Put it on french fries in the summer, and the roads in the winter.
Comment on Desalination system could produce freshwater that is cheaper than tap water
SquishyPandaDev@yiffit.net 1 year ago
We are so fucked. Mother fuckers can’t use their brain for two seconds. What ya gonna do with all the salt. Power is only a little bit of limiting factor of desalination plants
Zoidsberg@lemmy.ca 1 year ago
njm1314@lemmy.world 1 year ago
It’s not nice and neat table salt. It usually comes to the form of an extremely toxic saline sludge. With who knows what other ingredients inside of it. It’s a major problem with this kind of thing. If you use it on an industrial scale a scale large enough to provide water for a city for instance, then you’re going to have enough output that will probably destroy whatever water source you’re extracting water from. Better hope no one fishes in that ocean, cuz they all going to die.
SquishyPandaDev@yiffit.net 1 year ago
the roads in the winter.
Great fucking idea. Totally has zero issues with runoff. No one’s looking for an alternative because salting the road is so fucking awesome
Spzi@lemm.ee 1 year ago
You have good points, but why so rude? Especially since as @jadero@mander.xyz showed that while they might be reasonable concerns, doesn’t mean there’s no solution for that, or that no one would think of that.
SquishyPandaDev@yiffit.net 1 year ago
Because this kind of thinking is dangerous. It pulls attention and funding away from real solutions like water usage efficiency and reclamation
shalafi@lemmy.world 1 year ago
These plans are all so dumb. Where indeed does the salt go?
Back in the ocean, raising local salinity?
Uh, just make a mountain of it? Somewhere, somehow?
Poison the land. Poison the sea. Pick one.
jadero@mander.xyz 1 year ago
One of the challenging issues with a complex problem is that the problem is not solved until the whole thing is solved.
One of the nice things about a complex problem is that you don’t have to solve the whole thing at once in order to make progress toward a complete solution.
I don’t know the state of the art on dealing with waste brine. If that is already deemed insoluble above a certain scale, then we better not invest in anything that exceeds that scale. On the other hand, if research into handling waste brine in sustainable ways is ongoing and making progress, then why not continue attacking the extraction problem?
m0darn@lemmy.ca 1 year ago
I mean if the water is being used for drinking then put the brine into the treatment plant outfall so that it matches the salinity of the body of water it’s being discharge into…
jadero@mander.xyz 1 year ago
It’s not quite that simple. After extracting water, matching salinity would require extracting salt or adding water. It’s not that there aren’t sources of water that can be used for salinity matching, including the output of sewage treatment, the reality is that it probably makes more sense to treat that water than to desalinate in the first place.
Extracting the salts might be a source of valuable minerals and metals, but there is still no free lunch.
As far as I know, we still would be putting stuff back that doesn’t make a good match for what we took. That means depending on the natural environment for dilution and “treatment”. That has been an ongoing problem for humanity. We’re very good at exceeding the capacity of the environment to cope with our wastes.
I completely understand the comment about perpetual motion machines, but tend to think that it’s more of a scale management problem than a strict prohibition.
m0darn@lemmy.ca 1 year ago
I live in Vancouver BC, our drinking water comes essentially from mountain run off and snow melt in two local watersheds. We get less and less every year.
My thought is that with distillation we could use brackish/ river water concentrate the brine until it’s as salty as ocean water, then put it in the ocean.
My thought about sewer outfalls was that adding the brine to the sewer flow should pretty much match the salinity of the source because any volume that goes into the pipes comes out of the sewers. (minus some evaporation).
SquishyPandaDev@yiffit.net 1 year ago
Hey a perpetual motion machine violates the laws of physics. But why let that stop me from designing a power plant that uses one. One day will fix those pesky physics laws.
jadero@mander.xyz 1 year ago
The impossibility of perpetual motion is not a reason to shut down research into methods of making power production and power consumption more efficient.
Are you saying that dealing with the waste brine is impossible in any way, shape, or form and that this is a reason to not pursue desalination research?
I used to be municipal water treatment plant operator (Level 2). I’m well aware that treatment waste is something that must be dealt with in any plant that does more than just disinfection.
I already admitted to not being up on the state of the art, but I was under the impression that there are potentially viable methods of dealing with waste brine in environmentally sustainable ways. Perhaps not at a scale that allows literally every human to use desalination for all needs, but that there are cases where desalination is a good solution.
My curiosity has been piqued. I will, of course, start looking for resources on waste brine management, but any pointers you have will be much appreciated.