Below is a brief explanation of the most common methods of air filtration in use today.
The most basic form of filtration, the particle is larger than the space between two fibres, and so, cannot follow the airstream through and is captured.
The mechanism by which large, high density particles are captured is called impingement. As the particulate laden air passes through the filter media, the air tends to pass around the fibres. Inertia of the particulate causes it to separate from the airstream to collide with the fibres to which they become attached.
Occurs specifically with the very small particles which follow irregular patterns, in a manner similar to gases, and not necessarily following the airstream. This irregular pattern is known as Brownian motion and increases the particles chance of capture through contact with the fibres.
Only found in synthetic filters, interception occurs when a particle follows the airstream but still attaches itself to the fibre as it passes around it. This is due to the electrostatics force attracting the particle towards the fibre where it is retained.
While two filters may look similar, there can be significant differences beneath the surface – differences that affect the filtration efficiency, pressure drop and service life of each product.
To distinguish between different filters, it is important to understand just how an air filter works. Our SlideShare takes a brief look at the mechanics of filtration – examining what goes on inside a filter’s media and how that impacts air filter design.