KR101909932B1 - Apparatus and Method for Measuring Uniformity of Aeration Cleaning - Google Patents

Abstract

Disclosed is an apparatus and a method capable of quantitatively measuring the uniformity of the acid washing in a water treatment filtration membrane or a filtration apparatus. The method of the present invention comprises the steps of evenly dividing a region of water surface treated by a filtration apparatus into a plurality of sub-regions corresponding to the filtration apparatus; And measuring the flow rate of the air for the periodic cleaning discharged through each of the subareas.

Description

Technical Field [0001] The present invention relates to an apparatus and a method for measuring the uniformity of an acid-

The present invention relates to an apparatus and method for measuring the uniformity of an acid-labile washing, and more specifically, to an apparatus and a method for quantitatively measuring the uniformity of an acid-labile washing for a water-treating filter membrane or a filtration apparatus .

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.

The filtration membrane can be classified into a flat membrane, a hollow fiber membrane, and the like depending on its shape, and the filtration method using the filtration membrane can be classified into the submerged filtration method and the pressurized filtration method according to the operation mode.

According to the submerged filtration method, only the filtration membrane module is directly immersed in the fluid tank to be treated and negative pressure is applied to the filtration membrane, so that only the fluid passes selectively through the filtration membrane and the solid component such as impurities or sludge, to be separated from the permeate.

According to the pressurized filtration method, the fluid to be treated is introduced into the housing containing the filtration membrane in a pressurized state, so that only the fluid selectively passes through the filtration membrane and the solid component such as impurities or sludge is separated from the filtrate.

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, various methods of cleaning contaminated filtration membranes are also required. Cleaning of contaminated filtration membranes can be classified as maintenance cleaning and recovery cleaning depending on the purpose of cleaning.

The main purpose of the recovery cleaning is to recover the permeation performance of the filtration membrane in a relatively long period of time while the membrane filtration performance of the filtration membrane module is seriously degraded due to accumulation of membrane contamination as the water treatment progresses for a long time have.

On the other hand, the main cleaning has a main purpose in keeping the filtration performance of the filtration membrane in a good state as cleaning performed while the water treatment by the filtration membrane module proceeds or while the water treatment is temporarily stopped. Such maintenance cleaning is mainly performed by physical cleaning. Physical cleaning can be classified into backwashing and aeration.

The backwashing method is a cleaning method in which foreign matter adhering to the surface of the membrane is removed by circulating air or water through the filtration membrane while temporarily stopping the water treatment. On the other hand, according to the air diffusing method, the air bubbles are caused to rise from the air diffusing pipe so that not only the foreign substances attached to the filtration film surface are removed by the air bubble itself, but also the water Foreign matter on the surface of the filtration membrane is removed by lifting or circulation of the filtration membrane (contained in the housing).

In the case of the maintenance type cleaning, a blower is generally used to blow out air, and a large amount of energy consumption is required because such a blower must be continuously operated for the periodic cleaning while the water treatment is performed. Nevertheless, the research to maximize the effect of the energy efficiency compared to the energy consumption, that is, the research to maximize the cleaning efficiency, was very slight.

On the other hand, Korean Patent Laid-Open Publication No. 10-2010-0106028 (hereinafter referred to as "prior art") filed by the present applicant discloses a filtration device capable of improving the cleaning efficiency by lowering the horizontal dependence Lt; / RTI >

In the prior art described above, an air diffuser for blowing out air for the purpose of anteric washing does not maintain the initial horizontal state due to factors such as reaction against air blowing, and the air blown from the diffuser is tilted to one side . In addition, the prior art described above makes it impossible to uniformly clean the entire filter apparatus by the sagging phenomenon of the air for cleaning the air for the period of acidification, thereby lowering the cleaning efficiency. In order to overcome such a problem, And suggested a method to reduce horizontal dependency.

However, even this prior art does not disclose an apparatus and a method for quantitatively measuring the uniformity of the periodic cleaning, merely confirming visually the uniformity of the periodic cleaning or the tilting phenomenon of the periodic cleaning air.

Accordingly, the present invention is directed to an apparatus and method for the uniformity measurement of an acid cleaning that can prevent problems due to limitations and disadvantages of the related art.

An aspect of the present invention is to provide an apparatus capable of measuring the uniformity of the acid-labile cleansing of the filtration membrane quantitatively.

Another aspect of the present invention is to provide a method capable of quantitatively measuring the uniformity of the acid-labile cleansing of the filtration membrane.

A further aspect of the present invention is to provide a method which can quantitatively measure the uniformity of the acid-labile cleansing of the filtration apparatus.

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 one aspect of the present invention as described above and in accordance with an embodiment of the present invention, there is provided an apparatus for measuring the uniformity of the periodic cleaning of a filtration membrane, the apparatus comprising: And a collecting body having an inner space through which the air for removing the acid to be discharged can be introduced, wherein the collecting body is formed of a transparent or translucent material.

The collecting body has only one opening, and the air for the periodic cleaning can be introduced into the internal space of the collecting body through the opening.

According to another embodiment of the present invention, there is provided an apparatus for measuring the uniformity of the acid-labile cleansing of a filtration membrane, the apparatus being characterized in that the air for the acid-labile scrubbing discharged through the water surface of the water treated by the filtration membrane Wherein the collector body has first and second openings, and the air for clearing the diffuser is introduced into the internal space of the collecting body through the first opening, And then discharged from the collecting body through the second opening; A pipe for providing a passage for the air to be discharged from the collecting body through the second opening; And a flowmeter for measuring a flow rate of the air flowing through the pipe.

According to another aspect of the present invention, and in accordance with an embodiment of the present invention, there is provided a method for measuring the uniformity of an acid-labile cleansing of a filtration membrane, said method comprising the steps of: Filling the space; Injecting air for cleansing the organic acid discharged through the water surface of the water treated by the filtration membrane into the internal space of the collecting body; And measuring the descending velocity of the water when the water surface of the water present in the inner space falls due to the air injected into the inner space of the collecting body.

According to another embodiment of the present invention, there is provided a method for measuring the uniformity of the acid-labile cleansing of a filtration membrane, comprising the steps of: collecting air for the acid- Injecting into the interior space of the collecting body through a first opening of the body; Discharging the air injected into the internal space from the collecting body through a second opening of the collecting body; And measuring a flow rate of the air discharged from the collecting body.

According to another aspect of the present invention there is provided a method for measuring the uniformity of the purging of a filtration device comprising a plurality of filtration membrane modules and a plurality of diffusers for clearing the filtration membrane modules, , Evenly dividing the area of the water surface of the water treated by the filtration device into a plurality of sub-areas corresponding to the filtration device; And measuring the flow rate of the air for the periodic cleaning discharged through each of the subareas.

According to an embodiment of the present invention, the step of measuring an air flow rate in each of the sub-areas may include filling the internal space of the collecting body with water processed by the filtration unit; Injecting air for cleansing the cleansing through the surface of the sub region into the internal space of the collecting body; And measuring the descending velocity of the water when the water surface of the water present in the internal space falls due to the air injected into the internal space of the collecting body.

According to another embodiment of the present invention, in the step of measuring the air flow rate in each sub-region, air for the acid-term cleaning discharged through the sub-region may be discharged through the first opening of the collecting body Injecting into the space; Discharging the air injected into the internal space from the collecting body through a second opening of the collecting body; And measuring a flow rate of the air discharged from the collecting body.

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.

According to the present invention, it is possible to quantitatively measure the uniformity of the acid washing in the water treatment filtration membrane or the filtration apparatus, and to evaluate the performance of the filtration apparatus more accurately.

In addition, other features and advantages of the present invention may be newly recognized through practice of the present invention.

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 schematically shows a filtration apparatus to which the present invention is applied,
2 shows an exemplary method of the present invention for measuring the uniformity of the acid washing in a filtration apparatus,
3 schematically shows an apparatus for measuring uniformity of an acid-labile washing according to an embodiment of the present invention,
FIG. 4 schematically shows an apparatus for measuring uniformity of an acid-labile washing according to another embodiment of the present invention.

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

Fig. 1 schematically shows a filtration apparatus to which the present invention is applied.

The filtration apparatus of the present invention includes a plurality of filtration membrane modules (20) and diffuser tubes (30).

According to one embodiment of the present invention, as illustrated in FIG. 1, the plurality of filter module modules 20 are immersed in water to be treated, which is contained in the water bath.

Each filter module 20 includes a first header having a first collecting section, a second header having a second collecting section, and a filtration membrane between the first and second headers.

The filtration membrane may be a hollow fiber type membrane (hereinafter, referred to as a hollow fiber membrane), and both ends of the hollow fiber membrane may be connected to potting materials through the bodies of the first and second headers Respectively.

The hollow of the hollow fiber membrane is in fluid communication with the first and second collecting parts, respectively. Therefore, the permeate, which has passed through the hollow fiber membrane 230 by the negative pressure provided in the hollow fiber membrane hollow, flows into the first and second collectors through the hollow fiber membrane and is discharged to the outside of the filter membrane module 20 do.

The hollow fiber membrane may be formed of a material selected from the group consisting of a polysulfone resin, a polyether sulfone resin, a sulfonated polysulfone resin, a polyvinylidene fluoride (PVDF) resin, a polyacrylonitrile (PAN) resin, a polyimide resin, a polyamideimide resin and a polyesterimide And a resin.

The hollow fiber membrane may be in the form of a single membrane or a composite membrane. When the hollow fiber membrane is in the form of a composite membrane, the hollow fiber membrane may include a tubular braid and a polymer membrane coated on the surface thereof. The tubular braid may be made of polyester or nylon, and the polymer thin film may be formed of a polysulfone resin, a polyethersulfone resin, a sulfonated polysulfone resin, a polyvinylidene fluoride resin, a polyacrylonitrile resin, a polyimide resin, A polyamideimide resin, and a polyesterimide resin.

When the air diffuser 30 has a plurality of diffuser holes, it is disposed below the filtration membrane modules 20 and receives air from an external blower (not shown) to eject the air through the diffuser holes. The air blown through the acid holes rises while forming a large number of air bubbles in the water in the water tank 10. These rising air bubbles not only remove foreign substances adhered to the surface of the filtration membrane by physical collisions themselves, but also indirectly remove the foreign substances by causing turbulence of water in the water tub 10.

On the other hand, as described above, the air diffuser 30 for blowing air for the periodic cleaning does not maintain the initial horizontal state due to factors such as reaction against air blowing, There is a possibility that the air that is blown into the airflow path may be tilted to one side.

Therefore, it is very important from the aspect of cleaning efficiency to design the filtration device so that the air for cleaning the horny portion uniformly passes through the entire filtration device without deviating to one side even if the diffusing pipe 30 deviates from the horizontal state to some extent.

As a result, it is expected that uniformity of the periodic cleaning will soon be one of the important factors determining the overall performance of the filtration apparatus, and there is a need for an apparatus and method for quantitatively measuring the uniformity of such periodic cleaning Will be.

Hereinafter, with reference to Fig. 2, the method of the present invention for measuring the uniformity of the cleansing of anagen in a filtration apparatus will be described in detail.

2 shows an exemplary method of the present invention for measuring the uniformity of the periodic cleaning of a filtration apparatus.

The method of measuring the uniformity of the acid-labile washing of the present invention includes the steps of evenly dividing a region of the water surface treated by the filtration apparatus into a plurality of sub-regions corresponding to the filtration apparatus, And measuring the flow rate of the air for the periodic acid cleaning to be discharged.

Evenly dividing the region into a plurality of sub-regions does not require that the plurality of sub-regions have exactly the same area and shape, but merely how the air for the acid- It is enough to be evenly distributed in the above-mentioned area in such a number as to be able to measure the discharge.

Thus, after the water surface area corresponding to the filtration device is divided into a plurality of sub-areas, the flow rate of the air discharged through a specific measurement point MP in each sub-area is measured.

Hereinafter, the apparatus and method of the present invention for measuring the flow rate of the air discharged through a specific measurement point MP in each sub-region will be described in detail with reference to FIGS. 3 and 4. FIG.

FIG. 3 schematically shows an apparatus 100 for measuring uniformity of an acid-labile washing according to an embodiment of the present invention.

3, the apparatus 100 according to the first embodiment of the present invention is configured such that the air for the periodic cleaning discharged from the measurement point MP through the water surface of the water treated by the filtration membrane is introduced And a collecting body 110 having an internal space.

The collecting body 110 has only one opening H and air for the periodic cleaning can be introduced into the internal space of the collecting body 110 through the opening H. [

According to the first embodiment of the present invention, the collecting body 110 is formed of a transparent or semi-transparent material so that the internal space can be seen from the outside.

Hereinafter, a method of measuring the uniformity of the acid cleaning using the apparatus 100 will be described in detail.

First, the inner space of the collecting body 110 is filled with water treated by the filtration membrane. Specifically, after the collecting body 110 is immersed in the water at the measurement point MP, if the air exists in the internal space, the air is removed to completely fill the internal space of the collecting body 110 with water. Fill it.

Then, only the opening H of the collecting body 110 is located in the water in the water tank 10 and most of the collecting body 110 is located outside the water, so that the measurement point MP To be injected into the internal space of the collecting body (110) through the opening (H).

Air is injected into the internal space of the collecting body 110 filled with water, so that the air starts to replace the water. In other words, the water in the inner space is discharged through the opening H out of the collecting body 110 (that is, returned to the water in the water tank 10) by the air injected into the inner space, The water surface of the water existing in the inner space of the collecting body 110 is lowered.

Next, when the water level of the water present in the internal space drops due to the air injected into the internal space of the collecting body 110, the descending speed of the water is measured.

According to the first embodiment of the present invention, the collecting body 110 is formed of transparent or semitransparent material, and the collecting body 110 displays graduations for dividing the internal space into equal volumes. Therefore, the water descending speed of the water existing in the internal space of the collecting body 110 can be easily grasped visually.

FIG. 4 schematically shows an apparatus 200 for measuring uniformity of an acid-labile washing according to a second embodiment of the present invention.

4, the apparatus 200 according to the second embodiment of the present invention includes an internal space (not shown) through which air discharged from the measurement point MP can be introduced through the water surface of water treated by the filtration membrane, A pipe 220, and a flow meter 230. The collecting body 210 has a body 210,

The collecting body 210 has first and second openings H1 and H2 so that the air for cleansing the horn can flow through the first opening H1 to the inner space of the collecting body 210, And then discharged from the collecting body 210 through the second opening H2.

The pipe 220 provides a passage for the air exhausted from the collecting body 210 through the second opening H2.

The flow meter 230 measures the flow rate of the air flowing through the pipe 220.

According to the second embodiment of the present invention, since the flow rate of the air discharged from the measurement point MP through the water surface of the water treated by the filtration membrane is measured by the flow meter 230 (that is, ), The collecting body 210 is not necessarily formed of a transparent or semi-transparent material, but may be formed of an opaque material.

Hereinafter, a method of measuring the uniformity of the acid cleaning using the apparatus 200 will be described in detail.

The air discharged from the measurement point MP through the water surface of the water treated by the filtration membrane is introduced into the inner space of the collecting body 210 through the first opening H1 of the collecting body 210 Inject. More specifically, only the opening H1 of the collecting body 210 is located in the water in the water tank 10, and most of the collecting body 210 is located outside the water, So that the air discharged from the point MP is injected into the internal space of the collecting body 210 through the opening H1.

Then, the air injected into the internal space of the collecting body 210 is discharged from the collecting body 210 through the second opening H2 of the collecting body 210. [

Then, when the air discharged from the collecting body 210 flows along the pipe 220, the flow rate of the air is measured using the flow meter 230.

According to the apparatus and method of the present invention described above, it is possible to quantitatively measure the uniformity of the acid washing in the water treatment filtration membrane or the filtration apparatus, and to evaluate the performance of the filtration apparatus more accurately.

10: water tank 20: filtration membrane module
30: Acoustic engine 100, 200: Uniformity measuring device
110, 210: collecting body 220: pipe
230: Flowmeter

Claims (8)

An apparatus for measuring the uniformity of an acid-labile washing on a filtration membrane,
And a collecting body in the form of a cone having an inner space through which the air for the acid-cleansing can be introduced, discharged through the water surface of the water treated by the filtration membrane,
Wherein the collecting body is formed of a transparent or semitransparent material. The method according to claim 1,
The collecting body has only one opening,
The air for the acid cleaning is introduced into the internal space of the collecting body through the opening,
And the graduations are displayed on the collecting body. An apparatus for measuring the uniformity of an acid-labile washing on a filtration membrane,
A collecting body in the form of a cone having first and second openings, the first and second openings having an inner space through which the air for the acid cleansing, which is discharged through the water surface of the water treated by the filtration membrane, The air for cleansing the acid is introduced into the internal space of the collecting body through the first opening and then discharged from the collecting body through the second opening;
A pipe for providing a passage for the air to be discharged from the collecting body through the second opening; And
And a flowmeter for measuring a flow rate of the air flowing through the pipe. A method for measuring uniformity of an acid-labile cleansing of a filtration membrane,
Filling the inner space of the collecting body in the form of a cone with water treated by the filtration membrane;
Injecting air for cleansing the organic acid discharged through the water surface of the water treated by the filtration membrane into the internal space of the collecting body; And
And measuring the descending velocity of the water when the water surface of the water existing in the inner space falls due to the air injected into the inner space of the collecting body. A method for measuring uniformity. A method for measuring uniformity of an acid-labile cleansing of a filtration membrane,
Injecting the air for cleansing the organic acid discharged through the water surface of the water treated by the filtration membrane into the internal space of the collecting body through the first opening of the conical collecting body;
Discharging the air injected into the internal space from the collecting body through a second opening of the collecting body; And
And measuring the flow rate of the air discharged from the collecting body. CLAIMS 1. A method for measuring the uniformity of anteroxidation for a filtration device comprising a plurality of filtration membrane modules and a plurality of diffusers for clearing the filtration membrane modules,
Equally dividing the area of the water surface treated by the filtration device corresponding to the filtration device into a plurality of sub-areas; And
And measuring the flow rate of the air for the periodic cleaning discharged through each of the subareas,
Wherein the step of measuring the air flow rate in each sub-
Filling the internal space of the collecting body with water treated by the filtration apparatus;
Injecting air for cleansing the cleansing through the surface of the sub region into the internal space of the collecting body; And
And measuring a descending velocity of the water when the water surface of the water existing in the inner space falls due to the air injected into the inner space of the collecting body. / RTI > delete CLAIMS 1. A method for measuring the uniformity of anteroxidation for a filtration device comprising a plurality of filtration membrane modules and a plurality of diffusers for clearing the filtration membrane modules,
Equally dividing the area of the water surface treated by the filtration device corresponding to the filtration device into a plurality of sub-areas; And
And measuring the flow rate of the air for the periodic cleaning discharged through each of the subareas,
Wherein the step of measuring the air flow rate in each sub-
Injecting air for cleansing the organic acid discharged through the sub region into the internal space of the collecting body through the first opening of the collecting body;
Discharging the air injected into the internal space from the collecting body through a second opening of the collecting body; And
And measuring a flow rate of the air discharged from the collecting body. 2. The method according to claim 1, wherein the flow rate of the air discharged from the collecting body is measured.

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