This is the best example of remotely showing how and why it does what it does, yet still doesn’t tell us how the air comes back through itself...against pressure... atleast this video shows more in depth on what’s going on in the inlet, all other vids on yt say it has a vortex flow where the intake is....wdf
Centrifugal force spinning the hot side outward at super sonic speeds keeps the two apart . Since its spinning so fast the inner vortex drops pressure dramatically thus the temperature drop .the hot end only bleeds off a little of the hot air and there is a pointed end that helps the cold vortex to form
Yeah LTT, then here. This is what I think happens: The orange thing makes the air go fast as fuck, then, the centrifugal force makes it "stick" to the inner walls of the tube, forming something like a layer of air which advances to the hot side, where it exits. The centrifugal force acts on that layer then compresses thus the "hot side" gets hot. But, the hot side isn't able to expel all the hot air, thats why some of it returns on the "low pressure zone" formed inside the hot air layer. Rotating in the same direction but flowing to the "cold side" of the device, still compressed but not as compressed as the air in the peak of the hot side. Then it violently expands when goes through the "cold" side maybe due to the differential pressure or the centrifugal force, but as expands, the air pulls heat from the atmosphere, so, it gets "cold"
Is it splitting the high pressure air to two air flows (the middle vs the peripheral channels) and in reverse directions? So outer stream is getting hot from friction with the pipe, so inner stream becomes relatively cooled.
That’s the inaccurate bit of this video. The cooled air does not come from the hot, they are generated simultaneously. The inner-layered air has it’s internal energy consumed while rotating (due to the interior structure of the tube), and the energy is transferred to the outer-layered air, which becomes hot as it gains energy (for friction, so it’s hot). Therefore, the inner layered air is then cooled down.
This is the best example of remotely showing how and why it does what it does, yet still doesn’t tell us how the air comes back through itself...against pressure... atleast this video shows more in depth on what’s going on in the inlet, all other vids on yt say it has a vortex flow where the intake is....wdf
en.wikipedia.org/wiki/Vortex_tube#/media/File:Ranque-Hilsch_Vortex_Tube.svg
Centrifugal force spinning the hot side outward at super sonic speeds keeps the two apart . Since its spinning so fast the inner vortex drops pressure dramatically thus the temperature drop .the hot end only bleeds off a little of the hot air and there is a pointed end that helps the cold vortex to form
This video was made by Seyang Mechatronics, a company that manufactures Korea's most famous vortex products.
Watched a Linus video and this now?
yep lol
the algorithm works
yep lol
you made a deal with the devil
Probably gained +2k views after Linus made a video abt this lmao
came here from linus
Yeah LTT, then here. This is what I think happens: The orange thing makes the air go fast as fuck, then, the centrifugal force makes it "stick" to the inner walls of the tube, forming something like a layer of air which advances to the hot side, where it exits. The centrifugal force acts on that layer then compresses thus the "hot side" gets hot. But, the hot side isn't able to expel all the hot air, thats why some of it returns on the "low pressure zone" formed inside the hot air layer. Rotating in the same direction but flowing to the "cold side" of the device, still compressed but not as compressed as the air in the peak of the hot side. Then it violently expands when goes through the "cold" side maybe due to the differential pressure or the centrifugal force, but as expands, the air pulls heat from the atmosphere, so, it gets "cold"
Is it splitting the high pressure air to two air flows (the middle vs the peripheral channels) and in reverse directions?
So outer stream is getting hot from friction with the pipe, so inner stream becomes relatively cooled.
Do you have dealer in India
after the completion of flow of hot air through the nozzle how the cooling air gets reflecting
Rajesh Menda pressure increases
Hi! Woh do you we do ? And what materials use?
how cooling air comes from the hot
That’s the inaccurate bit of this video. The cooled air does not come from the hot, they are generated simultaneously. The inner-layered air has it’s internal energy consumed while rotating (due to the interior structure of the tube), and the energy is transferred to the outer-layered air, which becomes hot as it gains energy (for friction, so it’s hot). Therefore, the inner layered air is then cooled down.
no I think its more about density, like a centrifuge
@@user-kf7ul3js1c So the inner vortex transfers heat energy to the outer vortex via friction or something similar?