Electric Car Capable of 180mph 375
niclas_b writes "This electric car is pretty cool. It's not cheap and maybe not very practical. But very cool nevertheless." Might as well throw in a link to their homepage as well.
The Tao is like a glob pattern: used but never used up. It is like the extern void: filled with infinite possibilities.
Something's Wrong... (Score:5, Funny)
Maybe it was Total Recall, not sure.
what do you mean not very practical? (Score:5, Funny)
Re:what do you mean not very practical? (Score:2)
Don't laugh at this one. I put an inverter and 100' of extension chord in our Prius( gas/electric ) and used it during the energy crisis( Enron and Duke energy sucking out of CA ) of 2000/2001. Worked great but MPG wasn't so good.
When will we figure out a way to meld home power generation/use with transportation power generation/use? People complained that thin client computing was very bad because the network could go down but they are more than willing to have broken pipes, spoiled food, no heat/cooling, etc when the electric system fails them.... Interesting.
LoB
Re:Forget pratical did you see the concept page! (Score:2)
American politicians?
Re:Forget pratical did you see the concept page! (Score:2)
Re:Forget pratical did you see the concept page! (Score:2)
Definitely not; this vehicle isn't a huge gas-guzzling SUV, and doesn't show support for the oil lobby or the American auto lobby.
Batteries (Score:2)
- Current capacity, Voltage: 88 Ah, 3.75V
- Amount of energy/Voltage: 55 kWh / 315 V
- Batteries weight 600 kg
Aha! So now I know what the mobile phone manufacturers use as the reference when announcing the battery lifetime of these cool new 3G phones :)
Re:Batteries (Score:2)
Yea, there is nothing in 3G that inheritantly sucks vast amounts of power. However, atleast these 2.5G phones seem to have a gazillion of bells and whistles configured "on" by default - and atleast the current code for these bells seems not very optimized. On certain devices for example, if you play a few minutes of polyphonic ringing tones, you can just hear how it sucks out the power. Imagine what happens when the CPU needs to process realtime multimedia.
Umm..... right. (Score:4, Informative)
In my opinion, something that is more important to the future of electric cars (and a testament to their potential) is the Toyota Prius Rally Car [supercars.net]. It recently just finished a 5,000 mile 3 week rally [ultimatecarpage.com]. Didn't finish first, but finished (which, as any rally fan will tell you is a challenge in-and-of itself). At least Toyota's accomplishments are tangible.
And seriously, whats with the 8 wheel design?
Re:Umm..... right. (Score:2)
The 8 x 73HP motors, for instance! That makes 55 kw (73 PS) x 8 power, and 100 Nm x 8 (72.33 lb/ft x 8) between 0-5500 rpm of torque......
Re:Umm..... right. (Score:5, Insightful)
And seriously, whats with the 8 wheel design?
To begin with, as the page explains, it means no dive or squat during braking or acceleration. It also means smooth cornering. It means, as your other respondent mentions, 8 motors with power evenly distributed to each wheel. It means that the car can lose wheels and continue to operate normally. It means the vehicle prototype can be adapted into limousines, trucks, buses, and other large vehicles.
Basically, it's completely kickass, and you call it "laughable" because it's not what you're used to. Good job, man.
Re:Umm..... right. (Score:2, Insightful)
Yes, it's a benefit. If you stop and think, I'm sure you can work out one or two reasons why.
Oh, hell, I'll give you some answers. One, if you live in the Third World you may be subject to violence on the streets (South Africa comes to mind). Two, if you are a police department, your vehicles may be subject to heavy punishment at times (riots and high-speed chases come to mind). Three, if you are a taxi or bus service you cannot afford costly breakdown times. Four, it may be desirable for many reasons to have broken wheels serviced professionally, in which case the car can be driven to a service center and user-replaceable parts can be kept to a minimum.
Just some reasons off the top of my head.
Re:Umm..... right. (Score:2)
Two, if I was a police or military officer I wouldn't want a vehicle with limited range that takes a hour (very very optimistic here) to fill up.
Three, if I was a person waiting for a bus if one pulled up with a wheel missing I might just wait for the next one any way.
Four, this one I'll give ya. If my wheel just fell off I'd probably want someone to give the drive assembly a look and inspect the other 7 wheels to see if they are in danger too. Then again I thought this is why people open towing companies...
If I had to venture a guess, the 8 wheels are necessary to support the gross weight (yes pun intended) of the vehicle at planned high speeds. Look at the new Mercedes SL55. After "removing" the speed limiter the car is claimed to have a 186mph top speed compared to the factory 155. According to the literature and automotive press the car is actually capable of 200+ mph but tires do not exist to carry it's 4,235lbs curb weight.
All said and done, aside from sounding like something from chi-town (Da bears) da KAZ is pretting interesting. I still think it'll be more interesting once people get to hotrod their own electric cars (2, 3, 4, 8, 16 wheel, battery or fuel cell). I can already picture garage gearheads hand winding motors and polishing drivetrain components.
Re:Umm..... right. (Score:2)
If you live in a third world country where you're subject to violence on the streets, and you can afford this car, you'd be an idiot not to move the hell out!
There's a reason people are emigrating to the first world coutries, and not to the third world ones.
Re:Umm..... right. (Score:2, Interesting)
Long story short, sometimes you're not 'just around the corner' from a gas station so I would certainly see the extra wheels as a benefeit.
Moreover, the car demonstrated in the picture is actually a limosine (I happened to catch a Discovery special on this car last a few nights ago), hence the claim to 'seat 8'. The interior has a typical limo-style seating arrangement, with bench seats running around the outside of the vehicle (looked very spacious and comfortable, I might add). These are apparently a big hit in Japan, where I suppose the 25 million Yen (~$600k USD) pricetag isn't quite so daunting.
Re:Umm..... right. (Score:2)
Re:Umm..... right. (Score:2, Insightful)
Something like the Prius is showing a possible future. It's not selling that well as yet (relative to normal cars) but is at least quite practical.
What is needed are electric cars which can function almost as well as a normal car (in terms of range and speed). Until recently most alternative fuel cars had maximum speeds of about 40 mph and a range of about 50 miles before needing an hours charge. Unless cars like these are available very cheaply then how many people will buy them?
Something like the Prius has the best of both electric and petrol cars and represents the present and near future. This huge supercar thing represents, at best, something vaguely from the distant future.
Re:Umm..... right. (Score:2)
It's not selling that well as yet (relative to normal cars) but is at least quite practical.
Well, we had to wait 3 months for ours and our friends waited 5 months. In it's first 6 months in the US it sold 2x more than Honda Insight did over 12 months. They've throttled production but that's about to change. I've heard that Toyota has something like 4 hybrids instore for sale next year. Even with throttled production, they sold 100,000 cars as of last August 02'. Essentially, 2 years of worldwide( US/Canada ) sales.
About Toyota Prius [toyota.com]
LoB
Re:Umm..... right. (Score:2, Funny)
OH YER!
If that mother can put down 1000HP through 6 wheels, I bet it takes off like a scalded cat!
man you guys reading this? (Score:2)
Torque 465.05 nm / 343.0 ft lbs @ combined rpm
heh... that's more torque than most truck engines, actually =).
i guess this really confirms the rumor that the electric motor on the prius is so powerful (torque-wise) that they had to tone it down a bit to get reasonable (as in, slow-ish 8-10s) acceleration times (and reasonable fuel economy -- after all it's supposed to be a gas-sipping car). and remember, that torque is available at any rpm.
I would not be surprised that an eletric-motor assisted car would do better than a straight int.comb. engine car (if you can save the weight on the batteries, say, use ultra-caps or something)... This is true *especially* in acceleration, which in any race that involves actually turning, would be one of the, if not the most important stat (while braking into a turn, your engine is still redlined and charging up the capacitors for that speedy exit)
Re:man you guys reading this? (Score:2)
Maybe the next Toyota hybrids will have an option for a little more battery for a little more gitty yup.
LoB
Re:Umm..... right. (Score:2)
That's for keeping a good relationship with the petroleum countries.
Look, if you wont be spending as much on gaz, you got to spend that oil somewhere else. And that, my friend, is TIRES!
Imagine the amount of frictions those back wheels are gonna have eh?
But this car is also about money. If we're not going to spend as much money destroying the planet with gasoline, we might as well do it with a TRUCK LOAD of batteries!
And we might as well spend all our remaining money repairing dang expensive motor wheels for every frickin potholes we'll be ramming into, at 180MPH!
Coz that, my friend, is the green way. GO! Environmental-friendly cars! A new era is beginning.
(And for those moderators out there, this is called sarcasm.)
Is this really a _car_? (Score:2)
[...]
And seriously, whats with the 8 wheel design?
That was my first thought too, but on closer inspection, this looks less like a car and more like a small bus with a nicer-than-usual interior. Under that category (luxury chartered bus), it could easily work.
checked out the pics... (Score:5, Funny)
Re:checked out the pics... (Score:5, Funny)
Pictures of the Car (Score:5, Informative)
http://web.sfc.keio.ac.jp/~hiros/kaz/pict.html [keio.ac.jp]
Electric Car that goes 200mph+ (Score:5, Informative)
Here are it's specs [ou.edu].
180 mph motorhome... (Score:2, Informative)
I wonder... (Score:2, Insightful)
2. How far will the car go when driving max speed of 311 km/h? (Does this mean driving 20 Minutes, and then the batteries are empty?)
Re:I wonder... (Score:2, Interesting)
How can 75PS make a car drive 311 km/h? (Specially with a weight of roundabout 3 tons)
Notice that they have one integrated "in-wheel" motor per wheel. Each motor achieves 73 PS. And there are 8 wheels, so that's 73*8 = 584 PS
If you combine those 584 horses with the extremely aerodynamic look of the car (close to teardrop shaped), the top speed of 311 km/h would not surprise me. Once you get those 3 tons moving, most of the work is to combat friction.
For question 2 regarding the range when driving at max speed, we can only speculate. My guess is that if it can do 300km at a constant 100km/h, then at 311 km/h you probably can't do much more than 60-80kms. Which means that you'll rip through those in about 15 minutes.
But the question is: while we can wonder who can manage a constant 311 km/h for 15 minutes on asphalt, what is the acceleration cost for stop-and-go traffic which is much more common these days?
Woah... (Score:5, Insightful)
A quarter mile in only 14.5 seconds? Or am I reading that wrong?
Max Speed 311.67 km/h
Top speed, 193 MPH
Gross weight 2980 kg
Gross weight, 6,569 pounds!!!!! WHAT! That's 3 tons!
There's gas powered cars that weigh 1/4th that, have 15 second quarter miles (400km), and a top speed of 150 MPH (241 km/h). Is this some kind of cruel joke? Can't they put that engine and battery into a smaller frame and get an electric car good enough to compete in an actual race? That thing looks like a long minivan... If there was a cheaper version, with a MUCH better shape, I'm sure alot of people would buy it.
Re:Woah... (Score:2, Insightful)
How many 8 passenger cars do you see doing the quarter in 14.5 seconds?
but that shape sure is damn ugly
But there is an electric elise (Score:2)
Maybe I'm missing something here, but there is an Electric Lotus Elise. It has quite reasonable acceleration performance (but is speed limited to 150kph/90mph I think). There's some details here [sandsmuseum.com] but a lot more links are listed on google.
I'd be tempted but I've already got a Lotus.
Simon
Re:Woah... (Score:2)
You had to convert kilograms into pounds to figure out how many tons it weighed? Here's a hint: 1 ton is 1,000 kilogram. It's a lot faster to calculate that way.
Re:Woah... (Score:2)
Re:Woah... (Score:2)
In the US, one ton is 2000 lb (also called a short ton). One Metric ton is 1000 kg (also called a long ton, at 2204.6 lb). In the US, when you ask for one ton of material and don't specify long or short, the short ton is common usage and typically assumed.
Re:Woah... (Score:2)
Be nice to your Chemical Engineer friends, they are the ones that will eventually solve the problem.
Re:Woah... (Score:2)
Personally, I'd have to argue semantics here. The reason we're not driving electric cars right now is "storage". This problem can be solved with batteries, flywheels, pure hydrogen fuel cells, etc...
Fuel cells are on the way, and will probably be the ideal solution. The fuel cell will either run on pre-separated hydrogen, much like a battery stores pre-generated power, or it will run off enhanced liquid fuels. In the first form, it will be called a zero emmissions vehicle, the emmissions having been generated at a power plant somewhere else at an earlier time in a more controlled environment. The second form will be a low-emmissions form, but if proper fuels are chosen the emmissions should be negligible. For example, filling it with biodiesel (i.e., reformulated corn oil) should result in incredibly low emmissions.
The other advantage to fuel cells is size. The fuel cell system would probably use several large capacitors and batteries for short term boost accelleration, but overall the system would be much smaller and lighter than a comparable battery system.
Re:Woah... (Score:5, Funny)
Can I mod this guy as Fucking Nuts...
Screw cool. (Score:3, Insightful)
Sorry, but... (Score:3, Funny)
http://www.acpropulsion.com/tzero_pages/tzero_h
At last! (Score:4, Funny)
comments on in-wheel drive system (Score:3, Insightful)
the reason you buy high quality name brand wheels is because (beside the "looks cool" and "got $$ buring holes everywhere") it gives a lower up-sprung weight. which means that the car does much better in the ride quality, easier to tune the shocks / suspensions, etc. by the way, different brake rotors would allow the same thing -- but people usually go for bigger rotors for the stopping power, and try to make sure the wheel themselves are as light as possible.
this is kinda important when you want your car to be performance oriented, as these guys are certainly trying to demonstrate -- but this combination of technology will ultimately yield a car that "can go 180mph but the ride really suck", or "if you want reasonable ride quality, then our entire million(s) dollar technology won't work"... self-defeating by my standards, anyway. =)
gotta say, though... damn... 600kg of batteries; that's over 1300 lb. some small cars (say, lotus elise) weight about that much...
Re:comments on in-wheel drive system (Score:2)
If you looked at the car, you'll know that it's obviouly not built for performace at all, just speed. Cars that are tuned for performace will have a horrible ride anyway. The only thing this car is going to be lacking is cornering performace. But since it's not a racing car, who cares?
Anyway. The point in putting it all in the wheel means there is more space in the chassis, the also, the biggie, hardly any moving parts at all. No gears, no diffs, not even a driveshaft anywhere.
Re:comments on in-wheel drive system (Score:2)
Nine times out of ten your aftermarket rims are much heavier than your factory steelies. Even factory alloys tend to be pretty hefty. No, there are 2 reasons to buy aftermarket rims. 1. A larger rim (plus sized) yields a shorter (and usually stiffer) sidewall, and that cuts down on sidewall flex during hard cornering. 2. A larger rim usually has a larger internal diameter (the side that faces your brakes) so when you throw that Brembo Gran Turismo kit at all 4 corners your rims will bolt back on. Oh, and they look cooler..unless they're chrome.
Re:No wonder we never switched to metric (Score:2)
Errrr....When exactly did you check? Was it before you had any morning coffee.
I think you hit the divide and not the multiply key on your calculator
I just cant shake the feeling thats its just a CGI (Score:5, Funny)
Maybe I'm just getting paranoid, because of this Beetle [cox.net]
A Conspiracy by the gasoline industry.... (Score:2, Interesting)
Electricity is more effecient that gasoline. (Score:4, Interesting)
Re:Electricity is more effecient that gasoline. (Score:2)
That's of course true, but for an electrical car you have to first convert chemical energy to electrical (in the plant), convert it back into chemical (in the car battery), convert that back into electrical and finally into kinetic energy.
Those losses add up.
Re:Electricity is more effecient that gasoline. (Score:2, Insightful)
In reality, it is not exactly known. Some studies have come close to trying to calculate all the steps involved. One that I've read (i don't have the link) had many of the things to calculate. The only way we'll ever know is if we do a earth to car efficiency study. How much energy is expended pumping the oil or mining the coal? How much energy is spent transporting the oil/coal? How much energy is spent refining/generating the final fuel (petrol/electricity)? How much energy is lost transporting the fuel (tankers/transmission lines)? Finally how efficient is the vehicle at getting the available fuel to usable motion?
1) Electricity is almost always made with local coal/hydro/natural gas/sun/wind. Petrol has a large portion from countries that are unstable. Places I don't think the US should stick there long noses and risk my relatives going to war.
2) Generation of electricity has efficiencies based on economies of scale. Much of the really bad pollution is cleaned out. Power plants usually drop their output during the night to points that aren't as efficient. If timers, time of use meters, and other strategies are implemented, electric cars can recharge at night. This additional electric load can be used to keep the plants operating in their most efficient power range. IC engines don't have all those benefits of size. They need to be cheap and useful so some of the pollution is allowed. I think that the refining of oil to petrol is very efficient. They use many of the byproducts in other ways.
3) tankers on the road to transport fuel to the stations is hard on the roads, fairly dangerous, possible terrorist targets. Transmission lines are not lossless. I don't know the exact amount of power lost in the lines and the transformers. But it is fairly clean. Generating your own electricity from solar/wind/geothermal/hydro eliminates the losses in the lines since it doesn't have to go that far.
4) Pumping gas into your car is pretty efficient but the engine itself is very wasteful. So much heat is generated that cannot be used unless your in a cold climate and use the heater. Electric vehicles have inefficiencies from the battery charger (power factor/line losses), charging batteries produces some heat. Discharging batteries produces heat. The speed controller is generating heat and the motor is not 100% efficient (usually 80% - 95%). When stopped in traffic the electric vehicle produces no heat or anything. IC engines keep running even though they don't need too. Can you imagine all the fuel wasted sitting in rush hour traffic?
These are all factors to consider. Down sides of electric vehicles are generally the range and weight. But how often do you really need to travel over 60 miles non-stop? If you do then you shouldn't have an electric vehicle as your main source of transportation. I call electric vehicles a good second and third car. If used as a primary vehicle you should get friendly with your local auto rental for the longer trips that the EV can't make.
What really pisses me off is that more vehicles are hybrids. These would be a great help to the pollution problem. If every SUV, bus, car, minivan were hybrid. They still aren't ideal but they would be perfect as a primary vehicle with your second/third vehicle being all electric. Even better would be a plug in hybrid that could run all electric for short trips (store, work) and then when you need to go farther it can run in full hybrid mode.
I'll quit rambling now.
Concept (Score:2)
As someone else allready stated, the weight is huge and 8 wheels is strange for a passenger car. However, on their homepage it is made clear that they created a standard chassis on which a bus, truck or passenger car can be build. Further more, it's interesting to see their concept as it shows that perhaps the future of automotive transportation lies in a totally different concept than currently used.
You can compare it to toyota's electric car or the lotus elise but those cars are made with todays concept of building cars. The engine built in the wheel is a refreshing thought as it surely leaves alot of room for a developer to design the card without compromising for motor compartments etc.
Off course it does raise questions like what would be the price of a new wheel and such but somehow i don't think the audience for this type of car will be impressed by it's maintenance costs.
Besides that, i think it's a refreshing design. But that's pure personal prefference.
National Electric Drag Racing Association (Score:5, Informative)
Speaking of performance electrics, don't forget NEDRA [nedra.com]. Their current champion, "Current Eliminator IV", uses Dragster - 336V of batteries and did a standing quarter-mile in 8.801 seconds. I wonder what it sounded like - a two-tonne bumble-bee on crack..?
I second the previous comments about the need to keep wheel mass low - low sprung weight is a definite goal of performance cars. It's hard to call this thing a car, it's more like a bus, since it seats 8 and weighs 3 tonnes...
Re:National Electric Drag Racing Association (Score:2)
If you had 180mph busses it would be a whole new type of public transit. Of course, the way the roads currently work it wouldn't be safe, but if cars are eventually computerized and you remove human drivers from the loop then there would be no reason not to have arbitrarily speeds on the roadways. You would just key in a start and endpoint, and then your car would take you there. It might even be feasible to rent your transport - you just call up the local rental company and a car shows up at your door in three minutes and takes you to where you want to go - you would then gain the benefit of shared maintenance costs and not paying to maintain a car that sits in your garage 16 hours a day, and in a parking lot at work the other 8...
You could even envision contracting for transit via the best-means-possible. A car might drive you start to finsh, or maybe it would take you to a train/bus station or an airport. All fares are included in the original price. So I just punch into a computer that I want to go from home to work, or from home to Bangledesh, and it just tells me the price tag from competing subcontractors... You could even pay a premium to have a private accomodation (ie, no carpooling), or let the system have somebody who is travelling along the way stop by to pick you up for a reduced fare for both parties.
Sure, we're not there yet, but the pieces are starting to fall into place - once price comes down this could become technology for the masses. And it has to start somewhere...
Not quite as large as you think (Score:2, Informative)
More details in the pdf, people! (Score:5, Informative)
http://www.gaura.com/ev/kaz/pdf/KAZ_s.pdf
Battery technology still a problem (Score:5, Interesting)
Meanwhile, the direct injection electronically controlled turbo diesel just goes on getting more and more efficient, and cleaner. And smaller. And lighter. And more reliable.
Re:Battery technology still a problem (Score:2)
Can't you just put a large capacitor in series with it to solve that problem?
[fuel cell problems] world supply of platinum limited, high temperatures needed for high efficiencies, corrosive media, thermal management, carbon monoxide and dioxide poisoning
Membranes are getting cheaper and cheaper as the technology progresses. Not sure what you mean about the last one, the only output of a fuel cell is pure water. The high temperatures can easily be dealt with... there are even small fuel cells that run laptops these days.
seem always on the verge of being solved but never getting there
Well commercial fuel cells have been around for a while. My local swimming pool has been powered by fuel cell [futureenergies.com] for the last couple of years. I'm tempted to buy a domestic one for my next house. GM has promised mass production of fuel cell cars for 2008.
The last time I read an article on the future of fuel cells was the dead wood version of Scientific American in 1999. I'm not aware of any real breakthroughs since.
Where HAVE you been??? Even if you only read Slashdot you would see articles about fuel cells in laptops [slashdot.org] (plus obigatory dup [slashdot.org]), Sci American 2002 about GM [slashdot.org], Wired article about GM $1bn bet [slashdot.org], and more. Fuel cells are a big deal today.
Phillip.
Re:Battery technology still a problem (Score:2)
I ask again: where are these commercial fuel cells? How long does it take to build up mass in a new technology? I'm going to be using a Zimmer frame before these babies are parked at the mall in large numbers.
Re:Battery technology still a problem (Score:2)
What about just *one* motor? (Score:4, Insightful)
What's up with the freakesh design? (Score:2)
That this can go 190 miles an hour isn't really that impressive, especialy given that it probably has motors on all 8(?!) of it's wheels.
There are actualy a lot of niche electric cars for sale that will go pretty fast. Perhaps slashdot could look them up and do a comprehensive story.
Oh wait, that would require real work, nevermind...
And the point of this vehicle is? (Score:4, Interesting)
So, at 400kW, I don't see the point of the thing. BioDiesel or methanol fuel cell based, I could see the point of.
Hence my point about bioDiesel and methanol (Score:2)
There's no net pollution. CO2 produced by burning the fuel is taken up by the plants producing the oil or the mechanism creating the methanol.
It still lacks on the most important aspect (Score:3, Informative)
My dad's Passat 1.9TDI does 1000 Km under normal conditions, with just 55 litres of diesel. I know. I've measured it.
I've read a few IEEE articles on EVs in the past, and range seems to be their major problem right now. Also, Lithium batteries tend to die every couple of years and need to be replaced (too expensive).
Expensive ... but mostly impractical (Score:3, Insightful)
In my mind the practicality of these vehicles, independent of cost, revolves around the range versus recharge cycle. If it takes more than a few minutes to do a recharge, and the range is less than a thousand miles, then they're just not good enough for a general-purpose vehicle.
This is why hybrids are interesting ... recharge
cycle is a tank fill.
What I'm waiting for is someone to look at making a hybrid where the engine is always on, always producing power, but the generator is producing a bit more power than the thing normally will need and charging a capacitor stack rather than batteries. That gives you acceleration (for awhile) but is much lighter and cheaper than batteries and since the engine is operating efficiently all the time, and requires quite a bit less power than if it were producing motive power directly (eg a few hundred cc ought to do a pretty good job) it should still be more efficient.
Might as well throw in a link to their homepage (Score:2)
Pretty cool ride but I don't see the use unless they can start making CHEAP EFFICIENT solar systems. Of course, I should probably just ask Santa for a pony because I am more likely to get that down my chimney that effective solar power with oil and coal so CLEAN.
Better Alternative - The Air Car (Score:4, Interesting)
None in North america, 40 in China alone. http://www.theaircar.com [theaircar.com]
Mikie's *NEW* New Car! (Score:2)
OK - I get superb cornering in my front wheel drive, four wheels on the ground Neon. So does the Skip Barber racing school. 8?
Why 8? You have to be adding all the inefficiencies of all the wheels when you add wheels. Granted some of us can't live without a dualie or full-time all-wheel drive, but we're also willing to live with the slight inefficiency.
Maybe it's still more efficient than an 8-wheel or maybe a 4-wheel IC engine and traditional transmission and transfer cases, but it can't be more efficient than a 4-wheel electric with a motor on two wheels, and I can't imagine steering all those wheels is a trivial problem for engineering the steering.
(Footnote - go read up on the transfer of Paul MacCready's electric car to GM ("We can't put a motor on each wheel. What if one fails? The thing'll do donuts!" Never mind that many IC motor mount failures will collapse the nearby wheel assembly to the same effect...)
Geez - the guys at Pep Boys battery & tire dept. will drool and throw a rod when they see this thing limping in once a year...
You'll never get a car to run on air .... (Score:2, Informative)
I wonder if the air tank explodes when damaged?
Thunderbords are go... (Score:2)
Two birds... (Score:2)
Might as well throw in a link to their homepage as well.
Yep. Killing one site at a time just isn't enough for old Slashdot now, is it?
A Car after my own heart... (Score:2)
It can do 180mph (Score:2)
Re:How is that useful? (Score:2)
Re:How is that useful? (Score:2)
Re:How is that useful? (Score:2)
Re:How is that useful? (Score:2)
Re:How is that useful? (Score:5, Interesting)
Speed never killed anyone. It's how they decided to stop that caused the problem. <rimshot /> But seriously, most "speed-related deaths" statistics you'll find are artificially inflated. The way the statistics are counted is that if anybody involved was speeding (ie, going at least 1 mph over the limit), then it's categorized as speed-related. That's ignoring any of the true factors, like being alcohol-related, or caused by that little brat in the backseat that wouldn't sit down, or the driver was just an idiot (reading the morning paper while driving counts as idiocy).
It's worse than that in the UK. (Score:4, Informative)
Doesn't that make sense? (Score:2)
You could mark it as an ID-10-T error as well, I suppose, but that approach makes sense. Excessive speed in the wrong situation greatly increases the probability of an acident leading to fatalities.
Fine... Except... (Score:2)
The result is that we now have thousands of Gatsos all over the place to stop *speeding* because the politicians think speed related accidents are actually *speeding* related accidents. The problem is that it turns out that while speed is a significant contributer to accidents and deaths, *speeding* isn't.
Re:How is that useful? (Score:4, Funny)
Yeah, but you ever notice how drunk drivers never seem to hurt themselves or any of the other drunks out on the roads at 2 AM when the bars close, but only sober drivers? I think everyone should be driving drunk and we'd see a large decrease in the number of auto deaths.
Re:Good logic... (Score:2)
BTW, I'm not so sure they are statistically independent. I think you could make a case for synchronized swerving.
Re:sign me up. (Score:2)
Re:Nearly 1000 horsepower! (Score:5, Informative)
It doesn't suprise me that an electric car can hit high speeds, or have very short acceleration times. Electric motors have very good low speed torque. Basically they translate about 90% of the energy you dump into them to kinetic energy (try getting that out of a mechanical transmittion), so acceleration is pretty much dependant on what you can draw from the power source. Also, top speed is very dependant on areodynamics. I remember a vehicle from the 1930's in the Deutches (spelling) Museum in Munich that could do 70 miles an hour on a very low power engine (I seem to remeber about 50 hoursepower). It acompished this by having a very low drag coefficient (it was tear-drop shapped, and supposedly has the lowest drag coefficient of any car ever made). The electric vehicle in question here looks like it is pretty areodynamical, so I don't doubt the top speed claim. You should also take note that the high speed and acceleration probably have a very dramatic effect on the range (since drawing high current causes the battery to dump more of its energy into heat). For the same reason stop and go traffic probably kills the range since lots of current will be drawn starting and stopping the vehicle.
For use in the states I'ld be concerned that the time to charge wasn't listed, making it impractical for long distance travel (or stop and go traffic). Let's see some fuel cell cars that can be re-filled instead of re-charged (like a internal combustion car).
Re:Nearly 1000 horsepower! (Score:2)
Aerodynamical? That must be an industry term.
Re:Nearly 1000 horsepower! (Score:2)
Re:Nearly 1000 horsepower! (Score:3, Informative)
Electric motors have very good low speed torque.
Depends on the motor design, really. I'm assuming that a proper vector drive is spinning the shaft here -- a typical NEMA design A or B motor can pull about 12x nominal torque in this situation. The Marathon Blue and Black Max motors are significantly higher, having very (very!) peaky breakdown torque curves -- 25x nominal torque IIRC. Of course you're drawing significant current to get to these torque levels, as you stated.
I thought that most EV designs regenerated when braking / going downhill to try and conserve some energy. It's not a perfect conversion but at least you're not just wasting it.
Dymaxion Car (Score:2)
Re:Bullshit (Score:2, Informative)
And for the parent thread... 180 mph isn't that high. My 7 year old car does 146 mph and only 146 mph because it has an electronic governer prohibiting it from going any faster. Look at most (if not all) of the AMG Mercedes Benz, they are all with a top speed of around 180. Porsches have been doing it for generations. Most low end cars can make it to at least 120 mph. for something with 440kw of power, 180 mph shouldn't be too hard.
Half true. (Score:2)
However I've seen some really nice homemade and conversion cars. My favorite are classic and muscle cars that have been rebuilt and converted to electric. I've seen some of those that can do 90mph with a range of about 200 miles per charge and the ability to be recharged in 15-30 minutes. An even better trick I've seen is rack mounted batteries. Pop the hood and a special arm (manual usually but could be robotic) is used to remove the spent pack and a new pack is inserted while the spent pack goes to be charged. It's refueling in the style of portable kerosene tanks or like renting a tape from Blockbuster except with batteries.
For refueling stations electric should be a major boon. Charge a membership fee for the right to exchange battery packs and set up solar/wind to recharge spent packs and you have little ongoing costs.. it's all upfront costs which shouldn't be anymore than starting a gas station. Also as fuel doesn't need to be hauled in to the station you can put the stations in remote locations and make them fully self-service.
Re:Half true. (Score:2)
Re:Half true. (Score:2)
One idea I've had is that parking lots might offer free charges while your parked. Imagine how stores could make use of that especially if they have a renewable energy source instead of using the grid. Free fuel while you shop.. the longer you shop the more fuel you get.
Re:Half true. (Score:2)
I can just imagine there being power couplings embedded in the ground, and your car sending a wireless signal to remotely open them, then hooking up and charging itself.
Oh wait, we're still stuck with dinosaur fuel because the big oil companies can't handle a gigantic paradigm shift. I guess any large, monolithic company is loathe to change and risk hurting it's profits. Just like the record industry...if they would've gotten in on mp3 *early* they wouldn't be crying about losing money now. If oil companies help the automakers foot some of the R&D bills, they'll be able to keep their corner on the fuel market when the paradigm shift finally happens.
Re:Half true. (Score:2)
Very true that businesses don't like change but they do like cheap gimicks to get people spending money. Eventually there will be enough EV's on the road to make trials of these kind of programs worth while and then things snowball. People find out they get free fuel and they buy more cars.. more stores find out more of their customers have the cars and are using the program and expand the program throughout more of their parking lots. Enterprising people see demand for EV's and start selling them.. old car companies try to put new car companies out of business and finally make the switch themselves. It's all about coming up with these ideas and trying tor each critical mass.
I've thought of selling preassembeled solar/wind mini charging stations to people that want them. Maybe try to push them to greenies (I'm green but not as much as I'm a geek) as a practical way to help the problem. Buy a piece of roadside land and throw up a free-to-the-public mini charging station and your local club has done something to help the enviroment and hey it's a really cool geek project too.
Re:Half true. (Score:2, Insightful)
Last time I looked, most of GM and Ford's money was made on SUVs (high gas usage). When oil prices rise, sales fall, profits fall. Looks exactly the opposite to having money invested in the oil market. If they could get electric cars to really work, and make money, they would do it in a heartbeat.
Re:Jeeze.. (Score:2)
Re:Jeeze.. (Score:2)
Just the thing to get the rugrats to soccer practice.
Re:no way (Score:2)
Perhaps you are confusing top speed with acceleration?