Around 1.5 units per hour, provided the compressor is on.
This is a rough estimate, your actual power consumption varies every single second. Let’s discuss in a little deeper and see how these things relate to each other.
If you carefully look at your AC unit, you’ll see a label like this :
The power rating printed on such a label is when the AC is under a stable load, the current is constant, the compressor is working, there’s no back emf being produced in the induction coils, and above all the supply voltage is exactly equal to 230 volts at 50 Hz.
In this stable state, the AC unit is consuming 1.5 units of electricity per hour.
That said, not always is the compressor running. If your AC has a thermostat and a temperature setting, once the ambient room temperature reaches to the set limit, the compressor shuts off and only the circulating fans work.
in this case, the power consumption is almost equal to a ceiling fan, with my test bench, I got readings around 0.3 amps at 230 volts. That is equal to 0.06 units per hour, almost equal to an 80-watt incandescent bulb.
Another test I conducted: Under extreme load, at a room temperature of about 32 degree Celsius, the power consumption rose to almost 1.8 units per hour or 1800 watts.
How do you calculate your power consumption :
The commercial unit of electricity is kWh, also called as BTU (Board of trade Unit), which equals to one-kilowatt load used for 1 hour.
Units = Power in Watts * time in seconds / 3600000
You can guess the power consumption by these steps :
For while the compressor is working :
Note down the peak power usage from the label of your AC unit.
Now do the following maths: Units Consumed = Power * Hours of usage / 1000
Calculate your projected consumption part 1
For while the circulating fan is working :
Take the power usage in this case as an average of 80 W.
Do the following maths: Units consumed = 80 * Hours of usage while the compressor is off / 1000
Calculate your projected consumption part 2