RM 0.00

Flowrate: 3000-5000L/Hr

* Membrane Pore Size of 0.01 Micron, to prevent penetration of harmful particles.

* Filter up to 0.01 micron.

* Stainless steel body can withstand high water pressure & direct sunlight without cracking.

* Water purity of up to 99.99%.

 * Latest KOREAN Technology 

* Super slim, easily fit at apartments meter room & kitchens under sink.

*Compact & Low maintenance

* Function meets style with its innovative design.

*Housing material : 304 stainless steel with stainless steel end cap

Ultrafiltration (UF) is a type of membrane filtration in which hydrostatic pressure forces a liquid against a semipermeable membrane. A semipermeable membrane is a thin layer of material capable of separating substances when a driving force is applied across the membrane. Once considered a viable technology only for desalination, membrane processes are increasingly employed for removal of bacteria and other microorganisms, particulate material, and natural organic material, which can impart color, tastes, and odours to the water and can react with disinfectants to form disinfection by-products (DBP). As advancements are made in membrane production and module design, capital and operating costs continue to decline.

Ultrafiltration uses hollow fibers of membrane material and the feed water flows either inside the shell, or in the lumen of the fibers. Suspended solids and solutes of high molecular weight are retained, while water and low molecular weight solutes pass through the membrane. This separation process is used in industry and research for purifying and concentrating macromolecular (103 - 106 Da) solutions, especially protein solutions. Ultrafiltration is not fundamentally different from reverse osmosis, microfiltration or Nano filtration, except in terms of the size of the molecules it retains. When strategically combined with other purification technologies in a complete water system, UF is ideal for the removal of colloids, proteins, bacteria, pyrogens, proteins, and macromolecules larger than the membrane pore size from water. The primary removal mechanism is size exclusion, though surface chemistry of the particles or the membrane may affect the purification efficiency. UF can be used as pre-treatment for reverse osmosis systems or as a final filtration stage for deionized water.