I have used you tube videos to teach my introduction to refrigeration principles class for many years. The animation of refrigerant flow allows my students to understand the process much better than I can explain. This video knocks it out of the park. It is brilliantly done and is the best I have seen. Thank you for your excellent work. Dan Parent, P.E., San Jose City College
@@alexhale2596 I've been in tube university for awhile and ya.. even when i went to college automotive.. they didn't use anything of this nature. it's just "a go pro" on an instructors head as they explain what they're doing. Not the most efficient way. These videos are definitely bread and butter.
@@NightWear21 I had nothing of the sort as well. My trade school was severely underfunded. Barely did anything hands on before getting in the field also
What a fantastic video! I loved it. I'm currently in an HVAC class and this video made the cooling process much easier to understand. It was slow enough to understand and to be able to take notes. It was clear and concise. I can't express enough just how helpful it was. And with the 3D graphics it was great to be able to see the path the refrigerant took in the entire cycle. Please continue to make more videos with the 3D graphics. Thank you for simplifying the AC system.
Ohh, you mean it is just magic.. Thanks for slow breakdown with great visual. Need to watch again for when condensing and when boiling happen and wrap my head around further.
Was great to meet you last week @ ESCO Conference in Vegas. Congrats on top 25 Instructor Award! This type of technology laced presentation is phenomenal & exactly what was needed. Great job & Thank YOU on behalf of the Students in Gavilán College's HVACR Program in Gilroy, CA 🤝👍👌✌️
I want to get into Hvac and the way you explain the concepts of thermodynamics and the function of each component makes it so easy to understand. Thank you so much.!
Love your videos man, been wanting a career change for a while and hvac seemed interesting so I bought some books to look more into it and been watching your videos along side them and you teach everything super clearly.
Best video ever love the 3D. It really helps with those of us who are visual and hands on learns like myself. Definitely helps to see what’s going on in the system
Excellent basic video on how an air conditioner works. Simplifying the process goes a long way in understanding what each component should be doing at a particular time.
Absolutely great video as you explained it the way you would to a child as I am new to this and it was easy to follow not like other videos that don't explain things to novices that don't understand all the terminology
This was truly an amazing video, really well broken down concept by concept, from fundamentals in physics and law principles. Absolutely amazing. Well done!
Think about it as a heat-pressure exchanger. You give ut pressure and the refrigerant will give you heat, you release the pressure and the refrigerant will absorb heat. So we give it pressure and try to dissipate the heat to the outside so we can have high pressure-mild heat refrigerant. Not we get this refrigerant inside the place we want to cool and release its pressure. Now it will absorb heat and the surrounding area will lose heat and get colder.
If AC or refrigeration system doesn’t have a compressor to produce high pressure ,mild temperature Vapor refrigerant to the condenser . So how can the system reject unnecessary heat from the building ?😂 Refrigerant just stuck on the half way .
The refrigerant leaving tye condenser is in a liquid state at what temp and pressure? High or low? One would expect that since it has condensed the temp and pressure will be low.
*Can anyone explain me that* , If pressure decreaser lowers the temperature than how it converts the liquid into gas? If the temperature decreases then it should be in liquid state how is it becomes gaseous?
Shout out to union 516 and the awful education they offer for top dollar. Could have just saved $4000 and watched YT videos instead of wasting 10 weeks sitting in a class getting yelled at by a crusty old man who clearly hates teaching.
Gay-Lussac's law states that P1/T1=P2/T2. So when the refrigerant goes through the metering device and has a pressure drop it also lowers in temperature.
Great video
I have used you tube videos to teach my introduction to refrigeration principles class for many years. The animation of refrigerant flow allows my students to understand the process much better than I can explain. This video knocks it out of the park. It is brilliantly done and is the best I have seen. Thank you for your excellent work.
Dan Parent, P.E., San Jose City College
The 3D IS EVERYTHING this is going to change the game
Just went thru school a year ago and they barely are using any of it..
@@alexhale2596 I've been in tube university for awhile and ya.. even when i went to college automotive.. they didn't use anything of this nature. it's just "a go pro" on an instructors head as they explain what they're doing. Not the most efficient way. These videos are definitely bread and butter.
@@NightWear21 I had nothing of the sort as well. My trade school was severely underfunded. Barely did anything hands on before getting in the field also
Probably the greatest video on the refrigerant circuit ever!
What a fantastic video! I loved it. I'm currently in an HVAC class and this video made the cooling process much easier to understand. It was slow enough to understand and to be able to take notes. It was clear and concise. I can't express enough just how helpful it was. And with the 3D graphics it was great to be able to see the path the refrigerant took in the entire cycle. Please continue to make more videos with the 3D graphics. Thank you for simplifying the AC system.
The video we didn't ask but we all NEEDED.
This channel's 3D videos are amazing.
Ohh, you mean it is just magic.. Thanks for slow breakdown with great visual. Need to watch again for when condensing and when boiling happen and wrap my head around further.
lol...they just replaced the word of heat transfer to MAGIC..
I'm a plumber and HVAC School was a referral from a respected tech I work with. This is very helpful, well-done content, thank you!
Was great to meet you last week @ ESCO Conference in Vegas.
Congrats on top 25 Instructor Award!
This type of technology laced presentation is phenomenal & exactly what was needed.
Great job & Thank YOU on behalf of the Students in Gavilán College's HVACR Program in Gilroy, CA
🤝👍👌✌️
Thank you for simplifying this for a newbie like myself.
These animations are gettin nifty! My favorite part was when the "magic" happened over in the evap coil. Nice!
Well explained. Thanks for sharing the knowledge
Best explanation ever about this topic thank you
I want to get into Hvac and the way you explain the concepts of thermodynamics and the function of each component makes it so easy to understand. Thank you so much.!
Great stuff, thanks, Bryan!
Love your videos man, been wanting a career change for a while and hvac seemed interesting so I bought some books to look more into it and been watching your videos along side them and you teach everything super clearly.
Thumb up? Really bro? This video deserves a million of thumb ups! Great stuff!!!! Thank you soooo much!!!
Best video ever love the 3D. It really helps with those of us who are visual and hands on learns like myself. Definitely helps to see what’s going on in the system
Excellent basic video on how an air conditioner works. Simplifying the process goes a long way in understanding what each component should be doing at a particular time.
This is the best explanation so far
Absolutely great video as you explained it the way you would to a child as I am new to this and it was easy to follow not like other videos that don't explain things to novices that don't understand all the terminology
This is the best video I found because it starts with the very basics
This was truly an amazing video, really well broken down concept by concept, from fundamentals in physics and law principles. Absolutely amazing. Well done!
Looking forward to learning more about the industry, making the switch!
So well explained and easier to understand. Good Job
The D3 video really amazing help me understand how ac work thanks so much 🙏 I'm watching your channel UA-cam everyday
Best video on refrigeration cycle. Top!
A big salute sir, the process is so well explained 😮
Great explanation and animation, well done. Thank you.
Great video 👍👍👍
This is a hell of a job, thank you! Keep up with the great work👏🏼
This is how I learn. Thanks
😍 I’m loving this as a newbie in the business
It’s got me fully nerding out 💓
State of the Art video Brian! Bless you!!! Keep up the great work brother. I'll get these concepts eventually.😊
This video and explanation is awesome
Thanks Brian!
such a amazing video thumbs up
Nice show I’m a little old to get in this, however I like to see you teach it.
Thank you Bryan! Could you please make a video series like this on mini splits and the component's?
Thank you for your efforts to ecplain ,great video
Excellent training concept, keep it up
Exothermic vs Endothermic... if these 'edu' videos went back to basics more ...it would ring more bells in folks heads ...cool video btw 😎
Thank you Brian
Thnks alot sir
More share we will wait
great video thank so much God bless!
the word heat transfer is called Magic here..awesome..
Very good basic program of a thanks.
very good explanation
Great video for new techs
Thank you for these videos very helpful
Great Video. Thank you for sharing
Incredible explanation
One of the greatest inventions of all time.
Keep it up! Thank you for sharing.
very helpful. thank you
Great explanation.
Please make some 3D video of a typical simple water chiller🙏🙏🙏
brilliant explanation.
This is amazing video 🙂👍
Great video thanks!
EXCELLENT. Thank you.
Great information
Why do you need to compress it before the heat can be rejected? It was already cooler, by compressing it you just heated it up, right?
Think about it as a heat-pressure exchanger. You give ut pressure and the refrigerant will give you heat, you release the pressure and the refrigerant will absorb heat. So we give it pressure and try to dissipate the heat to the outside so we can have high pressure-mild heat refrigerant. Not we get this refrigerant inside the place we want to cool and release its pressure. Now it will absorb heat and the surrounding area will lose heat and get colder.
If AC or refrigeration system doesn’t have a compressor to produce high pressure ,mild temperature Vapor refrigerant to the condenser . So how can the system reject unnecessary heat from the building ?😂 Refrigerant just stuck on the half way .
What 3D program is this id like to use this in my class
Awesome video!
This is a game changer
Do you have a similar video explaining heat pump systems? Thanks
Great video.
Always good videos!!
thanks a lot
Another amazing 3D video. Thank you!
Excellent!
The refrigerant leaving tye condenser is in a liquid state at what temp and pressure? High or low? One would expect that since it has condensed the temp and pressure will be low.
Higher pressure higher temperature
@@kingbanko3858 So there's only a phase change that doesn't affect the temp
I love this channel
The animations are F*cking awesome there I said it 👍
Nice vedios Great
Thank you!
Thankyou.
Amazing
This is the second law of thermodynamics
Awesome
Thanks
Great-Aswsome
Is this means , antactica is boilling hot under it ?
and of course plenty Gaz!!!
*Can anyone explain me that* , If pressure decreaser lowers the temperature than how it converts the liquid into gas? If the temperature decreases then it should be in liquid state how is it becomes gaseous?
Metering device and evaporator
Shout out to union 516 and the awful education they offer for top dollar. Could have just saved $4000 and watched YT videos instead of wasting 10 weeks sitting in a class getting yelled at by a crusty old man who clearly hates teaching.
Most of us has experienced the same thing. Boomers mostly suck.
But how it gets cold
Don't think of it as cold, think of it as lack of heat. Cold is merely an observation of how much heat/energy something has.
the more u retrieve heat the more it gets cold, easy
by transferring heat to the refrigerant.
Gay-Lussac's law states that P1/T1=P2/T2. So when the refrigerant goes through the metering device and has a pressure drop it also lowers in temperature.
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Walker Karen Martin Scott Brown Joseph
Great information
Great video!
Great video
Great video