This is much better explanation than the other much viewed videos

🔥 This is explained as simple as possible than what I learn in Engineering thermodynamics... great work...

All tutorials are clearly explained .thank you so much .please continue!!!

Thank you for the clear explanation.

Nicely explained coming from an electrical engineering mind trying to learn heat tranfer.

the temp out of the condenser is a bit lower as some heat goes out to the env. . Very well explained good job

The best video on this topic on KZbin.

WOW! I went from knowing nothing about AC units to feeling like I’m a pro. Thank you, it was very we’ll explained.

Your explanation was excellent but my brain still confused as to how air conditioners work.

Very clear english and excellent explanation .thanks madom.

Easier to understand compared to other tutorials of the same topic. Good job.

This is way better than any other tutorial I saw on KZbin. Because you actually explained what everything does instead of tossing a bunch of random names around and providing no explanation like literally every other vid on KZbin from crappy teachers. Mechanics are just terrible teachers 😂

Much easier explained than I thought...big up

Wonderful exposition of A. C. Mechanism.

It's really ...well for people. May we get a video about for all of refrigerant ?

Super and most easy explanation in the world.

Now i know, thank you so much for the lecture, it helps me a lot to know the basic functions of an AC.

Woww mam I am from Pakistan and I have a promotion test thanks to u for explaining ac as my desire with easy words

Best explanation ever

I have found ur lecture so intrsting and clear

Very well done, easy to understand just the basic principles .. impressed !

no, thank YOU! :) that was a great explanation :)

Very well explained and easy to understand with the animation. One of the questions I have is how much pressure does compressor have to increase so that refrigerant temperature will be higher than ambient air temperature. Is the compressor equipped with some type regulator that measures outside temperature and compresses the refrigerant so that the temperature is higher than outside air temperature.

Very helpfull video for me 🙏🏻🙏🏻🙏🏻 and everyone

Very clear explanation. Thank you.

Very informative! God bless 🙏🏼

Good video good presentation god bless you thanks maam

Nicely explained, thanku so much

thank you ..this is a great tutorial , rather than the others i have watched that dont explain how the compressor works, or why the flans are blowing and what they are blowing for and the main key is the first law of thermodynamics that all ac is based around...that heat flows from hot to cold... if you ever want to improve..the thing that was missing was 1. how does the expansion valve work actually (by what mechanism) 2. the evaportator in the room ....when you go near one they seem to be blowing cold air...but your explanation seems to say they suck in hot air ..(so how come they actually blow cold air) 3 more talk about the air in the room and hte importance of the room being closed or the aircon will be trying to cool down the planet. 4. how the condensor coils actually change the state of the freon from gas to liquid.....i think you said the temperature doesnt change but i think it actually does. the outside environment cools the gas and then it changes to liquid ....by cooling it. 5 more abuot how the changing of state of something from gas to liquid or liquid to gas produces energy

Thank you much for understanding me .

Thank You it was very Helpful

A very fine explanation , I like it

Wow! Excellently explained thanks

Wonderful explaination very helpful to exams

Thanks a lot

Thank you for sharing god.bless

Dear sister it's a nice video to understand about AC thank you.

Very helpful... thanks for making such videoes🔥❤️

Thank you!!

And thank you for making this video.

Great information , many thanks!😮

Question: At compressor startup, does the A coil (inside furnace) make some noise getting up to operating pressure? It lasts for about 15 seconds? Then noise stops. At end of cooling cycle the same thing happens. During the cycle no noise at all, other than normal blower sounds. AC runs great, very cold.

Thank you👏👏

Loved the explaination🔥

Helpful video thanks.

tHank you

Very nice 👍👍 Thank you very much 🙏🙏

Best Explanation

So this is a little simplified. The first place to get an understanding of what is going on is to understand heat energy. Heat energy is measured in temperature, which is a measure of how heat energy affects the molecules of a substance. Quantities of heat energy are measured by measuring how much heat energy is required to raise the temperature of a certain amount of a substance. For example, a BTU is the amount of heat energy required to raise one pound of water one degree in temperature. (I'm American so you're stuck with imperial.) Now we come to the property in the natural world that is exploited to give us the refrigeration cycle that makes air conditioners and refrigerators work, (which both work basically the same, an air conditioner is just something that makes your house a big refrigerator). So if you start with a pound of ice, it takes one BTU to heat it one degree. So for example one BTU to heat it from 31 degrees to 32 degrees. But when you get to the first change in the state of matter, it takes 144 BTUs to change it from a pound of 32-degree (Fahrenheit) ice to 32-degree water. And then you're back to one BTU to heat it from 32 degree water to 33 degree water and so on, all the way until you get to the boiling/condensing point. It's one BTU to heat the pound of water from 211 degrees to 212 degrees. And then it takes 970 BTUs to heat the pound of water from 212 degree (Fahrenheit) water to 212 degree steam (or "vapor"). This is a quality that works against us when we're trying to boil a pot of water and the heat source is a stove you have to power. But it's a quality that works for us when the heat boiling your liquid, (i.e. the refrigerant in the evaporator coil), is the heat in the air of your house, and you want the refrigerant vapor to carry large amounts of heat energy with it outside your home.) (Different refrigerants of course involve different BTU numbers than water, but the principle is the same.) As many of you know the boiling/condensing point of a liquid increases or decreases commensurate with pressure. (A pot of water boils at a lower temperature at a high altitude, i.e. under less atmospheric pressure, than at sea level.) The compressor raises pressure so that the temperature of the boiling/condensing point is higher than that of the air outside, (say a pressure that makes the boiling/condensing point 120 degrees Fahrenheit so that passing 90 degree air outside over the condenser coil will cause the vapor to condense into liquid). On the low pressure side of the system, (where the liquid enters the evaporator coil), the pressure is set so that the liquid will evaporate at a little above freezing. (While you might have a refrigerant that boils at 45 degrees (Fahrenheit) below zero, you have to set it to the boiling/condensing point above the freezing temperature of water or the humidity in the air will cause ice on the evaporator coil.) So you have a system set a two pressures, designed to set two certain boiling/condensing temperatures of the refrigerant. So you have the air in your house being passed over the evaporator coil (made of a conductive metal) so the heat in the air will pass into the refrigerant in the coil and cause it to boil. The heat energy is carried outside with the vapor in your vapor line (the bigger one of your two copper lines) where it is pressurized so that it condenses outside, releasing the heat from inside your home outside. (This is why when your air conditioner is working properly and you hold your hand above the fan of your outside condenser unit, you the air blown by the fan feels warm. That's the heat from inside your house.) Then the condensed refrigerant goes inside your house in the liquid line (the smaller of the two copper lines) where it is boiled again in the evaporator coil, and the cycle continues. And don't forget to occasionally pour some bleach down that white PVC line that comes from your air handler and goes outside. That's the line that carries the water from the air inside your house that condenses on the evaporator coil outside. Have a nice day.

Thanks for sharing ,,,,, I have learnt alot

Helpful 👍

Thank u ma'am

Good, very useful video you present.

thank you so much mam its a really helpful info

Very informative, lots of love.

Some things are not explained here. HOW does the expansion valve allow the high temp liquid into low pressure cooled liquid. I presume because it has a small dia. in and a larger dia. pipe out, but this is not said. Also, does it matter if the vapor travels UP the condenser rad whilst turning into liquid? Would gravity not make it want to fall back down? All other animated diagrams I have found show it going down, and that would seem to make more sense. Also, where is your drier?

Explained really well through graphics & Animation but what about the drain pipe?

Great explanation

Thanks you Good work

As an HVAC Tech, this is everything and nothing at the same time

Very nice! I like it!

Tnks for this topic explain

Very well explained, thank you

Very nice video 📹 🥰

such a clear cut explanation..thanks a lot

Love frm india

quick question sir, can a home ac compressor be use on car AC system?

Thank you so much mam

I thought, in an expansion system, the freon exits the condenser in liquid, enters the dryer, where moisture is removed from the freon, then traveled to the txv valve?

Nice explanation

Very helpful

It's said ,apart from chilling,mixing process is there,which is also vital.

Thanks

Thanks 🙏🏻

very helpful מאוד מועיל

W-e-l-l d-o-n-e !

Very interesting!!!!!!

Humidity is ALWAYS absorbed by grumpiness... The 27 th law of thermodynamics

Very nice expression

I have a question regarding the wireing. I can´t find an answer anywhere on the internet so i´ll try my luck with you. I have a Toyota Hj60 - 82 and there is a wire coming from the dash leading to the dryer and then on to the compressor. From what i can se it´s not acc so i can´t set a temperature, just on/off. Could you explain the exact way to wire the system from the button to the compressor? Why is the wire running through the dryer, i guess it´s correct but i can´t find a single video on the internet explainng this. Thanks in advance.

I have seen videos on ship refrigeration... and comes to an understanding that... 1. Piping before entering compressor consisted of freon gasses. Then it enters the compressor tube, where gasses are returned to its liquid state. 2. When the compressor keeps turning... then the liquid state of the freon... prior to entering the expansion valve, it again turns into gasses, then into the evaporator in the form of gasses... The cycle repeats itself once these gasses reenter the condenser / receiver tube. Did i understand them incorrectly?...

Explained really well

Thanks mam

thank u

I am Mechanical Engineer ❤️❤️

very nice

thank yoooou so much omg

Nice

What about low ambient control values, and accumulators?

What is the benefit of changing the state of the freon from gas to liquid?

Very well explained

I have a question, how does it dispense the cold or hot air?

Nice explanation but fast.

Good

Thank You

I thought there's a mistake.. Condensor dicrease the temperature bcz refrigerant changing the state from gaseous to liquid.

Super

How the liquid state of freon is converted into gaseous State inside the evaporator coil

Nice 👍🏻