Ramp Creates Power As Cars Pass

Ant wrote to mention a BBC News report on a ramp that generates power via passing cars. From the article: "Dorset inventor Peter Hughes' Electro-Kinetic Road Ramp creates around 10kW of power each time a car drives over its metal plates. More than 200 local authorities had expressed an interest in ordering the £25,000 ramps to power their traffic lights and road signs, Mr Hughes said."

Great idea!

[confusion]

Takes generating electricity to a new level of inefficiency...

I suppose it might work on a ramp going down, but level or up, and the "free" energy is coming from the gas tanks of the drivers.

Jerry
http://www.cyvin.org/ [cyvin.org]

Re:Great idea!

[Anonymous Coward]

If used on straight road, silly. But if on an off ramp where the car has to slow down anyway, then it is a form of regnerative braking for the car.

But it won't be good for the efficiency of hybrid cars.

Re:Great idea!

[nizo]

Luckily if you drive backwards down the onramp back onto the freeway your car gains energy.

Kilowatts mean nothing, it's Kwh we need to know..

[Quebec]

They talk about kilowatts, but for how long?... 1 second? 1/2 second? 1/100?

if it's 1/40th of a second as I would estimate each passing car would generate 0.069444 KWh and it would take about 50 cars to produce the equivalent of a fully charged AA rechargeable (if we take a 2500mAh battery). But I guess their marketing department wouldn't want us to learn those number first...

Re:Kilowatts mean nothing, it's Kwh we need to kno

[Quebec]

10000Watts / (40 x (60 secs/minutes x 60 mins/hours)) = 0.069444 Wh (and not KWh as I wrote above, sorry)

1.5 Volts * 2.5Ah = 3.75 Wh

I just wrote a K too many, but besides that all the numbers are valids as for the 50 cars to make the equivalent of a 2.5mAh AA battery.

Re:Great idea!

[MemoryAid]

It looks like a speed bump, so presumably it is to be placed somewhere cars are encouraged to slow down. It would make sense to convert some of that energy into electricity instead of heat.

The article said that "Depending on the weight of the vehicle passing overhead, between five and 50kW can be generated." I wonder if that is only while the car is passing, or an average figure for some reasonable level of traffic. I imagine the duty cycle of a speed bump is low.

Re:Great idea!

[Rangsk]

You're most likely correct in that it's an aggregate under ideal traffic conditions. It would probably act similarly to generators powered by wind, or to a bike, where a turbine continues to spin after you've stopped pedalling.

So, a car rolls over the ramp, causing the turbine to start spinning, and then it slowly winds down, generating power as it slows. When the next car rolls over it, it spins up some more. The faster it is spinning, the more power is generated.

The power could easily fluctuate between

Creator's Website

[nursegirl]

Here's the inventor's website: http://www.hughesresearch.co.uk.nyud.net:8090/ [nyud.net]

There's some videos on the site, but the "Technical" section is laughably vague.

Re:Creator's Website

[wealthychef]

It doesn't have to convince us. It just has to convince some Junior-college educated city councilmen somewhere and the inventors are millionaires!

Yes and no

[gaijin99]

It looks to me that they are planning on using the ramps in place of speed humps. In that case the car would have been slowing down and speeding back up anyway so it isn't going to cost anything extra for the driver.

Naturally this is leaving aside the question of whether speed humps are worthwhile or not.

Re:Yes and no

[one9nine]

Naturally this is leaving aside the question of whether speed humps are worthwhile or not.

Depends on how drunk you are and how ugly she is.

What about..

[SillySnake]

What about a buncha coils of wire in the roads and some magnets on the wheels/body of cars.. As cars roll by, they generate a small amount of electricity.. While it's tiny, I would think in very high traffic areas, NY,LA, etc.. It might be worthwhile..

Re:What about..

[dougmc]

It might be worthwhile..

No, not really. First, you're right -- the amount of power generated would be tiny, unless the magnets and such were huge. Second, people won't want the magnets on their car -- and why would they? They're dead weight, don't help the car at all, and will probably pick up (magnetic) trash and stuff from the ground.

That, and every bit of power generated by anything like this will be power removed from your car, so ultimately you'll pay for it at the gas pump.

Ultimately, th

The really frightening part

[bradleyland]

The really frightening part is that the vast majority of the public will not grasp this concept in the slightest. They'll think of it as free energy and applaud it as it is implemented.

I wonder, why go to such extreme measures when the same money could be invested in A) a solar panel, and B) LED stoplights; a solution that would actually harness new energy from the sun rather than another system that would waste energy infused into fossil fuels by the sun over the course of many, many years.

Solar Panels? In Britain?

[billstewart]

There are parts of the British Isles where solar panels might work. There are other parts, especially in Scotland, where using solar panels would require seeing the sun, and therefore are obviously out of the questions. The typical local description of the weather runs to "If you can see across the bay, it'll rain within 24 hours; if you can't see across the bay, it's already raining."
Sure, some parts of the year it's sunny and beautiful, but you need the streetlights to work all year around, *especially* when it's foggy, raining, and dark. So you might need some pretty big panels.

On the other hand, these ramps probably cost a big enough pile of money that it's still cheaper to use mains power than "free" power siphoned off passing cars.

Re:Great idea!

[confusion]

It has nothing to do with the drivetrain, that's true, but it has everything to do with sapping the inertia from a moving car. I don't but for a second that it "harnesses the vehicle pressing down on the road". The plate is an elevated ramp, which my car pushes down on as it goes over. My car will take more enery to go over a road of those things than a normal, flat road.

And yes, I did RTFA
Jerry
http://www.cyvin.org/ [cyvin.org]

Re:Great idea!

[DrXym]

The thing is, that councils in Britain put in speed bumps / ramps all over urban areas to slow (calm) traffic and to stop joyriders. If they're putting in the ramps anyway, why not make a bit of power from it at the same time?

Re:Great idea!

[stjobe]

Anyone with a working knowledge of triangles will know that the distance the car will have to travel "over" the ramp will be greater than on a flat road and hence, you'd have traveled a greater linear distance over these things to reach the same point on a normal road.

You are (1) wrong and (2) stupid. Now think about it again. The ramp is pushed down to the level of the road by the weight of the vehicle passing over it, thus driving a generator. Now; do you see that there is no "greater linear distance" involved here?

Re:Great idea!

[toddestan]

Doesn't anyone read articles? The weight of the vehicle presses down on plates that drive a generator. This has nothing to do with the drivetrain of the vehicles creating the power.

Even so, the car will have to burn an additional amount of gas to climb out of the shallow hole it will suddenly find itself in. The energy has to come from somewhere.

Re:Great idea!

[gibodean]

There's Force, Energy and Power. They're different.

The force of the car of 1000kg is 1000*9.8 is about 10,000N (F=ma)

The Energy the car makes moving 2cm is 10,000*0.02 = 200Nm, not Watts.

The Power is measured in Watts, and depends on how long it took for the car to impart the energy. (P=E/t)

So, to get their 10kW quoted, it means it must have taken the car 200/10000 = 0.02s.

So, it takes 20ms to depress the bump....

Re:Great idea!

[gibodean]

Or, it's more likely that the 10kW they quote is peak power, during part of the travel of the ramp. What I just calculated above assumed the 10kW was the average power.

Re:Great idea!

[Anonymous Coward]

1.21 jiggawatts!?!?! what was i thinking????

Re:Great idea!

[ceoyoyo]

Yes, yes it is. The energy your car expends pushing on the road is turned into kinetic energy, which manifests as the car going forward. The losses are heat from friction (which you can't do anything about) and mechanical (sound and movement) energy transmitted to the road. You can minimize the mechanical losses by making your road as stiff and hard as possible. These things do the opposite -- make the road soft and squishy (by using plates that shift down when weight is applied). This causes the car to lose extra energy, some (not all) of which can be turned into electricity.

Re:Great idea!

[slashname3]

So lets get this straight. I drive over these things which is going to cost me more in gasoline (basic conservation of energy laws working here) and then they are going to sell me the same energy to run the lights at my house? Great, now I get to pay for this energy twice, once with expensive gasoline, and again on the power bill which no doubt will have the variable fuel charge applied. To say nothing of the added wear and tear on my vehicle.

Are these guys working on a perpetual motion machine also

Re:Great idea!

[ceoyoyo]

No no, they're only going to use the power for traffic lights and things. So the energy you donate by driving over the ramps will make the red light up ahead possible. ;)

Re:Great idea!

[ceoyoyo]

I think you're right. Very little is lost in contact with the road, at least when you're driving on pavement. But if you start making the road soft, you lose extra energy. Of course, if you're not driving on pavement you might actually lose more energy to the ground than internally. In deep sand, for instance.

Re:Power vs. Energy

[Melfina]

I'm sure it's not going to generate enough electricity to make too much of a difference unless you're in a heavy traffic area. But consider this; How many times have you seen the power go out and the traffic lights are down? That's a real pain in the neck because not only are the local authorities delaing with a storm, but traffic control and accidents now. For street lights and traffic lights this could be an awesome idea.

As for the amount of gas it's going to use... A little bump like that should b

Re:Power vs. Energy

[pnewhook]

But consider this; How many times have you seen the power go out and the traffic lights are down?

Where do you live? Mexico?

Power has gone out two, maybe three times in 20 years here.

Re:Great idea!

[TorKlingberg]

I think you are wrong there. This will be an additional energy drain. Not much though, so I woudln't bother.

Re:Great idea!

[gtoomey]

Nonsense. The mechanical device will cause the car to slow down. More energy (gasoline) is required to bring the car up to speed.

Re:Great idea!

[aXis100]

Uhh, no. Wheels do not transfer energy (primarily), they transfer force. Force times distance (your wheels turning against torque) equals work (energy), so by wheels turning they convert the chemical energy of the fuel into kinetic energy of the car.

The only other significant energy wheels transfer to the ground is a bit of hysteresis and some skidding.

Re:Great idea!

[Paul Jakma]

The only other significant energy wheels transfer to the ground is a bit of hysteresis and some skidding.

Not sure what you mean hysteris (which does not refer to forces or energy per se, but to certain behaviours, possibly involving forces/energy transfer. Least in my understanding) but there's a heat transfer from the rubber of the tyres to the road, typically - unless the road is already quite warm.

Are you sure it's just wasted energy?

[Eric Damron]

What do you base your belief that this is "wasted energy" being used?

It's only wasted if the driver would have applied his brakes turning the forward motion of his automobile into heat. This would make sense on off ramps or downhill slopes. On a flat road, however, this will convert some of his forward motion into energy that this mechanism will leach.

Re:Are you sure it's just wasted energy?

[arkhan_jg]

However, if you're using it to power traffic lights at a junction, or a pedestrian crossing, people will be slowing down even on a flat road. Put it on each of the approach lanes (or those with lots of traffic on major-minor junctions) and you use some of the energy that would have gone to heating the brake-pads. Even on green, people generally slow down as they approach a junction, so speed-bumps only encourage that behaviour (and stops boy racers flooring it though the lights)

Another good spot for them is where speed bumps are currently going in anyway to slow down traffic, such as near schools or on rat-runs (small residental roads that commuters drive quickly down to bypass traffic on major roads) - the power could then be used for additional lighted speed signs. Speaking of which, I live in dorset, and there's recently been a bunch of signs with radar-guns on that light up with the speed-limit if you're going above it. They have much the same effect as speed-cameras, without all the hassle of collecting fines, so I think they're great.

Another effective spot for these would be rural areas (which dorset has a lot of, for england), where you have to run extra grid power lines just to power the traffic lights or lights on the motorway signs. Something which removes the need for that could save a lot more than £25,000 per installation, given the cost of the extra lines and decades that these things need power for, especially if a bunch can be powered off a single speed bump. Admittedly, you'd want to put it on off-roads on the motorway, but again, there's often rumble strips or speed bumps anyway to make sure people slow down sufficiently coming off the motorway.

Thank you, Sir Isaac Clueless

[Anonymous Coward]

Apparently, physics was not your major. The same goes for the clueless mods that modded you up.

Ramp up

[dotslashdot]

Ramp up production, but make sure you have an exit strategy.

The obvious question is

[deft]

Obviously the energy for the ramp is coming from the forward motion of the car pushing up the ramp, slowing the car, causing it to use more fuel.

So, basically, they are making people pay in gas incrementally for passing over that section of the road. A toll ramp of sorts...

I don;t know if I'm cool with that, although the idea is very cool.

Re:The obvious question is

[Mateorabi]

Well seeing as the electricity goes to power things like traffic lights and such, things that the drivers use while on the road, I guess this is more of a pay-to-use type tax.

I guess the tax paying bloke down the street who rides a bike to work will be glad he no longer has to pay for it.

Re:The obvious question is

[CosmeticLobotamy]

I guess the tax paying bloke down the street who rides a bike to work will be glad he no longer has to pay for it.

I'm sure he'll be thrilled that the exact same amount he will pay in taxes will now be used to buy a slightly better stapler, despite the cheap one being good enough, for a government pencil pusher. Either that, or go towards the salary of the guys that maintain the road's new moving parts.

Re:The obvious question is

[iabervon]

On the other hand, if it's installed before traffic lights or on highway off-ramps, cars will be slowing down anyway. If the energy would otherwise go into the brakes, it's not going to increase gas consumption. The only people who would have a reason to complain would be hybrid drivers with regenerative braking.

Re:The obvious question is

[interiot]

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

Basically, put these things in places people would always slow down anyway (eg. off-ramps), and it's a win-win. Free energy production for the city, and reduced wear on brake pads for the citizens.

Re:The obvious question is

[ucblockhead]

It's not a win-win for people driving cares that already have regenerative braking.

Re:Speed Bump

[dorkygeek]

Although it's useful in places where you have to slow down (e.g. BEFORE a speed bump), but it's not a replacement for speed bumps themselves. Speed bumps are used to make driving over them at higher speeds uncomfortable, so you have to slow down before them, but speed bumps themselves are not meant as a physical braking device. I don't know how you drive, but I brake in front of the bump, and not let my car be slowed down by the ramp itself.

How much power?

[rob_squared]

Does a tractor trailer give it? Or would that break it?

It gets worse

[tkdog]

That's not even the bad part. Those damn government bastards have installed "friction" all over the place and it is WARMING THE PLANET. It's a plot I tell you, a plot.

Cost vs. benefit...

[johndierks]

I wonder how long it takes to pay off a 25,000 pound piece of equipment plus installation and maintenance with savings in electricity for street and traffic lights? I'm guessing a really long time.
Is it even worth it?

Re:Cost vs. benefit...

[An Onerous Coward]

Even worse, most modern traffic lights use energy efficient LEDs, and therefore don't use nearly as much electricity as they used to.

I don't know how many light installations one of these is supposed to power, but the only easy way to power more than one would be to hook it directly into the grid. So basically they're taking the amount of energy being produced by these things and subtracting it off the city-wide electricity bill.

If Salt Lake ever starts looking at these, I'll be looking over the city charter, trying to figure out where it requires the city to generate electricity at all, much less in the most inefficient and annoying way possible.

Maybe if you only installed them on downhill slopes....

Re:Cost vs. benefit...

[MindStalker]

10kW per car is pretty good. Most households us 2-3kW on average.

Re:Cost vs. benefit...

[blibbler]

That would be a peak flow, when the car is actually crossing it. Unless cars are crossing it every instant (which is impossible) the average wattage would be much lower.

Re:Cost vs. benefit...

[earnest murderer]

I'm not sure they'd even keep up with the maintenance costs.

Or the energy conversion costs since you're burining fuel to power them instead of whatever the grid sources from.

Or.. wait a minute, "10kW" that's not even sensical is it? I'm not an electrical engineer but that seems fishy as well.

The new monorail?

Re:Cost vs. benefit...(not really worth it)

[Anonymous Coward]

Based on my local cost of electricity ($0.06/KwHr), and assuming a ramp generates 10Kw continuously, each ramp generates $0.60 worth of electricity per hour. Neglecting installation costs and maintenance and using Friday's currency exchange rate, each ramp would have to operate 8.4 years to recoup the initial $44300 cost. Looks to me like they are far from being cost effective.

Re:Cost vs. benefit...

[blibbler]

If it was designed well, the maintenance should be negligible. There might also be a benefit in that the lights would stay on in a power outage.
As far as electricity usage goes, I would guess that each bulb might be 200 Watts. Depending on the design of an intersection, there would probably be between 8 and 16 of these lights on constantly. According to http://www.ukpower.co.uk/running-costs-elec.asp [ukpower.co.uk] the cost per month would be about £130/month, or a bit more than £1500/year. Assuming there is no interest (or increase in the price of electricity) it would take almost 16 years before these savings make up for the cost of the equipment. Many governments make investments on this time-scale anyway. Additionally, if it could be used to power more than one traffic light, it might only take 7 or 8 years to pay for itself.

how about if they only pop up

[quakemeister]

when there is a red light ahead. so instead of wasting peoples gas, these things would save consumers brake pads?

so you could have a field of them that pop up some distance before each light to absorb all the wasted energy that goes into brake heat.

Re:how about if they only pop up

[Temporal]

But those of us with hybrid cars are already reclaiming that energy...

Re:how about if they only pop up

[ryanvm]

But those of us with hybrid cars are already reclaiming that energy...

Hmmm. Maybe they could design a ramp that's powered by your own sense of self satifaction...

Re:how about if they only pop up

[Gothmolly]

And wasting fuel to produce it in the first place. Hybrids don't use any less fuel than a well-maintained VW TDI, and with the TDI you have the added benefits of :

Not sitting inside a giant magnetic field
More power
Ability to burn 100% plant-derived fuel oil, aka BioDiesel
In general, not perceived as an insufferable prick

Re:how about if they only pop up

[dogwelder99]

Or, instead of on highways, install them as speed bumps on suburban streets with a low speed limit, and just feed the power back into the grid. Put in a movement damper and angle the ramp so the forward slope is a bit steeper than the downward slope, so that speeders pay more of a penalty. It's still a dumb idea, just a bit less dumb.

If you wanted highways to be more power-efficient, why not sink them 50 feet into the ground? You'd get a boost from potential energy and burn less fuel on a downhill on-r

Re:how about if they only pop up

[CosmeticLobotamy]

so instead of wasting peoples gas, these things would save consumers brake pads?

By adding, judging by the article picture, giant bumps to the road. What you save in brake pads, you'll pay for in shocks and ass pain.

Re:how about if they only pop up

[Matt Perry]

Springs.

Snow/Ice Removal on Roads

[JamesAndrews]

Although the cost would be astronomical, it would be nice to implement this on highways/roads to keep them heated during the colder seasons (ie, Northern Ontario). Snow only stays on the ground because the ground temperature is below freezing. So, keeping the roads at 1 Degree Celsius would keep snow and ice off the roads.

Also, because the ice couldn't melt then freeze and expand, this would be an excellent cost savings measure over the long term: no more cracking or pot holes (which are mainly caused by

Re:Snow/Ice Removal on Roads

[oneiros27]

You'd need the warmers, because you'd have to do something to keep these things from getting snow/ice on them ... speedbumps and snowplows don't mix.

A little freezing rain, and these things might become rather expensive speed bumps, with the sole use of catching passing snowplows and causing accidents as cars lose traction coming over them.

This is equivalent to taxing gasoline...

[synaptik]

...or perhaps I should say, taxing gasoline *more*. After all, the power is coming from somewhere... you know, conservation of energy, and all that jive?

So, instead of tearing up the road, installing this infrastructure, and then paying to maintain it, why not just add 1 cent more of taxes to a gallon of gas, and earmark that money for the purpose of paying the electric bill? Seems a lot simpler. Besides, the taxes levied really ought to accurately reflect the full cost of utilizing the municipality's infrastructure... if this cost is something the bean-counters have overlooked in the past, just add it to the tax bill.

Re:This is equivalent to taxing gasoline...

[kisielk]

Valid point there about the conservation of energy, but this is not quite the equivalent of taxing gas. For example, you could install these devices on a downhill section of road, where motorists should be looking a deccelerating, so in addition to slowing them down you would get some power in the process. Another suitable location is before intersections on cross-streets. Many cross-streets here that come on to a major road have their light red until a car arrives, and then it turns green after some time.

Re:This is equivalent to taxing gasoline...

[NanoGator]

"...why not just add 1 cent more of taxes to a gallon of gas, and earmark that money for the purpose of paying the electric bill?"

Why should the people who never use these ramps pay for it? Why should those with more efficient cars pay less than those who don't have the money to buy a hybrid? Why not make high traffic areas a little more self sufficient?

Before you hit reply: I'm not answering these questions to shut you up or anything like that. I bring them up because those are exactly the sort of ques

Re:

[account_deleted]

Comment removed based on user account deletion

Units!

[Mr. Underbridge]

creates around 10kW of power

Um, OK, for how long? Because the more relevant quantity that we'd actually care about is energy.

Not to be pedantic, but for something like this it actually matters (as opposed to the typical /. grammar-nazi asshattery).

Re:Units!

[ottothecow]

Well...because the watt itself is already a unit of energy and time (joules dissapated each second), it doesnt really matter what timeframe it takes for the car to generate the power as it would simply work out to be less joules over more time or more joules over less time and end up with an average of 10kW per car.

Re:Units!

[cakoose]

If the wattage were sustained, then yeah, the timeframe doesn't matter. But the term "10kW per car" implies that the wattage isn't sustained.

Re:Units!

[whoever57]

it doesnt really matter what timeframe it takes for the car to generate the power as it would simply work out to be less joules over more time or more joules over less time and end up with an average of 10kW per car. You have this completely back to front. What is important is how much energy (joules) are transferred to the device by each car.

The time during which this happens is not so important.

I assume that the 10kW is only for a short time (it's far to high to be a sustainted average over a long tim

Power from Cars

[miracle69]

Well, the users of the road pay for the electricity.

If it is placed low enough on the ramp it will be more "free" energy because the cars would need to be slowing anyway, so a small hit there would not be noticed at all by a driver. If anything, if it was at the bottom of the ramp, it would help save the driver some brakepad.

Why not induction?

[gtoomey]

Instead of using a mechanical device, why not use the passing car to induce a current in an underground coil and generate electricity.

These could be placed in high vehicle traffic areas (not just near traffic lights). No moving parts means little maintenance.

Re:Why not induction?

[HEbGb]

Because most cars are not magnets.

Re:Why not induction?

[Nf1nk]

no need for name calling, here. Maxwells equation will show that you do generate some energy, after all this how metal detectors and those street sensors work. What seems to have been forgotten is how little electricity it manages to produce. The amount is detectable, but barely useful (in a non detection sense). However if you could create a large enough coil to prodce a noticable current the drag effects on the cars would begin to be noticable whne driving (a flat section would be like driving up hill

Next, the toll to enter the turnpike...

[craXORjack]

You'll have to drive your car on a giant hamster wheel attached to a generator for two minutes.

Great! 5-50KW but use of LEDs means .01W needed

[rcpitt]

OK - 5-50KW for 1/10 second isn't much - but it would light a ton of LED signs for a looonnnng time.

These guys really need to give their collective heads a shake - ~&25,000 will purchase a hell of a lot of LED lights, a battery/capacitor bank and Solar Array (OK - Britain doesn't get as much sun as some places - but its possible, OK?)

Put this one up there with the ones who think there is a perpetual motion machine.

Is that legal?

[Kanasta]

Energy doesn't just get created. If ur taking(stealing) energy from my car, I'd want to be compensated.
What, next they'll discover powering traffic lights by tapping into the neighboring house's electrical outlet?

More info from the website

[Anonymous Coward]

Here's a diagram [hughesresearch.co.uk] of how it works. Be sure to wipe your mind after you're done looking at it though, it's labeled "STRICTLY CONFIDENTIAL".

Home Page: http://www.hughesresearch.co.uk/ [hughesresearch.co.uk] with other photographs and some short & long video clips.

Perceived obstacle?

[Dan East]

From the pictures, that ramp appears to stick up at least 3 inches above the road surface. I don't know about you, but if I saw anything remotely that large sticking up, I'd be hitting the breaks or changing lanes to avoid it. That could be a real danger unless 100% of the drivers were already familiar with it. I would be very surprised if they tried to use it on roads with speed limits greater than 35 MPH or so.

Dan East

The purpose of this device.

[Vellmont]

I think the people who've assumed the purpose of this device is to "save" electricity are missing the actual use of this device. The article never mentions it, but I have to believe the use of this invention is to power traffic lights or anything else that uses electric power in remote areas where electric power hasn't been strung. It would of course be rather pointless to try to offset the tiny amounts of power that a traffic light uses with this (relatively) expensive machine. On the other hand if the

10kW of power? For what time span?

[Temporal]

They say it generates, on average, 10kW of power each time a car crosses. OK, great, but a watt is a measure of energy over time. So, for how long does it generate 10kW of power? Is it 10kW for a half second? 10 seconds? An hour? A millisecond?

If I have a 100W light bulb, how long can I power it off of the energy generated by one car crossing this ramp? With the information given, I have no way to calculate this. The "10kW" number is completely meaningless.

Energy is measured in joules, dammit. A watt is one joule per second.

Re:10kW of power? For what time span?

[Temporal]

If it's 10 kW, it must average 10kJ for 1 second.

That's not the point. For what period of time does it pump out 10kW?

Most likely, it 100kJ for 0.1 seconds or so.

100kJ in 0.1s would be 1000kW, or 1GW.

Your electric meter doesn't measure things in J, it uses kW.

My electic meter measures energy in neither joules nor kilowatts. My electric meter measures in kilowatt-hours (kWh), which is how much energy you use if you use one kilowatt of power for one hour. A kilowatt hour is exactly 3.6 megajoules.

Honestly, if you have no understanding of the subject, why do you post?

A few calculations...

[zerosignal]

So, this ramp generates 10kW when 'active'. Let's say you have a continual stream of cars so that it is active 50% of the time (since there must be gaps between the cars). This mean it's generates 5kWh of energy per hour.

Assume that the standard cost for elecricity is US$0.10 per kWh. So this thing can generate US$0.50 of electricity per hour. Over the course of a year it will generate about USD4000 worth. So after about ten years it /might/ just pay for itself.

And that's not even considering maintaining the thing. Road wear out, and they're just simple concrete. This is a mechanical device, which will have /millions/ of cars passing over it.

The whole things stinks of INVESTOR SCAM.

A few more calculations...

[RallyDriver]

My first gut, wet finger in the wind estimate as a thinking human with a technical eduaction is that this thing is total snake oil.

Two issues with your approach:

1. You're forgetting the numbers are from a crazy optimist inventor who believes his own propoganda, is given to quoting unscientific data, and is trying like hell to sell his crap :-)

2. I suspect your 50% duty cycle is way, way overestimated. My gut is that the 10kW is a theoretical peak for the fraction of a second an axle is actually passing over

power != energy

[Per Bothner]

This article (like all-too-many others) confuses energy and power (i.e. energy per unit of time). It's nonsense to talk about generating "10kW of power" "each time" something happens.

Didn't I see this a few decades ago?

[HPNpilot]

This is not a new idea, I've seen this exact idea in (IIRC) Popular Science maybe 30 years ago. The blurb talked about the same issues covered by many /.'ers such as taking energy from the passing cars.

I always thought, again like many here, that the mechanism seemed too complex for it's job and couldn't pay for itself.

If you want to invent something interesting devise a way to take energy from cars going over a certain speed. That is, if the speed limit is 55 MPH and you go 65 have the system extract ene

The next great Hype

[Robbyboy]

Let me chime in from the other side of the Nay-Sayers for Electro-Kinetic Road Ramps. How rugged are these things? What kind of road debris will it take for these to jam up? What will it take for someone to try to stop their cars, and lock the wheels on the ramp. What if the ramp ices over? With our litigous society, how long of a wait will it be before the inevitable occurs...

My hybrid won't like that.

[blair1q]

My electrically-assisted car depends on the energy of braking to return energy to acceleration.

If the local government is STEALING power from me, then I will have to burn more gasoline.

Lots of Negativity Around This Story...

[RoffleTheWaffle]

... And for what?

Okay, okay. I get the idea, this is essentially a means by which electricty can be derived from the same energy that drives your vehicle. However... isn't this energy that would just be wasted, anyway? This thing doesn't exactly slow down your car. It's not like it's sucking power right out of your engine. This is kinetic energy combined with the force of gravity and the weight of your car, energies that would just be wasted and poured into the ground otherwise. Ten kilowatts, depending on your perspective, may or may not in fact be 'drops in the barrel' energy wise, but it's more than enough to power devices like stop lights and road signs, granted it's stored efficiently and the devices attached to it are similarly efficient.

On a well traveled road, energy that is essentially being wasted can be recaptured and used to power lights and signs for several intersections without placing any load on the local power grid. Sure, these things are pricey, but as their price decreases with time and their efficiency and output both climb, doesn't it make sense that these things just might pay for themselves? That reduces the cost of maintaining roads in the long run by cutting out virtually all energy expenses in areas that are frequently traveled - and if the system becomes efficient enough, it could cut out the energy costs for an entire community's roadways and intersections.

This isn't 'another gas tax'. This is one less reason to have gas taxes. On a highway like ol' I-69 here in Indy, a couple handfuls of these ramps could power every lighted roadside sign and traffic signal within the city of Indianapolis, with energy to spare. Higher traffic translates directly into greater energy gains. If these things are durable enough to take the punishment, they'd pay for themselves within a matter of weeks. Now let's think about even more heavily traveled roadways, like those in New York City or LA. 10 kilowatts per panel times a few thousand automobiles a day, that's megawatts and megawatts of power being generated every day. The excess could be put into the city electrical grid, however small an amount it may be by then, and used to power other things. Street lights, low-demand municipal facilities, etc... All of this from WASTE. This is an excellent idea, and I hope to see technology like this move forward.

And before anyone replies to this, no, this is not 'just another way for the government to control our cars'. I won't be concerned about that until they start installing spike strips in these things. (And with or without ramps, that could be done at every intersection anyway....) This is hardly ripping off the taxpayer, either, if a comparatively small expense saves a ton more money. Sure, right now that expense isn't small, but it'll get smaller if enough communities buy into this stuff - perhaps even going from a few thousand dollars to just a few hundred. Money in the bank, and back in our pockets, folks... No problems here.

Inefficient Tax Collector

[guygee]

Sounds like a bizarre gasoline tax where the government spends a pound to collect a penny.

Flush the idea down in the nearest penny house [peak.org]

Simpsons

[John Frink]

In this house we obey the laws of THERMODYNAMICS!!!

This is THE dumbest idea I've ever seen...

[birge]

You need power for the lights, which need electricity, which costs money, so: you take electricity it from cars, which have kinetic energy, which they get from chemical energy (with losses) which their drivers get from money. If only there were a way for the government to get money directly from it's citizens...

This is a really crappy design

[Animats]

This is a very poor design. Take a look at the mechanism [hughesresearch.co.uk]. When a vehicle drives over it, the full impact lands on the hinges and the drive mechanism for the generator. This thing has to resist huge impacts, especially when a heavy truck comes along. It also has electrical components and moving parts below road level, where they'll flood and corrode.

How does he get 10KW out of this? That looks like an automotive alternator in the picture. Automotive alternators range from 300W to about 1.5KW, and that looks like one of the smaller ones.

A more reasonable mechanism would be to make a heavy duty rubber mat, like the ones used on railroad crossings, but with internal chambers, like a tire. When a vehicle drives over it, you'd get some compressed air. Put in a check valve, an air tank, and a small air motor driving a generator, and you'd have a rugged little power source. A hydraulic version of the system might produce more power output than a pneumatic one. The bump felt by the vehicle should be easier than that at a railroad crossing. And no big, expensive machined parts that get beaten up by traffic.

Realistically, get a solar panel, like CALTRANS uses to power much of their roadside infrastructure.

Re:Noooo way

[BLAG-blast]

No way I would avoid any roads with these, that energy the ramp "creates" it is really sapping from the vehicle.

I assume you mean you don't want to drive on the roads with these 'ramps'.

Heres an idea, since I was already taxed for purchasing the gas USE THAT MONEY TO POWER THE LIGHTS.

That brings up an interesting point. Maybe, I'm paying tax on gas to power traffic lights in your town? (I know taxes are a little more complex than that, but....) How about the people who are using the traffic lights pay for them? That sounds pretty fair, right? If you live on a street that has few traffic lights, why should you pay taxes for three streets over to power x5 the number of traffic lights when you never drive there?

This would make the lights powered by the people who are using, rather than by people who are not using them.

Re:Noooo way

[Sancho]

Fine--but is there any indication that these ramps would replace gasoline taxes? More likely they'd be in addition, as most Americans wouldn't understand that they're losing gas mileage.

Re:Noooo way

[nursegirl]

most Americans wouldn't understand that they're losing gas mileage.

Particularly since the company's promo video specifically says that the devices don't use extra gas. The average citizen/politician with little/no understanding of physics will believe him.

Re:Good idea but not in England

[Eightyford]

Ice would be a problem.

MOD PARENT TOLL

[Pollardito]

always wanted to say that

Re:Hmm

[grozzie2]

In some ways it's productive and marks a step foward for more renewable energy created from driving..

An automobile is a wonderful thing, and modern ones even give a smooth ride. The reason we get a smooth ride is this wonderful energy absorbing system called 'suspension', which absorbs about 95% of the energy of a road bump before it actually transfers to the vehicle occupants. The reverse is also true. The suspension has a few major components, the first being the sidewall of the tire. When you hit a bump, the tire deforms, and aborbs a significant portion of the impact energy. Typically, tires are designed so they can continue absorbing such bumps long enough that the tread wears out before the sidewall fails, but, if you spend a lot of time driving on real bumpy roads, you'll know, sidewalls fail long before the tread is worn. The second portion of the suspension is the shock absorber, and like a tire, it has a life expectancy. After absorbing some finite number of impact shocks, it ceases to function. It is quite possible to calculate a 'cost per bump' based on the replacement cost of tires and shock absorbers.

So, in the overall energy transfer equation here, we start with an internal combustion engine, that takes gasoline as an input, provides torque as an output, and is approximately 35% efficient. That torque is then transferred thru the drive train to provide propulsion, a process that typically runs 95% efficiency. Now, for a vehicle in motion hitting this bump, the vehicle suspension will absorb 95% of the impact, so the transfer of energy from the car to the bump is only about 5% efficient, with the vehicle suspension absorbing most of the impact. Tally up all the efficiencies along the way, 0.35 * 0.95 * 0.05 and you get 0.0166. So, to generate 1 kw of electricity from this device, you have to burn the equivalent of 60Kw of gasoline, and then let it flow thru the inefficient transfer mechanisms. To top it all off, you are purposely introducing extra bumps into the system, ie causing mechanical wear on the vehicles, which will in the long run have a measureable cost, probably substantially higher than the value of the electricity being generated.

If this is a 'step forward' for renewable energy, I'd sure like to know how that comes to being. To me, it looks like the most wasteful mechanism I've seen yet to convert gasoline into electricity. I cant remember EVER seeing any hair brained method of generating power thats LESS efficient than this one, with the exception maybe of the cartoon method of driving a windmill with an electric fan.

I can see one, and only one application where this is potentially 'viable', and thats to power traffic lights at locations that are so far out of the way, no grid power of any kind is available. I know of a few tunnels in the remote parts of northern british columbia where that would be the case, it would mean they dont have to keep the generators running on diesel 24x7 to light them up. Then again, from a pure pollution point of view, it's probably wiser to run an efficient generator 24x7 than to consider this kind of low efficiency energy transfer device.

Then again, if i was in the business of selling tires and shock absorbers, I'd probably consider the idea of offering a subsidy to towns looking to purchase this device. One of these at every traffic light in the jurasdiction would likely do wonders for my tire business, probably give full payback in a couple of years. Then when folks do come for replacements, upselling them to good quality steel belted tires that can withstand the extra abuse would be a trivial upsell, just point at all the artificial bumps in the road, and make sure they understand, normal tires just wont survive on these roads....

Re:Hope you like all the

[mlyle]

Like it already is, you mean?

The US Department of Energy has by statute ultimate responsibility for the disposal of spent nuclear fuels. The point and timing of Department of Energy custody of such waste is an active subject for the court system and for negotiations between power generators and the Department. Nuclear fuel disposal costs are funded by a surcharge on the cost of nuclear fuels. Presently this charge is 0.1 cents/kWh of power generated.

From Nuclear Power and the Environment [doe.gov], a DOE EIA paper

Re:Gas powered ramp???

[cbiltcliffe]

Probably lights that aren't even on, but light up red as you approach them. Once the power from your passing is used up, the red light goes out, and you can proceed.

Now we actually can have traffic lights that always turn red as you approach. Or, at least, more of them.......