High flux, no fiber breakage in spiral wound structure; only replace the membrane core, not the housing.
★Highly anti-pollution specially modified proprietary membrane sheet
Molecular design and precise interfacial polymerization technology —— enhancing the bridging polyamide multi-dimensional structure of the functional separation layer, improving chemical resistance;
Special modified proprietary formula + surface modification treatment technology —— the membrane material approaches electrical neutrality, the membrane surface is smoother, less prone to adsorb pollutants and microorganisms, better anti-pollution performance.
★Anti-pollution membrane element structural design
1.Optimized flow channel design, ensuring uniform distribution of feed water, reducing "dead water" zones within the channels, more resistant to fouling blockages, cleaning frequency reduced by over 40%.
2.Shorter membrane leaves, thus the distance from the membrane bag end to the product water pipe is shorter, the product water permeate flux is more evenly distributed along the membrane sheet, significantly reducing the rate of fouling.
3.Low-pressure drop flow channel design, low initial membrane pressure difference, the time it takes for the cleaning pressure difference to reach the boundary value can be extended by 80%, reducing cleaning frequency.
Model | Ultrafiltration Cut-off Molecular Weight or Pore Size | Effective Membrane Area m² | Flow Channel Type and Width | Appearance |
SPUF-1n-8040-N80-G | 10nm | 18 | Diamond-shaped 80mil | Fiberglass Reinforced Plastic |
SPUF-5n-8040-N30-G | 50nm | 34 | Diamond-shaped 32mil | Fiberglass Reinforced Plastic |
SPUF-10n-8040-N45-G | 100nm | 27 | Diamond-shaped 45mil | Fiberglass Reinforced Plastic |
Mainly used for water supply treatment scenarios, turbidity removal scenarios.
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