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Surur t1_j206hc2 wrote

Found the paper.

https://www.nature.com/articles/s41598-022-24314-2

The 210x100 m size of the intake is arbitrary, chosen so they can generate enough water for 500,000 people. It can be larger or smaller.

They said the main reason for the design is that it avoids generating brine from desalination.

Otherwise it is cost competitive, but not cheaper, than desalination, with the water costing around $2.20 per 1000 liters of water. (desal water is $2-$5/1000L)

Somehow I think removing moisture from above the ocean will promote evaporation in that area, which will also increase the local salinity, but I may be wrong lol.

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kmosiman t1_j20cqga wrote

It would slightly, but I believe the point is that by just collecting and capturing the natural water vapor that this would be no more than normal. Plus wave motion would natural refresh the water in the collection area.

I think the same could be true for pumped membrane desalination except pumping the massive amount of water needed to mix back to normal salinity would make the process more expensive.

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momo_0 t1_j21o5r3 wrote

> I believe the point is that by just collecting and capturing the natural water vapor that this would be no more than normal

I’m no expert, but isn’t it classic human folly to believe that altering one piece of the natural machine would have basically no impact?

Again, not an expert, but couldn’t something like no water vapors -> fewer rain clouds -> less rain in certain areas? Are we just punting the problem elsewhere?

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Notoriouslydishonest t1_j22cys4 wrote

The oceans are very, very big compared to the amount we use.

The US' entire annual water usage is equal to a square 1500 feet by 1500 feet extending down to the offshore ocean basin. Any removal of anything from anything is going to have repercussions, but this is about as low impact as you can get.

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CoolYoutubeVideo t1_j21uibj wrote

The vapor pressure of liquids basically means that for a given pressure, temperature, etc., the liquid will produce a certain amount of vapor. The vapor will replenish itself naturally by evaporation

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theabominablewonder t1_j21qgxc wrote

There would still be a lot of water vapour if it was for small local populations but if it was scaled to produce water for millions then maybe the scale would pose a problem.

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poultran t1_j22dptw wrote

Sounds like a windtrap from the ”Dune” series,

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Ieatsushiraw t1_j22vfzd wrote

Indeed it does. Now if only we had Spice and Stillsuites and Holtzman engines and all the things in Dune minus the medieval bs they decided to revert back to

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YouDontKnowMyLlFE t1_j23oo9r wrote

You know the water still exists on or near the surface of earth after we’re through with it right? We’re not shooting it up into space or shoving it in a wormhole.

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ArtOfWarfare t1_j23t73o wrote

No, but we are filling up plastic bottles (sometimes with sugar or minerals added, other times just pure) with water than shoving those bottles into landfills.

So that does fairly permanently remove water from the water cycle.

Edit: Hm. I guess the bottles only take 450 years to decompose in a landfill. That’s a lot less permanent than I expected. It’s still older than the US, but on a geological/size of the ocean scale it doesn’t seem so bad.

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remek t1_j20gn1b wrote

I didn't know that desalinization of water is in price range of $2-$5/1000L. It kinda sounds cheap/reasonable. Why it is often claimed that desalinization of water is not a good solution for world's fresh water shortage?

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Surur t1_j20hdik wrote

Two main complaints - one is that the energy required (about 5kwh per person per day) usually comes from fossil fuels, and the other is brine damaging the ocean.

The first is easily solved with solar and, with care, the second is not as big an issue as environmentalists claim - San Diego's massive salination plant (which supplies 7% of their water) has been running for 7 years and has not damaged the ocean at all.

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Techutante t1_j20l0rn wrote

Also we have a HUUUUGE demand for salt as a society, so they can reuse that brine. Mostly for clearing roads at this point during poor weather, which is a whole other can of worms. (salting the earth)

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PubicHair_Salesman t1_j20m1eh wrote

Trouble is that the parts of the earth where desalination is necessary are typically very far from places where brine solution is needed to thaw roads.

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Techutante t1_j20tf61 wrote

Have you been to California?

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teesee150 t1_j21x5gk wrote

Have you been to saudia arabia

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junktrunk909 t1_j21ohy9 wrote

I've read posts about this several times and they conclude that the salt that is generated by this process at scale is far more than there would be a market for and the salt that is generated is more of a sludge.

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Techutante t1_j21qce5 wrote

Yeah, some solutions I've read include filling in old pit mines (many of which were dug out of salt veins because it's easy to get through), brine based storage solutions as a heat battery or ultra-cooling facilities for data centers.

Each solution has it's own problems of course, like salt leeching into ground water tables and a lack of scale to handle the possible output of brine.

Atmospheric condensation is a bit of a troublesome issue in it's own way though right, because you're altering the climate distribution of moisture. Not that we aren't altering everything all the time, but imagine if a country were to divert the flow of water from a river that historically ended in another country.

Only then imagine you're doing it with the rivers in the sky instead. Obviously it would be quite a while before capture technologies scaled up to that point, but it's not out of the realm of possibility.

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sharksfuckyeah t1_j21w7td wrote

A few days ago I read a headline about salt based batteries being more efficient than lithium batteries. Maybe there’s a way to create batteries while also generating both power and clean water at the same time: https://energycapitalpower.com/researchers-develop-sea-salt-battery-4-times-the-capacity-of-lithium/

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Techutante t1_j2215mo wrote

Yeah I think they brinier the better for those too.

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Greenhoused t1_j227488 wrote

They dump salt All over the roads wbere it freezes too

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thatawesomedrunkguy t1_j229w3m wrote

The problem is though, its cheaper for salt consumers to buy mined salt than from desalination plants. To concentrate seawater enough to create a viable salt product from the brine would take 4-5x more energy than simply desalinating for potable water use. That is on top of the 2-3x more capital equipment you'll need for this process. It doesn't make it economically feasible to do so (at this time). There's promising technology that's being researched and piloted, but until there is that gap is filled, then desal plants are going to keep dumping concentrate back from where they got their water.

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Techutante t1_j22k4ty wrote

I think they just pump it in a big tank or open field and let it evaporate. Bulldoze it later.

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thatawesomedrunkguy t1_j22s905 wrote

Most desal plants are producing in the tens of millions of gallons per day range. In order to get a proper evaporation, you're going to need a whole lot of surface area. Just not practical.

Plus, not as simple as concentrating evaporating seawater to get salt. You gotta separate your other type of salts that will form once the brine saturates.

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Techutante t1_j22sq04 wrote

They apparently mine brine for various minerals and trace metals, I was just reading. Rare earth elements and whatnot.

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g0ing_postal t1_j257hyt wrote

The amount of salt produced by desalination plants in staggering

We produced and 290 million metric tons of salt worldwide in 2021: https://www.statista.com/statistics/237162/worldwide-salt-production/

Seawater contains 3.5% salt and has a density of roughly 1020kg/m3, so a cubic meter of seawater has any 35.7kg of salt https://en.m.wikipedia.org/wiki/Seawater

We generate tightly 95 million m3 of water from desalination plants per day globally https://en.m.wikipedia.org/wiki/Desalination_by_country

That's about 3391.5 million kg of salt per day

290 million metric tons= 290,000 million tons

290,000/3391.5 = 85.5 days

If we processed the waste from desalination plants all the way into salt, we would fulfill the world's demand for salt in less than 3 months. That's assuming we don't produce salt from any other sources

We would end up with over 4 times the annual salt production on just the current amount of desalination

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Techutante t1_j266o76 wrote

Yeah, and demand for fresh potable water is only likely to grow.

However thawing meltwaters from glaciers and icepacks may counter out some of that salinity. I'm not quite up on the ocean science for that though at present.

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darkingz t1_j20pujr wrote

The problem isn’t “the ocean” it’s the local environments.

The problem with brine is basically it’s toxic. You can’t really repurpose the salt and toxins that are filtered out for consumption. It’s especially bad if it happens in estuaries and small areas which really depended on fresh water. A single desal plant might help an area. The next problem is scale. Does this mean you can run 16 desal plants without issues? Not really.

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Surur t1_j215a9r wrote

Like I said, the closely monitored environment in San Diego has not shown any ill effects.

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SatanLifeProTips t1_j21it5s wrote

Brine only has 2-3x the local salt content. If you are running a giant RO system for every 1 litre of water I get out of the system I am creating around 0.5-0.6L of reject water at best. Maybe the new membranes can get down to 0.3? I don’t know what the state if the art is.

(I care for a RO system that can do 10,000L/hour).

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darkingz t1_j21q6c1 wrote

I haven’t read the full paper but: https://www.sciencedirect.com/science/article/abs/pii/S0025326X20308912

> A major issue of desalination is the co-produced waste called ‘brine’ or ‘reject’ which has a high salinity along with chemical residuals and is discharged into the marine environment. In addition to brine, other main issues are the high energy consumption of the desalination and brine treatment technologies as well as the air pollution due to emissions of greenhouse gasses (GHGs) and air pollutants. Other issues include entrainment and entrapment of marine species, and heavy use of chemicals.

It does suggest that depending on the type of desal, you’ll find different products and outputs. Part of it is that the water output could contain chemicals used to treat the water and other by products that still make it through the filter. The problem is that if you just blindly support desal, without considering environmental impacts, you definitely could run afoul and ruin multiple ecosystems easily. I am personally a little skeptical it can scale across the world to supply the fresh water needed for the human race without some impact to local ecosystems. I don’t think it’d impact the global ocean, so it’s kinda sus that the conversation is like “well the ocean is fine”. But the problem has always been the local environment, not a global ocean problem.

Edit:

To your comment, brine at 2-3x saltier than normal is pretty damaging to fish (and people) who aren’t used to that much brine. It’ll almost undeniably cause a lot of species to just die. That’s the problem. Life might adapt but it might not. And should we take a chance that the ecosystem will collapse?

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SatanLifeProTips t1_j2251y1 wrote

Hence why you put them in areas with ocean currents. Spend any time scuba diving? There are a LOT of areas that are absolute deserts in the ocean. Sandy and empty. There’s nothing around for miles.

And the currents. Oh my. Does water move. You get caught in one and you are going for a ride. Planning current dives is very popular. Relax in the current, go for a ride. Arrange for a boat to pick you up or sometimes it’s a long wall dive and you end up a long ways out.

The ocean? It’s big. Real big. Insanely big. As long as you have some water movement, you could put a city sized discharge pipe into of these areas and with a 2kph current the brine uptick would be basically undetectable 1km away. The sheer volume of water is nuts.

As long as you locate where water is moving and away from a big habitat area there is ZERO issues.

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sharksfuckyeah t1_j21w9py wrote

> You can’t really repurpose the salt and toxins that are filtered out for consumption.

Maybe we can, though:

https://energycapitalpower.com/researchers-develop-sea-salt-battery-4-times-the-capacity-of-lithium/

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darkingz t1_j21x46w wrote

That’s a way different thing than desal but does present an opportunity I suppose but the problem always comes to the unpure water products that come out.

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SatanLifeProTips t1_j21ihti wrote

San Diego has access to open ocean and ocean currents. The solution to pollution is dilution in some cases. Ocean damage only happens in trapped ocean areas like the Black Sea and other dead head areas.

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3_layers_deep t1_j223otj wrote

Because the "shortage" is entirely down to agriculture and it is not cost competitive to grow crops at these prices. Its fairly easy to meet residential water demand.

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thatawesomedrunkguy t1_j228yhd wrote

Keep in mind that this $2-$5 per m3 capacity is capital equipment cost (with civil/install/etc ) only. OPEX is an additional 3-5 kwh/m3 produced, which costs can vary whereever you are on the planet.

Seawater desal, specifically reverse osmosis, has a lot of detractors who don't like it because you you're generally getting a recovery of about 40-50%. Which means you're dumping more than half your high salt concentration brine back into the water. This is water that has 2-3x the salinity of the ocean/sea, so there is rightfully a lot of concern about destroying the environment/ecosystem.

There's a push to improve the recoveries in desalination, but the cost is always it requires even greater energy consumption.

Personally, a mix of seawater desal and wastewater reuse would be the best solution for growing water crisis.

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gerkletoss t1_j20p2ki wrote

Do they not know about salt fog? The water vapor over the ocean is less saline than the ocean, but still saline enough to really fuck with machines that aren't designed for maritime applications.

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HelmyJune t1_j20zpft wrote

Fog is an aerosol, not vapor. Therefor it could easily be filtered out.

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gerkletoss t1_j211wsd wrote

"Salt fog" is a somewhat colloquial term. Literal fog is not required for significant salt exposure.

And aerosols are not necessarily easy to filter out.

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HelmyJune t1_j218puk wrote

Salt has a boiling point of nearly 1500C so it is only going to be present in air as an aerosol which again would be trivial to filter out. A coffee filter could probably get the majority of it.

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gerkletoss t1_j21d5bx wrote

Boiling and aerosols are not the only way for solids to end up in the air. For one thing, things that begin as aerosols can turn into vapor and leave airborne dust behind.

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SatanLifeProTips t1_j21iakn wrote

Since a storm would wipe that off the face of the earth, desalination is absolutely cheaper when you look at the cost over 20 years.

Brine buildup is only an issue in places like the black sea. Anywhere with open, circulating ocean and water currents is fine (most ocean sources).

Maybe put the discharge pipe a half a kilometre offshore and you are golden.

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3_layers_deep t1_j222zfg wrote

> Otherwise it is cost competitive

I really doubt that. That is a giant structure, which will create a ton of engineering challenges(many that won't be foreseen).

We are talking about something approaching skyscraper height, with over double the width of a football field, and this structure is supposed to be sitting over ocean water.

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Surur t1_j22zolw wrote

In the paper they compare it to the size of an oil rig or cruise ship, and propose a cost of construction of $600 million.

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