KR20130088299A - Plate membrane module having an improved resistant contamination - Google Patents

Abstract

PURPOSE: A membrane module with improved staining resistance, and a waste water processing method using the same are provided to take a flexible supporting material for a membrane, and to dropping contaminants off the surface of the membrane with the flexibility, thereby increasing the efficiency on obtaining treated water. CONSTITUTION: A membrane module comprises: a supporting material (160); a nonwoven spacer laminated on both outsides of the supporting material; and a membrane (130). The supporting material comprises a supporting material having flexibility. A waste water processing method using the membrane module comprises the step of using a waste water advanced treatment. The processing method uses the supporting material, nonwoven spacer and membrane.

Description

Flat membrane module having an improved stain resistance and a method of treating wastewater using the same

The present invention relates to a flat membrane module having improved fouling resistance and a method for treating wastewater using the same, and more particularly, to providing a fluidity to a support for supporting a flat membrane to quickly remove contaminants on the surface of the flat membrane, thereby improving treatment efficiency. The improved flat membrane module and a method for treating wastewater using the same.

In general, domestic sewage, animal husbandry wastewater, and industrial wastewater are highlighted as environmental problems due to water quality. Recently, as the interest in environmental problems is recognized, effective treatment of drinking water and wastewater has emerged as an important social concern. Accordingly, various methods for producing drinking water and wastewater treatment methods have been developed.

Since the waste water is purified after a certain treatment in a sewage treatment plant, etc., it is discharged to a river, etc. In a sewage treatment plant, various treatment systems are applied to purify such waste water.

Drinking water is also consumed directly by everyone, and various methods of water purification have been proposed to protect from foreign substances and bacteria in the manufacture of drinking water. Among them, waste water that combines biological treatment with physical and chemical treatment Advanced processing.

In the wastewater advanced treatment method, organic matter is decomposed using microorganisms, and contaminated water is purified by removing nitrogen compounds or phosphorus compounds in the contaminated water. It is a flat membrane module for water treatment that is used in one of such advanced treatment methods.

The membrane module for water treatment is to treat wastewater including sewage, sewage and agricultural wastewater, livestock wastewater, industrial wastewater, etc. using a membrane, and the membrane is a porous membrane, a microporous membrane, a homogeneous membrane according to its structure. And the like, and classified into a microfiltration membrane, an ultrafiltration membrane, a reverse osmosis membrane, a gas separation membrane, a permeation evaporation membrane, and the like depending on the use.

In addition, the membrane is classified into a plate module, a tubular module, a hollow fiber module, a spiral wound module, and the like according to its shape.

Here, the flat module refers to a flat membrane module formed on a flat surface or a sheet in a suction type, and contaminants do not easily adhere to each other, and contaminants are easily removed, and the membrane may be damaged during operation compared to the hollow fiber membrane module. There is little concern, and thus, there is an advantage that the operating cost is also low. The flat membrane module is selected according to the conditions such as membrane filling rate, allowable raw water solute concentration, physical cleaning resistance, and removal efficiency, and an important factor in the structure and design of the flat membrane module is permeate membrane area per unit volume.

To increase the permeation efficiency as described above, the flat membrane module forms a flow path through which treated water can flow on one or both surfaces to maximize the permeation efficiency of the fluid, and forms an outlet hole for inflow and discharge of the treated water on one side of the edge. It consists of a support and a porous membrane which adheres and covers the surface of the support.

Existing flat membrane module has a structure in which a non-woven fabric for spacers and a flat membrane are sequentially stacked on both sides of the support in the center of the support, which is described in detail by separating the elements, and the support is positioned in the center and folded in two layers outside the support. The nonwoven fabric is laminated in order to prevent adhesion between the flat membrane and the support by suction pressure, and the flat membrane for water treatment is sequentially stacked on the outside thereof, and the outflow hole is formed in the upper side edge, thereby forming the flat membrane module.

Due to the above structure, the fluid permeation efficiency of the flat membrane module can be increased, but as permeation progresses, contaminants adhere to the flat membrane, thereby decreasing permeation efficiency. Therefore, in order to prevent this, the permeate through the flat membrane is flowed in a reverse direction while aeration is performed at the bottom of the flat membrane module to remove contaminants attached to the surface of the flat membrane. There is a problem.

Therefore, various efforts have been made to solve such a problem, for example, Korean Patent Publication No. 2009-0131715 relates to a flat membrane cartridge, "In the flat membrane cartridge, the treated water on one or both surfaces A support plate which forms a flow path and forms an outlet hole for inflow and outflow of the treated water on one side of the edge, a separator that covers and adheres to the surface of the support plate, and is attached to an inner or outer surface of the separator Carbon sheet; wherein the activated carbon sheet is a flat film cartridge, characterized in that it is made of any one of the form of felt, nonwoven, paper, and knitted form.

However, the above-described conventional technology not only increases manufacturing costs, but also has a disadvantage that it is still not satisfactory with an effective method of removing contaminants.

Patent Document 1: Republic of Korea Patent Publication No. 2009-0131715

Accordingly, the present invention has been proposed to solve the problems of the prior art presented above in view of the above-described situation of the prior art, and the main object of the present invention is to effectively remove the contaminants attached to the flat membrane in the flat membrane module, thereby improving permeation efficiency. It is to provide a flat membrane module with improved pollution resistance.

Another object of the present invention is to provide a method for treating wastewater using a flat membrane module having improved pollution resistance.

The present invention may also be directed to accomplishing other objects that can be easily derived by those skilled in the art from the overall description of the present specification, other than the above-described and obvious objects.

The purpose of the present invention described above, aeration from the bottom of the flat membrane module while flowing the permeate permeate through the conventional flat membrane to remove the contaminants attached to the surface of the flat membrane, if the flat membrane has the flexibility to remove the contaminants by aeration It is conceived that the present invention can be more and more efficient, whereby the inventors and the like have made a thorough study to achieve the object of the present invention. It could be achieved by providing a flat membrane having flexibility made with a.

Flat membrane module with improved stain resistance of the present invention for achieving the above object;

In a flat membrane module comprising a support, a nonwoven spacer and a flat membrane sequentially stacked on both outer sides of the support, wherein the support is composed of a support having fluidity.

According to another configuration of the present invention, the flowable support is characterized in that the non-woven or film form.

According to another configuration of the present invention, the module is characterized in that the flow path through which treated water flows on one or both surfaces of the fluid support, and the outlet hole for inflow and outflow of the treated water on one side of the edge is formed. .

Waste water treatment method using the flat membrane module with improved pollution resistance of the present invention for achieving the above another object;

In the wastewater treatment method according to the advanced wastewater treatment method, the treatment method is characterized in that the wastewater is treated using a flat membrane module including a fluid support, a nonwoven spacer and a flat membrane sequentially stacked on both outer sides of the fluid support. do.

Flat membrane module with improved fouling resistance of the present invention configured as described above and the method of treating wastewater using the same, since the support of the flat membrane of the flexible membrane, drinking water production and waste water treatment facility through the flat membrane module due to the fluid movement of the support membrane When the surface is contaminated, the effect of improving the efficiency of obtaining treated water by quickly dropping contaminants can be performed more simply, thereby achieving the above-mentioned conventional problems without adding cost, and also using them in the advanced wastewater treatment system. Therefore, the waste water can be effectively treated.

1 is a front view and a side view of a flat membrane module according to an embodiment of the present invention,
2 is a front view and a side view of a flat membrane module according to another embodiment of the present invention.

Hereinafter, the present invention will be described in more detail by preferred embodiments with reference to the accompanying drawings, but the scope of the present invention is not limited thereto.

1 is a front view and a side view of a flat membrane module according to an embodiment of the present invention, Figure 2 is a front view and a side view of a flat membrane module according to another embodiment of the present invention.

As shown in the drawings, the flat membrane module according to a preferred embodiment of the present invention is a flat membrane module including a spacer and a flat membrane which are sequentially stacked on both outer sides of the support, wherein the support uses a fluid support.

In the present invention, the support having fluidity may be formed in the shape of a nonwoven fabric or a film, and a flow path through which permeate flows may be formed in the form of a groove in the support.

The flat membrane module of the present invention is a module including a spacer and a flat membrane 130, which are sequentially stacked on both outer sides of the support 160, characterized in that a support having fluidity is used.

The flat membrane module for water treatment of the present invention may move permeate to the outlet hole 140 along the flow path 150 of the support body 160 with fluidity, and the flat membrane 130 with contaminants may have a support body 160 with fluidity. Due to its fluid movement, it has the advantage of removing contaminants more efficiently.

1 and 2, in the flat membrane module of the present invention, a support 160 having fluidity is positioned in the center thereof, and a nonwoven spacer (not shown) and a flat membrane 130 are sequentially stacked on top and bottom of the support 160 to form a flat membrane. Modules are configured and can vary in some cases. Frames 170 are located at four sides or upper and lower portions of the flat membrane module, and outlet holes 140 are formed at upper sides.

The flat membrane module according to the present invention is similar to the conventional module as shown in FIG. 1, but the conventional module is different from the fluid support in the support of the present invention, whereas the support is not fluid.

The type of support may be formed in the shape of a nonwoven fabric or a film having fluidity, and a flow path through which the permeate can flow may be formed in the form of a groove in the support.

Although described above with respect to the preferred embodiments of the present invention, it will be apparent to those skilled in the art that various modifications and variations are possible within the technical spirit of the present invention, and such variations and modifications belong to the appended claims. .

130: flat membrane 140: outflow hole
150: euro 160: support
170: frame 180: adhesive

Claims (4)

A flat membrane module comprising a support, a nonwoven fabric spacer and a flat membrane sequentially stacked on both sides of the support, wherein the support is composed of a support having fluidity.
2. The flat membrane module of claim 1, wherein the flowable support is in the form of a nonwoven fabric or a film.
The method of claim 1, wherein the module is formed on one surface or both surfaces of the flow support flow passage through which the treated water flows, and one side of the rim contamination resistance, characterized in that the outlet hole for the inlet and outlet of the treated water formed Improved flat membrane module.
In the wastewater treatment method according to the advanced wastewater treatment method, the treatment method is characterized in that the wastewater is treated using a flat membrane module including a fluid support, a non-woven spacer and a flat membrane sequentially stacked on both outer sides of the fluid support. Wastewater treatment method using the membrane module with improved fouling resistance.

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