World's Largest Ocean Thermal Power Plant Planned For China 112
cylonlover writes "Lockheed Martin has been getting its feet wet in the renewable energy game for some time. In the 1970s it helped build the world's first successful floating Ocean Thermal Energy Conversion (OTEC) system that generated net power, and in 2009 it was awarded a contract to develop an OTEC pilot plant in Hawaii. That project has apparently been canceled but the company has now shifted its OTEC sights westward by teaming up with Hong Kong-based Reignwood Group to co-develop a 10 MW pilot plant that will be built off the coast of southern China."
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Will be shot. Because the Chinese don't mess around with niceties.
it's off the coast. who's going to complain? pirates?
Re:And anybody who complains about the unsightly v (Score:4, Informative)
It will likely be quite a distance off shore. And unlike a windmill, it doesn't have to be 300' high.
Re:And anybody who complains about the unsightly v (Score:5, Interesting)
This system requires deep water. The deeper the better. Think over a mile deep.
Seawater at that depth is rich in nutrients. Ocean thermal plants could be combined with aquaculture to make them more cost effective. After the water is drawn up and warmed in the heat exchanger, it is released at the surface. The nutrients result in a plankton bloom that can be eaten by fish, shrimp, oysters, etc.
Re:And anybody who complains about the unsightly v (Score:4, Insightful)
I saw a documentary about using this as the basis for oases in ocean deserts; like a way to build up populations of larger sea creatures.They can also be driven by nothing but wave power.
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Oh NOES!! :(
The Attack of the Gaint Shrimp!!!
Now that they finally fixed the Tower of Tokyo after teh last Godzilla attack. It's not fair
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> That sounds very dangerous, what if that instead causes a large algae growth?
Temporary large-scale algae growth (aka "Blooms") are a problem in small lakes/ponds/rivers. They are *NOT* a problem in oceans. Indeed, deliberate iron fertilization projects have been suggested http://en.wikipedia.org/wiki/Iron_fertilization [wikipedia.org] as a means of reducing atmospheric CO2. Algae are plants, and part of the photosynthesis process converts CO2+H2O into sugars.
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.. and they have been tried - several times, on several scales - and IF they work at all, they are certainly not the rip-roaring runaway successes that they were talked up to be before the experiments were tried (by, it should be said, some of their more vocal proponents ; people with personal interests in promoting thei
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Fixed that for you
Of course, injecting some reality may sound like "pissing on the parade", but that doesn't stop it being reality.
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Re:And anybody who complains about the unsightly v (Score:4, Insightful)
Because China has such a stellar environmental record.
Re:And anybody who complains about the unsightly v (Score:5, Interesting)
Because China has such a stellar environmental record.
No, and I can give you a mile long list of serious complaints about the Chinese government, in terms of both their domestic and foreign affairs. But give the devil his due. At least they're trying something here. You know, kind of like the United States once had the guts to do?
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Hey! The US is still great! We have over $800 billion a year in annual regulatory burden!
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10MW seems very small though. How many such power plants can you fit in 1 square km and still produce more than 9MW in power each?
Coal and nuke plants are in hundreds of megawatts or even gigawatts.
http://en.wikipedia.org/wiki/Orders_of_magnitude_(power)#megawatt_.28106_watts.29 [wikipedia.org]
RTFA, only in the tropics (Score:4, Informative)
not like we can build this off the coast of Nantucket
Re:RTFA, only in the tropics (Score:4, Insightful)
You realize the USA extends much further south than Nantucket, right?
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You realize the USA extends much further south than Nantucket, right?
Yes, but no place much further south than Nantucket is worth going to.
However, we might still be able to use some of that beach front real estate for OTEC. Or perhaps the poster is suggesting OTEC for Nantucket (or referring to the fact that Nantucket is a excellent place for offshore wind, blocked by various NIMBY's)
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inflammatory jokes get modded down
Inflammatory? Wow, new frontiers in political correctness.
Better to deal with it and try harder next time than to gripe about it.
Don't gripe? This is Slashdot!
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Re:RTFA, only in the tropics (Score:5, Informative)
In Stockholm, Sweden we have since many years been running the worlds largest heat pump facility, 225 MW. http://sv.wikipedia.org/wiki/Hammarbyverket [wikipedia.org].
It's using waste water from a nearby waste water treatment facility that serves a large fraction of the Stockholm metropolitan area of some 2M people.
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In Stockholm, Sweden we have since many years been running the worlds largest heat pump facility, 225 MW.... It's using waste water from a nearby waste water treatment facility
Now that's hot sh*t
Sorry couldn't resist.
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Reminds me of an old poem.
There was an OTEC from Nantucket ...
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Deploy the Rainbow Bridge!
shifted its OTEC sights westward (Score:1)
To the far east... kinda like making those three lefts...
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That's implying Europe is the center of the world. East and West are just relative directions.
Re: shifted its OTEC sights westward (Score:4, Funny)
it's one of the features of a sphere.
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unless you usually like to go the long way around.
Well this is Lockheed Martin after all.
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Westward in a literal sense, dude.
Do the waves matter? (Score:1)
Re:Do the waves matter? (Score:5, Informative)
Maybe I missed it but the picture gives me a vague impression that waves have something to do with it but I didn't see them mentioned? I suppose the water movement wouldn't be much use though.
No, it has nothing to do with waves. It uses the ocean's thermal gradient as a power source: because there is warm water on top, and cold on the bottom, we can use the difference to generate power (much like heat from a conventional power plant). Keep in mind it won't be very efficient, since the temperature difference is relatively low, but since you have quite a lot of seawater to utilize, efficiency isn't terribly important.
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Captain Ulrik Svensgaard, "The Ripple and the Wave"
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Waves have nothing to do with this. Only the temperature difference between the surface water and deeper water. The higher the difference, the better which is why this works the best in tropical regions.
They will "boil" the working fluid in heat exchangers near the surface, generate power with the vapor, then send the vapor down to deep cold water to get condensed. I suppose that they then pump the liquid back up to the surface to start over. Seems like it will work in theory, assuming the working flui
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Waves have nothing to do with this. Only the temperature difference between the surface water and deeper water. The higher the difference, the better which is why this works the best in tropical regions.
They will "boil" the working fluid in heat exchangers near the surface, generate power with the vapor, then send the vapor down to deep cold water to get condensed. I suppose that they then pump the liquid back up to the surface to start over. Seems like it will work in theory, assuming the working fluid has the proper boiling point and high enough latent heat of vaporization so enough heat can be moved. I'm worried that in order to get the proper temperatures for the phase changes is going to require working pressures that are going to be difficult to maintain or it will require large quantities of some nasty chemicals.
It is more likely they will pump the seawater from the ocean to the plant, and have the working fluid remain on land. Whatever they use for the working fluid, it is almost certainly something that environmental groups will be upset about if it leaks into the ocean. This makes the system less efficient since pumping. The Navy has apparently determined twice [wikipedia.org] that such a system isn't viable. When I see any branch of the service shutting down a Lockheed project, that is a red flag that the technology isn't
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The article said the working fluid is ammonia.
The heat exchangers are on the surface, not on land. The problem is that a pipe to land (rather than straight up to the surface) would be many times longer and would lose most of the temperature difference.
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Ammonia isn't great to be around but as far as I know it's pretty harmless environmentally. Reactive enough that it'll be destroyed pretty quick if there's a release.
Re:Do the waves matter? (Score:5, Informative)
Water has a specific heat of 4.2 kJ/kg*C. If there's a 1 degree temperature differential, that's 4.2 MJ per ton. You have to go a bit deep to get to colder water, but by about 1km down it's around 4 C. So relative to tropical surface water, you're talking about a 25 degree difference, or an energy potential of 100 MJ per ton. Nearly 5 orders of magnitude more per ton than the kinetic energy in tidal currents.
The catch being that it's much more difficult to extract power from temperature differentials than it is from kinetic energy. If it were easy, every car engine would have a stirling engine alongside it to extract energy from the waste heat. But stirling engines generate so little power per mass of the engine that it's more efficient just to forgo the additional weight and dump the waste heat via a radiator.
Re:Do the waves matter? (Score:5, Informative)
...
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If there's a 1 degree temperature differential, that's 4.2 MJ per ton.
The catch being that it's much more difficult to extract power from temperature differentials than it is from kinetic energy. If it were easy, every car engine would have a stirling engine alongside it to extract energy from the waste heat. But stirling engines generate so little power per mass of the engine that it's more efficient just to forgo the additional weight and dump the waste heat via a radiator.
It's not just "more difficult", it's scientifically impossible to capture all of the power from temperature differentials. The maximum possible efficiency of such a heat engine is described by Carnot's Theorem [wikipedia.org] and is (1-Tc/Th) where Tc and Th are the absolute temperatures of the cold and hot reservoir. So if 100MJ of heat flows from a hot water reservoir into a cold water reservoir through a heat engine you can only capture a single digit percentage of that energy for the temperature differences under discussion
So taking a 25 degree heat difference as 275K cold water and 300K hot water then the optimum efficiency of the heat enginer is only 8.3%, and the actual efficiency will of course be less.
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Sorry to make a small correction to an informative post, but most of the waste heat from an ICE goes out the exhaust.
10MW? (Score:1, Flamebait)
China's Great Environmental Record (Score:2)
They'll find a way to make it out of lead or cadmium I'm sure.
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Could OTEC help w/ algae biofuel? (Score:4, Interesting)
Could OTEC help produce algae for biofuel?
AFAIK nutrients are a serious constraint on the large scale use of algae for biofuel. For pilot plants you can always dump in fertilizer, but on a large scale it might be different, due to the energy required to make that fertilizer and the fact that there is a limited supply of phosphates [yale.edu]. Even sewage has its problems, as there is a limited supply (though some contribute much more than others) and it may be better used for agricultural fertilizer (humanure). However, deep ocean water often contains lots of nutrients because dead plankton tend to sink. That's why you get lots of phytoplankton (green water) in parts of the ocean where there are upwellings. Could the deep water that's brought to the surface for OTEC be used to fertilize algae grown for biofuel?
soylent purple is MUPPETS! (Score:2)
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OTEC is just a funding vessel for other technology (Score:4, Interesting)
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Well, it can't be any harder than building a working space elevator. At which point we can just beam solar power down. :/
Re:OTEC is just a funding vessel for other technol (Score:4, Interesting)
because the tensile strength of even the strongest materials would buckle under the weight of the pipes themselves.
Couldn't this be handled by ballasting the pipes along their length to maintain neutral buoyancy?
But yeah, there's lots and lots of problems to solve with this.
I'm reminded of a show involving an aquatic zoo that mostly works off of piped in seawater - they have an enormous crew that's devoted to simply cleaning and maintaining the involved piping, because of the bio accumulation. One method they use is an iron 'pig' that they send through using high pressure to scrape off the collected masses inside the pipes. The forces involved are so much that the 'pigs' don't last long.
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it just can't compete with simple proven solutions like hydro-electric
Unfortunately we have a limited supply of that, and much of it is already tapped.
I don't forsee anyone building a viable OTEC plant for the purpose of commercial energy production anytime soon.
Maybe not, but the only way to really find out, or to seriously improve your component technologies, is to build pilot plants like this.
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You think someone just pulled a nuclear 1000MW nuclear reactor out of his ass? These are tricky but my no means impossible problems to overcome.
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Nothing is really. Everything has consequences. We have to get away from this childish conception that some things don't (eg. the weirdness of calling nuclear "clean" despite the mining, enrichment and fuel rod manufacturing processess using some of the most toxic inorganic chemicals known).
Where on earth did you get that rubbish from? It's not a space elevator, it's in water, and there
Damn China (Score:5, Insightful)
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Damn China, it acts like mid-20th century America. Any good libertarian or fiscal conservative can tell you how badly this country turned out after they wasted all that government money.
So can oh, "good liberals" and a lot of other people. They hav
I remember when the US used to do this stuff (Score:5, Interesting)
Back before we became a bunch of short-sighted corporatists who laugh at anything that doesn't turn a profit in one quarter.
Re:I remember when the US used to do this stuff (Score:4)
Re:I remember when the US used to do this stuff (Score:4, Interesting)
China will steal it (Score:5, Insightful)
If it works China will use the partnership to steal any useful technology, produce it themselves and out compete Lockheed. See partnerships with high speed train manufacturers and solar cell production.
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There may be some good news in this particular case. For instance, we should be happy that a domestic company is involved at all in this. And OTEC, as it stands now, may only be a tran
co-develop? (Score:1)
The Side Effect's The Secret... (Score:2)
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You must be thinking of something else. According to the article the plant produces cold water but it is still seawater. (I believe they mean that it pumps cold water up from the bottom and it is still colder than the surrounding water even after the heat exchanger).
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Interesting, did not know about the low-pressure boiling method. However the article pretty clearly describes the closed loop method which does not boil the water.
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Global Cooling? (Score:2)
Japan might also want to get into it. (Score:2)
I wonder if plants couldn't be completely submerged to avoid bad weather.
Agriculture usage: Irrigation by condensation (Score:2)
Weather Effects? (Score:4)
I've been wondering for a few years, if OTEC were implemented on a large scale (multiple GW), could this cause localized weather effects?
You'd probably need to implement large scale OTEC in some kind of gulf stream, so that the newly cooled surface water would be carried away and replaced by new warm water. So you'd have a surface plume of colder water maybe tens of km long and wide situated in the center of a large area of warmer water. Could this act as a seed for some kind of major weather event, such as hurricanes, cyclones etc?
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In other words, try again, and try thinking instead of parroting something this time. Funny thing is the luddite playbook is written by people that don't know a lot of the world around them and you can do better than whatever party line you are following by just opening your eyes and paying attention.
What About The Seebeck Effect? (Score:2)
I know it needs a much greater difference between "hot" and "cold" ends to generate electricity .. but it's VASTLY simpler (e.g., no moving parts at all)!
I remember (vaguely) reading about this, a prototype plant down on one of Cuba's coasts, built in the 30's (?) by an American professor. It was basically a bunch of scrap iron (old hot water radiators?), cold end hanging down in a nearby handy ocean trench, hot end in some pools of water bulldozed out on the coastline, was just a test but generated 10KW .
One wonders where ... (Score:2)
But, where are they going to find such a gradient off the Chinese coast? Without getting into a territorial fight with Indonesia, the Philippines, or Taiwan? (The Gulf of Bohai is far too shallow to consider.)
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(note) Yes, this should be of concern to
FIX THE LENGTH LIMIT ALGORITHM (Score:5, Insightful)
This is ridiculous, the length limit algorithm needs to be updated, these jackoffs are breaking it somehow, I shouldn't have to hold Page Down for 2 seconds to skip past one comment.
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Anything in html tags [wikipedia.org] doesn't seem to count.
Nor do code blocks.
Just judging from the apperance of the post.
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An average nuclear reactor core (at least here in Canada) generates about 1000 MW
And the NPD reactor only produced 22MW. It's called a prototype. You generally make one before you start scaling something up.