# How to check your AC-freon level in 5 easy steps

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How to check your AC-freon level in 5 easy steps

# How to check your AC-refrigerant level in 5 easy steps

– by Albrand Veldhuizen, 12/05/20

Fifteen minutes is all it takes to discover if you have enough refrigerant in your system, even if you’re not an f-gas certified service engineer.

Subcooling and Superheating are two key terms in cooling techniques. All mediums condensate or evaporate at a certain temperature and pressure.

For example, water at sea level condensates/evaporates at 100°C. To be sure that everything is evaporated in a cooling circuit, set the temperature a little higher, such as 110°C. This temperature difference of 10 Kelvin is called superheating.

The same goes for condensation. To make sure all the gases condensate, set the temperature a fraction lower to 95°C.

As a rule of thumb, the temperature difference for superheating and subcooling must be respectively around 10 Kelvin and 5 Kelvin.

If there is too much superheating and too little subcooling; then there is not enough refrigerant in the system. It also works the other way around. Too much subcooling and too little superheating, then there is too much refrigerant in the system.

## Five easy steps

To calculate subcooling and superheating you need a:

### Step 1) Determine the refrigerant type

Check out the type plate on your installation which contains information such as the installation number, number of circuits, global warming potential and refrigerant type.

Image 1: Type plate

The example type plate above shows that this system contains the refrigerant R407C.

### Step 2) Check pressure

Almost every system Heinen & Hopman delivers is equipped with pressure gauges, indicating the suction and discharge pressure, or low and high pressure.

If your system is not fitted with the gauges you can find the suction and discharge pressure in the documentation.

Image 2: Pressure indicators

For this example, we take a suction and discharge pressure of 4.4 bar and 15 bar.

### Step 3) Determine condensation/evaporation temperature

The refrigerant has different condensation and evaporation temperatures at different pressures. A refrigerant slider is used to determine these temperatures.

If you don’t own one, you can download the Danfoss refrigerant slider in the Appstore and Google Play. Or try the web version of the tool.

Set the right refrigerant (R407C in our case). The images below are taken from the web version.

Image 3: evaporation temperature

To calculate the evaporation temperature, set the slide on ‘dew’ and type in the low pressure. The second box shows the corresponding evaporation temperature.

Image 4: condensate temperature

To calculate the condensate temperature, set the slide on ‘bubble’ and type in the high pressure. The second box shows the corresponding condensate temperature. Write down these temperatures.

### Step 4) Measure the temperature on your installation

Use a digital thermometer to measure the temperatures on the installation.

Image 5: scheme installation

Start with superheating, which can be measured on the suction pipe just before the compressor inlet. Subcooling is measured just before the expansion valve.

 Temperature suction pipe before compressor 15°C Temperature discharge pipe before expansion valve 30°C

### Step 5) Calculate subcooling and superheating

Now we have all the data we need to calculate the subcooling and superheating.

Superheating = temp. suction pipe – evaporation temp.
Subcooling = condensation temp. – temp. discharge pipe

Following the data, we have found this gives us the following:

Superheating = 15 – 4.7 = 10.3K

Subcooling = 36.4 – 30.5 = 5.9K

## Conclusion

Are the temperatures within the 10K and 5K range? Then your system is operating with the right amount of coolant. If not, you probably need someone to check it out. You can of course wait until the low-pressure alarm starts but by then you’re definitely too late.

The filling and emptying of an installation with refrigerant may only be carried out by certified personnel.