Dutch Invention Uses Electric Engines For Wheels 380
Makarand writes "A Dutch invention is
promising to make vehicles atleast 50% more efficient
and also bring down the soot and carbon dioxide emissions. This is made possible by replacing
the conventional wheels by 'in-wheel' electric engines which are normal electric engines turned inside
out. No transmission is necessary as the in-wheel engines are powered by battery-packs installed on
the vehicle. A diesel-powered generator which replaces the original engine on the vehicle
charges the battery-pack continuously. The Dutch company
E-Traction has built a bus using this technology that
will undergo testing for the next six months."
Two words (Score:2)
I guess we need to look back at more Steve Jackson games for future technology ideas? Or perhaps he patented the idea and stands to make a killing now?
Two more words: (Score:4, Informative)
Unsprung weight.
Making a wheel that is an electric motor would make such a heavy wheel thtat the vehicle would handle and drive like total crap. The huge weight of the wheels would require shock absorbers with huge dampening ability to keep the wheel planted on the road over uneven surfaces. It would ride like a dump-truck.
Re:Two more words: (Score:3, Interesting)
Making a wheel that is an electric motor would make such a heavy wheel thtat the vehicle would handle and drive like total crap. The huge weight of the wheels would require shock absorbers with huge dampening ability to keep the wheel planted on the road over uneven surfaces. It would ride like a dump-truck.
In addition, you wouldn't be able to buy aftermarket wheels (no rims that spin at the traffic light), so no buying a set for winter. The obvious solution is to move the motor inboard and connect it w
Re:Two more words: (Score:3, Interesting)
The extreme weight of the wheel will be a consideration in the design of the suspention, but I don't think that it will drive like a "dump truck". First without a moter in the tradtional place, the w
Re:Two more words: (Score:3, Interesting)
This isn't anything new. (Score:3, Interesting)
http://www.nasm.si.edu/collections/imagery/apol
Re:This isn't anything new. (Score:3, Informative)
You can make ANYTHING a vehicle! (Score:2, Funny)
Will it stand the test of time? (Score:5, Interesting)
Not that I want to be a naysayer. I hope it pans out, but don't be too surprised if it quietly goes away never to be heard from again lot a lot of other great ideas. (I remember a british high speed train that leaned into curves, that was quietly taken out of service after much initial fanfare)
Re:Will it stand the test of time? (Score:2)
The problem with them is that they need specially re-inforced track. When the track management was privatised to RailTrack they wouldn't upgrade the Track as it would cut into their profits. Now that the Government has returned the track management to the public sector the works are (gradually) going ahead and we will soon have the APTs being able to work on all mainline track.
The French have, of course, used this concept for years as the TGV [o-keating.com], and the italian Pendulino [madeinfiat.com] follows the sam
Re:Will it stand the test of time? (Score:2)
The TGV is not a tilting train. And therefore it requires an exceptionally flat, straight and stable track for high-speed (300 km/h) operation (though it achieves a decent speed even on regular tracks).
Re:Will it stand the test of time? (Score:5, Funny)
"...bring down the soot and carbon dioxide emissions."
Sounds like vapourware to me.
Cost of batteries (Score:3, Informative)
Batteries don't have to cost that much (Score:3, Informative)
If you take a look at that graph, you'll see that even a lead-acid battery can last many thousands of cycles as long as they are shallow. The Yellow Tops in question are, I believe, rated at 55 AH (20-hour rate, don't ask me what discharge rate was used for the test) or about 660 WH nominal. The total throughput over 4500 cycles to 25% depth of discharge is over 600 KWH.
Let's make an assumption here. Let's assume that mass-production batteries like
Re:Will it stand the test of time? (Score:3, Interesting)
It was pretty much doomed after the first real-world journey, when it induced vomiting in the assorted dignitaries and members of the press who had been invited along.
Another great British idea which died (at least as far as Britain is concerned) was the world's first magnetically levitating high-speed train, [suttononline.org] developed by Eric Laithwaite. [bbc.co.uk] I remember seeing his Royal Institution [rigb.org] Christmas Lectures [rigb.org] in 1974 (I think I'm too young to remember the 1966 o
Re:Will it stand the test of time? (Score:5, Informative)
Interesting idea, but the real test will be with long term cost of operation.
While any new tech carries risks, this one has a lot going for it.
Diesel-electric is well proven as a technology. All diesel train engines use it. The difference is in the batteries. No battery pack could contribute much to storing the kinetic energy of a train. However, they do brake electrically. The big grid on the top of the engine is a simple resistance heater to dump the energy from the motors operating as generators.
Electric motors are simple things. The only moving part is a bering, a well understood part. Because of that, industrial motors tend to run for a very long time with minimal maintainance. These motors are not THAT different than other motors, so will likely have the same desirable characteristic.
Transmissions and differentials DO have a lot of moving parts subject to wear and tear. The generator/motor combo replaces all of that.
Engines running at constant RPM and load experiance less wear then on that runs at variable speeds and loads. The engine is smaller as well, so cheaper.
Because of th nature of the system, it doesn't need the latest and greatest cutting edge batteries. I don't know what they're using, but it probably isn't finniky expensive LiIon polymer.
A later generation could easily switch to composite flywheel once that's better proven and manufacturing costs come down. Because of the system design, it would likely be a drop-in replacement.
Even without the fuel savings and quiet operation, the new design might be worthwhile due to savings in maintainance and improved reliability.
Re:Will it stand the test of time? (Score:4, Insightful)
How Diesal-electric loco's work [howstuffworks.com]
It is interesting that this old technology is being used with a bus, and they are adding batteries, but it certainly is not a break through.
Re:Will it stand the test of time? (Score:2)
Re:Will it stand a flat tire? (Score:3, Funny)
Eh? The weight of the bus is already on the engine, tire or no tire. Try this experiment to verify for yourself:
See if there is any difference on the for
Just an improvement of standard hybrid technology (Score:3, Insightful)
Re:Just an improvement of standard hybrid technolo (Score:5, Insightful)
Well, I believe most hybrid cars today are parallel hybrids - the (gas/diesel) engine can power the drivetrain directly, and the car will use the engine or the electric motor or both depending on conditions and demand.
This bus (and potential other hybrid cars today) is a series hybrid. The only thing powering the drivetrain is the electric motor. The engine either charges the batteries or powers the motor, but never directly powers the drivetrain.
Re:Just an improvement of standard hybrid technolo (Score:3, Insightful)
Stop contributing to heat death!
Re:Just an improvement of standard hybrid technolo (Score:2)
Which gives a 60% improvement? As I said it's a slightly more efficient gas-electric hybrid design. The efficiency comes from the lack of a drivetrain. That may give on the order of 5 - 15% improvement in efficiency but not 60%. This is an obvious natural progression of gas-electric hybrid technology if it can be made economical and safe.
Re:Just an improvement of standard hybrid technolo (Score:2)
Re:Just an improvement of standard hybrid technolo (Score:2)
Re:Just an improvement of standard hybrid technolo (Score:2)
Re:Just an improvement of standard hybrid technolo (Score:2, Informative)
- the diesel engine runs at it's optimal speed (that gives an easy 50-70% gain - engines usually run on sub-optimal speed)
- losses only occur in the electrical cirquits (the current regulaters and so), can cost like 10% of the energy
- and a significant energy gain is made by reversing the enige to generator when braking! (though I assume also a mechanical break for emergency stops). As it is a city bus, it will spend most time either accellerating or decellerating.
Wouter.
Re:Just an improvement of standard hybrid technolo (Score:5, Interesting)
I, for one, will welcome the results of the real-world tests of this thing. If it works as well as they claim, they could put those wheel-gines in all sorts of vehicles. And based on the size of them, I'd say they're going in large vehicles first. Can you imagine the Hummer ad campaign when the release a vehicle that is more fuel efficient than a Toyota Echo?
Re:Just an improvement of standard hybrid technolo (Score:2)
Re:Just an improvement of standard hybrid technolo (Score:2)
I'm simply taking issue with the 60% number. If it is true, it is versus conventional technology, not other similar tried and true gas-electric hybrids.
Ugly website (Score:3, Funny)
~Lake
Oh puLEASe (Score:4, Informative)
see this this page [porsche.com]
Re:Oh puLEASe (Score:2)
I've been promoting this system quietly for the past 30 years and built a few prototypes. The only real hold up has been the computing power to make it work up to its true potential.
The primary downside is the increase in unsprung weight. That much mass in the wheels is an issue for vehicles smaller than a bus. This can be partially offs
oh you read the article.. (Score:2)
Well to both of you, the company isn't exactly claiming to be the first to think of it.
i think the original poster ( the Oh puLEASe guy) was referring to the title of the article: Dutch invention Uses Electric Engines For Wheels-which is kind of implying that the concept was the invention of these dutch folks. of course original poster didnt read the article.
so the poster is probably either
- new to slashdot and didnt realize that slashdot has a habit
Re:Oh puLEASe (Score:5, Informative)
As the weight of the wheel goes up so does its inertia. It starts to resist movement more and more. This is a Bad Thing. When you hit the right bump at the right speed the wheel hops off the ground rather than moving the suspension up with the irregularity, upsetting the entire car and losing traction at that corner. The sprung to unsprung mass ratio becomes important because with heavy wheels and a light chassis the mass of the wheel reacts more strongly on the mass of the chassis. The suspension can't move with the bump but the chassis does. A loaded bus chassis is much more massive compared to the wheels than a loaded car is.
The people in the car experience this as ride harshness.
Active suspension systems are ones that use sensors and mechanical actuators to move the suspension ( as opposed to springs). They can "anticipate" the movement needed and partially compensate for the added mass, but only partially.
I can'na change the laws of physics.
A heavier wheel rim also takes more energy to accelerate, more so than the same mass on the chassis does, and increases gyroscopic effects.
This is why the solid spoked wheel gave way to the tensioned wire spoked wheel, than the pressed steel wheel and ultimately the "mag" ( which is really only a mag if it's actually made of magnesium. The aluminum wheels you get in the dress up stores are actually often heavier than the cheaper steel wheels they are purchased to replace). The lighter the wheel the higher the ultimate performance of the vehicle in every catagory (this is why bicyclists are absolutely rabid about wheel weight).
Is this system feasable for a car? Oh, absolutely. But you have to be careful to at least keep the motors as low weight and compact as possible. The GM Sunracer managed to contain them within something that looked very much like a standard bicycle hub, although rather heavier. Copper and magnets aren't light.
KFG
So how long before we see it in America? (Score:2, Insightful)
Re:So how long before we see it in America? (Score:2)
Last time I checked they were damn close to 80mpg cars. Go buy one from Honda or Toyota.
Perfect 4-wheel drive (Score:3, Insightful)
It also promises to make auto repair much easier...just swap out a wheel.
Re:Perfect 4-wheel drive (Score:2)
Yup, and instead of one engine you need to look after 4. win-win situ.. or not.
ah yes..take a look at the size of the rear wheels (Score:2)
Those are some monster wheels.
And what is the actual cost of this wheel?
Re:ah yes..take a look at the size of the rear whe (Score:2)
I bet you they could come up with something that doesn't weigh all that much more than some of the heavier rims available today for full size cars/trucks.
And you forget.. (Score:2)
You'd think so, but... (Score:3, Insightful)
One thing though, if you ever did it, you'd have a monster truck. Take a look at the size of those back wheels, and imag
If I know something about batteries... (Score:4, Insightful)
Re:If I know something about batteries... (Score:5, Funny)
Customer: My batteries won't hold a charge.
Appl^H^H^Huto Maker Support: Well, the batteries cost, like, $25,000. You may as well just get a new car.
Re:If I know something about batteries... (Score:4, Informative)
Lead-acid batteries are highly recyclable [epa.gov]. (Though, like computers, because of poor regulation such batteries are often just dumped on third-world nations [fish.com].)
waste schmaste (Score:2)
Re:waste schmaste (Score:2)
=Smidge=
I wonder how long it will take... (Score:2, Funny)
A quiet bus in a busy city... (Score:4, Interesting)
The other thing is, since the motor is now the wheel, I wonder what the costs will be to maintain these wheels. I think it's still better to have traditional electric motors with the rotor on the inside, since there's really not that much to gain from having an inside out motor, and more to lose when you need to get at it to fix it. Using traditional motors rather than the inside-out motor also means less change need to be made, since the wheels and tires can be used from currently available parts.
Re:A quiet bus in a busy city... (Score:2)
Re:A quiet bus in a busy city... (Score:2)
On your second point about traditional versus inside-out electric motor -- I'm no mechanical engineer, but my guess is that this tech allows you to have a fixed axle (or perhaps even no axle) versus the old tech which requires a long rotating heavy axle to drive the wheels.
Re:A quiet bus in a busy city... (Score:5, Funny)
So THAT'S why I keep getting run over by bicyclists! You know, I've been lobbying to make it a legal requirement for kids to start putting playing cards back in their spokes for just that reason!
I can't smell bikes coming, either. Gosh darned quiet, clean-running vehicles!
Re:A quiet bus in a busy city... (Score:2)
Re:A quiet bus in a busy city... (Score:2, Insightful)
Re:A quiet bus in a busy city... (Score:4, Informative)
I'd wondered about using wheel revolutions as a charging source for onboard electric systems myself -- good to see engineers applying it. (IANAE
Re:A quiet bus in a busy city... (Score:2)
That's why they always tell little children to always look both ways before crossing the street. Someone needs to go back to kindergarten so the rest of us
Old idea (Score:4, Insightful)
Diesel locos use a Diesel powerplant to generate electricity, which is then used to run the electric motors powering the drive wheels. It's very effective and proven technology.
terrible idea (Score:4, Interesting)
This idea will never be marketable, as the vehicle will handle terribly and have a terrible ride.
Re:terrible idea (Score:2)
Furthermore, a lot can be done to reduce the weight of engines, thereby reducing your problem.
Although I agree it might be a problem I think it can be overcome, and that - especially with fuel prices on the rise - the idea will be very marketable.
Re:terrible idea (Score:2)
Re:terrible idea (Score:2)
Yeah, that bus will handle badly in the twisties (Score:3, Funny)
And the parent got modded up as interesting. Says quite a bit about the value of moderators. Either that or "Fuckwitted" should be a moderation option.
Unsprung mass as proportion of vehicle mass (Score:5, Interesting)
Nadolig llawen,
R.
Popular approach for ships lately (Score:3, Informative)
I got the impression that one significant benefit is the flexibility of electric engines in terms of size and manoeuverability. Being able to have your thrusters turn 360 is critical for ocean going cranes, bow thrusters, and such, and is less complicated using an electric engine than would be required for a direct mechanical linkage.
In the cruise ship example, I kind of got the impression that so much electricity is required for the ship in general, that large generators were a given to start with, so powering the thrust of the ship from the same makes a lot of sense.
Very interesting to see this technology potentially cross over to the consumer. It will be interesting to see if the efficiency makes it feasible.
Wheel drive (Score:3, Interesting)
This same company has a similar motor for smaller vehicles here [e-traction.com]. It uses short axles so the motor is not direct on the wheel.
There are some space considerations with this motor, but while it would work on a bus, such a large amount of unsprung weight on a smaller vehicle would not promote a great ride or handling.
pros/cons (Score:3, Informative)
This will not work so well for cars beause the high unsprung weight will make a car handle very poorly and the friction losses in a u-shaft would be better than extra weight in the wheels.
Swedish Hybrid (Score:2)
The neat thing about the turbine was that it could burn a wide variety of liquid fuels with no modification: gin, diesel, gasoline, kerosene, methyl alchohol. The fuel didn't have to be especially pure.
Fuel cells are nice, but each type of fuel cell burns only one
Like a George Carlin skit... (Score:2)
- Electric motors in the wheels. Environment friendly... Cool!
- Ok... Battery packs... Yeah. Enviro PC. Bitchin'...
- DIESEL ENGINE to power the whole thing...
AH!
They're full of shit!
Re:Like a George Carlin skit... (Score:2)
Flawed logic (Score:2)
RTFA (Score:2)
The efficiency of the system means a smaller engine to acheive the same effect, because the electric engines have a greater range of optimum efficiency.
"Inside-out" motors... (Score:2)
Power/size and other statistics (Score:4, Interesting)
Among one of my personal projects was an electric car, which I tried to make out toothpaste boxes/etc. The most natural way to move the car was, ofcourse to attach the electric motor (I had only one) to one of the wheels. I did this by attaching a small wheel to the motor shaft. Ofcourse, it didn't work out right: because of only one moving wheel, the car moved in circles, rather than straight as desired.
My point is: doesn't attaching the engine to the wheel seem like the *most* logical choice in the first place? Why build complicated transmission mechanisms and a centralized engine in the first place? The reason, I think was to use only one big powerful engine to power all wheels (or two, incase of a 2 wheel drive) simultaneously. Since the engine is the single most expensive component of a vehicle, it made sense to use only one of them, especially so, because most of them have a very high space:power ratio.
Electric motors seem to suffer from the same problem (high traction motors are incredibly huge). I would like to see figures on the size/power of these engines, and ofcourse, the size/weight of the batteries which the vehicle would need to haul along.
Danish Engineering (Score:2)
I worked for a Danish company for 2 years in the R&D Dept. I learned that Danish engeineering is done differently than in America. They are very thourough, and documentation and research will be complete before they ever begin making the tangible object.
That is a sharp contrast from how things are done here. They call us 'cowboys' because we'll go off and come back with it either done, or a working (tho sometimes failed) proof
How funny (Score:2)
Odd Quote from The Website (Score:2)
the environmental impact will be dramatically reduced when using TheWheel(TM)
Sounds like someone stole an advertising campaign from 55 hundred years ago [about.com]
I especially love this page [e-traction.com] with the heading "The Wheel - What It Is, and What It Does"
-----
I've actually read the article.
IANAE (I am not an engineer) but it sounds to me like they're re-inventing the wheel.
-----
In Communist Russia, The Wheel turns The Engine.
-----
1. Re-Invent Wheel
2. ???
3. P
The Mechanical Engineers sleep late at /. (Score:3, Insightful)
-Too quiet for a bus?
Round my midwestern city, the noisy, stinky buses are, oh, let's say 30' long, with the engine at the stern. If you're depending on hearing them for avoidance, you're gonna be meat on the front bumper 100% of the time.
-Gyro-effect?
Intersting, a REAL ME (I only play one on
-Various comments on Diesel Hybrids.
MIT's done the math, and I've ranted about this before: Forget Hydrogen as a transportation fuel (for a while), a high acceptance rate of Diesel hybrids would save the world. (Soot? Darkening of the earth? All soluble, and still more manageable problems than the far larger emissions from gasoline as a transport-fuel.)
These are a fairly logical solution to the problem, especially for allowing car-designers to make the car do what you want/need it to do: Carry your self and stuff in safety and comfort.
I, for one, welcome our new motor-in-wheel overlords. (Sorry 'bout that)
Run them on Biodiesel... (Score:2)
Biodiesel -- fuel from the southeast, not the middle east.
Freight Engines have used this for years (Score:2)
Stirling generator rather than Diesel. (Score:3, Insightful)
Additional complexity for servicing? (Score:2)
With the wheel-integrated-with-the-engine concept, there's NO WAY that MaryJane Q Citizen (or even JimBOB SixPack truckdriver) is going to be changing a tire on his/her own.
Huh?! (Score:2)
--grendel drago
I am sure disk drive engineers would be inpressed (Score:2, Insightful)
maccready did it (Score:2)
GM nixed it because they said if one motor failed, the car would do endlesss tight donuts.
Of course, millions of cars will do this anyway if their traditional IC motor mounts fail, but hey.
The resulting Impact was less of a performer or as efficient as originally designed.
I'm not convinced (Score:3, Informative)
Diesel-electric technology has been used to power locomotives for 60 years. D-E locomotives have no mechanical transmission and the motors drive the axles directly. This electric transmission affords good efficiency, a very wide range of torque conversion, and allows the engine to operate within its optimal RPM range. Almost all of the efficiency benefits that this article attributes to the wheel motor can be had by this 60-year-old design.
There's also nothing new about regenerative braking, though it isn't practical for locomotives.
The real novelty here is that the motor turns with the wheel, rather than being stationary and transmitting its torque through a half-shaft. The benefit is the elimination of these half-shafts and a couple of CV joints. The cost is huge size and tremendous unsprung weight of the motors, plus significant engineering challenges of running high-current wires across a sprung connection, and the concern about competition with the brakes for the limited space and heat-dissipation capacity of the wheel area.
Have a look at the rear wheels of the bus in the photo. They're HUGE - the bus has obviously been modified to fit them.
In summary, the only novelty in this design is in transmitting the power the last 2 feet to the wheels. A conventional design would use half-shafts and CV joints while this design uses high-current electrical transmission. It may be that the engineering challenges of the latter can be overcome, but I remain to be convinced that there's any overall advantage. The company's interests would be better served by an article with more restrained hyperbole.
What about motorcycles? (Score:2, Interesting)
This doesn't bother me in principle, except that no one has made a feasible hybrid/alternative motorcycle. Reasonable bikes these days get 50-60 miles per gallon, so it hasn't been a concern, but with "vehicles" like the Honda Insight getting 70+ mpg in the city, bikes may soon nee
This is old technology (Score:2)
The most common are Diesel-electric railroad engines. However over the years the idea of Diesel-electric has been used in buses and cars. There is nothing novel about this "invention".
Cool (Score:2)
unsprung weight problems completely ignored (Score:3, Informative)
It's actually not technically sound at all. It drastically raises the unsprung weight at each wheel- the thing will ride like crap, and contact with the road will be extremely poor. It might be OK for slow moving busses, but certainly not passenger cars, SUVs, or light trucks.
The difference between a 15lb rim and a 30lb rim(rim= wheel minus tire, ie, the metal part) on your car is extremely noticeable, and racers/performance enthusiasts will go to all lengths to find lighter rims, and even braking systems made up of higher-tech, lighter materials(hence Porsche's ceramic brakes, for example.) Even suspension components themselves are usually made up of carefully designed aluminum components to be lightweight. Less unsprung weight means that it's easier for the suspension to keep the wheel firmly planted to the ground, to grossly simplify the situation.
This thing will eat tires like no tomorrow, too; it'll cause a lot of stress in the tire because the tire will need to flex a lot more than normal. Flexing takes energy, by the way- and that can add up fast. Improperly inflating your tires causes more flexing in the tire than usual, and can have a noticeable effect on your mileage.
Putting an electric motor inside the wheel is about the stupidest thing I've ever heard of- it should, if anything, be in the center of the car, with a traditional half-shaft and CV joints(slight loss)...or instead of using a standard automatic transmission, they should be using a CVT(constantly variable transmission) or something like Audi's DSG(Direct Shift Gearbox).
But bumps "beat the daylights" out of the motor? (Score:3, Informative)
May not be new but interesting nonetheless (Score:3, Informative)
Nor is there anything new in the way the control system would work. In Europe, most washing machines are front-loaders. The drum has to be able to revolve at a low speed in both directions for washing, and at a high speed for spin drying. Instead of using a gearbox, the motor's windings are split so they can be connected in various series and parallel combinations. Electronically there is no difference {a motor doing 300 watts of work is using 300 watts of electricity and just looks like a resistance dissipating 300 watts of heat} -- mechanically there may be an improvement {the speed-changer need only be a set of relay contacts, not a solenoid-operated or electro-hydraulic gearbox}.
Many trains in Britain {where not all railways are electrified} use a Diesel engine to spin a generator at constant RPM {everyone knows this is the most efficiengt way to run any sort of engine}, which then drives several small electric motors via an electronic control system which actually depends on the waveform of freshly-generated, as opposed to stored, electricity. I think this was invented by our baguette-munching neighbours at the SNCF {Societe/ Nationale de Cattle Freight by my own experience} but not sure so don't quote me on that.
So, all in all it's not much new. But hey, it's an interesting application anyway
Re:Not trying to pick nits, but... (Score:3, Informative)
Re:Not trying to pick nits, but... (Score:2)
Main Entry: 1engine
Pronunciation: 'en-j&n
Function: noun
Etymology: Middle English engin, from Middle French, from Latin ingenium natural disposition, talent, from in- + gignere to beget -- more at KIN Date: 13th century
1 obsolete a : INGENUITY b : evil contrivance : WILE
2 : something used to effect a purpose : AGENT, INSTRUMENT (mournful and terrible engine of horror and of crime -- E. A. Poe)
3 a : a mechanical tool: as (1) : an instrument or m
Re:Not trying to pick nits, but... (Score:3, Funny)
Re:electric engines (Score:5, Informative)
A diesel-powered generator which replaces the original engine on the vehicle charges the battery-pack continuously.
The electro motors are not used as an engine but just as a clever way of transmission. This system has been in diesl-electric trains for ages, since most diesel engines can operate quite efficiently if they always run at the same RPM.
Re:electric engines (Score:3, Interesting)
I remember some years ago reading an article about the potential hazard to careless pedestrians of virtually silent electric vehicles, the obvious solution being to put a loudspeaker on them and play a suitable sound. One suggestion was the sound of horses' hooves.
Re:Sound System (Score:2)
I got them back by putting a "cellular phony" in the car: it was a fake phone I mounted on the center console, and a fake corkscrew-style antenna that I mounted on the back window. Then I put a Porsche badge on the front grille, ensuring that mum and
Re:gyroscopic effect (Score:2)
They didn't put the motors on the front wheels so gyroscopic effect wouldn't be as bad on the steering. Besides these are city busess they won't be going
Re:gyroscopic effect (Score:2)
The engine just charges the batteries. I don't remember if the article stated this, but I >THINK what they mean by magnetic brakes isn't that magnets pull in the brake pads, but it uses regenerat