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I understand that condenser gets air flow around the refrigerant tube from atmosphere. Can you explain where does the evaporator get air from and how does the air circulate through duct?
The reason why liquid damages compressor is because liquid is incompressible. When a compressor (scroll or reciprocating compressor) tries to compress liquid, the liquid resists the compression. When the compressor experiences the resistance beyond its limit, it will bend or warp. I know its a pretty basic knowledge, but when I first started out, I couldn't figure it out for some time.
Also the video stated that the refrigerant is in a saturated state going into the txv, should be 100% subcooled liquid by that point. Minor nitpicks but good video otherwise
I'm currently a student at a trade school studying for a career as an electrician, and i will be sticking with it, but i think i might look into hvac one day
Having more skills is always better. You get huge bonus points for knowing boiler setups. They're complex in comparison. But man, if you get a GOOD guy, who knows wtf he's doing? It's worth A LOT, because many have no clue.
@@windsofmarchjourneyperrytr2823 I agree. I also know about electricity, but more skills = more money 😂. Electricity is only a part of an airco system. The mechanical part is the 2nd important thing you need to know about machinery.
your lectures are fascinating. i have learnt 90% of hvac from your videos. please make video about the differences between a simple Ac vs an Inverter Ac
Conventional will turn on and off while Inverter will slow down and speed up Turning on and off can cause an energy surge as it tries to get against inertia. However, Inverter is active at almost all times. Only it slows down Inverter technology is also called "VRF" which stands for Variable Refrigerant Flow. There is a video from him about Variable Refrigerant Flow I have seen an air conditioner outdoor unit that has a fan rotating very slowly
Hello, I really thank you for the quality content you make! I'm an electronic engineering student and in these covid times your channel is a gem, which I found. I now watch your videos regularly and I am a few steps ahed of my friends, thanks to you! Keep up the good work😄👍✨
This is a good overview but the compressor usually discharges to the top of the condenser and the vapor will condense to a liquid in the bottom few rows of the condenser. I know the graphic looks cleaner the way it's setup but I feel like it's a little confusing.
At 0:50 you have clearly explained the basic principle of refrigeration which is unknown to most people. This is the key answer to the question "how the refrigerant is cooled".
@Hayatekunai I used to answer HVAC questions at Quora and so many of the ones from Asia were about capacitors. What is up with that? I rarely had to change a failed capacitor on a PSC motor.
@@elena6516 I am retired now. Most electrical problems are controls that have failed. Why is a system not cooling? Most times it is not a refrigerant leak or a failed compressor. It's a control problem. It's important that you learn how to read an electrical schematic and be able to imagine the various controls during the cycle.
Condenser water systems take the heat from the refrigerant (indirectly from the room) and release it somewhere else, chilled water systems take the heat directly from the room and release it somewhere else
@@EngineeringMindset Appreciate your hard work in making this Video Bro, In India we have split AC and window AC in residential Buildings in India, I just want to know how the Exchange of Oxygen takes place from outside home to inside the house, since the door and windows are closed of a particular home, and no other ventilation system is there at home Make a video if possible.
Went to school with the attention to be an engineer decided to get my epa instead to be a hvac technician hopefully I can find a way to finish my degree. Don't want to be working on roofs or in attics in my 50s lol
Would love to see more videos about cooling but also hvac design! Im about to start an internship at a company that designs and calculates cooling and air handling systems
@@EngineeringMindset Yes! And I saw almost all of them. But I wish you would dive deeper in your videos. Maybe show us the design process with more complex systems in hospitals for example!
It's years of experience, as I'm told, so don't get comfortable over there. Lol. Then, you have boiler setups. Of course if you screw them up, it can spread steam everywhere and ruin things. Or, flat-out blow up. Maybe not to the Shining extent (big plot hole there, who'd spend millions on a hotel and not bother with a BASIC shutoff system??) But still probably not safe. Certainly not cheap to replace, either. If one of your floats gets stuck open, you'll get a LOT of BIG banging noises and water POURING out of every radiator on the 1st floor. It's too easy to screw up.
you should have kept the outside example (@ 0:17, 3:22 ) of the model the same as the other working model instead of switching sides of the condenser and evaporator. I was trying to imagine it working on the house ... while taking into account everything is reversed from model showing the flow. its a minor nit-pick, overall its a very good video - thank you.
I wanted to learn the basics of an AC for quite some time and this was perfect, please if you could do a video about the electric circuit of an AC that would be great
Yo paul …..in addition to your AMAZING graphics - can you show us more images of what the actual part or component looks like as you start to talk about it
QUESTION for those who understood video (coz im confuse a bit) When we charge refrigerant in any basic split or window ac... through suction line with unit ON... we hold the refrigerant Can/cylinder upside down.. so that refrigerant can be charged as liquid... then why compressor doesn't get damaged???????????
Paul, if you could include, *how temperature control works by AC's remote control* (how a remote control changes room temperature) that would be great 🙄👍😒🤔
If you have a window or portable a/c the temperature sensor is usually around the units intake air. It is transmitted wirelessly to your remote so when it reaches your desires setpoint the remote sends signal to shut off a/c.
@@Nicko-ir2to reversing valve changes from Heat to Cool , but my question is.... when you adjust cool/heat from remote control, how that happens inside AC unit
How do you cool multiple rooms in a home or small office? I'm assuming there isn't an evaporator in each room. How do you have different rooms at different temperatures?
Ductwork connected off the main indoor unit, usually the furnace in a residential system. For a mini split (ductless) system like the example in the video that isnt possible.
I agree, TXV should open when the superheat is high to increase refrigerant flow. TXV should close when the superheat is low to decrease refrigerant flow
Before,we used freon 12 &22 w/c were detrimental to our Ozone layer,you presented these different types of refrigerants,are these refrigerants are Ozone friendly?thank you.
Modern refrigerants are not ozone depleting. The old CFC and HCFC refrigerants were ozone depleting. Modern refrigerants are HFC, HFO, and HC which do not deplete the ozone. The thing they are concerned with now is the global warming potential which is a measurement of its greenhouse gas effect.
Take them apart and see how everything works. What's connected to what, what happens if something breaks. This will be very useful for you in your career
Good stuff! Try looking into the trades. There’s a lot of old dudes that can’t retire cus too many young kids look down at trades people as brutes. No new blood and worsening global warming means we will be in urgent demand for the foreseeable future.
for the ac to work as both a heating function and cooling function, doesn't that mean that the inside part have condenser and evaporator, and so do the outside part?
On a conventional heat pump during mode the inside coil will be the condenser and the outside coil will be the evaporator. There will still only be one coil outside and inside. Each coil will have its own metering device but they will only meter in one direction but allow flow freely in the other. So discharge gas flows through the insidecoil and condenses, flows freely through the inside metering device, and then goes through the outside metering device and coil. In cool mode its the opposite, it flows throught the outside coil and bypasses the outside metering device. A reversing valve is used to switch between the modes. On mini split systems its largely the same but there will only be one metering device located outside. The metering device is electronically controlled.
id like to ask. evaporator in my acc has 3 sections which are labeled as top, middle and front.. when i turned the ac on, only the middle one became cold, whereas the other two were not. i touched it during checking. is this because of the bulb malfunctioning which causes faulty feedback to the orifice controller valve?
The compressor has to perform work in order to compress the refrigerant. However could some of the energy used to compress the fluid be extracted in an expansion valve, it if were a turbine of some sort? Or possibly a sort of "steam engine" type design? All the typical expansion valves are basically analogous to a resistor or rheostat in electronics from what I can tell.
Well the turbine would remove pressure because of the resistance, as the condenser is rejecting heat to atmosphere it would be better to make use of this waste heat which will then convert the refrigerant vapour into liquid without using a fan.
@@EngineeringMindset there's applications out there that do exactly this. Many geothermal heat pumps utilize discharge line heat recovery to transfer heat to domestic water heaters.
This is a type of heat exchanger with a coating applied for the only purpose of dehumidifying, or "drying", the air stream before it enters the home. What is it? Can somebody help me with this question?
In the condenser the refrigerant has a relatively high boiling point due to the high pressure. The boiling point is higher than ambient temp so the refrigerant will condense when it is cooled by the ambient air.
There's a capacitor. Most often failed part. Luckily, it's right there. Downside, i think the outside unit could stand better screening around the fan. I'd mentioned to my friend the service guy, that youll get scalped if you don't put your hair back right (down the back of your shirt in a ponytail?) when dealing with any fan. Machinery ain't going to stop for you. Never forget that. A woman once did that by a car, and it was bad. They showed you on a mannequin. Ohh. No joke.
If you think of the evaporator as your TV screen . A fan blows the room temperature (warm) air into you TV screen. Inside your screen is the gas,which boils inside it's sealed tube and absorbs heat from the air passing over it. The air is now colder as it exists the back of your TV. Now bear in mind you sitting room is " sealed" (your fridge or freezer certainly are) and you think of the process above,but this time consider that every time air enters your TV it's slightly cooler than the last time,and colder as it exists you TV through the back. Continue that cycle and you are chilling colder and colder air each time. Eventually the air in the room (or fridge or freezer is cold enough in general to match your desired temp and the chiller turns off.
I have a question! How come the condenser unit can change the refrigerant from gas to liquid? As you said before refrigerant boiling point is -40degC so by forcing air over the condenser will still keep the refrigerant in vapour state???
The hot gas in the condenser is cooled down by the ambient air passing over the condenser coils. The boiling point of the refrigerant is relevant in the evaporator as this is where the liquid refrigerant absorbs the heat and evaporates ("boils").
@@jetonhaxhia4393 lets say the ambient air is at 30degC. By forcing this hot air over the condenser coil will still keep the refrigerant at vapour state bcoz refrigerant will turn to liquid state only when its temp is below -40degC?
@@sureshd2095 I understand your confusion now. The boiling point is -40c but that is at a low pressure. A refrigeration system will have much higher operating pressures which will push the boiling point of the refrigerant to about 5c in the evaporator and to about 50c in the condenser during normal operation.
@@jetonhaxhia4393 Thank you Jeton! Now I understand that the boiling point of Refrigerant depends on its working pressure. Thus the Refrigerant can condense to liquid at 30degC outdoor air temp.
Your explanation of the thermostatic expansion valve is backwards. the temperature sensing bulb pressure will open the valve when superheat is too high not close it.
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@Emularis Thank you, Emularis. Much appreciated
I understand that condenser gets air flow around the refrigerant tube from atmosphere. Can you explain where does the evaporator get air from and how does the air circulate through duct?
@@PavanKumar-zh9zd Blower motor. .
2nd law of Thermodynamics is one of the key concepts behind these ACU topics, this is great work!
The reason why liquid damages compressor is because liquid is incompressible. When a compressor (scroll or reciprocating compressor) tries to compress liquid, the liquid resists the compression. When the compressor experiences the resistance beyond its limit, it will bend or warp.
I know its a pretty basic knowledge, but when I first started out, I couldn't figure it out for some time.
Also the video stated that the refrigerant is in a saturated state going into the txv, should be 100% subcooled liquid by that point.
Minor nitpicks but good video otherwise
This was great. I knew it worked based on the expansion of a refrigerant, but this really brought all the pieces together.
Best basic overview I've seen so far. Great content as always 👍
Except he has the flow process backwards.
Nice.... Can you make a video about lcd screen or led screen. Ive been wondering about how they really work. Its would be amazing.
Watch videos from
Branch Education
Now I know all the basics of Air "Conditionig"! 😉😂
Great video, despite missing that one detail it covers every other detail beautifully.
I'm currently a student at a trade school studying for a career as an electrician, and i will be sticking with it, but i think i might look into hvac one day
Having more skills is always better.
You get huge bonus points for knowing boiler setups. They're complex in comparison. But man, if you get a GOOD guy, who knows wtf he's doing? It's worth A LOT, because many have no clue.
@@windsofmarchjourneyperrytr2823
I agree. I also know about electricity, but more skills = more money 😂. Electricity is only a part of an airco system. The mechanical part is the 2nd important thing you need to know about machinery.
Every single video on this channel is AWESOME...
❤❤❤
your lectures are fascinating. i have learnt 90% of hvac from your videos. please make video about the differences between a simple Ac vs an Inverter Ac
Conventional will turn on and off while Inverter will slow down and speed up
Turning on and off can cause an energy surge as it tries to get against inertia. However, Inverter is active at almost all times. Only it slows down
Inverter technology is also called "VRF" which stands for Variable Refrigerant Flow. There is a video from him about Variable Refrigerant Flow
I have seen an air conditioner outdoor unit that has a fan rotating very slowly
Hello, I really thank you for the quality content you make! I'm an electronic engineering student and in these covid times your channel is a gem, which I found. I now watch your videos regularly and I am a few steps ahed of my friends, thanks to you! Keep up the good work😄👍✨
Dear sir kindly make the video on scada and dcs you explain better than every one and its easy to understand
This is a good overview but the compressor usually discharges to the top of the condenser and the vapor will condense to a liquid in the bottom few rows of the condenser. I know the graphic looks cleaner the way it's setup but I feel like it's a little confusing.
Depends on the compressor!!
You are correct and I also noticed that.
@@SlimroosterSo what compressor are you referring to?
🤓🤓🤓
Thank you!
Great educational video. Examples of the bike pump and Steam are so useful
This is brilliant mate so helpful in my new job thank you
At 0:50 you have clearly explained the basic principle of refrigeration which is unknown to most people. This is the key answer to the question "how the refrigerant is cooled".
Believe me your videos save lots of lifes... 😉👏👏👏👏
Thanks for making me understand the concept very well......
everything is now clear. Thank you
the best basic so far. thank you for this video.
Good refresher since college
thank you very much
its simple understandable and staight to the point
Engineering mindset..you are amazing 😻 Beautifully explained
I'm getting the spinning wheel with a black background. I've seen this on several YT channels lately. Hopefully when I come back later it will run.
Reboot your PC and clear your browser cookies if that issue continues
You are a REAL engineer !! ❤
I love it.because my course is HVAC ✌️✌️😁
Great video information ❤
PLEASE MAKE VIDEO INFORMATION FOR CONDENSING UNIT,PARTS FUNCTION, AND SEMI HERMETIC PUMP ,
A great deal to comprehend. Thank you.
perhaps a video on the electrical and control side of heating and air conditioning?
My experience in working with the tools in the HVACR trade is that a high percentage of problems are electrical in nature.
@@Mister_Pedantic what sort of problems do you see on a regular basis?
@Hayatekunai I used to answer HVAC questions at Quora and so many of the ones from Asia were about capacitors. What is up with that? I rarely had to change a failed capacitor on a PSC motor.
@@elena6516 I am retired now. Most electrical problems are controls that have failed. Why is a system not cooling? Most times it is not a refrigerant leak or a failed compressor. It's a control problem. It's important that you learn how to read an electrical schematic and be able to imagine the various controls during the cycle.
Mine failed because the contactor coil failed. $20 for the replacement contactor.
Love your channel. Do you have a video abou the difference between chill water systems and condenser water systems in commercial hvac uses ?
Yes, please look through our channel or website
Condenser water systems take the heat from the refrigerant (indirectly from the room) and release it somewhere else, chilled water systems take the heat directly from the room and release it somewhere else
@@EngineeringMindset
Appreciate your hard work in making this Video Bro, In India we have split AC and window AC in residential Buildings in India, I just want to know how the Exchange of Oxygen takes place from outside home to inside the house, since the door and windows are closed of a particular home, and no other ventilation system is there at home
Make a video if possible.
U deserve more than Coffee😊
Thanks so much
I needed this
Who else searched for this video!?
Went to school with the attention to be an engineer decided to get my epa instead to be a hvac technician hopefully I can find a way to finish my degree. Don't want to be working on roofs or in attics in my 50s lol
Start your own company, so by the time you're in your 50s you can have someone else going up there! 👍🏼😎✌🏼
@@gus473 yes that's an idea that's cross my mind once I get more experience
Commercial/Industrial systems are where the fun is. Don't get stuck doing residential.
@@Mister_Pedantic well I do both residential and commercial, but I definitely want to specialize in commercial
Thanks pal, great video as always
This Channel has better content than 99% of school textbooks
Would love to see more videos about cooling but also hvac design! Im about to start an internship at a company that designs and calculates cooling and air handling systems
We have a lot of videos on hvac and design, check out our channel
@@EngineeringMindset Yes! And I saw almost all of them. But I wish you would dive deeper in your videos. Maybe show us the design process with more complex systems in hospitals for example!
@@atefrod680 Did you find anything? Please can you pass along if you found any sources for that?
Good video for learners. As an Instructor in Airconditioning & Refrigeration , i would advice to correct spelling. ie. " Airconditioning ".
It's too late, UA-cam doesn't allow edits once published
Can't believe I'm still visiting this after 12 month into hvac trade school
It's years of experience, as I'm told, so don't get comfortable over there. Lol. Then, you have boiler setups. Of course if you screw them up, it can spread steam everywhere and ruin things. Or, flat-out blow up.
Maybe not to the Shining extent (big plot hole there, who'd spend millions on a hotel and not bother with a BASIC shutoff system??) But still probably not safe. Certainly not cheap to replace, either.
If one of your floats gets stuck open, you'll get a LOT of BIG banging noises and water POURING out of every radiator on the 1st floor.
It's too easy to screw up.
you should have kept the outside example (@ 0:17, 3:22 ) of the model the same as the other working model instead of switching sides of the condenser and evaporator.
I was trying to imagine it working on the house ... while taking into account everything is reversed from model showing the flow.
its a minor nit-pick, overall its a very good video - thank you.
Great informative video that and interesting.
Anybody spot the spelling mistake on top of the screen 😀😀
How does one choose which refrigerant is best suited for which hvac system?
Nice. Could you please make a video on how electric generators work? I've been wanting to know for quite a while.
Please watch our video on electrical generator basics, launched couple weeks ago
I wanted to learn the basics of an AC for quite some time and this was perfect, please if you could do a video about the electric circuit of an AC that would be great
He already got video about that .
Look into boiler systems. They're much more complex and take more maintenance.
Yo paul …..in addition to your AMAZING graphics - can you show us more images of what the actual part or component looks like as you start to talk about it
In the older videos we did this a lot more, check these out for more details
phenomenal video
Great explanation!
weird assent but love these videos
Very nice / simple video.
Great Job sir.
QUESTION for those who understood video (coz im confuse a bit)
When we charge refrigerant in any basic split or window ac... through suction line with unit ON... we hold the refrigerant Can/cylinder upside down.. so that refrigerant can be charged as liquid... then why compressor doesn't get damaged???????????
Great question! Anyone know the answer?
Paul, if you could include, *how temperature control works by AC's remote control* (how a remote control changes room temperature) that would be great 🙄👍😒🤔
If you have a window or portable a/c the temperature sensor is usually around the units intake air. It is transmitted wirelessly to your remote so when it reaches your desires setpoint the remote sends signal to shut off a/c.
Can you please rephrase your question? I like to have a dialogue with other commenters but I don’t quite understand what you’re asking.
@@peepeepoopoo1399 what happens inside AC unit when you take AC remote control, and start changing temperature (increasing cool or heat)
@@heyderaliyev8976 it’s called a reversing valve
@@Nicko-ir2to reversing valve changes from Heat to Cool , but my question is.... when you adjust cool/heat from remote control, how that happens inside AC unit
I just understand about evaporator and condenser
Deodorant is a good example that the gas that expands becomes cold :)
Thank you so much
Could you do a video on how an engine works?
I'm so glad you made this video, I could've sworn you made this already but either way thank you.
God bless this holy video
How do you cool multiple rooms in a home or small office? I'm assuming there isn't an evaporator in each room. How do you have different rooms at different temperatures?
Ductwork connected off the main indoor unit, usually the furnace in a residential system. For a mini split (ductless) system like the example in the video that isnt possible.
I have no money to buy this book but i also wanted to read this book
There's no book, it's just a free video
@@EngineeringMindset in your discription a link of a book thats book i am talking about
thank you so much, i love this video
Great explanation. 👍👍👍👍👍
I subscribed
At 6:09, as superheats increase, shouldn't the TXV opens more to allow more refrigerant into the evaporator? Please clarify.
I agree, TXV should open when the superheat is high to increase refrigerant flow. TXV should close when the superheat is low to decrease refrigerant flow
Crystal clear 👌
Great information
Awesome work!
Before,we used freon 12 &22 w/c were detrimental to our Ozone layer,you presented these different types of refrigerants,are these refrigerants are Ozone friendly?thank you.
Modern refrigerants are not ozone depleting. The old CFC and HCFC refrigerants were ozone depleting. Modern refrigerants are HFC, HFO, and HC which do not deplete the ozone. The thing they are concerned with now is the global warming potential which is a measurement of its greenhouse gas effect.
Good video.
Thanks
Very informational !
As always a nice video.
Awesome vid bro
Thank you!
My job because I’m a teenager is to destroy old ac units it’s pretty fun
Take them apart and see how everything works. What's connected to what, what happens if something breaks. This will be very useful for you in your career
Good stuff! Try looking into the trades. There’s a lot of old dudes that can’t retire cus too many young kids look down at trades people as brutes. No new blood and worsening global warming means we will be in urgent demand for the foreseeable future.
Thank you
3:50 Aww, we ❤ you too!
Great video
Thanks for sharing :-)
Burning question for you: can the temperature at which the refrigerant boils post the expansion valve be controlled? say at -5 or -10 or -20 degC ?
thats dependent on the refrigerant being used. the expansion valve controls the superheat and lowside pressure
@@ol_brendo2350 thanks Brendan. Say it was R134A, it boils at around -26 deg C but is there a way for it to boil let’s say at -10?
@@slengoslengaw8510 it’s pressure related to. So if you look at a pressure temperature chart -26 C is .05 PSI but -10 C is a pressure of 14.4
for the ac to work as both a heating function and cooling function, doesn't that mean that the inside part have condenser and evaporator, and so do the outside part?
Please see our heat pump videos
On a conventional heat pump during mode the inside coil will be the condenser and the outside coil will be the evaporator. There will still only be one coil outside and inside. Each coil will have its own metering device but they will only meter in one direction but allow flow freely in the other. So discharge gas flows through the insidecoil and condenses, flows freely through the inside metering device, and then goes through the outside metering device and coil. In cool mode its the opposite, it flows throught the outside coil and bypasses the outside metering device. A reversing valve is used to switch between the modes.
On mini split systems its largely the same but there will only be one metering device located outside. The metering device is electronically controlled.
id like to ask. evaporator in my acc has 3 sections which are labeled as top, middle and front.. when i turned the ac on, only the middle one became cold, whereas the other two were not. i touched it during checking. is this because of the bulb malfunctioning which causes faulty feedback to the orifice controller valve?
So, what's an inverter?
Perfect
Fantastic content ❤️
Very good👏
The compressor has to perform work in order to compress the refrigerant. However could some of the energy used to compress the fluid be extracted in an expansion valve, it if were a turbine of some sort? Or possibly a sort of "steam engine" type design? All the typical expansion valves are basically analogous to a resistor or rheostat in electronics from what I can tell.
Well the turbine would remove pressure because of the resistance, as the condenser is rejecting heat to atmosphere it would be better to make use of this waste heat which will then convert the refrigerant vapour into liquid without using a fan.
@@EngineeringMindset there's applications out there that do exactly this. Many geothermal heat pumps utilize discharge line heat recovery to transfer heat to domestic water heaters.
Check out NEW resistor video, everything covered! ➡️ ua-cam.com/video/DYcLFHgVCn0/v-deo.html
Your good😎
Gr8 c0nTenT Thnk y0u s0 MuCh❤
This is a type of heat exchanger with a coating applied for the only purpose of dehumidifying, or "drying", the air stream before it enters the home. What is it? Can somebody help me with this question?
Is it possible to reach 300°C-600°C on the condenser site?
So, it condenses into liquid in the condenser despite the low boiling point? Due to the pressure?
In the condenser the refrigerant has a relatively high boiling point due to the high pressure. The boiling point is higher than ambient temp so the refrigerant will condense when it is cooled by the ambient air.
Really great video and highly understandable for my nugget 😌
There's a capacitor. Most often failed part. Luckily, it's right there. Downside, i think the outside unit could stand better screening around the fan. I'd mentioned to my friend the service guy, that youll get scalped if you don't put your hair back right (down the back of your shirt in a ponytail?) when dealing with any fan.
Machinery ain't going to stop for you. Never forget that.
A woman once did that by a car, and it was bad. They showed you on a mannequin. Ohh. No joke.
Can you make a video about Synchronous motor
Coming soon
@@EngineeringMindset Thankyou so much
I don't get it, evaporator means high pressure = high temps. How do we get cold air from that.
If you think of the evaporator as your TV screen .
A fan blows the room temperature (warm) air into you TV screen.
Inside your screen is the gas,which boils inside it's sealed tube and absorbs heat from the air passing over it.
The air is now colder as it exists the back of your TV.
Now bear in mind you sitting room is " sealed" (your fridge or freezer certainly are) and you think of the process above,but this time consider that every time air enters your TV it's slightly cooler than the last time,and colder as it exists you TV through the back.
Continue that cycle and you are chilling colder and colder air each time.
Eventually the air in the room (or fridge or freezer is cold enough in general to match your desired temp and the chiller turns off.
@@brianiswrong ty
Typo on conditioning around 4 min mark just so you know :)
I have a question! How come the condenser unit can change the refrigerant from gas to liquid? As you said before refrigerant boiling point is -40degC so by forcing air over the condenser will still keep the refrigerant in vapour state???
The hot gas in the condenser is cooled down by the ambient air passing over the condenser coils. The boiling point of the refrigerant is relevant in the evaporator as this is where the liquid refrigerant absorbs the heat and evaporates ("boils").
@@jetonhaxhia4393 lets say the ambient air is at 30degC. By forcing this hot air over the condenser coil will still keep the refrigerant at vapour state bcoz refrigerant will turn to liquid state only when its temp is below -40degC?
@@sureshd2095 I understand your confusion now. The boiling point is -40c but that is at a low pressure. A refrigeration system will have much higher operating pressures which will push the boiling point of the refrigerant to about 5c in the evaporator and to about 50c in the condenser during normal operation.
@@jetonhaxhia4393 Thank you Jeton! Now I understand that the boiling point of Refrigerant depends on its working pressure. Thus the Refrigerant can condense to liquid at 30degC outdoor air temp.
well thanks
Your explanation of the thermostatic expansion valve is backwards. the temperature sensing bulb pressure will open the valve when superheat is too high not close it.
See video description for correction
Amazing👏
the best!
The video headline main title is missing the letter "n".
I can't understand it ,🤧🤧 imma gonna watch again
Do you understand it now?
@@johnnyblaze9217 he is still studying