this post was submitted on 28 Sep 2023
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Article doesn't mention what the unit does with the salt waste.
I support this 100%, but desalination presents a unique problem: what do we do with all the salt? Maybe the unit uses it for something, but otherwise it just miniaturizes a problem that we're already working on.
If this works, it's better than anything we have , which costs grid energy and dumps brine all the same. If anything, the smaller scale makes it easier to distribute and dilute the output brine.
If sea levels rise as much as they're supposed to, this will be an invaluable tool for an enormous proportion of the country. My concern comes from capitalism getting its hooks into this.
Wait what country?
Which country are you referring to?
Evaporate it to solid, store it if need be, or distribute it back into the sea in absorbable chunks. The water's ending up back in the sea eventually anyway, see water cycle, so it should be zero sum, just need to avoid local overloads. Seems eminently solvable.
Depending on the desalination method, you can also harvest lithium while your at it.
Sounds so easy for you but what to do with the excess salt is the only real problem with desalination that we have for decades now. It's not easy to solve.
That's only the second part of the problem too. The first part is how do we stop the salt from building up inside the device?
Eventually is an important word here. With the raise of temperature, the amount of vapor in the air raises too.
Hehe, adorable chunks..
Don’t you just dump it back in the sea? Diluting should make this a minor issue right?
That's what I always thought, but the local effects of hypersalinated water can be terrible for any nearby life
Create some sort of Dead Sea salt bath / salt therapy place where people can float in the saline waters or something for cheap. Then flood a converted parking lot with the saltwater and dry it off for ~~rusting cars~~ deicing roads on the east coast.
This is mostly a scale dependent issue. The size of this unit means it’s probably not a concern unless you ended up making thousands of them.
Thats the big ecological question. If we do this at scale, we'll be releasing more briny water back into the sea than we take. Over time on industrial scales, what will this do to the oceans? Is the increased salinity negligible, even at large scales? Or will it cause marine wildlife to die out?
Think of it this way. Burning a pile of wood generates CO2. So first burning a bunch of gas or coal. A couple campfires won't make a dent on the atmospheric composition. It's only when we go this en masse and at industrial scales that we add appreciable CO2 to the atmosphere and cause global warming.
The ideal way to handle desalination would be for us to use the salt that's produced, so the concentration in the ocean remains unchanged with respect to desalination.
But the water is all being returned to the ocean rather quickly. It’s not quite the same with CO2.
There’s some localized issues to deal with, but it’s not going to be a global salinity increase as we aren’t changing the form of the water and storing it, like the polar ice does.
So in fact, the ocean should already be desalinating slightly from the melting ice caps.
I thought about the ice caps, yeah. It's just something that warrants long term monitoring and observation.
You cook with it.
Fellow Frenchman detected.
... can't you just put i straight back into the sea?
Suitcase sized device? Only one or two of them nearby? Then that's not a problem.
If you scale it to industrial sizes/quantities then the extra salinity in the area where you dump the waste products becomes an issue.
Eg my coastal city uses about 135 megalitres of water a day. Supplying all that from seawater requires you to put about 5 metric tons of salt somewhere, every 24 hours.
Stick 5 tons of salt a day directly in one place in shallow waters just offshore and you'll end up with a dead zone a mile wide pretty quickly.
So now you've got to water that salt down into something that's only slightly saltier than usual and that can be difficult because for my example 135 million litres of water a day, you want to dilute the waste by at least 10x that (to make it approx 10 percent saltier) and now you're cycling a billion-plus litres a day around the place.
So this is pretty cool stuff, but just need to be careful with the side effects when it's scaled up.
As I understand it such "waste salt" is usually returned to the ocean in the form of brine. The brine is denser than the ocean water around it so it flows down the slope of the land like a river into the deeps where it eventually dilutes back into the ambient water.
Brine flows and brine pools happen naturally in some places in the ocean already. They're common underneath sea ice - sea ice is pure water and brines flow out of it as it forms. There are brine pools in the depths of the Mediterranean because that sea has greater evaporation than it does fresh water inflow. It's not some new horror humanity is inflicting on the ocean. If care is taken with routing the brine it shouldn't cause much trouble to the ecosystem.
It's already a problem in some areas. It's the scale that we do things at that causes the problem.
CO2 also exists in large quantities by natural process, but when you increase it on a massive scale for a century, it adds up to disaster.
About as many as there are people living nearby.
It's able to successfully reject the salt waste, which is a success. The question will be if it can reject enough of it.
The brine itself though is a really good question. I think there's some existing uses for it, but we'd probably need to think of new applications for it as well.
I think the unit dumps it back into the surrounding water. I don't think this will replace large scale reverse osmosis, but if it can produce enough for a couple people and not require external power, replacement filters, or frequent maintenance, then it's has potential use for costal communities.
Just toss it back out in the ocean or make lots of jerky.