Hollow Fiber Ultrafiltration Membranes Package UF Plant

Hollow fiber ultrafiltration(UF) membrane is one of the most natural and advanced ultrafiltration technologies from hollow fiber filter manufacturers. The nominal pore size is 0.001~0.1 μm. The micropores distribute around the wall of the membrane. The entrapping molecular weight scale is about several thousand to ten thousand. The water flows from the outside of the membrane to the inside, it is the outer pressure type. In adverse, it is inside pressure type. Ultrafiltration is a dynamic process, and the entrapping matter can be drained out following the concentration of water.

Hollow fiber UF membrane filter to clarify, concentrate and purity the streams with filtration challenges involve suspended solids, bacteria, or high concentrations of macromolecules. These high-tech membranes are widely used in a variety of water treatment and wastewater recycling applications.

Recycling benefits

In addition to providing a reliable, locally controlled water supply, water recycling provides a lot of environmental benefits, which is why there are a lot of ultrafiltration membrane suppliers. This method is able to lessen the usage of water from delicate ecosystems, which means that there is enough water flow to plants and wildlife. The lack of adequate flow would be the cause of the decay of both water quality and the wellness of the ecosystem. It is possible for people to fulfill their water demands by using recycled water and the environmental repercussions of this choice would be great.  It would free substantial amounts of water for the environment. Other environmental benefits include a reduction in wastewater discharges and reducing pollution. Ultrafiltration is used by some companies to decrease costs. In the long run, this type of method will justify the initial capital investment, the potential replacement costs and maintenance of the system. So the benefits described are not all, as some might be intangible.

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 guarantee means for sustainable development of society. Therefore, The strategic position of membrane separation technology is very prominent.

The key point to 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 a 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 wide range of pH value;
  • Low operating pressure
  • Easy to store and transport;
  • Convenient preparation and industrialized production;
  • Dry and wet reversible.

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/hydranautics, 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.

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.

Aiming at the shortcomings of existing technology, hydroblue 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 international well-known companies in Europe, USA and Japan.

the micronano beads network structure (Figure1) is gradually increase 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.

Product Specification

Recycling benefits

In addition to providing a reliable, locally controlled water supply, water recycling provides a lot of environmental benefits, which is why there are a lot of ultrafiltration membrane suppliers. This method is able to lessen the usage of water from delicate ecosystems, which means that there is enough water flow to plants and wildlife. The lack of adequate flow would be the cause of the decay of both water quality and the wellness of the ecosystem. It is possible for people to fulfill their water demands by using recycled water and the environmental repercussions of this choice would be great.  It would free substantial amounts of water for the environment. Other environmental benefits include a reduction in wastewater discharges and reducing pollution. Ultrafiltration is used by some companies to decrease costs. In the long run, this type of method will justify the initial capital investment, the potential replacement costs and maintenance of the system. So the benefits described are not all, as some might be intangible.

Why We Do

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 guarantee means for sustainable development of society. Therefore, The strategic position of membrane separation technology is very prominent.

The key point to 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 a 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 wide range of pH value;
  • Low operating pressure
  • Easy to store and transport;
  • Convenient preparation and industrialized production;
  • Dry and wet reversible.

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/hydranautics, 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.

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.

What We Have Done

Aiming at the shortcomings of existing technology, hydroblue 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 international well-known companies in Europe, USA and Japan.

the micronano beads network structure (Figure1) is gradually increase 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.

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