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Operating Conditions
| Name | Unit | Specification | |
| Model | AD-MFI-B | ||
| Membrane Area | m² | 11/17/22 | |
| Material | Hollow Fiber Membrane | -- | PVDF+PET |
| Sealant Resin | -- | Polyurethane Resin | |
| Support Rod | -- | None | |
| Membrane Box Material | -- | ABS | |
| Membrane Fiber Inner and Outer Diameter | mm | 1.0/2.0 | |
| Membrane Fiber Pore Size | micrometer | 0.1 | |
| Water Turbidity | NTU | <1 | |
| Size | mm | 535*45*1055/1555/2055 | |
| Effective Length of Membrane Fiber | mm | 925/1425/1925 | |
| Name | Unit | Range |
| Operating Temperature | ℃ | 6-35 |
| Operating pH | -- | 6-9 |
| Acid-Base Resistance | -- | pH2-12 |
| Design Flux | L/m² ·h | 15-30 |
| Operating Mode | Negative Pressure Suction | |
| Maximum Transmembrane Pressure Difference | kPa | 45 |
| Gas-Water Ratio | (3-8):1 | |
| Influent Animal and Vegetable Oil | mg/L | <50 |
| Influent Mineral Oil | mg/L | <3 |
| Recommended Sludge Concentration (MLSS) | mg/L | 5000-12000 |
[ Note ]: The specific operating mode should be set according to the characteristics of the influent water quality and operating conditions.
Microfiltration membrane modules have become indispensable components in modern separation technology, offering a unique combination of precision and versatility that addresses critical challenges across multiple industries. These sophisticated filtration systems operate on a physical separation principle, utilizing precisely engineered pores to selectively retain particles while allowing desired components to pass through. The technology's fundamental strength lies in its ability to perform separations without phase change or chemical additives, making it both energy-efficient and environmentally sustainable.
The operational characteristics of microfiltration membranes make them particularly valuable in applications requiring gentle processing conditions. Unlike more aggressive separation methods, microfiltration preserves the essential qualities of the processed medium while effectively removing contaminants. This balance of effectiveness and preservation has led to widespread adoption in sensitive applications ranging from pharmaceutical manufacturing to food processing. The membranes demonstrate remarkable consistency in performance, capable of maintaining stable flux rates over extended periods when properly maintained, with modern designs incorporating advanced materials that resist fouling and extend service life.
Industrial implementations of microfiltration technology reveal its remarkable adaptability. In biopharmaceutical production, these membranes serve as critical components for sterile filtration and cell harvesting, where their ability to maintain product integrity while ensuring absolute sterility proves invaluable. The food and beverage industry has embraced microfiltration as a superior alternative to thermal processing, particularly for products where flavor and nutritional profiles must remain uncompromised. Water treatment applications benefit from the technology's reliability in producing consistent quality effluent, even with variable feed water characteristics, making it particularly suitable for municipal systems serving diverse populations.
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Microfiltration Membrane Module
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Telephone:0512-62808808
E-mail: jsadms@163.com