SPECIFICATIONS
| Membrane Specifications |
Model |
Pentair X-Flow Aquaflex 64 |
| Material |
PES |
| Active Membrane Area |
64 m2 |
| Nominal Pore Size |
0.01um |
| Hollow Fiber Inner/Outer Diameter |
0.66/1.2 mm |
| Membrane Module Specifications |
Model Dimensions D×L |
φ220*1902mm |
| Inlet & Outlet Connection Size |
DN50 |
| Material |
Housing Material |
U-PVC |
| End Encapsulation Material |
Epoxy resin/Polyurethane |
| Weight |
Membrane Weight (Wet) |
58kg |
| Operation Conditions |
Temperature |
1~40ºC |
| Turbidity |
≤ 300 NTU |
| pH |
2-10 |
| Type of Filtration |
Dead-end or Cross-flow filtering |
| Max. NaClO concentration |
5,000ppm |
| Design Flux |
30~120 L/ m2·pc |
| Air Scour-Feed Pressure |
4~12 Nm3/h·pc |
| Max. Inlet Pressure |
0.3 MPa |
| Max. Transmembrane Pressure |
0.2 MPa |
| Quality of Permeate Water |
Turbidity |
≤ 0.1 NTU |
| SDI15 |
≤ 3 |
*Pentair X-Flow AquaFlex 64** is an ultrafiltration (UF) membrane module widely used in water treatment systems. It employs advanced ultrafiltration technology to effectively remove suspended solids, bacteria, viruses, and other contaminants from water. It is suitable for various applications, including industrial, municipal, and drinking water treatment.
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### **Key Features**
1. **Ultrafiltration Technology**:
- Utilizes hollow fiber membranes with a pore size of approximately 0.02 microns.
- Efficiently removes particles, pathogens, and colloidal substances.
2. **High-Efficiency Filtration**:
- Delivers consistent water quality with high flux rates.
- Operates at low pressure, ensuring energy efficiency.
3. **Compact Design**:
- Modular design saves space and allows for easy installation and expansion.
4. **Durability**:
- Membrane materials are resistant to chemical corrosion and fouling.
- Suitable for challenging water conditions.
5. **Easy Maintenance**:
- Supports backwashing and chemical cleaning for simple maintenance.
- Reduces downtime and operational costs.
6. **Wide Range of Applications**:
- Drinking water treatment.
- Wastewater reuse and recycling.
- Pretreatment for reverse osmosis (RO) systems.
- Industrial process water treatment.
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### **Technical Specifications**
- **Membrane Material**: Polyethersulfone (PES) or other high-performance materials.
- **Pore Size**: Approximately 0.02 microns.
- **Operating Pressure**: Typically 0.5 to 3 bar.
- **Temperature Range**: 5°C to 40°C (41°F to 104°F).
- **pH Range**: Operating pH 4-10, cleaning pH 2-12.
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### **Maintenance and Operation**
- **Backwashing**: Regularly perform backwashing to remove contaminants from the membrane surface.
- **Chemical Cleaning**: Use appropriate chemical agents for cleaning based on operational conditions.
- **Monitoring**: Regularly monitor transmembrane pressure (TMP) and flux to ensure efficient system performance.
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### **Applications**
1. **Municipal Water Supply**: Provides safe and clean drinking water.
2. **Industrial Water Treatment**: Used for circulating water, process water, and wastewater treatment.
3. **Wastewater Reuse**: Treats wastewater into high-quality reusable water.
4. **Seawater Desalination Pretreatment**: Serves as a pre-filtration step for reverse osmosis systems, extending RO membrane life.
About Suoai
SUOAI's multihole membrane technology has brought significant innovation to the field of drinking water purification. Through a unique design, the company successfully combined seven capillaries into one membrane fiber, forming a tight support layer. This innovation not only enhances the structural stability of the membrane but also significantly improves its performance.
Certificate
Advantages of Multihole Membranes
1. **Structural Stability**:
- The design of porous membranes makes their structure more stable. Traditional single-hole membranes may easily break or become damaged under long-term operation or extreme conditions such as high pressure and high temperature. However, porous membranes, through the combination of multiple capillaries, form a more solid unit, effectively reducing the risk of filament breakage.
2. **Operational Safety**:
- Due to their higher structural stability, porous membranes significantly improve safety during operation. This means that drinking water purification systems can run more stably, reducing the potential risk of contamination caused by membrane damage.
3. **Reduced Maintenance and Repair Costs**:
- The stable structure of porous membranes reduces the frequency of maintenance and repairs. Compared to traditional single-hole membranes, porous membranes are less likely to experience problems during long-term operation, thereby lowering the costs of maintenance and replacement. This is a significant advantage for operators of drinking water purification systems, as reduced maintenance costs can directly translate into improved economic benefits.
Impact on the Field of Drinking Water Purification
SUOAI's Multihole membrane technology not only enhances the efficiency and quality of drinking water purification but also brings new directions for the entire industry. By reducing maintenance and repair costs, this technology helps lower the overall cost of drinking water purification, making high-quality drinking water accessible to more people. Additionally, the stability and safety of porous membranes provide greater confidence and assurance to operators of drinking water purification systems.
Conclusion
In summary, SUOAI's Multihole membrane technology has brought revolutionary changes to the field of drinking water purification. Through its unique structural design and exceptional performance, it successfully addresses the issues of stability and maintenance costs associated with traditional single-hole membranes. With the continuous promotion and application of this technology, we have reason to believe that the future of drinking water purification will be even brighter and more sustainable.
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