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How to choose the right power for your air motors ?!

Among other advantages over electric motors, air motors do not require "oversizing" in terms of power, first because there is no risk of overheating, and also because the displayed power of an air motor is the actual power output.

Among other advantages over electric motors, air motors do not require "oversizing" in terms of power, first because there is no risk of overheating, and also because the displayed power of an air motor is the actual power output. This is not the case with electric motors that have a power output that is lower than the apparent power.

How to choose air motor's power? To determine the necessary power, you need to have in mind 3 pieces of information and it’s necessary to know the environment in which the motor will be used to narrow down the choices.

Pressure and available air flow

Available pressure and air flow will determine the power available for the motor. It is an essential element for the application. In general, air motors are designed to operate at a pressure of about 6 bars. If not, the motor will run, but with reduced performance (especially the torque).

The torque required by the application (T)

This torque is determined by the application itself. Knowing the required torque is critical to choosing the right air motor. The first thing to consider is what the motor will be asked to do.

The desired speed (S)

This is the speed we want the motor to turn in "normal" conditions of use, meaning with the application’s nominal torque, the defined pressure, without special constraints (such as blocking or abnormal load applied to the motor). Unlike an electric motor, an air motor adapts speed depending on the required torque.

These 3 characteristics will determine the power required for the application. For a given pressure, the power is a function of the torque and speed by the following relationship:

P = (T x S) / 9.55

With:

P = Power (in watts)

T = Torque (in Newton meters)

S = Speed (in revolutions / minute)

So, if we know at least 2 of these elements (power, torque, speed), we can determine the third!

Once the range of power is specified, we narrow down the choice with respect to the other criteria related to the environment or specific operation constraints.

How to choose the right power for your air motors ?!

Details

  • 26760 Montéléger, France
  • Noémie Michelon

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