on that approach at the exclusion of any other potential technology or even philosophical concept that might achieve fusion, it needs to be left in the dustbin of history like the airship. Technological progress is filled with stuff like that, and sometimes it is hard to tell when to call it quits on one philosophy and then try to go another direction.

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.

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

Re:Not in any practical sense

[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 very high costs of flying air-planes.

In the meantime, we will have to settle for ultra-light airplanes using battery systems and watch as it becomes feasible for heavier and heavier aircrafts over time.

Re:Not in any practical sense

[91degrees]

From the article it sounds like the plan was to use a standard engine as a generator. Not sure if that's a huge advantage to be honest.

Of course other possibilities are fuel cells, or developing some form of wireless energy transfer (but I suspect the FAA would have issues over this solution and it would require a lot of infrastructure)

Re:Not in any practical sense

[Grishnakh]

Electric motors aren't lower weight; all that copper adds up. I'm quite sure if you tried to build an electric motor with the same power output as a modern turbofan jet engine, it would weigh much, much more.

If you're comparing to piston engines, then yes the electric motor probably wins pretty easily, but not compared to a jet engine.

Also, I think the factor of 4 number is ridiculously optimistic. Try a factor of 10, as that's roughly the difference between the energy-per-weight of jet fuel versus the very best modern batteries. If you could get batteries 4x better than today's, you might start seeing some small electric planes with very limited range, but that's going to make zero difference to most commercial aviation.

Re:Not in any practical sense

And, as an airplane uses fuel, the load gets lighter. I don't think so with batteries. Um, unless maybe the jettison them with parachutes and recover them for re-use.

Re:Not in any practical sense

Good point. Batteries will not work for air travel. Long tethers could work though. See this concept: http://electrictakeoff.com

Re:Not in any practical sense

Bear in mind that a piston engine has efficiency of ~30% (rough guess) due to the fact that it is essentially a heat engine, whereas the electric engine will have an efficiency around ~90% converting stored energy in the battery.

This is why, even though the specific energy density differs by a factor of ~10 between kerosene and batteries, we only need a factor of 4 improvement in battery storage to be competitive with a piston engine.

AFAICT, FWIW

Re:Not in any practical sense

[Grishnakh]

You're missing some small but significant factors which make me doubt the factor of 4 number, and think it's probably somewhat higher:
1) batteries are not 100% efficient in either storing energy, or delivering energy. In fact, car batteries are notorious for losing 50% of their charge in cold conditions. In airplanes, it's really, really cold at altitude.
2) Forget piston engines; modern aircraft use turbines. Turbines have a very high power-to-weight ratio, much much higher than piston engines, and probably higher than electric motors too. That might change if someone makes a motor that uses a conductor lighter than copper, or which has better conductivity (superconducting motors perhaps?). It's doubtful we'll see anything like that soon, however; copper has the highest conductivity of all metals except for silver, and it's fairly dense. You could use aluminum, but its conductivity isn't as good. I suppose you could use silver too, but that would increase costs a lot, and I'm not sure how much it would help.

For an example of the power inefficiency of electric motors, look at mechanics' tools. They're not powered by electricity, they're powered usually by compressed air (which of course is created with electricity). Why do they do this, when it's so obviously inefficient? Because air motors are extremely light for the power delivered. A 1000 ft-lb air impact wrench weighs about 2-3 pounds, and fits easily in your hand. A 1000 ft-lb electric impact wrench doesn't exist; the biggest ones I've seen are about a quarter of that capacity, are 2-3 times the physical size of the air versions, and weigh 3-4 times as much.

Turbojet engines aren't the most fuel-efficient things (piston engines are more efficient, which is why most small aircraft still use them), but weight is SO important in an aircraft that their power-to-weight ratio outweighs their fuel inefficiency, so every large aircraft uses them. I don't have numbers handy, but I seriously doubt that current electric motors can match the power-to-weight ratios of modern turbojets.

Electric may be safer

Batteries don't exactly behave like a bomb on impact. It could even be painted with an energy-creating material. Since there's no shade at 30,000' it should do well.

Re:Electric may be safer

It could be a short-circuit away from an explosion.

Re:Electric may be safer

[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.

Wake me up

when lead balloons become economically feasible.

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.

Re:Every pound counts

Yeah, but you can cover the wings with solar cells.

(Yes, I'm joking. It would help, but not much.)

Re:Every pound counts

You don't get to do regenerative braking either.
That depends on if the regenerative things are better than the lift being produced on the plane. But yes batteries would be stupid huge... Now however think about this most locomotives made these days are actually electrical. With a huge diesel engine producing the power. Also you could use standard diesel instead of jet fuel. Also if the conversion is less than what a jet produces than electricity into a motor it may work...

Re:Every pound counts

[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 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.

Re:Every pound counts

[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.

Re:Every pound counts

[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.

Re:Every pound counts

[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 are pretty small. After takeoff, that 1kW may not be enough to completely power you at cruising speed, but it should go a long way towards it. There are some ultralight aircraft that can already fly for over a day just on solar power. I'd be quite interested in something in the middle, that could recharge on the ground during a sunny day and could cruise on solar power for longer than I'd want to stay alert for.

Re:Every pound counts

[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 70-80%), pretty well negating the advantage to hybrid setups. Especially given the added weight of such a setup (negligible in cars/locomotives, huge in aircraft).

Re:Every pound counts

[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.

Re:Every pound counts

[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, when you get several of them side-by-side in a bin, you often end up with 6" of unusable space to the sides because they aren't sized to fit perfectly into the compartment. And when one is too big to slide longways, there's no hope of getting the door closed, you have to turn it around sideways, taking up twice the room. When a softsided bag is slightly too long, you can just scrunch it up a a bit and get the door to close (of course, crushing your pretzels)

Re:Every pound counts

[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.

Re:Every pound counts

[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.

Re:Every pound counts

[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 heat so you can stop for a red light. Hybrids recapture a lot of this energy, and reuse it in the electric motor the next time you accelerate.

2) to allow you to use a smaller gas/diesel engine than you normally would, by getting an acceleration boost from the electric motor. A smaller ICE engine means lower pumping losses which means better fuel efficiency. So instead of sizing your engine so you get a good 0-60 time, you can size it so it has enough power to cruise on the freeway (plus extra for passing), and at low speeds the boost from the electric motor keeps your 0-60 time from being too ridiculously slow. The fundamental property here is that the power needed for 0-60 acceleration is much, much more than the power needed for freeway cruising at speeds under 100mph, so hybrids take advantage of this.

These factors simply don't apply in aircraft. 1) there is no braking in aircraft. You takeoff, then you fly somewhere, then you land and turn it off. There's no start-stop cycles like in cars, and there's no brakes (except for taxiing). 2) the power you need for cruising in airplanes is nearly as much as you need for takeoff, usually about 80%. That's not enough of a difference to make the extra weight of a hybrid powertrain worth it. In helicopters, it's worse: the cruising power is 100% of the takeoff power. Aircraft engines are very different from car engines, as they're designed to run at 100% output constantly. Most car engines would blow up if you did that.

Any time I read about someone talking about hybrid technology in aircraft, like in this article, I think it's just some kind of hype to get investor money and run off with it. We've seen this with lots of other vaporware technologies.

Re:Every pound counts

That's actually a rather interesting suggestion, though I suspect they would need to make some rate adjustments - $300 to have the first bag overnight-ed won't fly with travelers. I'm also not sure whether having a giant FedEx/UPS pickup location at the airport would be pleasant either - some people could ship things directly to their final destination, but I've stayed at many hotels that I would not trust to look after my luggage. Nor would I imagine that midsize hotels would be happy receiving 40-50 suitcases daily. I admit that seeing a semi truck full of luggage pull up to one of the big NYC hotels would be fun though.

Re:Every pound counts

and he should care, as long as it isn't over his head?

Re:Every pound counts

[Bob+the+Super+Hamste]

I only do this with those people who have the oversize luggage that should have been checked to begin with. These are the bags that take up the entire overhead bin and are the size of a military duffel bag or backpacking bag.

Re:Every pound counts

[Bob+the+Super+Hamste]

I frequently do gate check my carry on for this reason the problem is that people have carry-ons that in no way are even close to allowable size. These include the people with the military size duffel bags, golf club bag, ski bag, backpacking bag, and other gigantic bags. Every one of these people should be charged the checked bag fee since they know that those in no way meet the requirement and waste everyone's time trying to stuff them in the bin. These are the people who end up with the I am going to make my carry on fit. Its not like my carry on is eve that large and you could probably easily fit 4 or 5 in the space that is taken up by 3 of the standard size carry-on bags.

SmartFish

[o'reor]

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

Hovering Vehicle

[hantarto]

A couple of years ago, I had an idea of making the hovering vehicle. I had fun in designing it. But an expert said that it can fly but requires a lot of energy.

This design is for creating hover vehicle that meet these criteria :
1. do not cause air blow,
2. have compact size,
3. VTOL flight,
4. able to stand still in the air,
5. do not have ground effect.

To be able to meet all the criteria above, we must be able to create a lifter system that lies inside the vehicle. And this lifter system must not affect the condition outside the vehicle (especially the air).

Since the lifter system must be able to lift the vehicle, so there must be part of the lifter system that is free/separated from the vehicle. Let us call it bullet. The bullet has to be shot horizontally, so that it won't affect the height of the vehicle's flying. The bullet has to be collided to a slope, so that the horizontal moving bullet can cause lift force.

Imagine a slope that can move up/down only (vertical movement only).

If the slope is collided by an inert bullet, the slope will go up, since the inert bullet tries to run as straight as possible. The slope is lifted, with the height of dh.

If the slope is shot once, the slope will be up and then fall.

So that the shoot must be done periodically, so that the height of the vehicle's flying will be constant.

To raise the height of the vehicle's flying, it can be done by : raising the force of the bullet, or raising the frequency of shooting.
Since the lifter system and the bullet must be inside the vehicle, so the bullet that has been shot is not permitted to be out of the vehicle. So we must be able to create a bullet puller mechanism. The bullet puller mechanism will place the bullet in its pocket, so that the bullet can be reshot.

We see unbalance condition, so we must balance it.

For the space balance, it needs three lifter systems that separated 120 degree horizontally.
A periode of shooting is the time of shooting needed to keep the height of the vehicle's flying constant.

A bullet cycle is the time needed by the bullet to move from its pocket, collides the slope, and back to its pocket.

If a bullet cycle is more that the periode of shooting, it's needed number of guns/bullets, so that the periode of shooting is reached.

If the force of the left bullet is bigger than the force of the right bullet, the vehicle will move to right. This is the way to move the vehicle forward/backward/turn direction.

The lifter system can be placed inside the vehicle.

This is the basic of my idea : "the horizontal moving bullet collides the slope".

What do you think?

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.

Have you SEEN the ultralight?

Its a French-designed twin-engine plane called the "Cri-Cri" (picture link from the article above). Its so quirkily French that you can smell the stench of Gauloises in its slipstream.....

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!

Re:Man that's one long flight!

[ArsonSmith]

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

bump bump ching

Re:Man that's one long flight!

i don't think unicode has a symbol for a cymbal?

Realistically, it will be decades...

[Koreantoast]

The opening post implies that this electric aircraft revolution is right around the corner, but in reality, it will be decades before any practical implementation by any major aerospace company; I would dare say the 20-30 years the article estimates may be a bit generous. Weight is one of the biggest drivers in aircraft design (and one of the biggest factors of aircraft fuel efficiency), and until they can develop batteries with sufficient power to offset their massive weight, these planes will continue to be limited to small hobby craft. Nothing in this article indicates that these technological barriers have been overcome yet.

Even if the technology were all in place today, it would take a good five to ten years to design and certify a cargo or passenger aircraft. I'm hopeful with this technology, but I temper that hope with the reality of implementation.

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.

Re:A storage technologyt is not needed.

"A safe compact limited need to fuel power source is needed and only one thing fits the bill, fusion"

Since we have no such technology, how can you state that it'll be safe, much less compact? Have you SEEN the size of ITER's DEMO?

"Current planes already give up an immense amount of their weight for fuel "

A 747's empty weight is 400000 pounds. There's room for 50000 gallons of fuel. That's 34000 pounds of fuel. The fully loaded weight of a 747 is close to 800000 pounds. How did you come up with the hyperbolic "immense"? Are you retarded?

You're probably a software moron. Look, mashing away at a keyboard for five hours to make a picture appear on a screen doesn't make you smart.

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

Re:A storage technologyt is not needed.

[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?

Re:A storage technologyt is not needed.

And imagine if we had that WITH better capacitors.

This doesn't have to be one or the other people.

Would they?

Most of my 'green' crap - my ridiculously expensive LED bulbs, for example - is made in the US.

Not that China isn't kicking our ass at green crap, but lolecodweebery has improved our economy. The question now is whether or not Americans have learned their lesson with regard to rock bottom prices and what actually occurs to bring said prices to stores.

Re:Would they?

[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.)

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?

Re:Are electric planes even legal?

[onkelonkel]

Why can't they have rotary engines or turbines?

Re:Are electric planes even legal?

[vijayiyer]

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

Re:Are electric planes even legal?

[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.

Re:Are electric planes even legal?

[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.

Re:Are electric planes even legal?

He's full of bull. There is no such requirement. Small turbines are expensive and inefficient. That is the real reason you don't see them.

Re:Are electric planes even legal?

[Alioth]

For part 103 (ultralights) they don't care what it's powered by.

For certified aircraft, the installation needs to be certified. They don't specify by which technology. If someone gets a motor/power controller/airframe combination certified, then it's certified.

For aircraft that are "experimental" (in other words, any homebuilt - the name "experimental" is a bit of a misnomer, for example the Vans RV series is very well proven and not the least bit experimental) you can power it with whatever you like.

It's already farhter along than the article shows.

[Smoky+D.+Bear]

http://www.youtube.com/watch?v=YINO0aoSAGg Terry

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.

Re:Slow down.

[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 theoretically, but what? You need something to generate electricity. Batteries are out, because they don't store nearly enough energy to run a locomotive across the country. Mr. Fusion hasn't been invented yet. So you're stuck with some kind of ICE engine, running on either fossil fuel or biodiesel. Fossil fuel is much cheaper since you don't have to grow it, it's already made for you and waiting for you to pump it out of the ground. I suppose you could use coal somehow, but that isn't as energy-dense as fossil fuel, and it's quite dirty.

There are alternatives for shipborne travel, coal, wind, nuclear and possibly even electric.

Again, you have no idea what you're talking about. Many ships now are indeed electrically-propelled. But where do they get the power from? Diesel engines. Take away diesel and what are you going to use? Nuclear has only been used on one commercial ship in history, and it was a failure due to cost. There aren't exactly a lot of nuclear engineers out there willing to be paid peanuts to babysit nuclear reactors on commercial ships, and that isn't something you want some uneducated guy to be running; think about it: the people who serve as crews on ocean ships aren't usually normal middle-class people you'd trust with a multimillion dollar nuclear reactor where an accident means an environmental catastrophe (remember Japan just a couple months ago?), they're either guys with some screws loose, or desperately poor uneducated people from third-world countries. Nuclear power only works on military ships because the dynamics are completely different: rigorous training, unmatched benefits, the threat of court-martial if you screw up, a nation with the world's largest economy willing to spend a ridiculous sum of money on its military, etc. Nimitz-class carriers aren't cheap to operate.

If we ran out of oil, a lot of things would be very different, and I'm afraid it'd basically be like going back to the Dark Ages in many ways, unless some severe changes were made in time. Perhaps they'd build more nuclear power plants, and power the trains with overhead electric lines the way they do with light-rail systems, but that wouldn't help cars and ships much. They could probably use coal for ships somehow, though that would suck environmentally. They could probably do electric for cars, and everyone would just have to get used to a 50 or 75-mile range and recharging every night. If these things were put in place in time, disaster could be avoided, and we'd just have to make some adjustments to our lifestyles until new technologies (such as orbital solar power generation) could come online to give us cheaper and cleaner energy. However, seeing how political units work, I have little hope that they could avoid disaster.

Re:Slow down.

[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 ;-)

Re:Slow down.

[ErikZ]

We will never "Run out of oil".

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

Re:Slow down.

[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 educated country folk.

On top of that, the low overall efficiency means that enormous areas would have to be paved over with the growth medium of these things. It's doable in some places like Australia, Spain, or the United States, but is not viable in many European countries. They're already using that space to grow food!

Re:Slow down.

You seem to have a few holes in your knowledge too, my friend. There are electric cars today that can do over 300 miles but simply not in production yet. If the oil market would fail these cars would quickly come into production as the big stumbling block for electronic cars is the fact that they're an alternative, not a mainstay. Not yet anyway. Not to mention that CNG would be another option if such a scenario happened, that alone would give time to build the infrastructure needed for an electric car society.

Re:Slow down.

[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 increase significantly as we move from conventional oil and gas to sources like tar sands, fracking and fischer tropsch.

Re:Slow down.

you could just run the cars on the rail tracks with an automated hyrail system. power for the cars electric motors on the tracks is the same as light rail with a 3rd rail system. automation to avoid the drunk driver issue.

Re:Slow down.

[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 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. Plus, our freight trains here tend to travel very long distances through very remote and uninhabited areas as they cross the continent.

And of course, you're right that oil won't "run out". I was just entertaining that concept as a what-if scenario since the OP brought it up.

Re:Slow down.

[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 significantly less range than the much, much smaller gasoline tank. Pickup trucks with CNG are better, but they still sacrifice 1/4 - 1/3 of their cargo bed to the tank. Sure, a vehicle designed specifically for CNG might do a little better, but not much: there's simply not that much extra room (even under the bed of a full-size pickup) for giant pressurized tanks. If it weren't for this problem, CNG would be great, because it's easy to convert a regular gas engine to run on it, but as it is, it sucks.

Re:Slow down.

[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.

Re:Slow down.

[fnj]

You don't know what you are talking about. Around the world, there are many, many trains powered solely by electricity, from overhead wires or third rails. Just about all subways and light rail are electric. 17,000 of 24,000 km of rail line in Japan is electrified. The Japanese bullet trains are electric. The French TGV are electric. Eurostar London/Paris trains are electric. Maglev is of course electric.

One fourth of track around the world (240,000 km) is electrified, and 50% of all rail transport is electric. That includes the US, which is sadly behind serious modern countries.

Re:Slow down.

[DigiShaman]

Yup, and hydrogen would be even worse. You can't retrofit an engine to use the stuff for very long. A process known as hydrogen embrittlement will ruin a standard engine (piston rings, valves, moving parts, scoring of cylinder walls...etc). Though, you could make an ICE to run on hydrogen as long as you're using the proper alloys.

If anyone wants an ICE to be environmentally friendly, bio-diesel is really the best way to go. Power, range, versatility and reliability are hallmarks of diesel.

Re:Slow down.

[Alioth]

For trains, it depends where you are. In most of Europe the trains run off electricity. It's an uncommon sight in the United States so you may not be all that familiar with it, but in most of Europe many passenger and frieght lines have cables suspended above them, and the locomotive picks up the power from the overhead wire. In France you can say effectively the railway is mostly nuclear powered.

It has resulted in some extremely fast trains, for example the Spanish AVE can travel up to 320 km/h in normal service (200 mph).

In this photo you can see the pantograph on the locomotive and the overhead wires:

http://es.wikipedia.org/wiki/Archivo:Renfe_clase_100.JPG

Re:Slow down.

[thegarbz]

Actually the reality is far more economical. We will never "Run out of oil" because the oil available becomes a supply and demand equation. As the price of oil goes up due to lack of oil it becomes economical to access reserves that companies have mining rights too but have deemed to expensive to extract. As the cost of oil goes up it becomes more economical to use expensive upgrading equipment to extract every last bit of usable hydrocarbon from it.

This cost is passed on to consumers who at some point will find an alternative to oil. We won't ever run out of oil, but as prices trend up people may stop consuming it.

Re:Slow down.

No, they don't. [...] You need something to generate electricity.

Yes they do and no, you don't need to. Not on the train itself, anyways. See, during normal operation, trains rarely venture off their tracks. Using that to their advantage, most railway networks plant a couple of masts along their railway lines and connect them using some conductive cabling. They proceed to hook that cabling up to a power plant or two, and shazam - electricity, everywhere.
And if mass transit on rails is a novel idea to you, let me assure it can work. The Swiss Federal Railways report some 2'400 km traveled in 2010, per-capita. Trains only, 99+% of which, I'm willing to bet, run off the railway grid.

Re:Slow down.

[Asic+Eng]

Well, if it's really only about fuel but not a general energy shortage, then you could just use hydrogen.

Re:Slow down.

If we were to run out of oil in the next few years we could not just change to electric cars.
  Severeal reasons why that won't work.

Not enough time to replace all the cars with new electric, nor has everybody enough money for that.
Not enough power to charge the batteries. If you really want to replace oil with electrical power, you'll have to build a few hundred new nuclear plants as well.
Existing batteries aren't good enough. The energy density of the best batteries is roughly 30times less than for gas. That means to replace 1kg of diesel you need 30kg of battery. That's not very accurate, but you get the picture.

However, for air travel, I suggest taking a look at oldschool zeppelins. Big lighter-than-air ships. It would be slower but it gets there and can transport quite a lot.

So, I don't think you are right. Decreasing oil will mean the end of the car and the plane as we know it. You can have ultralight vehicles with battery power that travel 30mph at best and airships instead. And bikes. Still can walk too. But the car culture will be pretty much dead in a few years. Unless Mr Fusion comes around of course.

And I for one welcome our new bike cycling overlords

Re:Slow down.

[Teancum]

Almost every locomotive in America is an electric locomotive.... but with one important differences: Most of the locomotives bring their own generator with them. It is called a Diesel-Electric locomotive because the power plant is actually on board the locomotive itself. It turns out that for the scale and power needed for a locomotive, that bringing the generator along makes a whole lot of sense. The generator is roughly the size of a small municipal power plant (really!) and the benefits of the electric motor are that you can apply almost 100% of the torque that the motors can provide right from the moment you start the vehicle. That is particularly important when you need to be pulling hundreds of cars simultaneously like some of the cross-continental freight trains.

Where you see the overhead power lines is when you have high-use and frequent enough traffic that justifies making the additional infrastructure to put in those extra power lines. Keep in mind that you get some power losses simply through transmitting the electricity, and throwing up those overhead lines is incredibly expensive to build and maintain, together with the set of transformers and other infrastructure requirements. Most of the generation is simply "off the grid", although custom built power plants do happen as well. Since there is some improvement in efficiency if you don't have to keep hauling around the power plant with you, once you get past a certain threshold to justify that extra expense as well as having enough locomotives on the route that the efficiency loss due to transmission is negligible, the case for a "pure" electric locomotive is justified.

Such expenses and economies of scale simply aren't justified for major cross-continental rail lines like in the American mid-west. You can and do see that in the north-west urban corridor of America as well as in municipal light rail systems where the extra expense is certainly justified, but it really is a matter of how much traffic is going on the line. Once the line has been built, it gets harder to justify its decommissioning, but I've seen that happen too where the overhead lines are simply turned off and the "electric railways" go back to a Diesel-electric locomotives (which a few are usually kept around just in case of a loss of power even if the overhead lines are available).

Re:Slow down.

[AmiMoJo]

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

Depends on the country. Japan mostly runs pure electric locos, right from passenger trains up to the bullet trains. Moreover virtually all high speed trains anywhere in the world are electric, not least because they need to power all or most of the wheels and electric motors are much more compact. Going forward we are starting to see maglev tracks being built which are of course entirely electric too.

Re:Slow down.

[AmiMoJo]

It's doable in some places like Australia, Spain, or the United States, but is not viable in many European countries.

That is why the EU is looking to north Africa and eastern Europe. Africa would be mostly solar, but you only need a relatively small area of it. 3% of the Sahara could meet western Europe's energy needs all year round with solar thermal collectors, although obviously for security we wouldn't want to rely on just one source.

Even before oil runs out it is already giving us enough grief because we have to get a lot of it from countries that don't really like us and are not what you would call stable, let along democratic. With the various renewable sources we can at least pick who we deal with to a large extent, instead of being at the mercy of where oil deposits just happen to be.

Re:Slow down.

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.

you have a limited knowledge of trains, and it seems an american oriented one .

In Europe, and i think Japan too, only a few trains in undeveloped areas are diesel-electric.
Most of them , and almost all of the fast ones (french TGV, japanese bullet train, italian freccia rossa), are powered by electricity via overhead lines.!

Re:Slow down.

[angel'o'sphere]

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

Yes they do! Perhaps not in your country ... but keep in mind the world is larger than just your country ... which ever ti is.

Re:Slow down.

[angel'o'sphere]

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.

Well, I live in germany and your parent is not quite right. We indeed have still not electrifiede rails in use, however the majourity of rails that are not electrified are not in use anymore.
Regarding power demand: the nice thing about electricity in a european country is: there is huge surplus and "endless supply". It is no problem to power a cargo train with electricity. However a big deal of cargo trains is diesel, because they travel at daytime on non electrified old rails (keeping the elxctrified rails clear for personal transport)

Re:Slow down.

[Grishnakh]

I already replied to someone else that I was writing from an American point-of-view. Over here, electrifying railways makes zero sense because freight locomotives carrying hundreds of cars need too much power, and the expenses and line losses are too great for the enormous distances involved, traveling through uninhabited areas. It is done for light rails and subways, however, but there aren't a lot of those over here. When someone uses the word "train" here, what comes to mind is freight trains, not passenger rail.

Re:Slow down.

[fnj]

Yes, it is impossible to do justice to the stupidity of U.S. policy. Less than 1% of the 227,000 km of rail line in the U.S. is electrified. But this does include some important high-traffic routes in the Northeast; it is hardly limited to subways and light rail.

This is not due to impracticality of electrification, as implied by both your posts. The distances involved in the U.S. are no kind of unique bar to electrification. As a matter of fact, there was far more electrified line in existence in the U.S. 70 years ago, which thoroughly disproves that theory. And Russia and China, with their own enormous expanse, were not deterred from electrifying their rail lines. By the end of 2004, 18,900 of 74,200 km of rail line in China had been electrified, an order of magnitude more length of electrified track than in the U.S. In Russia, the entire trans-Siberian line, and the route to Murmansk have been electrified.

In the real world, electric rail use is not limited to passenger by any means. It is just as suitable for freight. By 1990, 60% of Soviet railway freight was being hauled electrically. Today, 85% of railroad traffic ton-miles in Russia are hauled electrically.

Re:Slow down.

When (not if) oil runs out, we have:

Trains on electric powered by coal (for a couple hundred years)
Airplanes run on biodiesel produced by oil from corn, chickens, algae, avocados, olives, fish, ...whatever.

The biodiesel production and costs will probably never match that of fossil fuel production, so air transport will become very expensive, but air travel will always be possible.

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.

Oil from coal is economical already

Oil from coal synthesis is economical at $45 per barrel and the current oil price is double that. So if it wasn't for plentiful shale gas and enormous tar sands deposits keeping all the engineers busy, there would be oil from coal plants springing up everywhere.

So, oil isn't going to run out any time soon - not in the next 200 years or so anyway.

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 every time I hear about some electric vehicle the problem seems to always return to the batteries.

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 superconductive coils, which would weigh less than the jetfuel currently does and would cost less after being built on a per flight basis and could be refueled as quickly as one could give it new electric power.

It might however have clear health effects with that much localized magnetic fields and break a lot of electronic devices, and refrigeration is a giant pain in the ass without having it 30k feet in the air.

Re:SMES

[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.

Re:SMES

[wagnerrp]

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

Re:SMES

[Jeremi]

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

Sure they can. ;^)

Re:SMES

[TheInternetGuy]

I feel sorry for the guy. His entire engineering credibility lost because of a spurious slash. Slashdot is a harsh mistress indeed.

Re:SMES

[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 it was taken into account.

I even used older SMES coils, giant planes, and didn't calculate for the reductions of weight and reductions of fuel system requirements. If you've seen what electric cars consist of, you'll see why they are basically batteries on wheels. A jet liner with superconductive batteries would be the same but rely on economies of scale for cooling and be equally reduced across the board, none of which I bothered to take into account, because they only help my case.

Re:SMES

[Joce640k]

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 /.

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.

Re:SMES

[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

[impaledsunset]

The coil will weight less than a horseshoe, but how big would it have to be? What about the cryogenic cooling facility? How much does the superconducting wire cost? Can you give an example of such coil that can be used on an aeroplane? I mean, if there was cheap technology to store electrical energy that was feasible for vehicle and aircraft use, we'd be using it, and electrical cars wouldn't be relying on incredibly expensive LiON batteries now. I haven't heard of one yet.

Re:SMES

[bwayne314]

You sir, are technically correct, which is the best kind of correct :)

Re:SMES

[CtownNighrider]

Don't forget discharge rates, it's great if it can store a bunch of energy but if it can't discharge it fast enough to propel the airplane it's useless.

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-electric, I compare to a turboshaft? They're both rated in power, and both numbers would be converted to thrust in some manner, with whatever attending losses of the thrust system (propeller/ducted fan/etc.) being equal.

If you want fuel flexibility, the Honeywell AGT1500 from the M-1 tank can produce 1,120 kW running on, from what my tanker friends tell me, "greasy kid's stuff." However, it's not an aircraft design so it's quite heavy at 1,134 kg (for example, it sits in a heavy steel frame so it can be quickly plucked out to change engines).

So we use the later aviation version, the PLT27 that produces 1,434 kW and weighs 145 kg.

That's half the power at 1/127th the weight. No, diesels aren't going to work in airplanes. Far too low of a power/weight ratio. The equivalent weight in turbines would give you 182,118 kW, or almost a quarter-million horsepower.

Why do we still use diesels in locomotives then? The diesel is more reliable, long-lived and requires less maintenance. We don't care so much about an extra dozen tons since it doesn't matter much when it gets up to speed.

See what an economy-class meal used to be

[Quila]

Scroll down

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

Re:See what an economy-class meal used to be

[Jeremi]

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

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

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).

Re:LOL

But they're constrained! Most of those molecules have no interesting or useful properties. They're either viciously reactive, like chlorine trifluoride, or fragile, or dissolve in air, or have no strength, no tensile strength, or they fracture. Or maybe they have great strength, but weigh too much, or use elements we don't have in huge amounts.

Carbon nanotubes? Give me a break. Unless the bulk properties can be demonstrated, it's just a lab curiosity right now. And it's still carbon! It'll burn at 900C just like coal, and diamonds. So?

"things which don't occur in nature in any significant quantity"

You don't see that as a problem? So now, you have to manufacture all these materials, with our dwindling energy base. Good luck.

Look, it's simple. This is all delusional. Metamateriasls and wishes don't lift a feather.

It's great that you have this faith and your religion makes you all positive and stuff because you have a fast computer now, but really, you sound like a child.

Re:LOL

[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 space elevator cable. You only need nanotubes about 1cm long for that.

Elements we don't have in huge amounts? What, like carbon, boron, and nitrogen? I can't think of anything that's more plentiful on the earth's surface except for hydrogen and oxygen.

Manufacturing? You have to manufacture everything else out of raw materials. It's not like you can dig up aluminum out of the ground; you have to refine it from ore, which requires tons of electricity.

You're either a troll or a fool.

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.

Re:turnaround

[Nivag064]

Drop old battery out & insert fully charged battery - ten minutes?

Batteries can be charged independently of the aircraft.

Not Batteries--Fuel Cells and Electric motors

We get away from the Carnot/Heat engine inefficiencies. I know, they're 10 years away.

Re:Not Batteries--Fuel Cells and Electric motors

[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.

Re:Not Batteries--Fuel Cells and Electric motors

[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 wouldn't want to have an ICE in that kind of environment nor are you needing that energy to keep you aloft either.

Unless you have put a whole bunch of effort into creating high power fuel cells, it seems like you would need a whole bank of the things which would add both bulk and mass to the plane.... both of which are things in very short supply on most aircraft. Unless you can improve upon the power plant weight and size of a normal turbofan jet engine, it seems like it would be a waste of effort.

Not yet

[jklovanc]

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

Re:LOL

While you may be 100% correct, you don't have to be constantly belittling somebody else for the lack of knowledge on a topic.

Just enlighten, inform, and move on without having to make everybody else seem like a fool.

Or perhaps just grow up and act like an adult. Then again, this is slashdot.

Re:LOL

"Who cares if something dissolves in air? If its properties are useful enough, then you put it in an air-free environment, "

Ohh hah hah hahahahahah!! Of course! Just like that! Bahahahahahaaa!!! Hoo boy.

"ulk 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 space elevator cable. You only need nanotubes about 1cm long for that."

Oh, I see, another Space Nutter. Your grasp of physical reality and engineering limits is non-existent. This discussion can go no further.

Ten years from now, you'll maybe have matured a bit and realize how right I am. Thing is, I don't think you'll notice. You'll still be desperately clinging to your imaginary technologies and non-existent materials, and still insisting fantasy-level technologies like space elevators are even remotely feasible.

Wanna make that bet? Ten years. Not a single thing will have changed in our propulsion and materials technology. A 747 from 1969 works pretty much the same as today. Yes, you have better toys. Big deal.

Ten years. Deal?

Re:LOL

[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.

Re:It's already farhter along than the article sho

[FlyingGuy]

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

The main reason for diesel-electric

[Quila]

Is how incredibly huge and strong a transmission would have to be. Diesel-electric lets them eliminate the transmission.

Energy requirements

[migloo]

In a perfectly still atmosphere (zero wind), the energy requirement grows like dV^2 to travel a distance d at speed V.
Batteries' specific energy (J/kg) being much less than current hydrocarbons', this approach is conceivable only for travel at very slow speeds.

And as a reminder, zero energy flying has been practiced for quite a while: it uses gliders or balloons.

Lots of free Wind Power

At least there will be tons of free Wind Power for it to use while up there...

$400

[Quila]

Columbus to DC.

Cessna 140

[Quila]

A Cessna 140 has about an 85 hp engine, which translates to 62 kW as you said. It has 15 sq/m of wing area, say we can use even 10 at 1 kW/sqm. That's about 13 hp. I doubt you'll even be able to cruise with that. Think about it, that's the power of two average lawnmowers, it's not going to keep a Cessna in the air.

Forget batteries. The gross weight of the Cessna is only 250 kg higher than the empty weight. Say person weight of 75 kg, two people, you have 100 kg left for batteries. Cruise is usually 50% power, 31 kW. The 24 kW/h battery in a Nissan Leaf weighs 300 kg. Take 1/3 of that to fit it and you have 8 kW/h for flight. That means 15 minutes cruise. The full-power takeoff probably more than offsets the 2.5 kW/h you'll charge in-flight with the solar cells.

Oops, I forgot to calculate in the weight of the solar cells...

Batteries just can't carry their own load in a commercial transport or passenger airplane. It's a great idea for a recon drone-type vehicle that's almost all wing, slowly circling above on solar power, using batteries to stretch between clouds. But then the cargo is only a few cameras and sensors, and the batteries.

Equivalent of a grammar Nazi?

[Quila]

I think it's pretty obvious he's talking about MWh, one megawatt of power for one hour, even with the added "/".

Re:Equivalent of a grammar Nazi?

[wagnerrp]

Yes, but that's not the point. He uses it, and he keeps using it repeatedly. Such behavior would indicate he has no idea what the unit actually means.

Heinlein

[Quila]

This need for better batteries reminds me of the Robert A. Heinlein novel Friday.

The guy who owned most of the country did so because he invented basically a super-battery. And it's true. Someone who could invent a 50-lb briefcase-sized brick that could give a car 150 hp and a 300-mile range in adverse conditions (A/C or heater on) would be a zillionaire.

Re:Heinlein

[Grishnakh]

The only problem there is that those requirements aren't really coherent, because of the large amount of power needed to create heat electrically. Modern cars get heat for free because it's created as a waste product from the combustion process, but an all-electric wouldn't have that feature, and would need to use either resistance heating or a heat pump to warm the interior. The heat pump would be more efficient but probably less effective in really cold temperatures.

Because of this, you could either make the requirement 150hp and a 300-mile range with no A/C or heater, or 150hp and 300-mile range with the heater on. Having the heater on would drastically alter the car's range on a single charge, so you can't neglect it in the requirements; if the car gets 300 miles with the heat on full blast, it'll probably go 4-600 miles (guessing) with it off, which is a big difference.

But other than that nit-pick, yes, anyone who could invent such a battery would be fabulously wealthy. It's the ONLY thing keeping us back from having all-electric cars, and not being dependent on foreign oil. It'd also likely make car transportation much cheaper per-mile, because electric is so much more efficient than burning hydrocarbons and using the Carnot cycle to propel a vehicle, even after transmission, generation, and storage losses.

I'm not an engineer

[Quila]

I make the mistake too sometimes. I know the concepts, I just rarely have need to use the abbreviations, and don't always bother to look them up.

OTOH, the very idea of superconducting coils in an airplane sounds like quite the flight of fancy. Even if it worked, I wonder about charging them at the airport in any reasonable amount of time. An average 747 carries around 150,000 kg of fuel. Jet A has 42.80 MJ/kg, so we need 6,420,000 MJ to fuel up equivalently.

Since 3,600 MJ = 1 MWh, we need 1,783 MWh to fuel a plane. That's an entire gigawatt power plant running for almost two hours just to fuel one aircraft.

If you wanted the ability to fuel just five aircraft at a time, that's more power output than all but the the three largest dams in the world. To fuel just three at a time you need the world's largest coal or fuel power plants, or a top 10 nuclear plant.

Re:I'm not an engineer

[wagnerrp]

It's not quite that straight forward. First, realize that gas turbines are a heat engine, and not a direct energy conversion. Further, gas turbines operate on economies of scale. The larger the engine and higher the compression ratio, the higher thermal efficiency you get. The 747 runs on moderately sized engines (55klb), that are 40 years old, with a fairly low 24:1 compression ratio. Total thermal efficiency is probably somewhere the low 30s, rather than around 90 for an electric motor.

Second, the efficiency of an aircraft is directly proportional to it's speed. Higher speed means shorter flights, but thrust requirements go up with speed squared, and power with speed cubed. Smaller personal aircraft operating at speeds around 80-120kts actually get comparable mileage to a large car. Slower flights would make the world a larger place, but may be more sustainable in the long run.

However, you have uncovered the unspoken problem of the electric car. The US currently consumes around 20M barrels of oil a day, which equates to some 11.3PWh of stored energy per year. In comparison, we only use roughly 4.3PWh in electricity per year. Now certainly electric vehicles and devices will be much more efficient than their fueled counterparts, but were still talking doubling our yearly electrical consumption.