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Made from polymeric materials like polyethylene and PTFE, flat sheet membranes are designed for use in water treatment applications. These membranes efficiently filter out contaminants by allowing water to pass through while trapping harmful particles. With their adaptability to various filtration needs, they are commonly used in wastewater treatment, desalination, and municipal water reuse, offering a reliable solution for clean water management.
| TYPE | Membrane Area (m²) | L | W | T |
|---|---|---|---|---|
| SINAP10 | 0.1 | 320 | 220 | 6 |
| SINAP40 | 0.4 | 530 | 490 | 6 |
| SINAP80 | 0.8 | 1000 | 490 | 7 |
| SINAP100 | 1.0 | 1250 | 490 | 7 |
| SINAP150 | 1.5 | 1750 | 490 | 7 |
Large Surface Area: Designed to manage higher volumes of wastewater, making it ideal for large-scale municipal treatment plants.
Enhanced Pollutant Resistance: The asymmetrical pore structure ensures resistance to fouling, even in demanding wastewater conditions.
Efficient Air Scouring: The process reduces fouling, improves membrane lifespan, and minimizes maintenance needs.
Municipal Wastewater Treatment: Used in large plants in the UK and Malaysia for effective sewage treatment.
Heavy Industrial Waste: Suitable for industries such as automobile manufacturing and palm oil production, handling high effluent volumes.
Water Reclamation: Commonly used in municipal water recycling plants in urban areas.
A: The SINAP80’s large membrane area and superior fouling resistance make it perfect for handling high volumes of wastewater.
A: Yes, it supports in-situ chemical cleaning using various chemicals, ensuring long-term operation.
A: Its advanced asymmetric structure provides superior resistance to fouling compared to many other membranes.
Made from polymeric materials like polyethylene and PTFE, flat sheet membranes are designed for use in water treatment applications. These membranes efficiently filter out contaminants by allowing water to pass through while trapping harmful particles. With their adaptability to various filtration needs, they are commonly used in wastewater treatment, desalination, and municipal water reuse, offering a reliable solution for clean water management.
| TYPE | Membrane Area (m²) | L | W | T |
|---|---|---|---|---|
| SINAP10 | 0.1 | 320 | 220 | 6 |
| SINAP40 | 0.4 | 530 | 490 | 6 |
| SINAP80 | 0.8 | 1000 | 490 | 7 |
| SINAP100 | 1.0 | 1250 | 490 | 7 |
| SINAP150 | 1.5 | 1750 | 490 | 7 |
Large Surface Area: Designed to manage higher volumes of wastewater, making it ideal for large-scale municipal treatment plants.
Enhanced Pollutant Resistance: The asymmetrical pore structure ensures resistance to fouling, even in demanding wastewater conditions.
Efficient Air Scouring: The process reduces fouling, improves membrane lifespan, and minimizes maintenance needs.
Municipal Wastewater Treatment: Used in large plants in the UK and Malaysia for effective sewage treatment.
Heavy Industrial Waste: Suitable for industries such as automobile manufacturing and palm oil production, handling high effluent volumes.
Water Reclamation: Commonly used in municipal water recycling plants in urban areas.
A: The SINAP80’s large membrane area and superior fouling resistance make it perfect for handling high volumes of wastewater.
A: Yes, it supports in-situ chemical cleaning using various chemicals, ensuring long-term operation.
A: Its advanced asymmetric structure provides superior resistance to fouling compared to many other membranes.