What is Perlite Filter Aid Filtration?


Filtration is the separation of solids from liquids by forcing the liquid to flow through a porous medium and depositing the solids on the medium. A filter aid is a finely divided material which, when added to the liquor to be filtered, helps control flow and solids removal. The septum, usually screen or cloth, serves principally as a support for the cake.
The filter aid forms a porous layer on the septum and thus the filter aid is the filtering medium that traps the solids being removed and prevents them from blinding the septum. Filter aid filtration is mechanical, not chemical in nature. Irregularly shaped particles interlace and overlay in a fashion that leaves up to 90% voids or open spaces. These voids form billions of microscopically fine interstices between the filter aid particles. The size of these openings is so minute that the unwanted solids are strained from the liquid. The vast number of openings compensates for their small size resulting in fast flow rates and brilliant clarity.

Good filter aids are light in weight, chemically inert and form high porosity filter cakes to maintain free flow of the liquid. The Structure of the particles must be such that they will not pack too closely. This not only permits high initial liquid flow but also provides pore spaces to trap and contain the filterable solids and leave a high percentage of channels remaining open for flow.

Particle size distribution must be tailored to permit precoating on coarse wire and yet give the desired flow rate and clarity. Nordisk Perlites filter aids meet these criteria. They are available in variety of grades to suit the solids removal requirement of any application.



Particles removed by Nordisk Perlite products:


      Typical size of particles removed by              

   Nordisk Perlite products

Particle size in micron













Type 180























Type 150





















Type 80





















Type 60





















Type 50





















** 0,2 micron is the theoretical limit for optical microscope






Nordisk Perlite ApS År 2016