One of the best videos out there, explaining refrigeration in the simplest way possible while covering all aspects. This video should be at the top of the list. Thank you @CaptiveAire for making such a beautiful video.
If they continue making content like this they'll gain traction. They just have to grind it out and put their time in. They definitely have what it takes to be successful 100%
If the content creator community focus on quality contents like this, humans will become a Type 2 civilization on the Kardashev scale sooner. Thank you very much!!!
can you help me i am confused… if you dont want to read i get it 😂 i am totally confused. Everywhere else, I see examples of how “cooler gas” of lower pressure enter comp. It leaves comp higher pressure and warmer. It hits condenser and gets cooled. Low temp, high pressure gas. It then goes through a valve, introducing low pressure. It thus cools enough… to become liquid tho, then travels through evaporator picking up heat… enough to cycle back to the start… a gas thats lower pressure and temp. At 8:56, he’s sayin that a liquid is cooled into a gas?.. is this just a simple mistake of two terms being swapped accidentally in diagram? gas w/ liquid? Unless specially made refrigerants can be a liquid, and cooled into gas. Isnt that opposite of all substances on earth.
@@ineedstuff8286 You're correct that the terminology could be more clear. I suggest looking at the "expansion" section starting at 21:10. The refrigerant expands and the pressure drops entering the evaporator. Within the 2-phase region, lower pressure means lower temperature, and since we entered the 2-phase region, a small part of the refrigerant at this point has turned into a gas . As the refrigerant travels through the evaporator, it will pick up heat from the airstream, and this heat turns the rest of the refrigerant fully into gas (and a little bit warmer even = superheat). However, relative to the exit of the compressor, this gas refrigerant leaving the evaporator is still cool in comparison, and of course at a much lower pressure.
@@CAPTIVEAIRE dude thanks sooo much for explaining all of that🙏🏻😅Ive managed to learn somebasic electronics recently. After having a mechanical ability, yet little experience, after all these years (45), lately alot of mechanical AND electrical concepts have all “clicked”… like, to where you see the bigger, more mature picture. Youve been integral part🙏🏻 Cheers
I don't comment much on youtube but I gotta make an exception this time. your videos are top grade! Thank you for the amount of effort you put into every detail.
Really well done, it´s like i knew the inputs vs outputs, but 0% about how and what was inbetween or the process.... thanks for ur work and for sharying
Thank you. On the condenser side, how do you know what pressure you’re trying to achieve? I get you want the saturation temp higher than the ambient air , just curious if there is a target. Usually we see about 30 degrees
One of the best videos out there, explaining refrigeration in the simplest way possible while covering all aspects. This video should be at the top of the list. Thank you @CaptiveAire for making such a beautiful video.
One of the finest videos on refrigeration cycle. This channel deserves more attention and reach than it has at the moment.
Spread the word! Thanks for the feedback.
If they continue making content like this they'll gain traction. They just have to grind it out and put their time in. They definitely have what it takes to be successful 100%
These videos are incredible. Both entertaining and informative which is hard to pull off.
Absolutely the best explanation on RUclips!!! Please continue to make content of this caliber .... Good job 👍
actually we need say thank you for making this and other video at end
everything is awsome masha allah
Remarkable explanation with flawless visuals. I applaud your efforts to make this gem!!
Thanks for commenting, we appreciate your feedback!
Another great video
Doing Mech Engineering all those years ago, now you've done a beaut synopsis of a very interesting pursuit. We all remember Delta H = Q+W....
Best video presentation ever. I think this will help me get my presentation together.
I honestly don’t know how in the hell, you don’t have at least 1 million subscribers
If the content creator community focus on quality contents like this, humans will become a Type 2 civilization on the Kardashev scale sooner. Thank you very much!!!
That's some high praise! Live long and prosper. Cheers, German T (presenter).
This is the best video to watch to learn about refrigeration!
agreed. I'm gonna watch twice with a notebook to write down formulas.
the best video explaining refrigeration for all even engineers, vid is underrated
This video should be taught in hvac classes.
This is too good.
Only if i had access to these during my uni times
can you help me i am confused… if you dont want to read i get it 😂
i am totally confused. Everywhere else, I see examples of how “cooler gas” of lower pressure enter comp. It leaves comp higher pressure and warmer. It hits condenser and gets cooled. Low temp, high pressure gas. It then goes through a valve, introducing low pressure. It thus cools enough… to become liquid tho, then travels through evaporator picking up heat… enough to cycle back to the start… a gas thats lower pressure and temp. At 8:56, he’s sayin that a liquid is cooled into a gas?.. is this just a simple mistake of two terms being swapped accidentally in diagram? gas w/ liquid? Unless specially made refrigerants can be a liquid, and cooled into gas. Isnt that opposite of all substances on earth.
@@ineedstuff8286 You're correct that the terminology could be more clear. I suggest looking at the "expansion" section starting at 21:10. The refrigerant expands and the pressure drops entering the evaporator. Within the 2-phase region, lower pressure means lower temperature, and since we entered the 2-phase region, a small part of the refrigerant at this point has turned into a gas . As the refrigerant travels through the evaporator, it will pick up heat from the airstream, and this heat turns the rest of the refrigerant fully into gas (and a little bit warmer even = superheat). However, relative to the exit of the compressor, this gas refrigerant leaving the evaporator is still cool in comparison, and of course at a much lower pressure.
@@CAPTIVEAIRE dude thanks sooo much for explaining all of that🙏🏻😅Ive managed to learn somebasic electronics recently. After having a mechanical ability, yet little experience, after all these years (45), lately alot of mechanical AND electrical concepts have all “clicked”… like, to where you see the bigger, more mature picture. Youve been integral part🙏🏻 Cheers
My GOODNESS. You should be awarded for this. If there's a short video contest on engineering, this should take the 1st prize!!!
I don't comment much on youtube but I gotta make an exception this time. your videos are top grade! Thank you for the amount of effort you put into every detail.
Excellent is not enough to describe so much perfection, thank you very much!
Really well done, it´s like i knew the inputs vs outputs, but 0% about how and what was inbetween or the process.... thanks for ur work and for sharying
Outstanding! 👏👏👏
Great video.
Very good information. Can we get the powerpoint presentation, please?
Thank you. This content was designed to be delivered as a video, so there is no such powerpoint presentation. Feel free to use the video as needed.
45 minutes. nice explenation
Excellent
time: 5:21
Thank you. On the condenser side, how do you know what pressure you’re trying to achieve? I get you want the saturation temp higher than the ambient air , just curious if there is a target. Usually we see about 30 degrees
You are correct, we generally target a specific temperature delta and modulate the condensing fans to achieve this.
@@CAPTIVEAIRE thank you
20:31 Fellow Colonels: Military personnel of the same rank.
👏👍👍