KR100978522B1 - Bubble generator and theof control method for apparatus disposing waste water - Google Patents

Abstract

PURPOSE: A bubble generating device for processing waste water and a control method thereof are provided to purify waste water by injecting bubbles into a dissolved air floatation tube. CONSTITUTION: A bubble generating device includes a bubble generator which generates bubbles by mixing circulating water and air, a circulating water storing tube(20), a circulating water shifter pipe transferring the circulating water to the bubble generator, a booster pump which is prepared in the intermediate area of the circulating water shifter pipe, an air supplier(50) which supplies the air to the moving circulating water, and a bubble amount motor-operated valve which prevents the waste water from flowing backward into the bubble generator.

Description

Bubble Generator and theof Control Method for Apparatus Disposing waste water}

The present invention relates to a pressurized flotation wastewater treatment system, and more particularly, to a bubble generating device and a control method thereof.

In general, sewage water has been mainly used for sedimentation of sludge and sewage after sedimentation of sewage sludge after sedimentation of sewage sludge. However, sedimentation method takes a long time and has the disadvantage of securing a large site, and also causes various side effects such as rot and odor of sediment.

 Accordingly, various treatment devices have been developed to separate wastewater from sludge into circulating water even in a narrow space, and in a frequently used method, fine sludge is adsorbed on the bubbles by blowing pressurized air into the wastewater to generate bubbles. There is a pressurized flotation method to remove after floating to the surface.

The most commonly used wastewater treatment method by the pressure flotation method is the Dissolved Air Flotation method, which is widely used in wastewater treatment plants. It is installed on one side of the tank to compress the water and air to saturate the air, and then it is sprayed in the floating tank to generate bubbles made by the saturated air and to separate the fine sludge adsorbed on the bubbles by the scraper. .

However, the size and injection amount of bubbles generated by the air spraying device applied to the conventional wastewater treatment system have disadvantages that are not sufficient to improve the treatment efficiency of the wastewater. That is, the most important part of the sewage treatment system using the dissolved air flotation method is the size and amount of air bubbles sprayed from the air injector, which affects the treatment speed of the wastewater and the quality of the treated water. In other words, if the size of the bubble is too large, the surface of the entire bubble is reduced by collision and agglomeration between the rising bubbles, thereby reducing the sludge floating effect, and the adsorbed sludge also rises again due to the impact. The problem of floating.

Accordingly, the applicant of the present invention discloses a method and apparatus for treating sewage water using nano bubbles in Korean Patent No. 0871352 to solve the above problems.

However, various improvements to be made to the sewage treatment apparatus according to the above-described invention occur as follows.

First, the bubble generator should be supplied with water allowing suspended substances of at least 1mm or less to generate fine bubbles of 0.1 ~ 1㎛, but after restarting, the sludge inside the pressure relief tank flows back into the bubble generator when it is restarted. As a result, fine bubbles are not generated or normal operation is often not performed.

Second, in order to generate fine bubbles, air in the air must be supplied, but when the next day of operation is stopped, the level of the pressurization float is high, so that the wastewater flows back to the air supply to maintain the air supply smoothly.

Third, the efficient operation can be performed only if the bubble amount can be adjusted according to the characteristics of the wastewater purified by the pressurized floatation tank, but the bubble amount cannot be adjusted.

Fourth, the nano-bubble generator must be supplied with a constant pressure of the circulating water mixed with air to generate the nano-sized bubbles normally, when the pressure is weaker or higher than the reference value is not generated smoothly.

Fifth, circulating water must be continuously supplied, but the supply of circulating water may not be smooth.

In addition to the above problems, since the process for generating bubbles is not automated, various improvements occur, such as the inconvenience of having to operate manually and a decrease in efficiency.

The present invention has been made to solve the above problems, in the bubble generator for sewage treatment equipment for injecting bubbles into the pressure flotation tank to purify the waste water, the nano-sized bubbles are effectively generated, and the amount of bubbles generated is stable and stable An object of the present invention is to provide a bubble generator for sewage treatment and control method thereof.

The object of the present invention is a bubble generator of a sewage treatment system for injecting bubbles into a pressurized floatation tank to purify waste water, comprising: a bubble generator for generating the bubbles by mixing circulating water and air; A circulation water storage tank for storing the circulation water supplied to the bubble generator; A circulation water moving tube for moving the circulation water to the bubble generator; A pressurizing pump provided in an intermediate region of the circulating water moving tube to pressurize the circulating water to supply the bubble generator; An air supplier provided in the circulating water moving tube between the pressurized pump and the circulating water storage tank to supply air to the circulating water; Bubble volume transfer is provided in any one area of the bubble moving tube for injecting the bubbles generated by the bubble generator to the inner lower portion of the pressure flotation tank, to adjust the injection amount of the bubble and to prevent the waste water in the pressure flotation tank to flow back to the bubble generator. It is achieved by a bubble generator for a sewage treatment system, characterized in that it comprises a valve.

A pressure reducing tube is further provided in the circulating water moving tube between the bubble generator and the pressure pump, and the pressure reducing tube is provided with a surplus bubble driving valve and a pressure reducing valve for maintaining a predetermined pressure.

The bubble is characterized in that it is produced in the size of 0.1 ~ 1㎛.

The circulating water storage tank is configured with a sensor unit for recognizing the fullness of the circulating water and a circulating water supply pipe for supplying the circulating water, and the circulating water supply pipe is provided with a circulating water automatic valve for controlling the amount of circulating water. It is done.

A pressure gauge for measuring the pressure of the circulating water, which is compressed by the pressure pump and flows into the bubble generator, is further attached to the circulating water moving tube adjacent to the bubble generator.

The air supply is characterized by consisting of an air flow meter, a parallel manual valve configured in parallel with the air transmission valve that can block and adjust the inflow of air.

The bubble moving tube between the bubble amount electric valve and the bubble generator is characterized in that the bubble collection valve for checking the amount of bubbles generated is further provided.

The circulation water transfer pipe may be further provided with a plurality of pressure control valves provided to manually manipulate the movement amount of the circulation water.

In addition, the object is a control method of the bubble generator for sewage treatment apparatus according to the above, The pressure pump is operated to press the circulating water pressure for a predetermined time (T1) circulating water until a specific pressure (P1); A washing step of simultaneously opening the bubble amount driving valve and the excess bubble driving valve to wash the bubble generator and the bubble moving tube while the pressurized circulating water passes through the bubble generator; A bubble injection step in which the bubble generator generates bubbles and injects them into the pressure relief tank after a predetermined time (T2) has elapsed and the circulating water maintains a specific pressure (P2); A bubble amount adjusting step of adjusting the amount of bubbles by adjusting the plurality of pressure regulating valves, air supply and surplus bubble electric valve according to the characteristics of the waste water; An operation step of checking the amount of bubbles with the bubble collection valve and continuously generating a specific amount of bubbles; Purification of the sewage water is completed by the control method of the bubble generating device for sewage treatment equipment, characterized in that it comprises a step of sequentially stopping the air flow valve and stop the pressure pump.

According to the present invention, in the bubble generator of the sewage treatment system for injecting bubbles into the pressurized floatation tank to purify the wastewater, bubbles for the sewage treatment equipment that can effectively produce nano-sized bubbles and control the amount of bubbles generated can be supplied stably and easily. It is possible to provide a generator and a control method thereof.

Hereinafter, an embodiment of the present invention will be described with reference to the accompanying drawings.

1 is a simplified representation of the bubble generating apparatus according to the present invention, Figure 2 is a flow chart of the operation of the bubble generating apparatus according to the present invention, Figure 3 is a flow chart of the control method of the bubble generating apparatus according to the present invention.

The present invention is a bubble generator (10) for generating the bubble by mixing the circulation water and air; A circulation water storage tank 20 for storing the circulation water supplied to the bubble generator 10; A circulation water moving pipe (30) for moving the circulation water to the bubble generator (10); A pressurizing pump 40 provided in an intermediate region of the circulating water moving tube 30 to pressurize the circulating water to supply the bubble generator 10; An air supplier 50 provided in the circulating water moving tube 30 between the pressurized pump 40 and the circulating water storage tank 20 to supply air to the circulating water; The bubble generated in the bubble generator 10 is provided in any area of the bubble moving tube 63 for injecting the bubble to the inner lower portion of the pressurized floatation tank 100, so that the amount of foam injection and the sewage water in the pressurized floater 100 bubble. And a bubble amount electric valve 60 to prevent the flow back to the generator 10.

Bubble generator 10 used in the embodiment of the present invention can generate bubbles of 0.1 ~ 1㎛, while the size of the bubble supplied from the conventional pressurized type sewage treatment apparatus 30 to 80㎛. The bubble generator employed in the present invention is disclosed in Korean Patent No. 0771658, "Microbubble Oxygen Apparatus of Fluid," which supplies a large amount of oxygen to the fluid supplied at high speed by a fluid accelerator located in the fluid supply unit and forms a strong turbulent flow. It is a device configured to impart ultra-miniature bubbles of 0.1 ~ 1㎛ size to the fluid instantly. Details thereof will be omitted since it is disclosed in detail in the above-described pre-registered patent, but in addition to the pre-registered patent, any bubble generator capable of generating bubbles having a size of 0.1 to 1 μm may be applicable to the present invention. have.

As shown in FIG. 1, the circulating water storage tank 20 is provided in a tubular shape and is used for stably storing the circulated water from the pressurized floatation tank 100 to supply the bubble generator 10 to the bubble generator 10. The circulating water flowing into the circulating water storage tank through the circulating water supply pipe 25 may use the circulated water purified from the pressurized flotation tank or the discharged water being discharged, and in some cases, a constant may be used. Circulating water or effluent water is moved along the circulating water supply pipe 25 through the effluent water supply pump 29 and a circulating water automatic valve 27 is provided at one of the circulating water supply pipes 25 and installed in the circulating water storage tank 20. When the circulating water reaches the full water level according to the recognition of the sensor unit 23, the circulating water supply pipe 25 is automatically shut off. The sensor unit 30 according to the embodiment of the present invention controls the circulating water automatic valve 27 by recognizing the lowest water level and the highest water level, but may be set to always fill the circulating water up to a specific water level.

The circulating water moving tube 30 serves to move the circulating water from the circulating water storage tank 20 to the bubble generator 10, and the circulating water moving tube 30 is attached to various devices to be described later to control the circulating water according to the purpose. do.

The pressurized pump 40 is provided in the middle region of the circulating water moving tube 30 and pressurizes the circulating water moving through the circulating water moving tube 30 to a specific pressure P1 and P2 to supply the bubble generator 10. Do it.

The air supplier 50 is provided in the circulating water moving tube 30 between the pressure pump 40 and the circulating water storage tank 20 to supply air to the circulating water. The air supply 50 is composed of an air flow meter 53, an air transmission valve 55 that can block and regulate the inflow of air, and a parallel manual valve 57 composed of the air transmission valve 55 in parallel. .

Air flow meter 53 is provided in the form of a gauge to adjust the inflow of air, in the embodiment of the present invention is provided to supply about 2 to 6 liters of air per minute. The air transmission valve 55 serves to automatically cut off or open the air supply and also prevent a reverse flow of the circulating water. In addition, it is possible to provide a parallel manual valve 57 which is configured in parallel and can be operated manually in preparation for the failure of the air-drive valve 55.

The bubble amount electric valve 60 is provided in any area of the bubble moving tube 63 for injecting bubbles generated by the bubble generator 10 into the lower portion of the pressure relief tank 100, thereby adjusting the injection amount of the bubble and causing the pressure injury. The wastewater in the tank 100 is provided for the purpose of preventing the backflow to the bubble generator (10).

Bubble moving tube 63 is provided in the form of a tube for supplying the bubbles generated in the bubble generator 10 to the inner lower portion of the pressure relief tank 100, the bubble volume transfer valve 60 is an automatic valve bubble moving tube (63) Preferably in the middle region.

The pressure gauge 70 is provided in the circulating water moving tube 30 adjacent to the bubble generator 10 and is provided to measure the pressure of the circulating water that is compressed by the pressure pump 40 and flows into the bubble generator 10.

The bubble collection valve 65 is attached to the bubble moving tube 63 between the bubble amount driving valve 60 and the bubble generator 10 and is provided as a manual valve to check the generation amount of bubbles.

Decompression tube 80 is attached to the circulating water transfer pipe 30 between the pressure gauge 70 and the pressure pump in the form of 'T' and serves to disperse the pressure of the circulating water supplied to the bubble generator 10 The tube 80 is attached to the surplus bubble motor valve 83 and the decompression valve 85. That is, due to the compression of the circulating water of the pressure pump 40, when the pressure load is more than or less than necessary, the circulating water is discharged according to the specific pressure P2 of the decompression valve 85 through the open excess bubble motor valve 83. Or blocked. In addition, the decompression pipe 80 may be in communication with the circulating water supply pipe 25 and reused as circulating water.

The circulation water movement pipe 30 may be provided with a plurality of pressure control valves capable of manually adjusting the movement amount of the circulation water. In the embodiment of the present invention, the first pressure regulating valve 90 between the air supply 50 and the circulating water storage tank 20, and the second pressure regulating valve 93 between the pressure gauge 70 and the pressure reducing pipe 80. ), The amount of circulating water and the amount of circulating water mixed with air were adjusted to enable efficient operation.

Hereinafter, an operation method and a control method of the bubble generator for sewage treatment system according to an embodiment of the present invention will be described.

Operation method of the bubble generating apparatus according to the present invention, the pressure pump 40 is operated circulating water pressure step of pressurizing the circulating water for a predetermined time (T1) to a specific pressure (P1); Washing the bubble generator 10 and the bubble moving tube 63 while the bubble amount electric valve 60 and the excess bubble electric valve 83 are opened at the same time and the pressurized circulating water passes through the bubble generator 10; After the predetermined time T2 has elapsed and the circulating water maintains the specific pressure P2, the air-operated valve 55 is opened, so that the bubble generator 10 generates bubbles and injects the bubbles into the pressurized floatation tank 100. step; A bubble amount adjusting step of adjusting the amount of bubbles by adjusting the plurality of pressure adjusting valves (90,93), the air supply (50), and the surplus bubble driving valve (83) according to the characteristics of the waste water; An operation step of checking the amount of bubbles with the bubble collecting valve 65 and continuously generating a specific amount of bubbles; The purification of the sewage water is ended, and includes an operation stop step of blocking the air flow valve 60 and stopping the pressurized pump 40.

Before the circulating water pressure step, the circulating water is always fully filled with the circulating water automatic valve 27 in the circulating water storage tank 20, and the first pressure regulating valve 90 and the second pressure regulating valve 93 are opened. It keeps being in a state.

When the automatic operation is started, the pressure pump 40 is operated for a predetermined time T1 in the circulating water pressure step so that the pressure of the pressure gauge reaches about 15 kg / cm 3 (P1).

Subsequently, in the washing step, the bubble amount electric valve 60 and the surplus bubble electric valve 83 are automatically opened, and the pressure of the pressure gauge drops rapidly by washing the bubble generator 10 and the bubble moving tube 63 at high pressure.

Subsequently, in the bubble injection step, when the pressure pump 40 is continuously operated, and the pressure gauge reaches about 8 to 9 kg / cm 3 (P2) for a predetermined time T2, the air flow valve 55 is opened while the air flow meter ( As the amount of air set at 53 is introduced into the circulating water moving tube 30, bubbles are generated in the bubble generator 10 and injected into the pressure floatation tank 100.

Subsequently, in the bubble adjustment step, the treatment efficiency may be improved by adjusting the air flow meter 53, the first pressure regulating valve 90, the second pressure regulating valve 93, and the pressure reducing valve 85 according to the characteristics of the wastewater. . In addition, check the bubble collection valve (65) to check whether bubbles are normally generated.

The operation phase continuously generates bubbles to purify the wastewater.

In the operation stop step, the bubble amount electric valve 60 is first shut down to prevent backflow of the wastewater and to stop the pressurized pump 40 while blocking the air electric valve 55 and the surplus bubble electric valve 83.

According to the present invention, it is possible to provide a bubble generator and a control method thereof for preventing the breakdown of the bubble generator, continuously generating bubbles of a certain size to increase the efficiency of purification treatment, and to perform automated wastewater treatment. Will be.

Although embodiments of the present invention have been shown and described, it will be apparent to those skilled in the art that the present embodiments may be modified without departing from the spirit or spirit of the invention. Therefore, the scope of the invention will be defined by the appended claims and equivalents thereof.

1 is a simplified representation of the bubble generating apparatus according to the present invention,

2 is an operation flowchart of the bubble generator according to the present invention,

3 is a flow chart of the control method of the bubble generator according to the present invention.

* Explanation of symbols for the main parts of the drawings

T1, T2: Predetermined time P1, P2: Specific pressure

10: bubble generator 20: circulating water storage tank

23: sensor unit 25: circulating water supply pipe

27: circulating water automatic valve 29: discharge water supply pump

30: circulating water transfer pipe 40: pressurized pump

50: air supply 53: air flow meter

55: air operated valve 57: parallel manual valve

60: bubble flow transfer valve 63: bubble transfer pipe

65: bubble collection valve 70: pressure gauge

80: decompression tube 83: surplus bubble motor valve

85: pressure reducing valve 90: first pressure control valve

93: second pressure control valve 100: pressurized injury

Claims (9)

In the bubble generator of the sewage treatment system for injecting bubbles into the pressure flotation tank to purify the waste water, A bubble generator for generating the bubbles by mixing circulating water and air; A circulation water storage tank for storing the circulation water supplied to the bubble generator; A circulation water moving tube for moving the circulation water to the bubble generator; A pressurizing pump provided in an intermediate region of the circulating water moving tube to pressurize the circulating water to supply the bubble generator; An air supplier provided in the circulating water moving tube between the pressurized pump and the circulating water storage tank to supply air to the circulating water; Bubble volume transfer is provided in any one area of the bubble moving tube for injecting the bubbles generated by the bubble generator to the inner lower portion of the pressure flotation tank, to adjust the injection amount of the bubble and to prevent the waste water in the pressure flotation tank to flow back to the bubble generator. A valve, A pressure reducing tube is further provided in the circulating water moving tube between the bubble generator and the pressurized pump, and the pressure reducing tube is provided with an excess bubble driving valve and a pressure reducing valve for maintaining a predetermined pressure. delete The method of claim 1, The bubble is a bubble generating device for sewage treatment equipment, characterized in that it is produced in the size of 0.1 ~ 1㎛. The method of claim 1, The circulating water storage tank is configured with a sensor unit for recognizing the fullness of the circulating water and a circulating water supply pipe for supplying the circulating water, and the circulating water supply pipe is provided with a circulating water automatic valve for controlling the amount of circulating water. Bubble generator for sewage water treatment system. The method of claim 1, And a pressure gauge for measuring the pressure of the circulating water, which is compressed by the pressure pump and flows into the bubble generator, is further attached to the circulating water moving tube adjacent to the bubble generator. The method of claim 1, The air supply unit is a bubble generator for sewage treatment equipment, characterized in that consisting of an air flow meter, a parallel manual valve configured in parallel with the air transmission valve that blocks and regulates the inflow of air. The method of claim 1, And a bubble collecting valve for checking the amount of bubbles generated in the bubble moving tube between the bubble amount driving valve and the bubble generator. The method of claim 1, The circulating water movement pipe is a bubble generating device for sewage treatment equipment, characterized in that the pressure control valve provided to manually manipulate the movement amount of the circulating water can be further provided. 1. A bubble generator of a wastewater treatment system for injecting bubbles into a pressurized floatation tank to purify the wastewater, comprising: a bubble generator for generating the bubbles by mixing circulating water and air; A circulation water storage tank for storing the circulation water supplied to the bubble generator; A circulation water moving tube for moving the circulation water to the bubble generator; A pressurizing pump provided in an intermediate region of the circulating water moving tube to pressurize the circulating water to supply the bubble generator; An air supplier provided in the circulating water moving tube between the pressurized pump and the circulating water storage tank to supply air to the circulating water; And a bubble moving tube provided in any region of the bubble moving tube for injecting the bubbles generated by the bubble generator to the inner lower portion of the pressure flotation tank, to adjust the injection amount of the bubble and to prevent the wastewater in the pressure flotation tank from flowing back to the bubble generator. It includes an electric valve, the circulating water transfer pipe between the bubble generator and the pressure pump is further provided with a decompression tube, the decompression tube is provided with a surplus bubble transfer valve and a decompression valve for maintaining a predetermined pressure, the air supply Is composed of an air flow meter, a parallel manual valve configured in parallel with the air transmission valve to block and regulate the inflow of air, the bubble flow pipe between the bubble flow valve and the bubble generator for checking the amount of bubbles generated A bubble collecting valve is further provided, and the circulating water moving pipe manually adjusts the movement amount of the circulating water. A method for controlling a wastewater treatment appointed bubbler pressure control valve provided to be further arranged to a number, A circulation water pressure step of operating the pressure pump to pressurize the circulation water for a predetermined time (T1) until a specific pressure (P1); A washing step of simultaneously opening the bubble amount driving valve and the surplus bubble driving valve to wash the bubble generator and the bubble moving tube while the pressurized circulating water passes through the bubble generator; A bubble injection step in which the bubble generator generates bubbles and injects them into the pressure relief tank after a predetermined time (T2) has elapsed and the circulating water maintains a specific pressure (P2); A bubble amount adjusting step of adjusting the amount of bubbles by adjusting the plurality of pressure regulating valves, air supply and surplus bubble electric valve according to the characteristics of the waste water; An operation step of checking the amount of bubbles with the bubble collection valve and continuously generating a specific amount of bubbles; The control method of the bubble generating device for sewage treatment equipment, characterized in that it comprises the step of stopping the air flow valve shut off and stop the pressurized pump in order to purify the waste water.

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