UF160 Hollow Fiber UF Membrane Water Filter PVC/PVDF/PES/PS Membrane Module
UF-160 series (ultra filtration system) products are mainly used in water purifying, sterilization and turbidity removal, RO pretreatment.
This technology relates to the solid type alloy PVDF hollow fiber membranes, in particular to an ultra-hydrophilic gradient sponge microstructure PVDF hollow fiber membrane, in particular to an ultra-high-strength, super-hydrophilic, ultra-high water flux and ultra-high pollution resistance gradient PVDF hollow fiber UF filtration membrane.
| MODEL | UF90
UF4040 |
UF160
UF6040 |
UF200
UF8040 |
UF8060 | UF250
UF1060 |
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| Size (D x L, mm) | ф90×1175 | Ф160×1420 | Ф200×1475 | Ф200×1800 | Ф250×1715 | |||
| Port Size (D1, mm) | ф32 | Ф40 | Ф50 | Ф50 | Ф50 | |||
| Effective membrane area(m²) | 12 | 32 | 40 | 50 | 70 | |||
| Recommended design flow (m3/H) | 0.5~1.0 | 1.2~1.5 | 1.5~3.0 | 2.0~4.0 | 2.5~5.5 | |||
| Material of UF Membrane | PVDF
Remark : PVDF material same quality as EURO Solvay, Arkema |
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| Capillary Diameter(ID/OD)(mm) | 0.7/1.3 | |||||||
| MWCO (Dalton) | 130K (pore size ≈ 0.03μm) | |||||||
| Output Turbidity③ | <0.1 NTU (Input≤20 NTU) | Output (SDI)② | <1 | |||||
| Type of Filter Path | Outside-In or Inside-Out | Piping Type(connection) | Cross-flow or Dead-end | |||||
| Housing Material | UPVC | Backwash flow (L/m2.h) | 150-200 | |||||
| Potting Material | Epoxy Resin | Backwash TMP (MPa) | 0.08-0.15 | |||||
| Recommedned TMP (MPa) | 0.04-0.08 | Backward flushing time | 20-180s | |||||
| Max feed pressure (MPa) | 0.3 | Backward flushing cycle | 20-60mins | |||||
| Max TPM (MPa) | 0.2 | Forward flush flow (L/m2.h) | 1.5-2 times of output flow | |||||
| Max Backwash Prussure (MPa) | 0.15 | Forward flushing Time | 10-30s | |||||
| Recommended Temperature | 5-50℃ | Forward flushing Cycle | 10-60mins | |||||
| PH | 2 to 13 | Chemicals Flushing Cycle | 60-180days | |||||
| Continuous chlorine resistance | 100ppm, PVDF(500) | Chemicals Flushing Time | 15-120mins | |||||
| Discontinuous chlorine resistance | 300ppm, PVDF(1000) | Chemicals | Citric acid,NaOH / NaClO,H2O2 | |||||
Why choose UF membrane?
UF Membrane water treatment technology has the characteristics of high efficiency and energy saving. To some certain extent, the popularization and application coverage of membrane separation technology reflects the level of energy use and environmental protection of a country and region. It is also a guaranteed means for the sustainable development of society. Therefore, The strategic position of membrane separation technology is very prominent.
The key point to UF membrane water treatment is the microporous structure and surface properties of the membrane material. Scientists around the world proceed from the selection of materials and the optimization of the membrane-making process in order to prepare membrane separation materials with excellent performance.
Accessing a membrane have a good practical value should depend on the following few points:
High retention rate and high water permeability rate;
Strong resistance to physical, chemical and microbial attack;
Flexible and sufficient mechanical strength;
Resistant to high temperature
Excellent anti-pollution;
Good resistance to chlorine and other oxides;
Long service life and withstand a wide range of pH value;
Low operating pressure
Easy to store and transport;
Convenient preparation and industrialized production;
Dry and wet reversible.
Why use the membrane to filter wastewater?
Obtaining membrane separation materials with excellent separation selectivity and higher permeability has always been the goal pursued by membrane scientists and engineers. Through research on hollow fiber membranes from the selection of membrane-forming materials, optimization of process parameters, surface post-treatment, and design of membrane modules in scientific research institutions all over the world in recent decades, the overall performance of hollow fiber ultrafiltration membranes and microfiltration membranes has been improved greatly.
Recently, the high-end ultra-hydrophilic and excellent membrane pore microstructure separation membranes are mainly produced by few international famous companies. Including XP series hydrophilic hollow fiber ultrafiltration membranes from DuPont -Dow, HYDRAcap series hydrophilic hollow fiber ultrafiltration membranes produced by Nitto/hydraulics, DICP series polyvinylidene fluoride hydrophilic ultrafiltration membrane from Toray. Targa series hollow ultrafiltration membrane produced by Koch and hydrophilic hollow fiber ultrafiltration membrane from SUEZ (GE). Therefore, these few international well-known brands firmly occupy the high-end market of ultrafiltration membranes.
Why choose Hydro blue?
In recent years, Chinese ultrafiltration and microfiltration membranes have also improved to a certain extent in terms of material types, membrane structure and performance, etc. However, Chinese companies are still lacking a high-performance ultra / micro-membrane for water treatment with excellent comprehensive properties such as super-hydrophilicity, high anti-pollution, high strength, high throughput, low membrane pressure and long-term service stability. These high-end membranes still rely heavily on foreign brands. This situation greatly limits Chinese membrane’s service lifespan and application fields.
But now, Hydro blue already became one of the best wastewater treatment suppliers in China. Our technology can directly filter out pure drinking water by using membrane technology, we hope we can use our technology to make everyone can drink pure water all over the world. Choose Hydro blue, choose Life.
Aiming at the shortcomings of existing technology, hydro blue have developed a high performance ultrafiltration membrane with properties of gradient pore microstructure, super-hydrophilicity, high anti-pollution, high strength, high flux, low trans-membrane pressure and long-term service stability. All comprehensive performance has reached the level of these internationally well-known companies in Europe, the USA and Japan.
the micro nano beads network structure (Figure1) is gradually increased from the outer surface to the inner surface along the radial section of the hollow fiber membrane. this network structure can significantly reduce the water permeation resistance, thereby significantly increasing water flux.
Gradient Pore Microstructure
In this technology, the amphiphilic modified silicone material provides excellent and continuous hydrophilicity for the hollow fiber membrane, thereby reducing the water permeability resistance and improving the membrane’s anti-fouling ability.
- UF Membrane Specification
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MODEL UF90 UF4040
UF160 UF6040
UF200 UF8040
UF8060 UF250 UF1060
Size (D x L, mm) ф90×1175 Ф160×1420 Ф200×1475 Ф200×1800 Ф250×1715 Port Size (D1, mm) ф32 Ф40 Ф50 Ф50 Ф50 Effective membrane area(m²) 12 32 40 50 70 Recommended design flow (m3/H) 0.5~1.0 1.2~1.5 1.5~3.0 2.0~4.0 2.5~5.5 Material of UF Membrane PVDF Remark : PVDF material same quality as EURO Solvay, Arkema
Capillary Diameter(ID/OD)(mm) 0.7/1.3 MWCO (Dalton) 130K (pore size ≈ 0.03μm) Output Turbidity③ <0.1 NTU (Input≤20 NTU) Output (SDI)② <1 Type of Filter Path Outside-In or Inside-Out Piping Type(connection) Cross-flow or Dead-end Housing Material UPVC Backwash flow (L/m2.h) 150-200 Potting Material Epoxy Resin Backwash TMP (MPa) 0.08-0.15 Recommedned TMP (MPa) 0.04-0.08 Backward flushing time 20-180s Max feed pressure (MPa) 0.3 Backward flushing cycle 20-60mins Max TPM (MPa) 0.2 Forward flush flow (L/m2.h) 1.5-2 times of output flow Max Backwash Prussure (MPa) 0.15 Forward flushing Time 10-30s Recommended Temperature 5-50℃ Forward flushing Cycle 10-60mins PH 2 to 13 Chemicals Flushing Cycle 60-180days Continuous chlorine resistance 100ppm, PVDF(500) Chemicals Flushing Time 15-120mins Discontinuous chlorine resistance 300ppm, PVDF(1000) Chemicals Citric acid,NaOH / NaClO,H2O2 - Why We Do
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Why choose UF membrane?
UF Membrane water treatment technology has the characteristics of high efficiency and energy saving. To some certain extent, the popularization and application coverage of membrane separation technology reflects the level of energy use and environmental protection of a country and region. It is also a guaranteed means for the sustainable development of society. Therefore, The strategic position of membrane separation technology is very prominent.
The key point to UF membrane water treatment is the microporous structure and surface properties of the membrane material. Scientists around the world proceed from the selection of materials and the optimization of the membrane-making process in order to prepare membrane separation materials with excellent performance.
Accessing a membrane have a good practical value should depend on the following few points:
High retention rate and high water permeability rate;
Strong resistance to physical, chemical and microbial attack;
Flexible and sufficient mechanical strength;
Resistant to high temperature
Excellent anti-pollution;
Good resistance to chlorine and other oxides;
Long service life and withstand a wide range of pH value;
Low operating pressure
Easy to store and transport;
Convenient preparation and industrialized production;
Dry and wet reversible.Why use the membrane to filter wastewater?
Obtaining membrane separation materials with excellent separation selectivity and higher permeability has always been the goal pursued by membrane scientists and engineers. Through research on hollow fiber membranes from the selection of membrane-forming materials, optimization of process parameters, surface post-treatment, and design of membrane modules in scientific research institutions all over the world in recent decades, the overall performance of hollow fiber ultrafiltration membranes and microfiltration membranes has been improved greatly.
Recently, the high-end ultra-hydrophilic and excellent membrane pore microstructure separation membranes are mainly produced by few international famous companies. Including XP series hydrophilic hollow fiber ultrafiltration membranes from DuPont -Dow, HYDRAcap series hydrophilic hollow fiber ultrafiltration membranes produced by Nitto/hydraulics, DICP series polyvinylidene fluoride hydrophilic ultrafiltration membrane from Toray. Targa series hollow ultrafiltration membrane produced by Koch and hydrophilic hollow fiber ultrafiltration membrane from SUEZ (GE). Therefore, these few international well-known brands firmly occupy the high-end market of ultrafiltration membranes.
Why choose Hydro blue?
In recent years, Chinese ultrafiltration and microfiltration membranes have also improved to a certain extent in terms of material types, membrane structure and performance, etc. However, Chinese companies are still lacking a high-performance ultra / micro-membrane for water treatment with excellent comprehensive properties such as super-hydrophilicity, high anti-pollution, high strength, high throughput, low membrane pressure and long-term service stability. These high-end membranes still rely heavily on foreign brands. This situation greatly limits Chinese membrane’s service lifespan and application fields.
But now, Hydro blue already became one of the best wastewater treatment suppliers in China. Our technology can directly filter out pure drinking water by using membrane technology, we hope we can use our technology to make everyone can drink pure water all over the world. Choose Hydro blue, choose Life.
- What We Have Done
-
Aiming at the shortcomings of existing technology, hydro blue have developed a high performance ultrafiltration membrane with properties of gradient pore microstructure, super-hydrophilicity, high anti-pollution, high strength, high flux, low trans-membrane pressure and long-term service stability. All comprehensive performance has reached the level of these internationally well-known companies in Europe, the USA and Japan.
the micro nano beads network structure (Figure1) is gradually increased from the outer surface to the inner surface along the radial section of the hollow fiber membrane. this network structure can significantly reduce the water permeation resistance, thereby significantly increasing water flux.
Gradient Pore Microstructure
In this technology, the amphiphilic modified silicone material provides excellent and continuous hydrophilicity for the hollow fiber membrane, thereby reducing the water permeability resistance and improving the membrane’s anti-fouling ability.
