Urban and rural sewage treatment
As a new separation technology, membrane technology has been widely used in the water treatment industry. However, conventional membrane materials and separation technologies are gradually showing bottlenecks such as low water flux, high pressure, high energy consumption, weak pollution resistance, and short life. Sponge City SHARES adopt new composite materials to optimize and improve traditional membrane materials and effectively solve the bottleneck problem of traditional membrane materials.
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Detailed introduction
As a new separation technology, membrane technology has been widely used in the water treatment industry. However, conventional membrane materials and separation technologies are gradually showing bottlenecks such as low water flux, high pressure, high energy consumption, weak pollution resistance, and short life. Sponge City SHARES adopt new composite materials to optimize and improve traditional membrane materials and effectively solve the bottleneck problem of traditional membrane materials.
Nano-modified MBR membrane bioreactor(n-MBR)
The n-MBR membrane is a lined PVDF curtain membrane, submerged and is typically used in centralized municipal wastewater treatment plants, reclaimed water plants, small integrated MBR domestic wastewater treatment and industrial wastewater treatment.
Nano-modified hollow fiber ultrafiltration membrane n-UF( OWNP-9060)
OWNP-9060 is a nano (microcrystalline) modified hollow fiber ultrafiltration membrane n-UF made of PVDF. It is widely used in the production process of water supply, centralized urban residents' water supply, municipal wastewater reclaimed water treatment and seawater desalination. Can effectively remove bacteria, viruses, fine particles.
Graphene fluid film
PVDF membranes modified with nano-graphene and titanium dioxide nano-materials. The surface of the membrane has high hydrophilicity and strong adsorption capacity of heavy metals, and can self-decompose the deep membrane and surface organic pollutants during operation.
