KR20150068127A - Submerged-Type Filtration Apparatus - Google Patents

Abstract

Disclosed is a compact submerged-type filtration apparatus which is easily installed, is maintained safe and comfortably, significantly reduces energy, and minimizes space. The submerged-type filtration apparatus comprises a filtration bath located on the ground; a filtration membrane cassette installed inside the filtration bath; and a first guide arranged inside the filtration bath, and guiding the filtration membrane cassette when the filtration membrane cassette is inserted inside the filtration bath to be installed inside the filtration bath.

Description

[0001] Submerged-Type Filtration Apparatus [0002]

The present invention relates to a filtration apparatus, and more particularly, to a compact soaked filtration apparatus which can be easily installed, can be safely and conveniently maintained, can save energy considerably, and occupies a minimum space .

As a water treatment method for purifying contaminants from a fluid, there is a method using heating or phase change or a method using a filtration membrane.

Since the desired quality of water can be stably obtained depending on the pore size of the filtration membrane, the method using the filtration membrane is advantageous in that the reliability of the process is higher than the method using heating or phase change. Further, when a filtration membrane is used, operation such as heating is not required, so that microorganisms can be prevented from being affected by heat in a separation step using microorganisms.

Filtration membranes have been used extensively in the fields of aseptic water, drinking water, and ultrapure water. However, recently, they have been used for treatment of wastewater and wastewater, solid-liquid separation in septic tanks, removal of suspended solid (SS) Filtration of industrial water, filtration of pool water, and the like.

Membrane filtration methods can be classified into submerged type and pressurized type depending on the operation mode.

In the case of the pressurized type, there is a bundle of hollow fiber membranes in the module case. Feed water is supplied to the module case at a predetermined pressure or more, so that only the fluid excluding the contaminant selectively permeates the hollow fiber membrane.

In the case of immersion, a filtration membrane in the form of a flat membrane or a hollow fiber membrane is immersed in the raw water with the raw water to be treated filled in the filtration tank formed below the surface of the ground. In the state where the filtration membrane is immersed in the raw water, negative pressure is applied to generate intermembrane pressure, and only the fluid excluding the contaminant selectively permeates the filtration membrane due to the differential pressure between the membranes.

Since the bundle of hollow fiber membranes exists in a packing density at a high packing density in the module case, the pressing type has a disadvantage that it is relatively vulnerable to the contamination of the hollow fiber membrane as compared with the immersion method. Therefore, immersion is mainly used when treating water having a relatively high concentration of contaminants. In the case of immersion, the cassette is manufactured and installed in a cassette unit, which includes a frame structure, a plurality of submerged filtration membrane modules mounted on the frame structure, and an acid base.

However, compared with the pressurized type in which each hollow fiber membrane module is connected to the piping, the filtration tank is formed under the ground and the filtration membrane module is suitably arranged in the filtration tank according to its shape and size. It is inconvenient in that various components such as a pump and a blower must be directly connected to the immersed filtration membrane module.

Furthermore, there is a problem in that the immersion is dangerous as well as inconvenient in that a person is required to go down to the filtration tank formed below the ground, in order to maintain the filtration apparatus and periodically remove the sludge accumulated in the filtration tank in the filtration process .

In order to solve the above problem, it is possible to consider using the filtration tank disposed on the ground instead of forming the filtration tank under the ground. However, there is a problem that it is difficult to supply the raw water to the filtration tank, the piping for conveying the filtrate water produced by the filtration membrane module immersed in the raw water of the filtration tank, the pump for providing the negative pressure to the filtration membrane module, When the various components such as the blower and the pipes for providing the filter are disposed in parallel with the filtration tank, not only the configuration of the filtration apparatus becomes complicated but also the problem that the footprint occupied by the filtration apparatus becomes too large.

On the other hand, as the water treatment by the filtration membrane module proceeds, there is a problem that the filtration performance of the filtration membrane is greatly deteriorated due to the contamination of the filtration membrane due to contaminants. Since various types of filtration membrane contaminants cause membrane contamination in different ways, there are various methods for cleaning contaminated filtration membranes, one of which is a backwashing method.

According to the backwashing method, a part of the filtered water produced by the filtration membrane module is supplied to a backwash water bath through a predetermined path, and then stored in the backwash water bath. Then, the path is reversely flowed by a retrofit pump, The pollutant attached to the surface of the filter membrane is separated from the filter membrane while passing through the filter membrane. During the backwash process, the operation of the filtration pump is interrupted. Conversely, the operation of the stationary pump is interrupted during the filtration operation. Separately existing and operating filtration pumps and stationary pumps complicate the configuration of the filtration device and cause excessive energy consumption because of repeated operation and interruption.

Therefore, the present invention relates to a submerged filtration device capable of preventing problems caused by limitations and disadvantages of the related art.

An aspect of the present invention is to provide a compact soaked filtration device that can be easily installed, can be safely and conveniently maintained, can save energy considerably, and occupies a minimum space.

Other features and advantages of the invention will be set forth in the description which follows, or may be learned by those skilled in the art from the description.

According to an aspect of the present invention, there is provided a filtration apparatus comprising: a filtration bath located on the ground; A filtration membrane cassette mounted in the filtration tank; And a first guide disposed in the filtration tank and guiding the filtration membrane cassette when the filtration membrane cassette is drawn into the filtration tank for mounting in the filtration tank.

The first guide may extend in a direction parallel to the drawing direction of the filtration film cassette into the filtration tank.

The first guide may be an inner feed water pipe for feeding the raw water to be treated into the filtration tank.

The immersion filtration apparatus may further include a second guide disposed in the filtration tank and guiding the filtration membrane cassette when the filtration membrane cassette is drawn into the filtration tank to be installed in the filtration tank.

The filtration film cassette includes a frame structure; A plurality of filter module modules mounted on the frame structure; And an acid base coupled to the frame structure and for ejecting bubbles into the filtration membrane modules. The second guide may be an inner air pipe for supplying air to the acid basin, have.

The submerged filtration device comprises a feed water source; And a blower, wherein the source of raw water supplies the raw water to the internal raw water pipe through a feed water inlet formed at the bottom of the filtration tank, The gas can be supplied to the inner air pipe through an air inlet.

The submerged filtration apparatus may further include a flexible hose connecting the inner air pipe and the acid base.

The filtered water produced by the filter film cassette may be discharged through a filtrate outlet formed at the bottom of the filtration tank.

The submerged filtration apparatus may further include a backwash water bath into which the filtered water discharged through the filtered water discharge port flows.

The submerged filtration apparatus includes a filtered water storage tank; And a float valve for allowing the filtered water discharged from the filtration tank to flow through the backwash water tank to the filtered water storage tank after the level of the filtered water reaches a predetermined level in the backwash water tank .

The submerged filtration apparatus may further include a pipe for guiding the filtered water flow from the filtered water discharge port to the filtered water storage tank, and the pipe may pass through the backwash water tank.

The submerged filtration apparatus includes a pump for providing negative pressure to the filtration membrane cassette or the backwash water tank; A first 3-way valve that allows the negative pressure to be provided only to the filtration film cassette during the filtration operation and the negative pressure to be supplied only to the backwash water tank during the backwashing operation; During the filtration operation, the filtered water supplied from the filtration membrane cassette through the pump flows only to the backwash water tank, and during the backwash operation, the backwash water supplied from the backwash water tank through the pump flows only to the filtration membrane cassette Way valve. ≪ RTI ID = 0.0 >

The filtration film cassette includes a frame structure; A plurality of filter module modules mounted on the frame structure; And an acid heater coupled to the frame structure for spraying bubbles into the filter module, wherein the first guide may be an internal air pipe for supplying air to the acid heater.

The foregoing general description of the present invention is intended to be illustrative of or explaining the present invention, but does not limit the scope of the present invention.

Since the filtration tank is not only connected to the piping in a manner similar to the pressure filtration system but also can be automatically fastened to at least a part of the piping when the filtration membrane cassette is installed in the filtration tank, And it is advantageous in terms of the convenience of installation as well as the pressure filtration device.

Further, since the filtration tank of the submerged filtration apparatus of the present invention is located on the ground, maintenance of the filtration apparatus can be performed more safely and conveniently, and since the sludge generated in the filtration tank can be discharged naturally by gravity, The filtration device of the invention has excellent drain efficiency. Further, the submerged filtration apparatus of the present invention is advantageous not only in standardization but also on the ground, so that the appearance of the filtration tank can be enhanced, thereby improving the merchantability.

In addition, since various components such as a pump for providing a negative pressure to the filtration membrane modules and a blower for providing gas to the acid portion are disposed below the filtration tank, the space occupied by the immersion filtration apparatus can be minimized, The filtration device can have high merchantability by becoming a single sales unit.

In addition, considerable energy savings can be achieved by replacing conventional filtration pumps and stationary pumps with a single pump and continuing to operate the one pump continuously for filtration and backwash operations.

BRIEF DESCRIPTION OF THE DRAWINGS The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and, together with the description, serve to explain the principles of the invention.
1 is a perspective view of a submerged filtration apparatus according to an embodiment of the present invention,
FIG. 2 illustrates a filter cassette guide structure according to an embodiment of the present invention,
3 illustrates the means according to an embodiment of the present invention for connecting the inner air pipe and the acid base,
4 is a schematic view of a submerged filtration apparatus according to an embodiment of the present invention.

Hereinafter, embodiments of the submerged filtration apparatus according to the present invention will be described in detail with reference to the accompanying drawings.

As illustrated in FIG. 1, the submerged filtration apparatus of the present invention includes a filtration tank 210 on the ground on which raw water to be treated flows and a filtration film cassette 100 mounted in the filtration tank 210. The filtration cassette 100 may be drawn into or withdrawn from the filtration tank 210.

The filter cassette 100 includes a frame structure 110, a plurality of filtration membrane modules 120 mounted to be arranged side by side within the frame structure 110, a housing for collecting filtered water produced by the filtration membrane modules 120, A water filtration outlet pipe 140 connected to the water collection pipe 130 in fluid communication with the water collection pipe 130 and an air discharge pipe 140 for discharging air bubbles toward the filtration membrane modules 120 to prevent contamination of the filtration membrane modules 120. [ And an acid base 150 that can be used.

According to one embodiment of the present invention, the filtration membrane module 120 is a horizontal hollow fiber membrane module 120. That is, the filtration membrane module 120 includes first and second headers 121 and 122 and a bundle of hollow fibers 123 between the first and second headers 121 and 122. The longitudinal direction of the hollow fiber membrane 123 is parallel to the longitudinal direction of the filtration vessel 210, And the longitudinal direction of the first and second headers 121 and 122 is substantially perpendicular to the water surface so that the filtration membrane module 120 is substantially parallel to the water surface of the filtration tank 210 .

Each of the first and second headers 121 and 122 has a collecting space through which the filtered water having passed through the hollow fiber membrane 123 collects and has a discharge port through which the filtered water is discharged. The filtration membrane modules 120 arranged in a vertical direction can be coupled in fluid communication with one another by the discharge ports of the relatively located modules being inserted into the heads of the modules located relatively below.

The discharge ports provided below the headers 121 and 122 of the filtration membrane modules 120 located at the bottom are connected to the collecting pipe 130. Therefore, all the filtrate water produced by the filtration membrane modules 120 flows into the collector pipe 130. The collector pipe 130 may be a combination of a plurality of unit pipes, and each unit pipe may be coupled to one discharge port in fluid communication.

As illustrated in FIG. 1, a filtered water discharge tube 140 is connected in fluid communication with the collector tube 130. That is, the filtered water produced by the filter film cassette 100 is collected in the collecting pipe 130 and then discharged to the outside through the filtered water discharge pipe 140 disposed below the filter film cassette 100.

According to the filtration film cassette 100 having such a structure, since the water pressure of the raw water filled in the filtration tank 210 can be fully utilized for the filtration work (that is, the volume of the negative pressure can be reduced by the water pressure) You can.

Although the filtration membrane module 120 of the present invention has been described above with reference to the horizontal hollow fiber membrane module, the filtration membrane module 120 of the present invention is not limited thereto, and may be a vertical hollow fiber membrane module or a flat membrane module. For example, when the filtration membrane modules 120 are vertical hollow fiber membrane modules, the filtered water passing through the hollow fiber membranes flows only to the lower headers, not to the upper headers, so that the water pressure of the raw water in the filtration tank 210 is completely You can use it.

The acid base 150 includes a central air pipe 151 and a plurality of aeration tubes 152 branched therefrom. The air diffusers 152 are located below the filtration membrane modules 120. Air supplied from the central air pipe 151 is blown toward the filtration membrane modules 120 through the air diffusers 152.

The filtration tank 210 is positioned above the ground by being supported by the legs 220.

The filtration tank 210 is provided with an opening (not shown) on the upper part thereof for loading or withdrawing the filtration film cassette 100 into or from the filtration tank 210 for the installation and maintenance of the filtration film cassette 100. [ lt; / RTI > Considering the beauty and stability, the filtration tank 210 may further include a lid (not shown) for covering the opening.

A concentrated water outlet 230 is formed in the lower portion of the filtration tank 210 having a gradient shape to smoothly discharge the concentrated water generated as the filtration operation is performed. Since the filtration tank 210 is supported by the legs 220, the concentrated water outlet 230 is positioned above the ground.

Since the filtration tank 210 is located on the ground, the maintenance and management of the filtration apparatus can be performed more safely and conveniently. Further, since the concentrated water and / or the sludge generated in the filtration tank 210 can be discharged naturally through the concentrated water outlet 230 by gravity, the submerged filtration apparatus of the present invention has excellent drain efficiency.

A filtered water outlet 240 is formed at the bottom of the filtration tank 210, for example, at the bottom thereof.

It is only necessary to connect the concentrated water outlet 230 and the filtered water outlet 240 of the filtration tank 210 to the piping (not shown) when the filtration apparatus is installed. Therefore, the filtration apparatus of the present invention, As shown in Fig.

On the other hand, as illustrated in FIG. 1, the filtration tank 210 of the present invention includes a first guide disposed therein. The first guide extends in a direction parallel to the drawing direction of the filtration film cassette 100 into the filtration tank 210. The first guide guides the filtration film cassette 100 when the filtration film cassette 100 is inserted into the filtration tank 210 so that the filtration water discharge pipe 140 of the filtration film cassette 100 is guided by the filtration water And may be tightened in fluid communication with the outlet 240.

According to one embodiment of the present invention, the first guide is an internal raw water pipe 250 for supplying raw water to be processed into the filtration tank 210.

The submerged filtration apparatus of the present invention is arranged in the filtration tank 210 and is provided with a second filtration membrane cassette 100 for guiding the filtration membrane cassette 100 when the filtration membrane cassette 100 is drawn into the filtration tank 210 for mounting therein And the second guide may include an inner air pipe 260 for supplying air to the acid portion 150 (more specifically, the central air pipe 151) of the filter film cassette 100, Lt; / RTI >

As illustrated in FIG. 1, the inner water pipe 250 and the inner air pipe 260 are disposed in corners opposite to each other in a diagonal direction within a rectangular parallelepiped filtration tank 210, Role.

The submerged filtration apparatus of the present invention further includes a raw water source (not shown) and a blower (not shown). The raw water source supplies raw water to the internal water pipe 250 through a raw water inlet formed at the bottom of the filtration tank 210. The blower is connected to the internal air pipe 250 through an air inlet formed at the bottom of the filtration tank 210, (260).

According to the present invention, since the filtered water outlet 240, the raw water inlet, and the air inlet are formed on the bottom of the filtration tank 210, negative pressure is applied to the filtration membrane modules 120 through the filtered water outlet 240 And a blower (not shown) for supplying gas to the acid portion 150 through the internal air pipe 260 may be disposed under the filtration tank 210. [ As a result, the space occupied by the submerged filtration device can be minimized, and the filtration device manufactured in such a compact manner becomes a single sales unit, thereby improving the merchantability of the filtration device.

Alternatively, the submerged filtration apparatus of the present invention is arranged in the filtration tank 210 and guides the filtration membrane cassette 100 when the filtration membrane cassette 100 is drawn into the filtration tank 210 for mounting therein And third and fourth guides to guide the user. For example, the third and fourth guides may be an overflow pipe 270 and a chemical pipe 280. In this case, as illustrated in FIG. 1, the four corners of the rectangular parallelepiped-shaped filtration tank 210 are connected to the inner water pipe 250, the inner air pipe 260, the overflow pipe 270, (280), respectively.

When the amount of raw water flowing into the filtration tank 210 exceeds a predetermined value, raw water is discharged from the filtration tank 210 through the overflow pipe 270 and the raw water outlet formed at the bottom of the filtration tank 210, May be maintained below a predetermined level.

Chemicals for chemical cleaning of the filtration membrane modules 120 are introduced into the filtration vessel 210 through the chemical inlet formed at the bottom of the filtration vessel 210 and the chemical piping 280.

Alternatively, the filtration device may include only a first guide as a means for guiding the filtration membrane cassette 100 when the filtration membrane cassette 100 is pulled into the filtration tank 210 for mounting therein. In this case, any one of the inner water pipe 250 and the inner air pipe 260 may serve as the first guide.

For example, if the inner raw water pipe 250 alone guides the filtration membrane cassette 100, the submerged filtration apparatus has the guide structure illustrated in FIG. 2, so that when the filtration membrane cassette 100 is pulled in or out, It is possible to prevent the filter film cassette 100 from separating from the inner water pipe 250. 2, the frame structure 110 of the filter cassette 100 includes a body 111 and a wing 112 formed on the body 111, and the inner water pipe 250, Has a groove (251) into which the wings (112) of the frame structure (110) are inserted. The wings 112 and the grooves 251 extend in the pull-in and pull-out directions of the filter film cassette 100.

3, the submerged filtration apparatus of the present invention includes a flexible hose 290 connecting the inner air pipe 260 and the acid base 150 (more specifically, the central air pipe 151) ). After the filtration cassette 100 is completely drawn into the filtration tank 210, the inner air pipe 260 and the central air pipe 151 are connected in fluid communication using the flexible hose 290.

As described above, since the gas supplied from the blower is supplied to the air orifices 152 after sequentially passing through the inner air pipe 260, the flexible hose 290, and the central air pipe 151 It is possible to prevent the blower damage due to the back flow of raw water. In other words, when the blower directly supplies the gas to the air diffuser through the air inlet formed at the bottom of the filtration tank 210, since the entire gas passage exists only below the filtration tank 210, Backflow may be caused. In order to prevent the backflow phenomenon, the filtration apparatus of the present invention allows the gas supplied from the blower to sequentially pass through the inner air pipe 260, the flexible hose 290 and the central air pipe 151, At least a part of the passage is present above the filtration tank 210, and the water pressure of the raw water applied to the gas passage can be minimized.

4 is a schematic view of a submerged filtration apparatus according to an embodiment of the present invention.

As illustrated in FIG. 4, the submerged filtration apparatus of the present invention may further include a backwash water tank 300 located adjacent to the filtration tank 210 in addition to the filtration tank 210. The backwash water tank 300 is also supported by the legs 310 and is located above the ground. The filtered water discharged from the filtration tank 210 sequentially flows through the filtered water discharge pipe 140 of the filtration film cassette 100 and the filtered water discharge port 240 of the filtration tank 210 and flows into the backwash water tank 300.

As illustrated in FIG. 4, the filtration tank 210 and the backwash water tank 300 may be spaced apart from each other, but may be formed with one partition wall therebetween.

The filtration apparatus may include a pump 500 for providing negative pressure to the filtration film cassette 100 or the backwash water tank 300 so that the negative pressure is provided only to the filtration membrane cassette 100 during the filtration operation, Way valve 610 to be provided only in the backwash water tank 300 and the filtered water supplied from the filtration membrane cassette 100 through the pump 500 flows to the backwash water tank 300 during the filtration operation Way valve 620 for allowing the backwash water supplied from the backwash water tank 300 to flow only through the filtration membrane cassette 100 through the pump 500 during the backwashing operation.

According to the filtration apparatus having the above structure, the power for the filtration operation and the power for backwashing operation can be obtained from only one pump 500, so that the component cost can be reduced, and the filtration operation and the backwash operation can be alternately performed Considerable energy savings can be achieved since the one pump 500 is continuously running without interruption.

The submerged filtration apparatus further includes a filtered water storage tank (700). A pipe for guiding the filtered water flow from the filtered water outlet 240 of the filtration tank 210 to the filtered water storage tank 700 passes through the backwash water tank 300.

The submerged filtration apparatus further includes a float valve (630) mounted on a pipe portion passing through the backwash water tank (300). The float valve 630 supplies filtered water discharged from the filtration tank 210 to the backwash water tank 300 through the pipe and after the level of the filtered water reaches a predetermined level in the backwash water tank 300 The filtered water discharged from the filtration tank 210 passes through the backwash water tank 300 and flows into the filtered water storage tank 700.

4, the pump 500, the first and second 3-way valves 610 and 610, together with the blower 400 providing gas to the inner air pipe 260 of the filter cassette 100, , 620, and the various pipes are located under the filtration tank 210 and the backwash water tank 300, the sinking filtration device can be compactly manufactured and the space occupied by it can be minimized.

100: Filtration membrane cassette 210: Filtration tank
250: internal raw water pipe 260: internal air pipe
300: Backwash water tank 400: Blower
500: pumps 610, 620: first and second three-way valves
630: Float valve 700: Filtered water storage tank

Claims (12)

A filtration bath on the ground;
A filtration membrane cassette mounted in the filtration tank; And
And a first guide disposed in the filtration tank and guiding the filtration membrane cassette when the filtration membrane cassette is drawn into the filtration tank to be installed in the filtration tank. The method according to claim 1,
Wherein the first guide extends in a direction parallel to a pulling-in direction of the filtration film cassette into the filtration tank. 3. The method of claim 2,
Wherein the first guide is an inner feed water pipe for feeding raw water to be treated into the filtration tank. The method of claim 3,
Further comprising a second guide disposed in the filtration tank and guiding the filtration membrane cassette when the filtration membrane cassette is drawn into the filtration tank for mounting in the filtration tank,
The filtration film cassette comprises:
Frame structure;
A plurality of filter module modules mounted on the frame structure; And
And an acid part coupled to the frame structure for ejecting bubbles into the filtration membrane modules,
And the second guide is an inner air pipe for supplying air to the acid base portion. 5. The method of claim 4,
A feed water source; And
Further comprising a blower,
The raw water source supplies the raw water to the internal raw water pipe through a feed water inlet formed at the bottom of the filtration tank,
Wherein the blower supplies gas to the inner air pipe through an air inlet formed at the bottom of the filtration tank. 6. The method of claim 5,
Further comprising a flexible hose connecting the inner air pipe and the acid base. The method according to claim 1,
And the filtered water produced by the filter film cassette is discharged through a filtrate outlet formed at the bottom of the filtration tank. 8. The method of claim 7,
And a backwash water bath into which the filtered water discharged through the filtered water outlet flows. 9. The method of claim 8,
Filtrate storage tank; And
And a float valve for allowing the filtered water discharged from the filtration tank to flow through the backwash water tank to the filtered water storage tank after the level of the filtered water reaches a predetermined level in the backwash water tank Characterized in that the submerged filtration device. 10. The method of claim 9,
Further comprising a pipe for guiding the filtered water flow from the filtered water outlet to the filtered water storage tank,
And the pipe passes through the backwash water tank. 9. The method of claim 8,
A pump for providing negative pressure to the filtration film cassette or the backwash water tank;
A first 3-way valve that allows the negative pressure to be provided only to the filtration film cassette during the filtration operation and the negative pressure to be supplied only to the backwash water tank during the backwashing operation; And
During the filtration operation, the filtrate water supplied from the filtration membrane cassette through the pump flows only to the backwash water tank, and during the backwash operation, the backwash water supplied from the backwash water tank through the pump flows only to the filtration membrane cassette Further comprising a three-way valve. 3. The method of claim 2,
The filtration film cassette comprises:
Frame structure;
A plurality of filter module modules mounted on the frame structure; And
And an acid base coupled to the frame structure for ejecting bubbles into the filtration membrane modules,
Wherein the first guide is an inner air pipe for supplying air to the acid base portion.

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