Electro Gravity Tiles - generating electricity from moving vehicles

In summary: I wonder if linear generators could be used as shock absorbers in electric cars, and what would be the returns? As you said, probably too small to even consider, but I have never even looked at that one.I don't think so. That would just be a waste of energy.
  • #1
Ouabache
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Using electro gravity tiles, there is an emerging technology that can generate electricity from moving vehicles. If we continue to populate the highways and roads, we might as well extract energy from their motion. How cool is that? :tongue:
 
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  • #2
This thread belongs in the Debunking Product Claims forum. What a joke that video is!
 
  • #3
This is completely bogus. The energy from the tiles comes from petroleum powering the cars. It would be an extremely inefficient means of converting petro energy to electrical energy.
 
  • #4
Gokul, you got me on this one. This is not an advertised product or an unexplained phenomena, so technically it doesn't belong in S&D, but I won't bother moving it back now.
 
  • #5
Ivan Seeking said:
extremely inefficient means of converting petro energy to electrical energy.
But it's not meant to do that. It's meant to save unused energy. Independently of whether it actually works of course.
 
  • #6
humanino said:
But it's not meant to do that. It's meant to save unused energy. Independently of whether it actually works of course.

Technically, the first tile encountered might. :biggrin:

Oh wait, these probably stand above the road surface, so I guess not.
 
  • #7
Ivan Seeking said:
Technically, the first tile encountered might. :biggrin:
:rolleyes:
So, technically, would the number of miles per gallon increase ? (one cubic milliter per light year counts)
 
  • #8
Ivan Seeking said:
This is completely bogus. The energy from the tiles comes from petroleum powering the cars. It would be an extremely inefficient means of converting petro energy to electrical energy.

It's not completely bogus. Certainly I agree that it is bogus for cars if the idea is to convert horsepower from gasoline into stored energy in the tiles, even if going only down hill, but I rather think there are other applications.

For instance if you installed something similar on descending stairs, such that each down step captured some of the pedestrian traffic that should be a net gain. For going upstairs of course it would seem to be be an increased effort, but would people notice? If you steal power from people effort, that's more calories used, that might mean healthier public?
 
  • #9
The idea of power sidewalks has been around for decades, but that isn't what we are talking about. This idea is bogus because the source of the energy is petroleum.

I assume that power sidewalks and stairs make no sense as the cost, perhaps in both energy and dollars, would exceed the returns.
 
  • #10
Ivan Seeking said:
the source of the energy is petroleum
But no, really, it is the movement of the cars and trucks, which could be powered by... electricity ! At least in principle. Of course it has a very low efficiency, but the idea would be to use what is not at all for now. The numbers are very suspicious though. In particular, the question would be "how much would that cost compared to other means of producing (sustainable, free) electricity".
 
  • #11
humanino said:
:rolleyes:
So, technically, would the number of miles per gallon increase ? (one cubic milliter per light year counts)

I was saying that we might net a little energy from the road for a millisecond, but only until we had to climb out of the hole from the first dot.
 
  • #12
Ivan Seeking said:
I was saying that we might net a little energy from the road for a millisecond, but only until we had to climb out of the hole from the first dot.
We put an accelerometer in a box once, which we were shipping overseas. For insurance purposes. I was amazed by the values which can be reached in a truck, much more than what can be reached in a plane for instance. Those are up-down accelerations. This is completely useless as of today. They are very short excursions, and could not generate much power, I do not believe the numbers in the video. But technically, there is a non-zero effect. Of I may be out of my mind today... :smile:
 
  • #13
humanino said:
We put an accelerometer in a box once, which we were shipping overseas. For insurance purposes. I was amazed by the values which can be reached in a truck, much more than what can be reached in a plane for instance. Those are up-down accelerations. This is completely useless as of today. They are very short excursions, and could not generate much power, I do not believe the numbers in the video. But technically, there is a non-zero effect. Of I may be out of my mind today... :smile:

I see what you are saying: I think that is a different situation from inducing vertical accelerations, but we are already wasting energy as heat in shock absorbers.

I wonder if linear generators could be used as shock absorbers in electric cars, and what would be the returns? As you said, probably too small to even consider, but I have never even looked at that one.
 
  • #14
humanino said:
But no, really, it is the movement of the cars and trucks, which could be powered by... electricity !
So... you'd power an electric generator with an electric motor powered by an electric generator?

It seems like you may be missing the point here:
At least in principle. Of course it has a very low efficiency.
It has negative efficiency.
It's meant to save unused energy.
The only unused energy in a car driving down a road is in the gas tank. Attaching a power generating device to the road therefore requires burning more gas.
 
  • #15
Ivan Seeking said:
I see what you are saying: I think that is a different situation from inducing vertical accelerations, but we are already wasting energy as heat in shock absorbers.

I wonder if linear generators could be used as shock absorbers in electric cars, and what would be the returns? As you said, probably too small to even consider, but I have never even looked at that one.
That isn't what is being claimed in the video, but I agree: the amount of energy dissipated in shocks is extremely small. There is a reason you don't see heat sinks bristling the sides of a shock absorber.
 
  • #16
russ_watters said:
Attaching a power generating device to the road therefore requires burning more gas.
Well it is far from being trivially as clear as you seem to suggest !

Take a fat trucker, you will not tell me that a bump on the road can not generate accelerations of the order of a few g, proof is as simple as him jumping from his seat now and then. Attach some kind of electrical generator to him, and you will definitely get some power out of it. Certainly not enough to light a bulb, but in principle at least it works, and in that case I do not think it affects the amount of gas burnt by the engine, at most it makes the trucker jump less high.

Therefore, I imagine it possible indeed to use the same kind of generator to the road, possibly not affecting the gas at all, but reducing the stress in the shock absorbers for instance, as Ivan mentioned.

As I said before, I have put an accelerometer in a truck, so I have measured those vertical accelerations, I am aware they are very short, but I was amazed how high they can reach.

Finally, I mentioned the fact that the whole thing would probably affect the number of miles per gallons (said "increase" instead of decreased BTW). I just can not provide actual numbers, and that was all just merely out of fun if you really read what we've been exchanging here.

edit
I did not see your second post before I started this one :redface:
 
Last edited:
  • #17
russ_watters said:
The only unused energy in a car driving down a road is in the gas tank.
Take an individual car. Less than 10% accelerates the car, and approximately 1% of the gas is used to move the people in it. There are losses all over the place.

Amory Lovins @ TED
 
  • #18
humanino said:
Well it is far from being trivially as clear as you seem to suggest !
The video is so bad, it is tough to even detect coherent thoughts (they mix energy and momentum, for example). But they did make one specific claim: the total energy available in moving cars. A quick google shows the US uses 40 billion gallons of gas a day or 14.6 trillion a year. A gallon of gas contains 36 kWh, so that's 530 billion kWh per year. That's "of the order" of what they claimed the energy available was.
Take a fat trucker, you will not tell me that a bump on the road can not generate accelerations of the order of a few g, proof is as simple as him jumping from his seat now and then. Attach some kind of electrical generator to him, and you will definitely get some power out of it. Certainly not enough to light a bulb, but in principle at least it works, and in that case I do not think it affects the amount of gas burnt by the engine, at most it makes the trucker jump less high.
No one said it couldn't generate any power, we just said it can't generate a significant amount of power.
Therefore, I imagine it possible indeed to use the same kind of generator to the road, possibly not affecting the gas at all, but reducing the stress in the shock absorbers for instance, as Ivan mentioned.
No. What you are suggesting doesn't work the way you are suggesting. The purpose of shock absorbers is to absorb energy caused by bumpy roads. If a road is perfectly smooth, you don't need shock absorbers and no energy is wasted there and your fuel usage goes down. Blanket the roads with a material that is soft enough to deform and generate electricity, and the energy expended by the engine again has to increase to compensate. It would be like driving your car through jello.
 
  • #19
humanino said:
Take an individual car. Less than 10% accelerates the car, and approximately 1% of the gas is used to move the people in it. There are losses all over the place.

Amory Lovins @ TED
I didn't say "lost" I said "unused'. Energy that has been lost has been used -- just not used for what you are trying to accomplish.
 
  • #20
russ_watters said:
A gallon of gas contains 36 kWh, so that's 530 billion kWh per year. That's "of the order" of what they claimed the energy available was.
Oh I absolutely agree about (against) the video and their claims, although I was unaware of the numbers (36 kWh is a very useful number to remember !).
If a road is perfectly smooth, you don't need shock absorbers and no energy is wasted there and your fuel usage goes down. Blanket the roads with a material that is soft enough to deform and generate electricity, and the energy expended by the engine again has to increase to compensate. It would be like driving your car through jello.
I see, and again completely agree with your points. I indeed assumed that the material would not be any smoother than an actual road. It is clear for everybody that the output would certainly be negligible, but most importantly, in any case (whatever the power available) it would probably be best to use "clever" shock absorbers as Ivan suggested.

Thank you for the comments.
 
  • #21
humanino said:
Interesting clip (I may have to read the book), but it is clear that he wildly overstates the potential improvements and understates the cost. One clear one is that he says the first 20% energy efficiency improvement in airplanes is free. The reason for the statement is that it is already incorporated into new airplanes. But wait: you have to buy a new airplane to realize the gain! Not only that, but is the new airplane the same cost as the old one? No: you pay extra for the technological improvements of the new planes.

He throws up as examples, neat looking concept-cars that get rediculously high fuel economies as some sort of proof of how easy it is to get 90 miles per gallon while generating 400 horsepower. But rest assured: these cars could not ever become production cars. You will be unlikely to see a carbon fiber mass production car in your lifetime because they are just absurdly expensive.
 
  • #22
Gokul43201 said:
This thread belongs in the Debunking Product Claims forum. What a joke that video is!

This was presented in an NBC news item. There is a videoclip titled "Energy harnessed from passing cars" that may be found by browsing msnbc news videoclips under "technology and science". Alternatively you can view this clip is by following this link. As this is just a news item, I recommend this post moved back to 'general discussion'.
 
  • #23
Ouabache said:
This was presented in an NBC news item. There is a videoclip titled "Energy harnessed from passing cars" that may be found by browsing msnbc news videoclips under "technology and science". Alternatively you can view this clip is by following this link. As this is just a news item, I recommend this post moved back to 'general discussion'.

Apparently you haven't been paying attention. It is bogus.
 

1. How do Electro Gravity Tiles work to generate electricity from moving vehicles?

Electro Gravity Tiles are made of two layers of conductive material separated by an insulating layer. When a vehicle's tires drive over the tiles, the weight and movement cause a shift in the electric field between the conductive layers, creating an electrical charge that can be harnessed as electricity.

2. Can any type of vehicle be used to generate electricity with Electro Gravity Tiles?

Yes, Electro Gravity Tiles can be used with any type of vehicle, including cars, trucks, and bicycles. The weight and movement of the vehicle are what generate the electrical charge, so any vehicle with tires can be used.

3. How much electricity can be generated from Electro Gravity Tiles?

The amount of electricity generated depends on several factors, including the speed and weight of the vehicle, the number of tiles being used, and the efficiency of the tiles. However, on average, a single tile can generate enough electricity to power a small LED light bulb.

4. Are there any environmental benefits to using Electro Gravity Tiles?

Yes, there are several environmental benefits to using Electro Gravity Tiles. Since they generate electricity without the use of fossil fuels, they do not produce any greenhouse gas emissions. They also utilize renewable energy sources, such as the movement of vehicles, reducing the reliance on non-renewable energy sources.

5. How durable are Electro Gravity Tiles and can they withstand heavy traffic?

Electro Gravity Tiles are designed to be durable and can withstand heavy traffic. They are made of strong and resilient materials that can withstand the weight and movement of vehicles without breaking or becoming damaged. However, regular maintenance and replacement may be necessary to ensure optimal performance.

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