The crisis, worsened partly by climate change, has been accompanied by soaring food prices and could have consequences for hunger, elections and migration worldwide.
I see lots of renderings and press releases…but nothing about what it actually cost once built, and I don’t see others rushing to do the same, which suggests that the project didn’t come in anywhere near the promised cost per unit volume of desalinated water.
Energy is not the issue in most cases. We have many ways of producing energy. We use it to go to the store and burn fires with friends on the weekend, water seems to be a good use too. There’s plenty of desalination going on around.
The issue is the incredibly toxic brine that results from it, that we aren’t sure what to do yet. We have been spending decades looking for easier energy, but not how to work with the brine. It’s almost guaranteed we will need to at some point, would be nice that nobody dies of thirst while we start.
Where I live, the prices would be for about €1/cubic meter. That is very low. And it wouldn’t hurt farmers to be a bit more conscious on how they use water. There are still to many people that irrigate by flooding, which is demontrated as a bad practice.
The brine problem I really don’t understand it.
Nowadays, industry buys salt, processes it to remove rare metals and elements and sells back the purified sodium cloride we buy from shelves (don’t buy it; go for raw salt if you can) or ship it to other industries to be used as a filler (like powdered laundry soap).
The brine can be as easily processed into these same end uses.
He’s wrong that energy is the issue. Yes it’s expensive, but we can do it safely.
The brine, you cannot just throw back into the ocean, it will instantly cause a natural disaster if done at scale. For one, a lot of chemical reactions during the desalination process cannot be diluted, they must be removed. These chemicals are also not just removed with energy, they are removed with other chemicals who then need energy and more chemicals for removal.
The salt we eat and the salt we use on our roads or in our batteries are all very specific kinds. Only a small portion of the brine is what you would actually consider safe for human use or consumption.
With enough energy and chemical processes, we can definitely handle the brine. But it is the expensive cleanup part that no corporation wants to do, and it won’t mean that the byproducts are profitable to manage, despite them requiring to be managed. We’ll get there, but knowing humans we will have to wait until we are well embedded in the disaster to start acting. Water should be sustainable worldwide, not profitable.
The issue is that even at scale, they won’t be able to undercut the traditional ways other companies already acquire these materials. The energy is just that costly. So in a way it is the cost of energy that is prohibiting capitalism to save us, but that’s not the underlying problem if we knew what to do with the brine cheaply.
I did not opt for the “chemical process” per se, concentrating the salt itself causes chemical reactions and compounds that are difficult to manage, without us adding any to the mix.
They also often add some chemicals for stabilizing the brine to make it more manageable until disposal that would be difficult to circumvent
There are hotels in my country that already buy and install dessalination plants, in order to save costs, to fill pools and fountains and even irrigate gardens.
These instalations have steep requirements to be installed and the off products can’t be dangerous for return to environment, as the return often goes directly to the sea, through beaches.
Concentrating the salt is also another intelectual itch for me. We naturally concentrate salt by evaporation. There are a few programs aimed at developing low energy/high efficiency processes to obtain salt from sea water. The few I was described involved using systems built around the pressure cooker working principle or purpose built enclosed systems alike to greenhouses to force the water out. I’d risk the processes would be useful to make use of the brines.
Sadly you can’t desalinate without a significant energy input.
Not necessarily. You do it with a dome
I see lots of renderings and press releases…but nothing about what it actually cost once built, and I don’t see others rushing to do the same, which suggests that the project didn’t come in anywhere near the promised cost per unit volume of desalinated water.
I agree with you. I like the concept but until it’s reality I’ll remain skeptical
Energy is not the issue in most cases. We have many ways of producing energy. We use it to go to the store and burn fires with friends on the weekend, water seems to be a good use too. There’s plenty of desalination going on around.
The issue is the incredibly toxic brine that results from it, that we aren’t sure what to do yet. We have been spending decades looking for easier energy, but not how to work with the brine. It’s almost guaranteed we will need to at some point, would be nice that nobody dies of thirst while we start.
Huh? Plenty of desalination going on already. Brine gets diluted back into the ocean.
The reason it’s limited is that desalination requires a lot of energy and is therefore too expensive for most agricultural use
Where I live, the prices would be for about €1/cubic meter. That is very low. And it wouldn’t hurt farmers to be a bit more conscious on how they use water. There are still to many people that irrigate by flooding, which is demontrated as a bad practice.
The brine problem I really don’t understand it.
Nowadays, industry buys salt, processes it to remove rare metals and elements and sells back the purified sodium cloride we buy from shelves (don’t buy it; go for raw salt if you can) or ship it to other industries to be used as a filler (like powdered laundry soap).
The brine can be as easily processed into these same end uses.
He’s wrong that energy is the issue. Yes it’s expensive, but we can do it safely.
The brine, you cannot just throw back into the ocean, it will instantly cause a natural disaster if done at scale. For one, a lot of chemical reactions during the desalination process cannot be diluted, they must be removed. These chemicals are also not just removed with energy, they are removed with other chemicals who then need energy and more chemicals for removal.
The salt we eat and the salt we use on our roads or in our batteries are all very specific kinds. Only a small portion of the brine is what you would actually consider safe for human use or consumption.
With enough energy and chemical processes, we can definitely handle the brine. But it is the expensive cleanup part that no corporation wants to do, and it won’t mean that the byproducts are profitable to manage, despite them requiring to be managed. We’ll get there, but knowing humans we will have to wait until we are well embedded in the disaster to start acting. Water should be sustainable worldwide, not profitable.
Call me skeptic but I’ll risk there are a good number of industries that could use and profit from using that brine.
And you opted by the chemical process. Why not use reverse osmosis or pure and simple forced evaporation?
The issue is that even at scale, they won’t be able to undercut the traditional ways other companies already acquire these materials. The energy is just that costly. So in a way it is the cost of energy that is prohibiting capitalism to save us, but that’s not the underlying problem if we knew what to do with the brine cheaply.
I did not opt for the “chemical process” per se, concentrating the salt itself causes chemical reactions and compounds that are difficult to manage, without us adding any to the mix.
They also often add some chemicals for stabilizing the brine to make it more manageable until disposal that would be difficult to circumvent
Not doubting your word, something doesn’t add up.
There are hotels in my country that already buy and install dessalination plants, in order to save costs, to fill pools and fountains and even irrigate gardens.
These instalations have steep requirements to be installed and the off products can’t be dangerous for return to environment, as the return often goes directly to the sea, through beaches.
Concentrating the salt is also another intelectual itch for me. We naturally concentrate salt by evaporation. There are a few programs aimed at developing low energy/high efficiency processes to obtain salt from sea water. The few I was described involved using systems built around the pressure cooker working principle or purpose built enclosed systems alike to greenhouses to force the water out. I’d risk the processes would be useful to make use of the brines.