What factors does the friction and windage loss depend upon?

Friction and windage losses are forms of mechanical losses found primarily in rotating machinery, including motors, generators, and turbines. These losses contribute to the overall inefficiency of a machine by converting mechanical energy into heat. The factors upon which friction and windage losses depend include:

1. Surface Roughness: The rougher the surfaces in contact, the higher the friction losses. This is due to microscopic peaks and valleys that must overcome each other when surfaces move relative to one another.

2. Speed of Rotation: Generally, both friction and windage losses increase with the speed of rotation. For friction, this is because the surfaces are in contact more frequently within a given period. For windage, faster rotation speeds result in more air being displaced, increasing air resistance.

3. Shape and Size of Components: The design of rotating components influences windage losses. Larger components and those not designed with aerodynamics in mind will face greater air resistance. Similarly, the interface designs of mechanical parts influence friction losses.

4. Viscosity of the Lubricant: In cases where lubrication is used to reduce friction, the viscosity of the lubricant plays a crucial role. Too high viscosity can lead to increased resistance between moving parts, while too low viscosity might not provide sufficient separation, increasing wear and friction.

5. Load: The load on the machine can affect both friction and windage losses. Higher loads can increase friction by pushing surfaces closer together, while also potentially altering the airflow dynamics