Our waterways are becoming more and more polluted due to PFAS, plastics, medicines, drugs, and new chemicals made by companies that just hand over the responsibility of cleaning to plants paid for by public moneys. Detecting the different chemicals and filtering them out if getting harder and harder. Could the simple solution of heating up past a point where even PFAS/forever chemicals decomposes (400C for PFAS, 500C to be more sure about other stuff) be alright?
You realise water boils at 100°C, right?
Edit: yes, I know it boils a different temperatures, but we’re talking about 500°C for a practical use case at scale here…
You can still heat it up past 100 once it’s turned to vapor. However, it requires a ton of energy to convert it to vapor in the first place.
At standard pressure. high pressures can make it liquid. I can’t find charts that go high enough with a simple search but it looks like you need to get to 4000-5000psi. industry does go that high for some operations. It needs special design to toeit safely though.
Right… Have you considered that a basic order-of-magnitude estimate of scale of water, energy, and pressure requirements make the idea wildly infeasible in practice?
A lot is all I need to know. Since others have allready pointed out we have ways that work that use much less energy I don’t feel a need to estimate deeper.
Bit pendantic but I think its interesting: no, water doesn’t always boil at 100 °C. It can boil anywhere between -50 °C and 317 °C, depending on pressure.
On top of Mt. Everest you cannot cook potatoes because the water boils at 71 °C. On the other hand, with enough pressure water does not boil at all, instead becoming a supercritical fluid - a different phase from gas or liquid.
I think at this point, it would be more economical to distill the water than to burn up contaminants.