KR101402201B1 - Back washing apparatus of membrane - Google Patents

Abstract

The present invention relates to a membrane filter using a hollow fiber membrane, comprising: a membrane module provided in a reaction tank to filter liquid in a reaction tank to produce clean water; A membrane formed integrally with the hollow fiber membrane at a lower portion of the membrane module to collect filtration water and to allow the washing liquid to pass therethrough; A suction pump for sucking, transporting and stopping the membrane filtration water at regular intervals; A connection pipe connecting the suction pump for sucking the filtered water of the header; A suction valve connected to the connection pipe and installed at the suction port of the suction pump, the suction valve being opened during operation of the suction pump and being closed while the suction pump is stopped; A chemical storage tank for storing cleaning chemicals; A chemical supply pump for periodically supplying cleaning chemicals to the membrane module; A check valve for preventing the membrane cleaning liquid containing membrane filtration water or fine bubbles from flowing back to the chemical feed pump; A washing pump sucking the membrane filtration water stored in the membrane filtration water storage tank and sending the membrane filtration tank to the air dissolution tank; An air compressor for feeding air to the inlet of the cleaning pump or the discharge pipe; An air dissolving tank for maintaining a pressure of atmospheric pressure or more and supersaturating the air; A pressure regulating valve for regulating a pressure of the air dissolving tank; A cleaning flowmeter for measuring a flow rate of a membrane cleaning liquid containing fine bubbles which have passed through the air dissolution tank; A pressure gauge for measuring the pressure of the membrane cleaning liquid containing membrane filtration water and fine bubbles; And automatically controls the operation of the chemical feed pump, the suction pump, the cleaning pump, and the air compressor according to the flow rate and pressure of the membrane cleaning liquid including fine bubbles, the pressure of the membrane filtration water, And a control panel for controlling the film thickness of the film.
Therefore, by supplying the cleansing water mixed with the supersaturated fine air bubbles into the inside of the membrane module at the bottom of the membrane module, the cleaning effect is enhanced by the even supply of the cleansing water and the vibration caused by the air bubbles passing through the fine pores of the membrane filter It is possible to reduce the supply amount of the cleaning liquid, to prevent clogging of the membrane, and to increase the membrane filtration amount.

Description

BACK BACKGROUND OF THE INVENTION Field of the Invention [0001]

The present invention relates to a membrane cleaning apparatus for filtering and cleaning using membranes.

As the awareness of the need for clean water for the maintenance of human health and life has increased and the demand for clean water has increased as the industry has become more sophisticated, water treatment devices and processes using membranes are widely used.

MF (microfiltration) is widely used in membranes and has a hole with a diameter of 0.5 μm or less. UF (single-stage filtration) is a membrane having a pore size of 0.05 μm or less. It is a device to produce.

The membrane is effective for producing clean water as described above, but on the other hand, the hole for passing water is small, so that the membrane easily clogs the foreign matter.

Conventionally, in order to remove foreign matters clogging the membrane by adhering to the membrane, sodium hypochlorite or ozone water or an acidic or alkaline chemical solution is flowed back to the membrane at regular intervals to remove the foreign matter by oxidative dissolution, For a long time to remove the foreign substances by oxidizing and dissolving them.

Although the cleaning method as described above is most widely used, there is a problem that the filtration capacity of the membrane after washing is not fully recovered to the original state, and the filtration amount of the membrane decreases as the use period expires.

As another method, there is used a method of removing foreign matter by washing the membrane while refluxing air or water. However, since the air is lighter than water by about one-hundredth, the membrane (used desert) Even though air is supplied from the lower part of the membrane to the upper part of the membrane, the cleaning action is not uniform because the air passes through the upper part of the membrane and the lower part passes through less, and the cleaning method, The operation is weak and a large amount of water must be refluxed for a long period of time. Since the water used for the cleaning must use the filtered water in the membrane, it eventually results in seriously reducing the filtration amount of the membrane.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a film cleaning apparatus capable of performing uniform and effective cleaning with a small amount of water required for cleaning.

According to an aspect of the present invention, there is provided a membrane filter using a hollow fiber membrane, the membrane filter comprising: a membrane module installed in a reaction tank to filter liquid in the reaction tank to produce clean water; A membrane formed integrally with the hollow fiber membrane at a lower portion of the membrane module to collect filtration water and to allow the washing liquid to pass therethrough; A suction pump for sucking, transporting and stopping the membrane filtration water at regular intervals; A connection pipe connecting the suction pump for sucking the filtered water of the header; A suction valve connected to the connection pipe and installed at the suction port of the suction pump, the suction valve being opened during operation of the suction pump and being closed while the suction pump is stopped; A chemical storage tank for storing cleaning chemicals; A chemical supply pump for periodically supplying cleaning chemicals to the membrane module; A check valve for preventing the membrane cleaning liquid containing membrane filtration water or fine bubbles from flowing back to the chemical feed pump; A washing pump sucking the membrane filtration water stored in the membrane filtration water storage tank and sending the membrane filtration tank to the air dissolution tank; An air compressor for feeding air to the inlet of the cleaning pump or the discharge pipe; An air dissolving tank for maintaining a pressure of atmospheric pressure or more and supersaturating the air; A pressure regulating valve for regulating a pressure of the air dissolving tank; A cleaning flowmeter for measuring a flow rate of a membrane cleaning liquid containing fine bubbles which have passed through the air dissolution tank; A pressure gauge for measuring the pressure of the membrane cleaning liquid containing membrane filtration water and fine bubbles; And automatically controls the operation of the chemical feed pump, the suction pump, the cleaning pump, and the air compressor according to the flow rate and pressure of the membrane cleaning liquid including fine bubbles, the pressure of the membrane filtration water, And a control panel for controlling the film thickness of the film.

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The membrane cleaning apparatus according to the present invention supplies cleansing water mixed with supersaturated fine air bubbles to the inside of the membrane module at the lower part of the membrane module to prevent the equal supply of the cleansing water and the vibration caused by the air bubbles passing through the micro- It is possible to increase the cleaning effect, thereby reducing the supply amount of the cleaning liquid, preventing clogging of the membrane, and increasing the membrane filtration amount.

1 is a view schematically showing a film cleaning apparatus according to the present invention.
Fig. 2 is an exemplary view showing an out-of-line cleaning process of the present invention.

The present invention relates to a membrane washing apparatus for performing filtration and washing using membranes, and in a membrane filter using a hollow fiber membrane, a membrane module (1) for producing a clean water by filtering a liquid in a reaction tank, A connecting tube (not shown) for connecting the header 2, through which the washing liquid is passed, and the suction pump 7 for sucking the filtration water, is formed in the lower part of the membrane module, 3) was installed.

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A suction valve 8 is provided which is connected to the connection pipe 3 and installed at the suction port of the suction pump 7 so as to be opened during the operation of the suction pump and closed during the stop of the suction pump, A suction pump 7 for sucking the membrane filtration water passed through the membrane filtration water storage tank (B) at predetermined time intervals was provided.

The connection pipe 3 is provided with a chemical supply pump 5 for periodically supplying cleaning chemicals to the membrane module 1 and a chemical storage tank 4 for storing chemicals for cleaning, A check valve (6) was installed to prevent the cleaning liquid from flowing back to the chemical feed pump (5).

A cleaning pump 9 for sucking the membrane filtration water stored in the membrane filtration water storage tank B and feeding it to the air dissolving tank 11 and an air compressor 10 for supplying air to the inlet or discharge pipe of the cleaning pump And connected to a discharge pipe of a cleaning pump to provide an air-dissolving tank (11).

A pressure regulating valve 12 is provided at the outlet of the air-dissolving tank 11 so that the pressure inside the air-dissolving tank can be adjusted to 5 to 10 kg / cm 2.

The pressure of the water passing through the pressure regulating valve 12 drops to a level close to the atmospheric pressure. When the pressure is lowered, the air dissolved in the supersaturated state in the water is eluted and a large amount of fine bubbles of several micrometers or less is generated. (Hereinafter referred to as "membrane cleaning liquid containing minute bubbles") in a state containing a large amount of bubbles is connected to the connection pipe 3 through a pipe, and a flow meter 13 is provided, And a pressure gauge 14 for measuring the pressure of the membrane washing liquid containing the membrane filtration water and the minute bubbles was installed.

A control panel 15 for automatically controlling the operation of the chemical feed pump, the suction pump, the cleaning pump, and the air compressor for every cycle set by the flow rate and pressure of the membrane cleaning liquid containing minute bubbles, the pressure of the membrane filtration water, (15).

Hereinafter, the present invention will be described in detail.

When the suction pump is operated so as to start and stop the suction pump 7 at regular intervals in the automatic control panel 15, the water in the reaction tank A is filtered in the membrane module 1, Is sucked into the suction pump (7) through the suction pump (3), and is transferred from the suction pump to the membrane filtration water storage tank (b).

Although the operation period of the suction pump 7 is slightly different depending on the film manufacturer, a 10 minute filtration and a 2 minute decompression are one operation cycle.

In the case of the hollow fiber membrane filter, the membrane of the hollow fiber membrane filter sucks inward due to the suction pressure of the suction pump 7, and the filtration proceeds. However, the filtration layer of the hollow fiber membrane is compressed by the vacuum pressure, Since the resistance is increased, after a 10-minute filtration, a resting period of 2 minutes is set so that the membrane is restored to its original state by the elasticity of the membrane, and then the filtration is started again.

As described above, as the number of times of repeating the filtration increases, foreign matter accumulates in fine pores that perform filtration action of the filtration membrane, so that the filtration rate decreases and the resistance increases.

When the filtration resistance increases and becomes lower than 10% of the suction pressure of the pressure gauge 14 (generally 0.2 to 0.3 m of head according to the manufacturer's instructions), the pressure gauge 14 receives the pressure signal transmitted from the pressure gauge 14 15) initiates a "countercurrent cleaning".

The other path for backwashing is countercurrently cleaned in accordance with a timer or a time set period provided in the control panel.

The time set period is set so that countercurrent washing is performed for 10 to 30 minutes once every 12 to 24 hours.

The "reverse flow cleaning" proceeds as follows.

When the "backwashing" signal is generated, the washing pump 9 is operated to feed the water in the membrane filtration water storage tank B to the air dissolving tank 11, and at the same time, the air compressor 10 is operated, And the inside of the air-dissolving tank 11 is supplied to the inlet of the washing pump, the discharge pipe or the air-dissolving tank, and the inside of the air-dissolving tank 11 is operated at a pressure of 5 to 10 kg / do.

When the pressure is maintained as described above and staying for 2 minutes or more, 3 to 6% of air is dissolved in water in a saturated state.

The water in the air-dissolving tank is lowered to a pressure of 3 to 5 m by the pressure regulating valve 12, and when the pressure is lowered, the supersaturated air is dissolved out from the water and the diameter thereof becomes several hundred nanometers- Numerous fine air bubbles (nano bubbles) of several micrometers are formed.

The fine air bubbles become "membrane cleaning liquid containing minute bubbles" flowing in water with a uniform concentration without being separated from water because the rising speed is very slow in water.

The membrane cleaning liquid containing the microbubbles is conveyed to the header 2 through the connection tube 3 and is conveyed from the bottom of the membrane module 1 to the inside of the hollow fiber membrane through the header.

Since the membrane cleaning liquid containing fine bubbles transferred to the inside of the hollow fiber membrane is in a state of water containing fine air bubbles having the same flow characteristics as water and flowing back at an equal speed over the entire surface of the membrane, So that foreign substances accumulated in the membrane are removed, and particularly when minute air bubbles contained in the membrane cleaning liquid containing fine bubbles pass through the fine holes of the membrane, vibration is generated to effectively remove foreign matter.

The use of the pressure gauge 14 is advantageous in that the filtration speed is reduced and the filtration resistance is increased due to the accumulation of contaminants in the membrane, The control panel 15 automatically generates a "cleaning in the system" signal at a cycle of 1 to 2 times / month (or the resistance of the membrane increases) or a pressure of 0.35 to 0.4 m more than the normal suction pressure My cleaning begins.

"Cleaning in the system" proceeds as follows.

When cleaning in the system is started, the operation of the suction pump 7 is stopped, and the suction valve 8 is closed.

At the same time, the chemical supply pump 5 is operated to transfer the medicine stored in the chemical storage tank 4 to the membrane module 1 through the connection tube, and the transferred medicine flows back through the membrane from the inside of the hollow fiber membrane, The foreign matter adhered to the surface of the substrate is oxidized and dissolved.

The cleaning time in the system is determined differently depending on the contamination state of the membrane, but it is standard to continue for 10 to 20 minutes.

When cleaning in the system is completed, start filtration again or perform "backwash cleaning" described above and start filtration.

However, if the filter is used for a long period of several months or more over a long period of time, the filtration resistance gradually increases and the filtration rate decreases. Therefore, the pressure drop measured by the pressure gauge 14 is 0.45 m or more, or if it has been more than one year since the last cleaning outside the system, "outside cleaning" shall be performed.

An example of "outside cleaning" is as follows.

"Outside cleaning" is performed in a cleaning tank composed of a chemical cleaning tank 20, an air cleaning tank 30, and a backwashing tank 40.

The membrane module 1 moved in the reaction tank A is first placed in the chemical cleaning tank 20 and allowed to react with the chemical for 3 to 12 hours to oxidize and dissolve the foreign substance, Clean air is supplied into the inside of the module, the air is cleaned for 5 to 20 minutes while passing through the membrane in the reverse flow, and finally the membrane is introduced into the backwashing washing tank 40, and the membrane washing liquid containing fine bubbles, , The membrane module 1 is again installed in the reaction tank (A), and filtration is started.

Sodium hypochlorite solution, sulfuric acid, caustic soda, ozone solution, hydrogen peroxide solution, etc. can be used for the cleaning and cleaning in the system, and the chemicals to be used are determined according to the water quality and contamination condition. In the above description of the present invention, the pressure of the air-dissolving tank, the pressure in the connecting pipe, and the filtration resistance value of the membrane filter are illustrated. However, the scope of the present invention is not limited to the above- And is within the scope of the invention.

1 reaction tank
Two
3 connector
4 medicine storage tank
5 Drug supply pump
6 check valves
7 suction pump
8 suction valve
9 Cleaning Pump
10 air compressor
11 Air Fusion Tank
12 Pressure regulating valve
13 Flowmeter
14 Pressure gauge
15 control panel
20 Chemical cleaning bath
30 Air cleaning tank
40 Backflow cleaning tank

Claims (2)

In a membrane filter using a hollow fiber membrane,
A membrane module (1) provided in the water of the reaction tank (A) to filter the liquid in the reaction tank to produce clean water;
A header (2) formed integrally with the hollow fiber membrane at a lower portion of the membrane module to collect filtration water and to pass a cleaning liquid;
A suction pump 7 for sucking, transporting and stopping the membrane filtration water at regular intervals;
A connection pipe (3) connecting the suction pump (7) for sucking the filtered water of the header (2);
A suction valve 8 connected to the connection pipe 3 and installed at the suction port of the suction pump 7 so as to be opened during the operation of the suction pump 7 and closed during the stop of the suction pump 7;
A medicine storage tank (4) for storing cleaning chemicals;
A chemical supply pump 5 for periodically supplying cleaning chemicals to the membrane module 1;
A check valve (6) for preventing the membrane cleaning liquid containing membrane filtration water or fine bubbles from flowing back to the chemical feed pump (5);
A cleaning pump 9 for sucking the membrane filtration water stored in the membrane filtration water storage tank B and feeding it to the air dissolving tank 11;
An air compressor (10) for feeding air to the inlet of the washing pump (9) or the discharge pipe;
An air-dissolving tank 11 for maintaining a pressure higher than atmospheric pressure and supersaturated air;
A pressure regulating valve (12) for regulating the pressure of the air dissolving tank;
A washing flow meter (13) for measuring a flow rate of a membrane washing liquid containing fine bubbles which have passed through the air dissolving tank;
A pressure gauge 14 for measuring the pressure of the membrane washing liquid containing membrane filtration water and fine bubbles; And
A control panel 15 for automatically controlling the operation of the chemical feed pump, the suction pump, the cleaning pump, and the air compressor, and for controlling the filtration and cleaning automatically at every predetermined period or a flow rate and pressure of the membrane cleaning liquid including minute bubbles, ). ≪ / RTI > delete

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