Membrane processes can be classified in many ways, based on nature, structure or driving force. Hydrostatic pressure differences are used in microfiltration (MF), nanofiltration (NF), reverse osmosis (RO) and gas separation as the driving force for mass transport through the membrane.
Growing range of applications spans the water treatment spectrum
Chem-Aqua to distribute Nephros's ultrafilters in North America
Nephros Inc. and Chem-Aqua Inc., a wholly owned water treatment subsidiary of NCH Corp., announced that they have signed a non-exclusive distributor agreement for Chem-Aqua to distribute Nephros' ultrafilters (UF) in North America. Chem-Aqua is now beginning launch efforts, including scheduling training sessions and promoting UF to the hospital market.
Ultrafiltration (UF) offers an efficient and effective opportunity for treatment of extremely small contaminants. Recent developments in the chemistry and assembly of UF membranes make this technology available for a wide range of applications, from residential to commercial to industrial.
UF membranes provide efficient method for water treatment
This point-of-use, five-stage ultrafiltration (UF) system for residential applications produces cold filtered water with less water waste and lower operational costs compared to typical reverse osmosis systems. The UF system eliminates viruses, bacteria, benzene, chlorine, Cryptosporidium, pesticides and rust. It also reduces algae, chloride, copper, lead and mercury, and leaves healthy minerals in the water.
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Q-SEP hollow-fiber ultrafiltration membranes feature a patented cloud point precipitation process; high-strength hollow-fiber membranes; uniform pore size distribution for consistent water quality; improved filtrate quality; low and consistent SDI; and high bacteria and virus rejection. The membranes are NSF/ANSI Standard 61 certified.
Treating trace contaminants and disinfecting with UV in water reuse