Tag: freon

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I feel like that needed to be said before I state these seemingly obvious facts,  but these very obvious facts are so commonly mistaken that it needs to be covered.

Take a look at the two sides of the same hose shown above. The one on the left has a core depressor in the center that is designed to push on the center pin of a schrader core to open the valve and allow flow.

This is why you can take the caps off of refrigerant ports and the refrigerant doesn’t leak out and why the caps, while they are important for keeping dirt out, aren’t there to hold back refrigerant.

I see many new techs remove the wrong side of the hose and connect to the schrader which will NOT ALLOW FLOW.

Some hoses have a core depressor on only one side and some hoses, especially those designed for vacuum and large diameter refrigerant transfer hoses have no core depressor built into the hose ends at all.

In these cases where the hose has no core depressor you must either use a core remover tool and remove the cores to allow flow or to use a core depressor tool like the one from Accutools shown below.  This tool works easily and simply by threading it on the port with the top knob turned all the way out (counter-clockwise). Once you are ready for refrigerant to flow you turn it in clockwise until you have desired flow. These are also handy because they help reduce refrigerant loss and they give you additional charging control to prevent liquid flooding while charging.

Many times this simple mistake of putting the hose on backwards happens when a tech uses a new set of gauges and fails to notice which part of the gauge is the open “port” and which is simply a threaded “park” to hold the hose. The Schrader depressor side should go on the part and the open side on the park.

Automotive A/C is similar with a quick disconnect that should be taken on and off with the knob in the out, back-seated, counter-clockwise position and then turned in or clockwise to open the valve and allow flow. This is a little counter-intuitive to turn a valve in to open a valve but pressing on that schrader pin is what opens the seal and allows refrigerant to flow.

When your readings are off or when you are measuring nothing at all, first check to ensure you are pushing in the schrader before you waste time on more complicated theories.

Keep in mind, there are valves that have no schrader and are opened by turning the stem clockwise. Here is Tech tip and video on that type.

— Bryan

A refrigerant is anything we use to move heat from one place to another using the compression refrigeration circuit, however, the history of refrigerants and the different kinds is quite diverse and interesting.

Have you ever noticed how your skin feels cool after you apply rubbing alcohol to it? For a long time scientists and inventors experimented with substances that evaporated easily at atmospheric pressure like ether and alcohol, they noticed that these substances cooled the surface they left when they evaporated away. It was understood that substances remove heat as they boil (change from liquid to vapor) because that is one way our bodies reject heat while sweating. As the sweat evaporates it removes heat from our skin leaving us cooler.

This is known as an “open” process, the alcohol, ether or sweat leave as it cools so you always need more to keep the process going. The trick was to create a process that could be done over and over without losing the “refrigerant” to the atmosphere.

A physician named John Gorrie built one of the first compression refrigeration machines and it used air as the refrigerant. By compressing the air it would increase in temperature and heat could be rejected out of it, he would then “rarify” or depressurize the air which would drop the temperature and allow heat to be absorbed into the air from the water and could… eventually… produce ice.

There were several issues with Dr. Gorrie’s design, one big issue was that while he was using compression and expansion he wasn’t making use of the power of evaporation to greatly increase the amount of heat that could be moved.

It wasn’t long before others began using refrigerants like ammonia, CO2, sulfur dioxide and methyl chloride using the same compressing and expanding that Dr. Gorrie used but with the added benefit of boiling (evaporating) the refrigerant in the evaporator to absorb a maximum amount of heat as well as the change back to liquid (condensing) in the condenser.

As times have progressed refrigerants have changed in order to make them more safe for humans and for the environment. Nowadays refrigerants and refrigerant handling in the USA are regulated by the EPA Section 608. In order to legally handle and service air conditioning and refrigeration in the USA you need to pass the EPA 608 exam and carry the certification card.

So what makes a good refrigerant? 

A Good Refrigerant –

  • Has high latent heat of vaporization (it moves a lot of heat per lb when it boils and condenses)
  • Boils and condenses at temperatures we can easily manipulate with compression
  • Mixes with the oil appropriately so that the oil can do the job of lubrication in the compressor as well as return.
  • Doesn’t blow stuff up or catch on fire
  • Doesn’t poison people
  • Doesn’t hurt the environment
  • Isn’t too expensive

Because we have seen increased environmental regulations over the last 25 years there has been a push to find good refrigerants even if it means going into the flammable and toxic spectrum.

Thankfully, refrigerants are well marked and so long as we pay attention and follow best practices there shouldn’t be any issues.

The markings are pretty simple

A refrigerants have low toxicity

B refrigerants have high toxicity

1 refrigerants have low flammability

2L refrigerants are only “mildly” flammable

2 refrigerants are low flammability but higher than 2L

3 refrigerants are highly flammable

The most common toxic refrigerant is Ammonia and you would generally only find it in old appliances or in large industrial applications.

Propane (R290) is a flammable refrigerant and it is becoming quite popular in small self-contained refrigeration units like vending machines and reach in coolers. These propane units will be very clearly marked and should be handled with extreme caution, especially when electrical sparks or open flame are or could be present.

— Bryan



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