JPH09234458A - Floating separator and method therefor - Google Patents

Abstract

PROBLEM TO BE SOLVED: To discharge scum in a floating separation tank when the operation is stopped. SOLUTION: In a floating separation tank 18, a suspension in raw water is floated and separated, Treated water in the lower part of the floating separation tank 18 is fed into a treated water tank 40 through an overflow weir 36 of an overflow tank 34 and a valve 38. The scum is scraped up by a skimmer 20 and is discharged to a sludge tank 30 through a scum discharge port 24. A part of the treated water is circulated in the floating separation tank 18 in a pressurized state due to air intruded into an ejector 46 and, by the circulation, air bubbles are supplied to the tank 18. When stopping the operation, the supply of raw water is stopped, and also the valve 38 is closed. Furthermore, a valve 42 is closed and a valve 54 is opened. In this way, the treated water in the treated water tank 40 is fed into the floating separation tank 18 as pressurized water, Therefore, the water level in the floating separation tank 18 is raised and scum overflows the scum discharge port 24 and is completely discharged.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a levitation separation apparatus and method for levitation separation of relatively easily suspended suspended matter contained in water.

[0002]

2. Description of the Related Art Flotation separation has been conventionally known as one of water treatment methods, and one of them is pressure flotation.
In this pressurized levitation, pressurized water in which air is dissolved under high pressure is supplied to the levitation separation tank together with raw water. by this,
The bubbles generated from the pressurized water adhere to the suspended substance contained in the raw water, the specific gravity of the suspended substance containing bubbles becomes sufficiently lighter than that of water, and it floats as scum on the water surface. Therefore, the suspended substance is removed from the water by scraping the surfaced scum with a scraper or the like and discharging it.

Such floating separation is used for treating industrial wastewater containing suspended substances, such as fish meat proteins and oil, which are relatively easy to float. Further, if bubbles are easily attached, even if the specific gravity thereof is somewhat larger than that of water, it can be floated and separated. The floating separation causes bubbles to adhere to the suspended substance, so that the specific gravity of the floating material is considerably lighter than that of water. Therefore, it is possible to achieve higher-speed separation than precipitation separation.

[0004]

In such a flotation separator, when treating wastewater containing suspended solids having a larger specific gravity than water, some amount of precipitation cannot be avoided.

That is, when the operation is stopped, the floating material remains on the water surface of the floating separation tank, and with the passage of time, the bubbles in the floating material escape into the atmosphere and settle.
If this sediment is left as it is, it will rot at the bottom, and the quality of the treated water will deteriorate for some time after the start of the next operation (until the treated water in the flotation tank is replaced). It may get sick or have a bad odor.

Therefore, in order to process this sediment, an apparatus provided with a sludge scraping machine or the like at the bottom of the flotation tank to scrape the sediment and discharge the sludge is also provided. Are known.

However, the provision of such a mechanism for treating deposits requires extra facilities, which causes a problem of increasing the size and cost of the apparatus. In addition, there is a problem that design restrictions are increased, such as the shape of the floating separation tank and the arrangement so as not to interfere with the scum scraping mechanism.

On the other hand, if the pressurized water is supplied from the bottom of almost the entire area of the flotation separation tank, and the pressurized water is always supplied even after the operation is stopped, bubbles can be always adhered to the floating material. . However, such a method has a problem that the operating cost is increased because the pressurized water is constantly generated and circulated even during the operation stop. In addition, in some cases, such as when inspecting and repairing equipment, it is not always possible to circulate the pressurized water, and in such a case, there is a problem that a precipitate is generated.

The present invention has been made to solve the above-mentioned problems, and an object of the present invention is to provide a flotation separation device capable of efficiently ejecting levitated substances when the operation is stopped.

[0010]

DISCLOSURE OF THE INVENTION The present invention relates to a levitation separation apparatus for levitation separation of suspended matter contained in raw water using bubbles, and a levitation separation tank into which raw water and bubbles are introduced,
Along with discharging the treated water inside the flotation separation tank, a treated water discharge part that determines the water level in the flotation separation tank, and a raking mechanism that moves the floating material floating on the water surface of the flotation separation tank,
A floating material discharge port for discharging the floating material scraped by the scraping mechanism to the outside of the floating separation tank, which is provided above the water surface in the floating separation tank defined by the treated water discharge part,
Water level raising means for controlling the discharge in the treated water discharge part and raising the water level in the floatation separation tank to the water level of the floating material discharge port, and activating the water level raising means at a predetermined timing to effect the floating separation It is characterized in that the water level in the tank is raised and the floating material is overflow-discharged from the floating material discharge port.

During normal operation, the treated water is discharged from the treated water discharge section, and the water level in the flotation separation tank is maintained at the water level defined by this treated water discharge section. That is, in the floating separation tank, bubbles adhere to the solid matter in the raw water, and the floating matter (scum) floats on the water surface. The floating scum is scraped by the scraping mechanism and discharged from the floating material discharge port. The treated water is discharged from the treated water discharge part.

When the operation is stopped, the discharge of the treated water is regulated to raise the water level in the flotation / separation tank, so that the scum is discharged from the float discharge port. In this way,
Complete discharge of scum on the water surface that cannot be removed by normal operation can be achieved.

In the normal case, since the scum in the flotation separation tank cannot be completely discharged, when the operation is stopped, the scum remaining in the flotation separation tank gradually precipitates and decomposes in the tank. Therefore, we have set up a mechanism for removing precipitates,
The supply of air bubbles must be continued to prevent the floating material from settling.

However, according to the present invention, the scum can be almost completely removed from the flotation tank as described above. Therefore, even if the operation is stopped thereafter, no precipitate is generated in the floating separation tank.

According to another aspect of the invention, the treated water discharge part accommodates an overflow weir for overflowing the treated water of the flotation separation tank, and the water level inside thereof rises above the upper end of the overflow weir. It has a possible overflow tank, and the water level raising means has a valve for the treated water for stopping the discharge of the treated water from the overflow tank.

With such an overflow tank and valve, the water level in the flotation tank can be easily controlled.

In still another aspect of the invention, the treated water tank for storing the treated water, the gas mixing means for mixing the treated water from the treated water tank with the gas, and the treated water mixed with the gas are floated. Means for returning treated water to the separation tank,
The water level raising means raises the water level in the levitation separation tank by returning the treated water mixed with gas to the levitation separation tank in a state where the valve for the treatment water is closed. And

By returning the treated water from the treated water tank with the gas mixed, the purified and clean water can raise the water level in the flotation separation tank at the end of the operation. Therefore, the water remaining in the flotation tank after the scum discharge can be made clean, and it is possible to effectively prevent the generation of precipitates during the subsequent operation stop.

Further, according to still another aspect of the present invention, further, there is provided a pressure tank for storing the treated water in which bubbles are mixed in a pressurized state, and the treated water in the pressurized state from the pressure tank is fed to the floating separation tank. It is characterized by supplying and generating bubbles in the floating separation tank.

By generating bubbles using pressurized water, fine bubbles can be deposited and generated, and the bubbles can be efficiently attached to the solid matter. Therefore, effective floating separation can be performed.

Further, in another invention, further, a circulation means for branching a part of the treated water supplied to the overflow tank to the gas mixing means, the circulation means and the treated water tank. A switching means for supplying the treated water from either one to the gas mixing means, and when the water level in the flotation / separation tank is raised by the water level raising means, a treatment from the treated water tank is performed instead of the treated water from the circulation means. It is characterized in that water is supplied to the gas mixing means.

As described above, by circulating a part of the treated water that is normally supplied to the overflow tank as pressurized water, the amount of water that flows over the overflow weir can be reduced and the overflow tank can be reduced. Also, at the end of operation,
The treated water in the treated water tank can be used to raise the water level in the flotation tank.

Still another aspect of the invention is characterized in that the switching means has a check valve for preventing the treated water from flowing from the circulation means to the treated water tank.

As described above, by providing the check valve, the treated water from the circulation means is normally circulated as pressurized water and can be easily switched to the treated water from the treated water tank when the operation is stopped. That is, the pressurized water can be easily switched to the treated water from the treated water tank via the check valve by stopping the circulation from the circulation means while the supply from the treated water tank is enabled.

Still another aspect of the present invention is further a raw water tank for storing raw water to be supplied to the flotation / separation tank, a sludge tank for storing floating substances discharged from the discharge section, and a discharge from the discharge section. And a floating material returning means for returning the floating material to the raw water tank, wherein the floating material is transferred to the raw water tank when the water level in the flotation separation tank is raised by the water level raising means. To do.

As a result, it is possible to prevent the scum having a low solid content concentration, in which the overflowed treated water is mixed, from being mixed in the separated sludge.

Still another aspect of the invention is characterized in that the bubbles are supplied from almost the entire bottom surface of the flotation separation tank, and float separation is performed on almost the entire surface of the flotation separation tank.

By supplying air bubbles from the entire surface, it is possible to effectively prevent sedimentation of solid matter in the flotation tank. In particular, in such a configuration, it is difficult to provide a mechanism for scraping sedimented sludge and the like, but in the present invention, since the sedimented sludge is not generated even when the operation is stopped, such a flotation separation tank is adopted. Is preferred.

[0029] In still another aspect of the invention, a slender flow path is formed in the floating separation tank from the inflow part of the raw water toward the discharge part of the treated water, and the treated water flows along this flow path. It is characterized by

With such a plug flow levitation separation tank, effective levitation separation without short circuit can be performed. The elongated passage is normally formed by a partition wall in the tank, but in such a case, it is difficult to provide a mechanism for scraping the settled sludge. In the present invention, since the settled sludge is not generated even when the operation is stopped, it is preferable to adopt the floating separation tank of this type.

The levitation separation method according to the present invention is a levitation separation method using the levitation separation device as described above, and during normal operation, the water level of the levitation separation tank is set to the water level defined by the treated water drainage section. When the operation of the flotation separation processing is instructed, the water level of the flotation separation tank is set as the water level raised by the water level raising means, and the floating material on the water surface of the flotation separation tank is overflow-discharged, and then the operation is performed. To finish.

Another aspect of the present invention is a flotation separation method in which raw water and air bubbles are introduced into a flotation separation tank, and suspended substances contained in the raw water are floated and separated. The normal water level is maintained, the floating material floating above the water surface is discharged from the floating material discharge port, and the treated water is discharged from below the floating separation tank. It is characterized in that it is raised above the normal water level to accelerate the discharge of floating substances and sufficiently reduce the floating substances remaining on the water surface of the floating separation tank at the end of operation.

By such a floating separation treatment, it is possible to sufficiently remove the floating substances remaining on the water surface from the floating separation tank when the operation is stopped.

As described above, according to the present invention, the scum remaining in the flotation tank can be almost completely discharged when the operation is stopped. Therefore, even if the floating separation tank is left stationary thereafter, no precipitate is generated. Therefore, a special sediment scraping mechanism is unnecessary, and it is not necessary to continue the circulation of the pressurized water.

[0035]

DESCRIPTION OF THE PREFERRED EMBODIMENTS Preferred embodiments of the present invention (hereinafter referred to as embodiments) will be described below with reference to the drawings.

[Structure] As shown in FIG. 1, raw water containing a suspension is supplied to a raw water tank 10 and stored therein. The stirrer 12 rotates a stirring blade 12b arranged in the raw water tank 10 by means of a motor 12a so that the suspension does not settle in the raw water tank 10. In addition, in this example, an inorganic coagulant and an acid or alkali pH adjuster are supplied into the raw water tank 10 to cause a flocculation reaction of the suspension. An appropriate inorganic flocculant is selected depending on the type of raw water.

The raw water tank 10 includes a raw water supply pump 14
Are connected at one end. The other end of the raw water supply pump 10 is connected to a floating separation tank 18 via a valve 16. In addition, a polymer coagulant is supplied near the discharge port of the raw water supply pump 14, thereby making the suspension coagulated with the inorganic coagulant into a larger floc.

The flotation / separation tank 18 has a circular shape, and a centrifugal blade-shaped skimmer 20 is provided on the water surface thereof.
The skimmer 20 is rotated by a motor 22, which pushes the scum floating above the water surface of the flotation separation tank 18 toward the outside. On the upper side of the flotation tank 18,
A scum discharge port 24 is provided, and a scum discharge trough 26 is provided around the scum discharge port 24. Then, the scum pushed by the skimmer 20 is collected in the scum discharge trough 26 via the scum discharge port 24.

The scum discharge trough 26 is connected to the sludge tank 30 and the raw water tank 10 via a switching valve 28. Therefore, the scum collected in the scum discharge trough 26 is discharged to the sludge tank 30 or returned to the raw water tank 10 by the operation of the switching valve 28.

On the other hand, one end of the treated water discharge pipe 32 is connected to the bottom of the floating separation tank 18, and the other end is connected to the overflow tank 34. The overflow tank 34 has an overflow weir 36 therein, and the treated water from the flotation separation tank 18 is discharged from the overflow tank 34 by overflowing the overflow weir 36. Therefore, the water surface in the floating separation tank 18 is adjusted by the height of the overflow weir 36.

The lower end of the scum discharge port 24 is set slightly higher than the upper end of the overflow weir 36, and only the scum floating above the water surface of the flotation separation tank 18 is the scum discharge port 24.
Is to be discharged from.

The downstream side of the overflow weir 36 of the overflow tank 34 is connected to a treated water tank 40 via a valve 38, and the treated water is discharged from the treated water tank 40. Therefore, the treated water obtained in the lower portion of the floating separation tank 18 is discharged via the overflow tank 34, the valve 38, and the treated water tank 40.

A valve 42 is provided on the treated water discharge pipe 32.
The suction port of the first pressurizing pump 44 is connected via the. A circulation path returning to the suction side is formed on the discharge side of the first pressurizing pump 44, and an ejector 46 for mixing air is arranged in the middle of the circulation path.
Therefore, the operation of the first pump produces a gas-liquid mixed liquid in which the air from the ejector 46 is mixed into the treated water in the treated water tank 40.

A pressure tank 50 is connected to the discharge side of the first pressure pump 44 via a second pressure pump 48. Therefore, by operating the second pressurizing pump 48,
The gas-liquid mixed liquid discharged from the pressure pump 44 is further pressurized and supplied to the pressure tank 50.

The pressure tank 50 stores the gas-liquid mixed liquid from the second pressure pump 48 in a pressurized state for a predetermined time to accelerate the pressure dissolution of the gas. Gas is dissolved in the treated water. For example, 4-7
The gas is dissolved at a pressure of kgf / cm ² .

As shown in the figure, a gas phase is generated in the upper part of the pressure tank 50 by the air separated from the gas-liquid mixed liquid. Is designed to be emitted. That is, the ejector 4
6, the amount of air mixed in the treated water is set to be slightly larger so that the pressure in the pressure tank 50 is maintained at the above-mentioned predetermined pressure. Further, a pressure gauge (not shown) is provided above the pressure tank, and the first pressure pump 4
4 and the second pressurizing pump 48 are controlled.

A pressurized moisture pipe 52 is connected to the pressurized tank 50, and the other end of the pressurized moisture pipe 52 is discretely arranged on substantially the entire surface of the floating separation tank 18 (not shown). )It is connected to the. Further, one of the tips of the pressurized moisture pipe 52 is also supplied to the raw water supplied to the floating separation tank 18.

Therefore, the pressurized water is supplied to the flotation / separation tank 18 and is depressurized there (the water depth of the flotation / separation tank 18 is several meters at most, and 7 k corresponding to a water depth of 70 m).
Pressurized water pressurized to g / cm ² is depressurized). Therefore, the dissolved air is deposited as bubbles. Especially,
Since bubbles are likely to precipitate at the solid-liquid interface,
The deposited bubbles efficiently adhere to the suspended substance, and the suspended substance is floated and separated.

A portion of the treated water from the treated water discharge pipe 32 to the overflow tank 34 is circulated as pressurized water. As a result, the amount of water passing through the overflow tank 34 becomes equal to the amount supplied by the raw water pump 14, which is the minimum amount as compared with the case where water other than treated water is used as the supply source of the pressurized water.

The treated water tank 40 has a valve 54,
The check valve 56 is connected to the suction side of the first pressurizing pump 44. The check valve 56 is used for the treated water tank 40.
From the treated water to the first pressurizing pump 44. If the valve 42 is closed and the valve 54 is opened, the treated water from the treated water tank is
Pressure pump 44, second pressure pump 48, pressure tank 50
It will be supplied to the flotation separation tank 18 via.

A sludge pump 58 is connected to the sludge tank 30 so that the sludge in the sludge tank 30 can be discharged.

"During normal operation" In such a flotation device, when performing normal processing, the valves 16 and 3 are used.
8 and 42 are opened, the valve 54 is closed, and the switching valve 28 opens the sludge tank 30 side.

By operating the raw water supply pump 14 in this state, raw water is supplied to the flotation / separation tank 18.
On the other hand, by operating the first and second pressurizing pumps 44 and 48, air was mixed by the ejector 46 into part of the treated water in the lower part of the flotation separation tank 18 and was sufficiently dissolved in the pressurizing tank 50. Pressurized water is circulated in the floating separation tank 18. Therefore, the suspended matter is floated above the water surface by the bubbles generated from the pressurized water. Although it depends on the concentration of suspended solids in the raw water, the amount of pressurized water is, for example, 1
Circulate about 0-50% of water.

Here, the skimmer 20 is rotating on the surface of the floating separation tank 18, and the floating scum is discharged to the sludge tank 30 through the scum discharge port 24, the scum discharge trough 26, and the switching valve 28. .

On the other hand, the treated water corresponding to the supply of raw water passes over the overflow weir 36 of the overflow tank 34 and the treated water tank 4
Released through 0. The overflow weir 36 maintains the water level in the flotation separation tank 18 at a constant normal operating water level.

[During Operation Stop] Next, when the operation is stopped, the valves 16, 38 and 42 are closed, the valve 54 is opened, and the switching valve 28 opens the raw water tank 10 side. Also,
The operation of the raw water supply pump 14 is stopped.

When the first pressurizing pump 44 and the second pressurizing pump 48 are operated in this state, the treated water from the treated water tank 40 passes through the valve 54 and the check valve 56, and then the first pressurizing pump 44. The treated water in the treated water tank is supplied to the flotation separation tank 18 as pressurized water.

On the other hand, since the valve 38 is closed, the overflow tank 34 cannot discharge the treated water, and the water level in the overflow tank 34 rises above the upper end of the overflow weir 36. The water level in the overflow tank 34 is the same as the water level in the levitation separation tank 18, and the water level in the levitation separation tank 18 also rises.

Then, when the water level in the flotation separation tank 18 becomes higher than the lower end of the scum outlet 24, the scum in the flotation separation tank is removed from the water surface of the flotation separation tank together with the overflow of the treated water. At this time, the skimmer 20 continues to be driven, and the skimmer 20 completely removes the scum on the water surface from the floating separation tank 18. In addition,
Since the switching valve 28 is switched to the raw water tank 10 side, the scum is returned to the raw water tank 10. Therefore, the returned scum will be processed in the next operation. Then, by this, it is possible to prevent the inflow of scum having a low solid content concentration in which the treated water is mixed into the sludge tank 30.

After that, the first and second pressurizing pumps 44, 48
When the motor 22 is stopped and the motor 22 is stopped, the operation of the skimmer 20 is stopped and the operation of the device is stopped.

As described above, according to the levitation separation apparatus of this embodiment, all scum floating on the water surface in the levitation separation tank 18 can be eliminated when the operation is stopped. Therefore, for a long period of time thereafter, even if the operation is stopped, the settled sludge does not occur and the settled sludge does not decompose. Also, no sludge scraping mechanism is required. Further, since the circulation of the pressurized water is stopped, it is possible to suppress an increase in operating cost and cause no problem during inspection and repair.

FIG. 2 shows a flow chart of the above-mentioned processing when the operation is stopped. First, when an operation stop command is input, the raw water supply pump 14 is stopped first, and the supply of chemicals such as inorganic and organic coagulants is stopped (S1).
1). The operation of the stirrer 12 is also stopped. The stirrer 1 is used to prevent spoilage in the raw water tank 10.
2 can be operated at a low speed, or air can be supplied here.

Next, the valve 16 is closed and the raw water supply line is closed (S12). Then, with the supply of such raw water stopped, a predetermined time elapses (S1
3). As a result, the floating separation process by circulating the pressurized water is continued, and the residual solid matter in the floating separation tank 18 is sufficiently floated above the water surface.

After a predetermined time has passed, the switching valve 2
8 is switched to the raw water tank side (S14). Then, the valve 54 is opened and the valves 42 and 38 are closed (S1
5). Here, since the check valve 56 is present, by opening the valve 54 after opening the valve 54, it is possible to easily switch the treated water circulating as pressurized water from the treated water tank 40.

As a result, the discharge of the treated water from the floating separation tank 18 is stopped, and the water level in the floating separation tank 18 rises. Then, until the scum discharge is completed, the scum is returned and discharged to the raw water tank 10 in this state (S16). Then, it is determined whether or not the scum discharge is completed (S16), and when it is completed, the operation of the first and second pressurizing pumps 44 and 48 is stopped and the motor 22 is stopped to operate the skimmer 20. Is stopped (S17).

Here, the completion of the scum discharge may be judged by the water level of the treated water tank 40 becoming a predetermined low water level, or the raw water tank 10 becoming a predetermined high water level. You may judge by. The water levels of the treated water tank 40 and the raw water tank 10 are maintained in a substantially constant range during normal operation, while the amount of water required for scum discharge is known in advance. Can be done.

Finally, the valve 42 is opened and the floating separation tank 1
The water level in 8 is returned to the normal water level, and the valve 38
Is opened, the valve 54 is closed, and the switching valve 28 is returned to the sludge tank side (S18). by this,
When the operation is restarted, the valve 16 may be opened to restart the operation of the raw water supply pump 14.

[Other Configurations] The detection of the end of the scum discharge may be carried out by providing a reflection type water surface detector or the like on the water surface of the flotation tank 18 and detecting the presence of the scum.

Further, instead of providing the switching valve 28, the discharge path from the scum discharge trough 26 may be formed by a flexible pipe to change the discharge destination of the scum.

As the organic-inorganic coagulant, an appropriate coagulant is selected depending on the type of raw water, but it is not necessary to add a chemical such as a coagulant. Further, instead of the treated water from the treated water tank 40, water from another water source (for example, clean water) may be supplied to the first pressure pump 44.

Furthermore, the scum removal by overflow according to the present invention can be applied to the floating treatment other than the pressure floating, and the pressure floating such as the raw water pressure type may be used.

[Structural Example of Floating Separation Tank] Further, the floating separation tank 18 is preferably of a type in which all the suspended matter is floated. For example, a plug flow type as shown in FIGS. 3 and 4 is suitable. 3 is a plan view and FIG. 4 is A-
It is A sectional drawing.

The inside of the rectangular parallelepiped flotation / separation tank 18 is a meandering elongated passage due to the partition walls 101, 102, 103 which are arranged alternately. Then, the raw water is supplied to the slender floating separation tank 18 via a raw water supply pipe 104 connected to one end of the passage. The raw water is mixed with the pressurized water and supplied to the intermediate portion in the depth direction. On the other hand, the treated water discharge pipe 105 is connected to the lower portion of the other end of the flotation tank 18, and the treated water is discharged from here. Therefore, the raw water flows in from one end of the floating separation tank 18, passes through the elongated passage, and then flows out from the other end. Note that the treated water is introduced into the overflow tank 34 as in the example of FIG.

On the other hand, above the flotation / separation tank 18, a belt type scum scraper 107 is arranged. The scum scraper 107 is composed of a skimmer 110 that is wound around rollers 108 and 109.
The scrubbing blades provided at 0 scrape scum floating on the water surface toward the scum discharge trough 111. In this example, since there is the scum discharge trough 111 on the treated water discharge side, the scum is scraped in that direction.

With such a device, the bubbles generated from the pressurized water adhere to the suspension in the raw water, and the suspension is floated on the water surface as the scum 112. The region 113 containing bubbles generated from the pressurized water decreases with the passage of time, and the region 114 of the treated water below the region 113 decreases.
Gradually increases.

Thus, by partitioning the inside of the flotation / separation tank 18 into elongated passages, discharge of suspended matter due to a short circuit can be prevented, and reliable separation of suspended matter can be performed. Further, since the partition walls 101, 102, 103 are provided, it is difficult to remove the sediment if it occurs at the bottom of the flotation separation tank 18, but like the present invention, all scum is eliminated when the operation is stopped. By doing so, such a problem can be solved.

Also in the flotation / separation tank 18 having this structure, it is also preferable to dispose diffusers discretely over the entire surface thereof so that the floating process in the tank can be reliably performed.

[Brief description of drawings]

FIG. 1 is a diagram showing an overall configuration of a flotation device according to an embodiment of the present invention.

FIG. 2 is a flowchart showing a process when the operation is stopped.

FIG. 3 is a plan view showing a configuration example of a floating separation tank.

4 is a cross-sectional view of the flotation tank of FIG.

[Explanation of symbols]

10 raw water tank, 12 agitator, 14 raw water supply pump, 16, 38, 42, 54 valve, 18 flotation separation tank, 20 skimmer, 22 motor, 24 scum discharge port, 26 scum discharge trough, 28 switching valve, 30
Sludge tank, 32 treated water discharge pipe, 34 overflow tank, 40 treated water tank, 44 first pressure pump, 46 ejector, 48 second pressure pump, 5
0 pressurized tank, 52 pressurized moisture piping, 56 check valve.

Claims (11)

[Claims] 1. A flotation separation device for floating and separating suspended solids contained in raw water using air bubbles, wherein a flotation separation tank into which raw water and air bubbles are introduced, and treated water in the flotation separation tank are discharged. At the same time, the treated water discharge part that determines the water level in the levitation separation tank, the scraping mechanism that moves the floating material that floats above the water surface of the levitation separation tank, and the water surface inside the levitation separation tank defined by the treated water discharge part The floating material discharge port, which is provided above and discharges the floating material scraped by the scraping mechanism to the outside of the flotation separation tank, and the discharge in the treated water discharge part, regulates the water level in the floating separation tank. A water level raising means for raising the water level to the discharge port is provided, and the water level raising means is activated at a predetermined timing to raise the water level in the flotation separation tank, and the floating material is overflow-discharged from the floating material discharge port. Flotation device, characterized in that. 2. The apparatus according to claim 1, wherein the treated water discharge part accommodates an overflow weir for overflowing the treated water in the flotation tank, and the water level inside the overflow weir is higher than the upper end of the overflow weir. Also has an overflow tank capable of rising upward, and the water level raising means has a valve for treated water for stopping discharge of treated water from the overflow tank. 3. The apparatus according to claim 2, further comprising a treated water tank for storing the treated water, a gas mixing means for mixing the treated water from the treated water tank with a gas, and a treatment in which the gas is mixed. And a treated water returning means for returning water to the flotation separation tank, wherein the water level raising means returns the treated water mixed with gas to the flotation separation tank with the valve for the treated water closed. Thus, the flotation separation device is characterized by raising the water level in the flotation separation tank. 4. The apparatus according to claim 3, further comprising a pressure tank that stores the treated water containing air bubbles in a pressurized state, and the treated water in the pressurized state is floated from the pressurized tank. A flotation device, which supplies air to a separation tank to generate bubbles in the flotation tank. 5. The apparatus according to claim 3, further comprising: a circulation means for branching a part of the treated water supplied to the overflow tank and supplying the gas mixing means, and the circulation means. Switching means for supplying the treated water from one of the treated water tank to the gas mixing means, and instead of the treated water from the circulation means when the water level in the flotation / separation tank is raised by the water level raising means. A flotation device, wherein treated water from a treated water tank is supplied to a gas mixing means. 6. The flotation separation device according to claim 5, wherein the switching means has a check valve for preventing the treated water from flowing from the circulation means toward the treated water tank. . 7. The apparatus according to claim 1, further comprising a raw water tank for storing raw water to be supplied to the floating separation tank, and a floating material discharged from the discharge section. Sludge tank and floating material returning means for returning the floating material discharged from the discharge section to the raw water tank, and the floating material when the water level in the floating separation tank is increased by the water level increasing means. The flotation device, which returns the water to the raw water tank. 8. The apparatus according to any one of claims 1 to 7, wherein the bubbles are supplied from almost the entire bottom of the flotation separation tank, and the flotation is performed on almost the entire surface of the flotation separation tank. Floating separation device characterized. 9. The apparatus according to any one of claims 1 to 8, wherein a slender flow path is formed in the floating separation tank from a raw water inflow portion toward a treated water discharge portion, The levitation separation device characterized in that the treated water flows along this flow path. 10. The levitation separation method using the apparatus according to claim 1, wherein during normal operation, the water level of the levitation separation tank is set to the water level defined by the treated water drainage section. When separation processing is performed and an operation end command is issued, the floating level in the flotation separation tank is set as the water level raised by the water level raising means, and floating substances on the water surface of the flotation separation tank are overflow-discharged, and then the operation ends. A floating separation method characterized by: 11. Introducing raw water and bubbles into a flotation separation tank,
This is a flotation separation method that floats and separates suspended solids contained in raw water.In normal operation, the water level in the flotation separation tank is maintained at the normal water level, and the levitated matter that floats above the water surface is discharged from the levitated matter discharge port. At the same time as discharging, the treated water is discharged from below the levitation separation tank, and before the operation is stopped, the water level in the levitation separation tank is raised above the normal water level to promote the discharge of levitation substances, and the levitation separation tank at the end of operation. The floating separation method characterized by sufficiently reducing the floating substances remaining on the water surface.