Solar Panel Developed That Can Generate Electricity From Rain (sciencenewsjournal.com) 106
Reader Socguy writes: Scientists in China have developed a prototype solar panel with a single atom-thick layer of graphene on the surface. This layer allows the panel to generate electricity, not just from the sun but also from any rain that falls on it. This development promises to further boost the output of solar panels during times of less than optimal conditions.Also from the report, "All it takes is a mere one-atom thick graphene layer for an excessive amount of electrons to move as they wish across the surface. In situations where water is present, graphene binds its electrons with positively charged ions. Some of you may know this process to be called as the Lewis acid-base interaction."
Off to the bar I go (Score:2)
... to recharge my batteries at the solar urinal.
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the more you drink, the more power you can generate.
you, literally, are increasing your potential by drinking more.
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Real world (Score:5, Insightful)
In the real world a one atom thick layer graphene layer is going to be destroyed incredibly quickly by UV, water, random pollutants in the atmosphere, etc. This seems to be another case of scientists going "I can do this in the lab" and engineers just shaking their heads.
Re:Real world (Score:4, Interesting)
All technological advances start that way. Remember the Manhattan Project? The space program? Einstein?
Nothing makes a certain type of Slashdotter anti-technology faster than a development in renewable energy. The same people who are talking about a manned mission to Mars will go, "...but renewable energy isn't practical!"
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What isn't practical today has *very* frequently become practical in the future.
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I find the idea of generating electricity from water (as opposed to hydrogen and oxygen) as pretty dodgy.
Hydroelectric, yo.
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Well, it doesn't help that we've been reading Slashdot articles about "breakthrough" advances in solar and battery technology that never went anywhere about three times a month for the past five years. It makes you jaded after a while.
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Those advances in solar and battery technology have gone a lot farther than your beloved, "Private Industry Space Exploration", which still hasn't been able to put a human being into space.
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All technological advances start that way.
All technological advances start the same way as technological dead ends do? Obviously. It's just that this is overwhelmingly likely to be the latter.
Re: Real world (Score:5, Insightful)
Engineers at companies I've worked for that just shook theirbhead at new buy impractical ideas were the ones that had to find new jobs after restructuring, or were sent to positions to do grunt work without bonuses and raises. The good engineers responses were to have a discussion about options and directions for further research to make the impractical into practical. It doesn't always work out, but in general it s good for people to get excited about new ideas because sometimes it does work with further development.
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Posters point is still valid.
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But it's one of the duties of a good engineer to quickly reject stupid ideas with a back-of-the-envelope argument.
True, as long the argument is valid.
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This seems to be another case of scientists going "I can do this in the lab" and engineers just shaking their heads.
One of my professors years ago said that scientists show what's possible, engineers show what's practical.
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It looks like graphene is at least UV resistant?
http://pubs.acs.org/doi/full/1... [acs.org]
I can't find any clear information on its reactivity, other than depending on thickness and substrate material.
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In the real world a one atom thick layer graphene layer is going to be destroyed incredibly quickly by UV, water, random pollutants in the atmosphere, etc. This seems to be another case of scientists going "I can do this in the lab" and engineers just shaking their heads.
The whole idea of the lab to is demonstrate the new technology in principle. Once proven, it is trivial to scale up to whatever level is required to make it commercially viable.
Any Engineer that doesn't understand this should probably look for another job.
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"Once proven, it is trivial to scale up to whatever level is required to make it commercially viable."
Yes, just look at all the commercial applications of graphene and carbon nanotubes out there thanks to how trivial they are to mass produce.
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Huh? It's not trivial so we may as well give up? That's a weird dichotomy you've set up there.
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The GP, seems to have jumped from research concept to lack of real world viability so is belittling the research.
This may or may not end up with a real world application, but that doesn't automatically discredit the effort, or the fact that it may lead to some thing slightly different but related. The GP's comment about the Engineers just shaking their head is ignorant, yet still manages +5. Seriously, what fucking dumb arse mods are polluting this place?
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You are very right.
Your only mistake was using the word 'trivial'.
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The point was, the R&D is the harder part of the equation, so engineers shouldn't be scoffing at the results
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Or the engineers could read the article. It says "one atom thick is all you need", not "one atom thick is all we are planning".
Then the engineer would say "oh, good, it can be as thin as we like, because graphene is expensive".
Huh? (Score:4, Insightful)
Slashdot is still doing this. Ugh. It's not much better than the typical science-fair story.
How much energy? I can make a free-power radio receiver with not much more than a long wire and a rectifier. It will feed your earbuds but it won't charge your Tesla.
There is also the prospect of dirt getting in the way when things depend on one-molecule-thick layers.
Re:Huh? (Score:5, Interesting)
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Actually I'm one of the guys that did vote this article in the firehose... *shrug* I just let it roll off and don't take any of /. personal
Re: Huh? (Score:2)
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I heard the same suggestions from editors on SoylentNews, but no amount of submitting more sci/tech stories changed their editorial direction in the slightest. If /. isn't getting sufficient interesting submissions, you're free to NOT post 20 stories per day... Problem solved.
And you're doing it wrong if you're depending on th
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It's getting rather tiring scrolling through all the "this is shit" comments as if it's some profound wisdom.
Re: Huh? (Score:2)
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And no true scotsman pays attention to the white lines on the highway.
Here's a little bit of recent self-driving car news for you, from Reuters:
http://www.reuters.com/article... [reuters.com]
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I would love to see self-driving cars. Unfortunately, they won't be ubiquitous in the lifetime of anyone reading Slashdot today. We may get jet-packs before self-driving cars.
Re: Huh? (Score:2)
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I should have said more clearly, "with the current autonomous technology, that depends heavily on a pre-made 3-D representation of the world, consumer autonomous cars are not practical."
Re: Huh? (Score:2)
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Along with that, might as well add, "if the car cannot drive without internet/GPS connectivity, it cannot drive"
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Actually, I would be perfectly happy to have an autonomous vehicle that required human take-over 10% of the time. Just not very suddenly.
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Now imagine there are thousands of self-driving cars, all on the road, and they all try to pull over at the same point. Suddenly you have a giant traffic jam on the freeway. The kind of traffic jam that is so bad, it might not be cleared
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Sure, it can happen. We also have 50-car pile-ups in the fog where human drivers have the same problem and fail to stop.
People are really bad drivers, because they're not monomaniacal about it. Computers are, and are ultimately going to be better drivers than us.
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and are ultimately going to be better drivers than us.
But not with current technology.
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But not with current technology
Tomorrow we'll have something better.
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I'd suggest you read the article.
Hang on. Probably best to wait until there actually *is* one.
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Next to the headline, in green-on-slightly-different-green.
It's the hip new way to link to stories.
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Did your finger get tired after reading one line? Or is Probably best to wait until there actually *is* one too difficult to understand?
Re: Huh? (Score:2)
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Re:Huh? (Score:4, Interesting)
TFA is unclear but seems to be saying 1uA and a few hundred mV, so maybe 0.5uW for some unknown area under simulated conditions. Basically useless.
A little turbine in the drain pipe would be far more effective and practical.
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Actually, something from ~1uW upwards would be just fine for some IoT/sensor applications. Our current (OpenTRV V0p2) base board takes ~3uA (~1.5uA, ~1.8V+) to run the basics including software RTC, and then some for sensors and radio, but you can choose who often you sense and send to fit an energy budget. And there are newer MCUs then ours.
Rgds
Damon
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I engineered some really low powered sensors for work too, similar sort of low single digit uA range. We looked at powering with RF energy harvesting which can provide more than this can. And don't forget that it will be part of a solar panel generating many Watts. A cheap supercap would easily store more than this technique will generate during the night.
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Actually, something from ~1uW upwards would be just fine for some IoT/sensor applications
We're talking about solar panels here. There's already plenty of energy coming from the sun, so there's no need to add fancy extras to capture a miniscule amount of energy from the rain. And even on a rainy day, you'll get a lot more than 1uW from a solar panel.
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Not much energy, on inspection:
the math is about high-school physics level, so here goes:
For one square meter of square module, inclined at your latitude angle L, at 2.54 cm of precipitation per hour, the power from the water sliding across the module is good for about
cos L * 1 sin L * 1 * 25400 / 2 * 0.000098 watts.
For 45 degrees latitude, that's about .622 watts, at 100% efficiency (which it is not). That's the sweet spot.
That's about 1/350 the energy available falling on a 22% efficient module on June 2
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Even if correct, your calculations are not relevant. The energy extracted is chemical, not mechanical.
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If you read the article, figure S7 of the supplementary material graphs a linear relationship between the velocity of the droplets and the induced voltage, so there is definitely a mechanical component to the power generation.
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How much energy?
No clue. But the threshold is a lot lower, because presumably it's sharing a lot of infrastructure with the existing solar panel. So as long as the incremental gain outweighs the incremental cost, this is a good thing.
It's a prototype, which means we're still at "hey, neat trick", not at "this will allow us to make our third-quarter projections".
Hurray! (Score:2)
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My roof has been green for years.
This could turn into a big deal (Score:2)
I live in the maritime US Pacific Northwest. It really does rain/drizzle for much of the fall, winter, and spring (although the last few days have been glorious!), which is really when our area has higher electricity needs - our summers tend to be fairly cool, so there's not a huge load due to air conditioning.
This could turn out to be a big deal in areas with our sort of weather.
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It really does rain/drizzle for much of the fall, winter, and spring [...]
and summer.
Yeah, I know, cheap Seattle joke. Like the summers in Minnesota being so beautiful--both weeks!
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Very cheap, considering there's an entire country the other side of the pond where conversation about the weather (rain) is a national pastime. The UK could lead the world in exporting electricity. This has an added bonus of pissing off the French who own the power stations.
This is off topic, but - over the past couple decades, a lot of vegetable gardeners up in our corner of the US have figured out that our weather is - to use one local author's phrase - "more like England than Ohio". So people are adapting gardening knowledge from across the pond, doing winter vegetable gardening and the like.
Also, thank you for all the slugs.
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Also, thank you for all the slugs.
We have more: would you like a barge-full from our tiny London garden? Please?
Rgds
Damon
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Too bad all that rain, drizzle etc just sits there in puddles or soaks into the ground instead of, say, flowing down to rivers which could be dammed for hydroelectric power.
Oh, wait.... ;)
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flowing down to rivers which could be dammed for hydroelectric power.
You need other conditions for hydro. A sufficient gradient, for example.
Seattle Washington (Score:2)
That'll be super popular here in Seattle Washington where the rainy season is from February to January (with a week or so of dry weather in June or July).
Now if they could just get it to generate electricity from "gloomy days" we'd be the world's #1 producer of electrical power.
monoatomic layer? (Score:2)
So, where is the link? (Score:2)
Sorry, but this is just terrible reporting. Not much information to go on, no link to external sources, just some technobabble.
Wrong application. (Score:2)
What a great idea ! (Score:1)