New Method To Generate Electricity from Water 356
spaceling writes "The BBC reports reporting on research published in the Institute of Physics Journal of Micromechanics and Microengineering of the first new method of generating electricity in over 150 years. Larry Kostiuk and Daniel Kwok 'created a glass block, two centimetres in diameter and three millimetres thick, containing about 400,000 to 500,000 individual channels...[and] generated about 10 volts with a current of around a milliamp. This allowed the team to successfully power a lightbulb.'" This has also been covered all over the place.
Liquid flow... (Score:3, Funny)
So... if these things end up becoming cell phone batteries and what not, where are you going to get the water flow needed to separate the charges?
Shaking the phone or something? That just looks dumb
Re:Liquid flow... (Score:4, Funny)
electricity generator != energy source (Score:5, Insightful)
It's a new method of generating electricity, not a new way of storing energy or an energy source. The energy would have to come from somewhere else, and since the idea is pretty new, I doubt that anyone knows in much detail how (or if) it will work out in practice.
I suppose you could either recharge a normal battery by pumping the handle your handy, portable water-generator for a few minutes, a bit like a baygen radio.
Or, you could store the water under pressure and let it out through the device to get the energy back out.
Re:electricity generator != energy source (Score:2)
It's not light digging up coal in the wirld.
Re:Liquid flow... (Score:3, Funny)
Re:Liquid flow... (Score:2)
Re:Liquid flow... (Score:2)
Maybe, my thought was they could use this to generate electricity from tidal motion, which is already being done in more conventional fashion but maybe this new way is more efficient.
Of course, it's not going to be valid... (Score:3, Insightful)
So now we end up fighting wars over water? (Score:2, Insightful)
Re:So now we end up fighting wars over water? (Score:2)
Re:So now we end up fighting wars over water? (Score:3, Interesting)
Yes.. I think it's entirely possible to have real wars in the future not to establisch democracy in a country, or to expand the territory of the aggressor but entirely focussed on the water.
Re:So now we end up fighting wars over water? (Score:5, Interesting)
You make a very important point. Heck, look at how we fight over water in the US. We don't generally have "shootin' wars" over it anymore, but there's certainly a lot of acrimony. The various states arguing over how much water they can keep behind the dams and how much they can take out for irrigation on the Colorado river, for example. The California aqueduct taking most of the water in the Owens valley area and piping it down to Los Angeles caused a fair amount of strife too. I was driving around northern Nevada once about 10 years ago and I saw signs in store windows that said "Don't let Las Vegas take our water". Access to fresh water has been a central issue to civilization for eons. Heck, the first thing those monkey dudes in the beginning of "2001: A Space Oddessey" did after seeing the monolith and "gettin' wise" was grab bludgeons and chase off those other monkey dudes from the watering hole. Just a movie, but it makes an important point.
Re:So now we end up fighting wars over water? (Score:2)
My father is an attorney specializing in property law. A lot of the stuff he deals with involves water rights (e.g. who's allowed to use how much water from a well that goes across property lines).
Re:So now we end up fighting wars over water? (Score:3, Insightful)
And actually, the Arabs do have water. Or had. Iraq is blessed with an abundant supply of water, so much so in fact that some had speculated we did not go there for the oil as much as the water.
Water is going to become increasingly scarce as time goes by. Even power production using it may not be economically feasable... unless, again, you can use sea water.
Re:So now we end up fighting wars over water? (Score:5, Funny)
Who in hell speculated we went to Iraq for their water??
The Fremen High Council?
Are the Bene Gesserit speculating we went there for the Spice or the Sandworms too?
Re:So now we end up fighting wars over water? (Score:2)
You imply we don't fight wars over water already (Score:2)
As if to imply that wars aren't already being fought over water...just look at Israel, which diverted the River Jordan away from Syria.
Or, for something closer to home, try reading the Milagro Beanfield War, about a poor farmer who dares to use enough water for his field so he can eat. Rich cattle rancher/farmer gets all the water because he's in bed with the state officials..
Re:So now we end up fighting wars over water? (Score:5, Insightful)
Re:So now we end up fighting wars over water? (Score:2)
You could filter it, but then that would take up power. Would it require as much or more power as ends up being produced?
This is a big deal. If you can generate power using sea water, which is now and will continue to be ubiquitous for the foreseeable future, then this could conceivably be a milestone in civilization.
If not, it could end up being another almost but not good enough source of en
Re:So now we end up fighting wars over water? (Score:2)
After all movement is only relative. In fact, the water being pumped into the tubes is moving, so there is movememnt. But it could be the water, or it could be the body of the tube array.
What about using larger tubes in the open ocean, say on the order of a few millimeter? Obviously the larger surface area is going to reduce the efficiency by orders of magnitude, but you'd probably have less prob
What about... (Score:2)
Is it more or less the electricity produced by that method?
Of course you can always build underwater and take advantage of gravity to make water flow through your channels...
Guess we can also always get back to getting water in the well to wash, err, power out electronic devices!
Re:What about... (Score:2)
at some point you have to transfer it back to a location of higher potential energy, and will waste even more of your 'produced' electricity.
(unless of course you are simply going to drain your entire source into another location, and harness energy as a one-time thing).
if you try to connect the appar
Re:What about... (Score:2)
Not to mention how clogged up those micro-pores are probably going to get with contaminants.
Re:What about... (Score:2)
Re:In this house we obay the laws of thermodynamic (Score:2)
We already have some wave generators out there, so the question would be whether this is more or less efficient.
Of course with tubes tis small you'd also have to have some pretty well-filtered water or else youd get clogs in no time.
Re:What about... (Score:2)
Ga sounds odd in this context. Kedo is better.
Chikara wa taisetsu desu kedo namida mo hitsuyo desu.
Re:What about... (Score:2)
Of course, this is spoken Japanese. Since I don't have a degree in Japanese Literature, never interned in the Japanese Diet, and don't run operations for a software firm in Japan, I can only draw from my experience of living in the country and speaking with people on the street for 18 months in their native language.
generating electricity (Score:2, Informative)
Re:generating electricity (Score:5, Informative)
Re:generating electricity (Score:2)
Re:New Power Plants? (Score:2)
Not very efficient. But anyone hasn't figured out a better way, yet.
Would it be more efficient to pressurise these new water cells with the heat instead of generating steam, or at the very least, without needing to turn a turbine?
Right now, with the figures mentioned in the article, no, but if they manage to evolve it enough, who knows, maybe.
For that matter, if you could make it compact enough, would the system have applications in nuclear submarine boilers? Mod
Re:generating electricity (Score:2, Informative)
Nuclear reactors are just a new(ish) way of heating water.
Spinning turbines with steam to generate electricity is as old as your hat.
Re:generating electricity (Score:2)
However, there is the method used in the Cassini probe, which basically converts the heat of the nuclear decay directly into electricity. Ah, which are called 'radioisotope thermoelectric generators' (according to here [nasa.gov]). I can't remember how these worked (I took a class in nuclear engineering ~6 years ago and at one point they explained it, but I'm forgetful), but I'm rea
A hype? (Score:5, Insightful)
If we take one liter (1 kg) of water at a pressure of 30 cm, then the energy contained is 2.94 J, of which 0.12 J will be available as electrical output. By comparison, a 1500 mAh NiMH battery can store 6500 J. The efficiency of the water battery can probably be improved, but let's face it, for small volumes and reasonable pressures, the stored energy density will never be very high.
Re:A hype? (Score:4, Interesting)
Sounds like a van der Graaf (Score:5, Interesting)
Also, the electricity isn't generated from the water. It's generated using the kinetic energy of flowing water - just like a turbine or waterwheel, and something needs to produce the kinetic energy in the first place...excuse me while I go and check my cold fusion plant, the room temperature seems a bit low.
Re:Sounds like a van der Graaf (Score:3, Funny)
With normal fusion you can simply use the heat to boil water and send the steam trough a turbine, which will turn a generator; with cold fusion you need to put the reactor in a high place and use it to turn air into liquid, which will then fall down and turn the turbine like a watermill. You can then let the liquid air to either reheat and boil away, or sell it for a profit.
Obviously, this power
MOD PARENT UP! (Score:2)
Re:Sounds like a van der Graaf (Score:3, Informative)
For anyone with university level knowledge of chemistry this is extremely fascinating because it harnesses the biggest pest in electrolysis and battery design. The so called dual layer phenomena.
So even if it never ever makes it to become a decent generator the reseach may still give insight in making existing devices and fuel cells more efficient
Laws of thermo-dynamics (Score:2, Insightful)
Re:Laws of thermo-dynamics (Score:4, Informative)
Re:Laws of thermo-dynamics (Score:2)
What I'm most curious about is how efficent such a system is in contrast to a typical generator. If so I can think of a few normal run of the mill sources of engery.
1. Heat water to produce steem as with traditional power plants
2. gravity fed as with rain and rivers as with traditional hydro plants
3. Wave / Tidal forces
Steem power seems a touch impractical for this system, except to provide
Re:Laws of thermo-dynamics (Score:2)
I think I saw something like that in a documentary some years back. The proposed (or actual) generator used regular tide power as the tide flowed in and out, but at low tide supplemented the outflow with water from a holding tank. During times of low electricity use, water was pum
Re:Laws of thermo-dynamics (Score:2)
Must have missed geometry class that day. (Score:3, Funny)
Remote controls, watches, etc. (Score:3, Insightful)
Sure its being hyped a bit there is a lot of potential here.
Re:Remote controls, watches, etc. (Score:2)
And what would power the pump needed to move the water? Or would you have to shake your remote every time you wanted to change the channel?
Sure its being hyped a bit there is a lot of potential here.
No pun intended, right?
Re:Remote controls, watches, etc. (Score:2)
Perhaps pressing a button could generate enough pressure to force water through the cell to power the device momentarily...
It would be quite disappointing if your remote sprung a leak though =/
Re:Remote controls, watches, etc. (Score:2)
Not unlike the kinetic watches, etc. Though the traditional generation techniques in them are (for now at least) probably quite a bit more effective than this water filtering.
How about an Electronic Hourglass? (Score:2)
Mostly a geeky concept, but at least you'll never worry about having to find new batteries if the existing ones have worn out...
Re:Remote controls, watches, etc. (Score:2)
Hey, that's a good one! ;-)
Cool! (literally) (Score:4, Funny)
Heh! I noticed not a lot of RTFA in evidence. The researchers who discovered this stated where the energy comes from.
medical uses (Score:2, Insightful)
I wonder -- would it work on blood? The channes are 10um thick; how wide is a red blood cell?
Re:medical uses (Score:3, Interesting)
According to this page [umn.edu], the avrage red bloodcell is about 9um in diameter, so pouring blood down a channel just 10um wide is asking for trouble. The downside is that - as far as I can understand the article - that the size of the channel is vital for the functioning of the generator.
*ponders* Hmm... urine is mostly water, isn't it... ?
My 2 cents (Score:2, Informative)
Re:My 2 cents (Score:2, Interesting)
Not an energy source (Score:2)
Unless you have free pressurized water, it won't create a new source of energy.
If you do, how is it different then your old fashioned water wheel? (or the newer hydro electric dams).
Maybe this can generate small amounts of electricity on already moving parts, but I don't see the breakthrough.
Energy of Mixing Salt/Fresh Water (Score:2)
hydroelectric
There's the big questions about this technology.
It relies upon water under high pressure, flowing through the microchannels coated with surface charge to generate some power.
The exact same highly-pressurized water could be used to drive a turbine connected to a generator.
It will be a matter of whether the efficiency and costs of the new device can be developed to be competitive with conventional hydroelectric power.
My own favorite untapped technology for power generation is taking advan
OK, so they made static (Score:2)
Cold Fusion (Score:2)
Why stick with water? (Score:2, Funny)
Carbonated water? (Score:2)
Not all that great (Score:2)
THIS IS NOT A NEW WAY OF GENERATING ELECTRICITY! (Score:3, Informative)
Which operates under a very similar principle, but with macrochannels. I built one of these when I was a kid, thirty-some years ago. It is so damn cool, your tongue sticks to it!
Re:THIS IS NOT A NEW WAY OF GENERATING ELECTRICITY (Score:2)
Ummmmm why were you licking a VanDeGraff generator? Didn't they have halucinegenic drugs at your school?
Just a thought (Score:2)
Sunlight
Water Input > Chamber 1 > Water Battery > Chamber 2 > Valve.
(Chamber 1 and 2 being separated)
1. Sunlight heats/pressurizes chamber 1 and 2 (like a solar oven)
2. Valve is opened on Chamber 2 to create pressure
Energy storage method? (Score:2)
As, I can see it now... (Score:2)
Yup, I can see this now...
Yaz.
1st new way in 150 years? Seems doubtful. (Score:2, Informative)
So it seems like there must have been a few new technologies for generating electricity in the last 150 years. Many people mentioned that nuclear power plants use steam driven turbines, an old method of producing electricity; however, I have read about some that heat a conducting liquid and then the energy is converted into electricity using magnets and the Lorentz force. This must be fairly new, since it probably couldn't even have been understood until the mid to late 17th century. I've certainly never
Personal electric generation.... My shoes! (Score:4, Interesting)
Hey, maybe it would force me to exercise more.
*ring ring*
ME: Hey... Bob... what's... up....[huff puff]
BOB: Dude, why are you outta breath?
ME: Phone... dying... needed... recharge...[cough]
Kids wanna play thier Gameboy... make 'em walk the dog! (hmm, mini paw sized pumps)
Re:Personal electric generation.... My shoes! (Score:3, Insightful)
What a piss-poor set of comments. (Score:3, Insightful)
20% Stupid jokes
10% "But you still need pressure!" redundant observation.
30% "Electrostatics? Please. I'm too cool to be impressed."
20% "I TOTALLY don't get it, and will prove as much by saying something asinine."
18% Skeptical combination of the above.
2% Genuinely insightful observation.
It just goes to show; smart Slashdotters sleep in.
-FL
Two way process? (Score:2)
Is this really anything new? (Score:4, Insightful)
The real questions are how practical and economically viable this approach will be for medium to large-scale power generation. For natural sites (e.g. permeable rock layers), what type of electrodes can be used, how well will they resist corrosion, and how large must they be? The bottom line: how much will the power cost over the entire life cycle in terms of $ per KWH?
For manufactured microchannel membranes or devices, added questions are the cost of manufacture and the lifespan of the device. How easily will the pores become clogged, what steps must be taken to prevent this, how long will it take for the pores to erode over time, and what is the expected lifetime of the microchannel device?
One big difference between pure science and engineering is that engineers need to factor in economics.
Someone had to point this out.... (Score:2)
There are much better ways (Score:3, Insightful)
The Energie Problem is solved decades befor, but open your eys - Nobody can sell it without risking his life.
For example:
http://www.cheniere.org/books/excalibur/moray.h
From "FUEL FROM WATER, Energy Independence with Hydrogen" Author Michael A.Peavey Publisher Merit, Inc., P.O. Box 694 Louisville, KY 40205 Library of Congress Number 88-188956 ISBN 0-945516-04-5 Page 22.
" The smallest amount of energy needed to electrolyse one mole of water is 65.3 Wh at 25 degrees Celcius (77 degress F). When the Hydrogen and Oxygen are recombined into water during combustion 79.3 Wh of energy is released. 14 Wh more energy is released in burning Hydrogen and Oxygen than is required to split water. This excess must be absorbed from the surrounding media(environment) in the form of heat during electolysis." [...] "At 25 degrees celcius, for voltages of 1.23 to 1.47 V, the electrolysis reaction ABSORBS HEAT. At over 1.47 V at 25 degrees celcius, the reaction gives off heat."
Does it have to be a liquid? (Score:3, Interesting)
What about superheated air?
This could be a replacement for turbins.
Prediction. (Score:2)
So efficiency will be fundamentally low. If you have something where in theory you can harvest all the energy, you have a good chance of achieving 50% in practise (e.g. fuel cells). And sometimes even better (e.g. turbines).
As the efficiency is fundamentally low, I don't expect much from this "invention".
People seem to misunderstand how you'd work this invention:
I wonder... (Score:2)
A Practical Use (Score:3, Interesting)
More and more public restrooms have those infrared detectors to flush toilets and run the faucets. I bet they all have batteries in them. Batteries run down, disposal of them is an environmental problem, etc.
If this gizmo provides enough power to run the detector and the valve, it may be a perfect application. You already have water running through the device.
Possible use: a sensor (Score:2)
In related news... (Score:2)
Though still theoretical, applications could include milling wheat, generating hydrogen for Zero Emission vehicles, or powering the internet.
Not really new at all. (Score:2)
Just another horse shit pacifier. (Score:2)
Here [cheniere.org] and here [seaspower.com].
Just seems rather silly... and obvious.
Maxwell's demon (Score:2)
Indeed, but I think there is some prior art [auburn.edu]
Why am I speaking of prior art, btw? It's unp
Re:Maxwell's demon (Score:2)
The whole idea of "harnessing entropy" is only a useful concept because we're too big and clumsy to deal with individual molecules. Maxwell's demon drops down to the molecular level.
I be
Re:Maxwell's demon (Score:2)
Get a clue.
the first impression assumptions.
Better yet, get a decent vocabulary first. Then get a clue. Try using "a priori".
Re:Exciting (Score:2)
nuclear power, as it exists and as it will exist for some time to come is anything but renewable. it relies upon a very scarce consumable resource (uranium) and leaves a very problematic waste.
the current "main hope for renewable energy" is wind, which according to a lot of estimates could be powering the whole world, if we were set up right, and could definitely power the whole world with reasonable cuts in use and increases in efficiency.
Re:Exciting (Score:2)
The truth is all power generation has tradeoffs somewhere, and there's not 'perfect' way to do it, short of using less power.
Re:Exciting (Score:2)
Sadly, this isn't the case. The protesters don't generally suggest alternatives, they just want to bitch about something. I suspect they'd even be perfectly comfortable using wind turbine power if the turbines were located somewhere out of sight.
You broke my sarcasm meter! (Score:2)
But you probably have the idea right. It is easy to extrapolate anything you want if you use the right (for your argument) physical model.
I think the ebullient press is assuming that this thing's only problem is that it is small, and they see no problems with its efficiencies or practical implementations.
Possibly, though, this might be able to generate small amounts of electricity where nothing else is practical. Remote sensors associated with flowing liquids would
Re:Exciting (Score:2)
Re:Again (Score:2)
Re:First new form of electricity generation in 150 (Score:2)
Magnetohydrodynamics is the theory of the macroscopic interaction of electrically conducting fluids with a magnetic field
---I dont know quite what you mean here
Re:First new form of electricity generation in 150 (Score:2)
Re:Are you stupid? (Score:2)
Besides which, you probably didn't RTFA, as the article at physics.about.com states that the channels need to be between nanometers and micrometers in thickness for the effect to work. Get too much particulate matter in the tubes and the whole thing shuts down.
Re:So... (Score:2)
Re:Nothing new (Score:2)
And for the record, static electricity doesn't produce current at all. That's why it's called "static" electricity.
Also, reading the articles, it sounds more like the channels act as a filter that keeps positive ions one one side and lets negative ions slip trough, creating a voltage potential acr
Re:Photoeclectric effect is not 150 years old (Score:4, Informative)
Re:Speaking of hype (Score:2)