Air Conditioning Diagnostics Part 1: How the System Works

Using infrared guns take a piece of black tape and put it on the shinny lines and you will get better readings. Great series to help techs fix systems.

I love this! Is part 2 coming any time soon?🙈

16:18 The evaporator core gets cold. Air passing by the evaporator will cool down.
Cold air can absorb less moisture than warm air. Therefore some of the moister that was absorbed in the warm air will condensate *on the outside* of the evaporator. If there’s a lot of condensation it will be drained (some cars will ‘leak’ water on hot days. They don’t really leak water, that’s just condensation)
There’s no direct contact between the air that’s cooled/condensation and the refrigerant. So no moister will go from the air to the refrigerant.
So the refrigerant does not pick up water from the outside air.
Just my 2 cents.
I’m looking forward to part 2!

Great illustration looking forward to part 2

Great presentation a mention that one is a high pressure gas which becomes a liquid when it goes thru the orifice or expansion valve then back to a gas in the evaporator .

Thank you for this. As a tech who has done AC work for 10 years a refresher is always nice to have as we all pickup bad habits over time to speed things up and don't always properly diagnose an issue and just throw a part at it which works good enough but doesn't fix the issue.

I NEED THE HELP ,,, THANKS SO MUCH AND LOOKING FORWARD TO THE REST OF THE SERIES THANKS AGAIN !!!!!!!!👀🙏🙏👍👍👍👍👍

Great presentation! I really appreciate your time and effort. I really love your channel because you explain EVERYTHING. You really hit the nail on the head when you said that if you can understand how something works, you can fix it. Description of the system and theory of operation is the first thing I go to when I’m diagnosing a system I’m unfamiliar with

This is incredible, been wanting to learn AC for a while! Thank you!

Man I am excited for this series.

When will part 2 happen?

Would really like to see the temperature clamps your talking about and where to get them

Good basics demo. I’m really glad to hear you mention about variable displacement, compressors, having clutches..
Some old-timers or young guys who read old literature are stuck in their head that only clutchless compressors are variable. And they’ll actually try to argue the fact..
How many technicians and shops try to top off refrigerant on variable, Displacement compressors shooting for a certain pressure they “THINK” 🤔 they should achieve.

I love it, I love it, great job guys. I learned something new.

man great illistration & explanation,,we gotta protect guys like you @ all cost

Just bought my first set of gauges. Trying to learn more about a/c systems right now. Mainly what to look for when troubleshooting. Thank you for putting this together for everyone!

Fantastic video!!! Can’t wait for part 2!!

👍 very helpful. Thanks for sharing!
Keep it coming please.

This is definitely helpful, Doc. Hoping part 2 is coming out soon. Unless I’ve missed it. I wish I could pick your brain or get your input on a ‘24 Corvette that is freezing at the TXV and at the compressor.

Really looking forward to this series, a great first installment there thankyou

Dryer conditioned air is due to the condensation on the evaporator removing humidity from the air passing over it. There is no absorbing of moisture by the refrigerant. It just absorbs heat. Side note it doesn’t cool the air it makes it less hot. 😊

I will definitely be sharing this to my techs. I tend to over explain things. Can’t wait till the next video comes out. Way to many times mechanics throw the parts cannon at a/c repairs.. thanks Sherwood

great information what you are doing is good. back in the 1970s i worked for Montgomery Wards we installed a lot of in dash and under dash units. those units were 12 and boy they would get cold. i have seen so many changes thru the years now we have those variable displacement compressors. you really have to look closely to make sure what type system you have to be able to fix any A/C unit. old days simple they didn't have blend doors to mix hot and cold air you either had heat or ac so easy do diag. thanks for sharing this information wonderful reminders

Such a great video. I really appreciate this. AC is definitely not my strong suit. This series will definitely help me a ton.

Super helpful ! Extraordinary detail !! I learned lots !!! Thanks a lot !!

Very nice explanation of how the system works. I really liked the explanation of what temperature difference to look for at the condenser and evaporator. I will definitely use that information in the future.
I will mention that not all orifice tubes are near the evaporator. The OT on my 98 Chevy trucks is right off of the condenser in the line right behind the passenger side turn signal lamp assembly.

In your upcoming series please help me further understand where the state of matter changes, of course you explained the metering device, however I get confused at times which side or part of the system can have high and low pressure liquid and gas. Thank you for sharing your knowledge

I don’t care what chemical engineers got to say about your awesome explanation on how the A/C system works Mr. Royalty! Thank you so much on helping us to better understand this subject!😁

This is the air con system that was used on all Rover cars, built in Birmingham, UK, I was there from 1987 till 2005.

Great job. I like learning new things.

Great video. Nice breakdown of A/C Hope younger can listen You Made is easy to understand Keep vids flowin !

Very good info! You explain and teach it very well!
Very helpful....especially the info about using the thermometer temperatures.
Love all your videos!

I appreciate this video. Anxious to watch more!

Sherwood, many years ago, I read that an ac job is the removal of heat or absent of heat.

Can't wait to see the next video in this series....

Regarding the temperature readings across the evaporator…
My understanding is you determine the system is fully charged at 5°F difference.
But what do you see *before or until* it is full?
Since you said you don’t want to see too high a difference, because that would mean the system did not have enough refrigerant, that, with a system that is being charged, you would see a higher temperature, and watch it decrease as you add refrigerant.
Is this the case?

Excited for part two!

The high side is liquid freon, as liquid passes through the orifice tube it evaporates inside the evaporator turning into a gas. Evaporation is a process that removes the heat.

i'm confused about the accumulator , is it the same as filter dryer or not , because accumulator normally describes a device to store excess liquid refrigerant to prevent liquid from going to compressor . please help

Thanks for this series! I hate it when teachers try to explain how evaporators suck heat out of car instead of simply being cold and blowing air through it.

Can you link those temp clamps ?

Great video, thank you love the lesson

Great job thanks for sharing

Very well explained!

It would be really easy to show the cooling properties of all the components with a thermal imager on a orifice tube system. Just a thought.

One thing I’ll add is everyone has their own opinion on blower fan speed while checking for the 5° difference on the evaporator. What do you recommend on blower speed?

when will part 2 be available

Can't wait for next video
Brilliant thanks for sharing it
👍
SHREWD Royalty Auto Service
From Nick Ayivor from London England UK 🇬🇧 ⏰️ 23:18pm

Bring on Part 2!

where is part 2?

What happened to the series I was anticipating some good lessons.

where is part 2

Please remember
High pressure
Gas ..
Low pressure
Liquid.

Grasias

Where is part 2, etc ?

Did I miss part 2

9 months later and no part 2?

not trying to knock you but its liquid coming to the orifice not a gas. and you have to use lab grade c02 for that testing but thats another subject. and the drier part comes back to how dry you got the system before you charge it. if you pull down to 500 micron and then cut the vacuum and it does not rise above 1000 micron which is the standard for hvac,you will have a dry system. i hope you will do a more professional video after this one

also i no you are under the gun here .iwould not have used the numbers u used for that 20 to 50 degree difference . the coldest that will come out cant be lower than ambient in front of condenser coming in, hot travels to cold is correct. 20 to 50 is a rule of thumb and we no how that goes, does not apply all the time