If this type of basic science research interests you, in the US there is a federal agency dedicated to this pursuit; the National Science Foundation (www.nsf.gov)
95% of its annual budget goes out the door in the form of research grants to colleges, small businesses and individuals. Most of the research has no immediate application but has lead to some very exciting discoveries. The biggest in the recent past was that orange donut picture of a black hole that was everywhere. ( new.nsf.gov/…/how-are-black-holes-studied#eht)
frezik@midwest.social 3 months ago
I’d like to take this opportunity to highlight a recent discovery that I think should be shouted from every major news outlet. The implications are big, but they’re rather technical and non obvious.
www.youtube.com/watch?v=B1PbNTYU0GQ
In short, it turns out water evaporates much faster from to light than heat. Green light with a certain polarization hitting the water surface at a 45 degree angle seems to do best. From the research slides, the effects of polarization and angle might be small. That means green LEDs (which are cheap and very efficient, but wouldn’t be polarized on their own) can evaporate lots of water. Something like 4 times the amount we would get from using the same amount of energy to heat it up. This is being called the photomolecular effect.
This fills in a big gap in our climate models. There have been measurements done on clouds that show water was evaporating much faster than theory would predict. I’m not clear on if it would make the results more pessimistic or not. My guess is that more clouds in the model increase the albedo of the Earth, thus reflecting more light back into space, and the resulting temperature should be lower. But I’ll hold off on strong opinions until the models get updated.
The other big thing is desalination. Most desalination plants don’t use thermal evaporation because it’s too energy intensive. They use reverse osmosis. The photomolecular effect brings up the possibility of an even more efficient solution to drinking water problems.
I haven’t seen academic research into this yet, but I also wonder about the implications for lithium extraction from sea water (and pretty much any other sources, really). Lithium is basically one of the salts you remove during the desalination process, so the photomolecular effect potentially makes sea water extraction cheaper. Lithium from sea water is an indefinite resource–there’s more there than we would know what to do with.
kopasz7@lemmy.world 3 months ago
You can accelerate evaporation 1000s of times by aerosilizing/spraying water.
No lazers needed.
www.youtube.com/watch?v=xGi_JetNWWs&t=3
frezik@midwest.social 3 months ago
You’re not desalinating aerosilized water. All the salt comes with.
sunbytes@lemmy.world 3 months ago
Thanks for taking the time to explain that so clearly! It’s really interesting.