Water Filters Explained

By Admin on Wed 24 May 2017 in Water Filtration FAQ's

How Water Filters Operate

Almost all water filters operate through transferring water via a filtration system eliminating or neutralising pollutants.

Physical barrier filters eradicate suspended contaminants like mud, silt, sand or rust. Physical water filters are measured by microns. The lower the micron number, the more varieties of particles the filter can remove.

Chemical treatments are able to eradicate or neutralise damaging contaminants. Dependent upon the kind of contaminant, the water filter elements can incorporate activated charcoal, copper or zinc.

Ultraviolet is able to remove bacteria, viruses in addition to pathogens inside of water. The ultraviolet light is often located within a container where water is tackled either while in storage or is run all the way through an ultraviolet container.

Water Filter Types

You’ll find many different types of water filters ranging from carbon block, reverse osmosis through to to ultraviolet treatment options.

With Carbon Block water filters water is forced through the microscopic holes within the densely compacted carbon block. This type of merged mechanised purification, electro-kinetic adsorption, as well as physical/chemical adsorption assist with the elimination of chlorine in addition to numerous impurities. Carbon block water filtration techniques require no electrical power, and do not require salt or silver to be added into the water.

Activated Carbon will help eliminate chlorine, however, activated carbon filters aren’t considered to be proficient for decreasing contaminants.

Reverse Osmosis functions by driving water through semi-permeable membrane which is built to allow individual water molecules to pass, whilst rejecting contaminants. Reverse osmosis membranes also allow oxygen to pass through the membrane layer.

Ultraviolet Treatment involves subjecting water to Ultraviolet radiation.This process is extremely effective at eliminating a vast amount of bacterial pollutants.