<Li> Filtration, as a physical operation is very important in chemistry for the separation of materials of different chemical composition . A solvent is chosen which dissolves one component, while not dissolving the other . By dissolving the mixture in the chosen solvent, one component will go into the solution and pass through the filter, while the other will be retained . This is one of the most important techniques used by chemists to purify compounds . </Li> <Li> Filtration is also important and widely used as one of the unit operations of chemical engineering . It may be simultaneously combined with other unit operations to process the feed stream, as in the biofilter, which is a combined filter and biological digestion device . </Li> <Li> Filtration differs from sieving, where separation occurs at a single perforated layer (a sieve). In sieving, particles that are too big to pass through the holes of the sieve are retained (see particle size distribution). In filtration, a multilayer lattice retains those particles that are unable to follow the tortuous channels of the filter . Oversize particles may form a cake layer on top of the filter and may also block the filter lattice, preventing the fluid phase from crossing the filter (blinding). Commercially, the term filter is applied to membranes where the separation lattice is so thin that the surface becomes the main zone of particle separation, even though these products might be described as sieves . </Li> <Li> Filtration differs from adsorption, where it is not the physical size of particles that causes separation but the effects of surface charge . Some adsorption devices containing activated charcoal and ion exchange resin are commercially called filters, although filtration is not their principal function . </Li>

Filtration is a better method of purification as compared to decantation