JP2007144239A - Oil and water separator and wastewater treatment apparatus - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an oil and water separator capable of efficiently separating a fine oil component contained in wastewater at a low cost, and a wastewater treatment apparatus. <P>SOLUTION: The oil and water separator 10 is mainly equipped with a tank 11 in which wastewater 22 is housed, an air bubble producing part 12 for supplying air to the wastewater 22, a collection part 13 for collecting an oil component on the liquid surface of the wastewater 22 and a first discharge part for discharging the wastewater 22 to the outside of the tank 11. By this oil and water separator 10, the oil component contained in the wastewater 22 is floated to the surface of the wastewater 22 by the air produced from the air bubble producing part 12 and the floated oil component is further collected by the collection part 13. Accordingly, the separation of the oil component from the wastewater 22 can be facilitated. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to an oil / water separation device and a wastewater treatment device for separating oil from wastewater.

  Wastewater mixed with oil is generated from factories and construction sites. If this wastewater is discharged to the outside as it is, pollution will occur. Therefore, there is a demand to remove the pollutant such as oil mixed in the wastewater and drain it.

Examples of drainage include the following.
(1) Alkaline degreasing solution.
(2) Emulsified waste liquid generated at the factory.
(3) Water-soluble grinding fluid.
(4) An aqueous solution used when polishing an iron plate, a copper plate, or a stainless steel plate.
(5) Cement mixed water and mud mixed water generated at road construction sites and construction sites.
(6) Paint cleaning waste liquid mixed with paint.

Conventionally, such drainage has been tried to be filtered with a filter or the like (see Patent Document 1).
Japanese Patent Laid-Open No. 11-229190

  However, it has been difficult to completely remove oil contained in the wastewater by a wastewater treatment method using a filter or the like. This is because in the wastewater, the oil component is in the form of fine particles and combined with water (emulsion), and the oil component in this state is not captured by the filter hole of the filter. In addition, an apparatus capable of separating oil components efficiently and at low cost from wastewater in an emulsion state has not been developed.

  Further, there has not been proposed a waste water treatment apparatus that removes oil from waste water mixed with fine oil and further processes sludge and the like collectively.

  The present invention has been made in view of the above problems. A main object of the present invention is to provide an oil / water separation device and a wastewater treatment device capable of efficiently and inexpensively separating fine oil contained in wastewater.

  The oil / water separator according to the present invention includes a tank in which drainage containing oil is stored, and gas is supplied to the drainage stored in the tank so that the oil contained in the drainage is supplied to the liquid level of the drainage. Gas supply means for raising the waste water, discharge means provided near the liquid level of the waste water to lead out the waste water, and collection means for collecting the oil floating on the liquid level of the waste water in the discharge means. It is characterized by comprising.

  Furthermore, in the oil / water separator according to the present invention, the tank has a cylindrical shape, and the drainage means extends from the periphery of the tank to the vicinity of the center.

  Furthermore, in the oil / water separator according to the present invention, the drainage means is an open channel having an open top, and the upper end of the drainage means is located below the liquid level of the drainage.

  Furthermore, in the oil-water separator of the present invention, the lower end of the collecting means is immersed in the liquid level of the waste water, and the collecting means rotates substantially parallel to the liquid level of the waste water, thereby The oil component floating in the water collects in the drainage means.

  Furthermore, in the oil / water separator according to the present invention, the lower end of the collecting means is made of an elastic body.

  The present invention is a wastewater treatment apparatus for treating wastewater containing oil and a substance to be removed, and an oil / water separator that separates the oil from the wastewater, and a substance contained in the wastewater using a flocculant as sludge. It comprises a coagulating device to be removed and a sludge treatment device for reducing the water content of the sludge collected from the coagulating device.

  Furthermore, in the wastewater treatment apparatus of the present invention, the aggregating apparatus includes an agitation tank in which a flocculant is added to the wastewater and agitated, and a separation in which the wastewater is introduced from the agitation tank and the object to be removed is precipitated. It consists of a settling tank and a water discharge tank into which the waste water from which the object to be removed has been removed is introduced from the separate settling tank, and the separation settling tank is provided inside the water discharge tank, and inside the separate settling tank The agitation tank is provided.

  According to the oil-water separator of the present invention, the gas is supplied to the wastewater by the gas supply means, so that the oil component is suspended on the liquid surface of the wastewater, and the suspended oil is collected in the discharge means by the collecting means. The oil component can be easily separated and removed.

  In addition, according to the wastewater treatment apparatus of the present invention, since the sludge collected from the wastewater is dehydrated after separating the oil contained in the wastewater, there is an advantage that it becomes easy to reuse the object to be removed contained in the wastewater. is there.

  With reference to FIG. 1, the structure of the oil-water separator 10 of this form is demonstrated. FIG. 1A is a plan view of the oil / water separator 10 of the present embodiment as viewed from above, and FIG. 1B is a cross-sectional view thereof.

  1 (A) and 1 (B), an oil / water separator 10 according to this embodiment includes a tank 11 in which drainage 22 is stored, and a bubble generating unit 12 (gas supply means) that supplies gas to the drainage 22. ), A collection unit 13 (collection unit) that collects oil at the liquid level 23 of the drainage 22, and a first discharge unit 14 (discharge unit) that discharges the drainage 22 to the outside of the tank 11. Yes. The detail of each element which comprises the oil-water separator 10 of this form is demonstrated below.

  The drainage 22 is generated from a factory, a construction site, or the like, and includes oil, sludge, and the like. In the waste water 22, since the fine oil component is combined with moisture to form an emulsion, it is difficult to remove the fine oil component from the waste water. In the present embodiment, processing for separating oil contained in the drainage 22 is mainly performed using the bubble generation unit 12 and the collection unit 13.

The tank 11 is a container in which wastewater containing oil or the like is temporarily stored in order to perform a process of separating the oil. The tank 11 has a substantially cylindrical shape, and its volume is, for example, about several m ³ to several tens m ³ . The upper part of the tank 11 may be sealed or opened.

  The bubble generating unit 12 has a function of injecting gas (air) into the drainage 22 stored in the tank 11 in order to float the oil contained in the drainage 22 to the liquid level 23. The bubble generating unit 12 and the tank 11 are connected via a pipe 45 through which gas can pass. Here, the end of the pipe 45 connected to the bubble generating unit 12 extends to the vicinity of the center of the tank 11. Air bubbles 19 are discharged into the drainage 22 from the tip of the pipe 45. In this embodiment, the bubble 19 generated by the bubble generation unit 12 is very small, for example, having a diameter of about several nm. By supplying such fine bubbles 19 into the drainage 22, it is possible to separate the oil and water that can be combined at the molecular level. The separated oil rises to the liquid level 23 of the drainage 22.

  The 1st discharge part 14 is provided in the liquid level 23 vicinity of the waste_water | drain 22, and has the function to guide the waste_water | drain 22 accommodated in the tank 11 outside. Specifically, the first discharge part 14 is provided from the end of the tank 11 to the vicinity of the center part substantially parallel to the liquid level 23. The shape of the 1st discharge part 14 is an open water channel with the upper part opened, for example, is a shape like "Toi" which receives the rain water which flows through the roof of a house.

  A separation unit 17 that separates oil contained in the drainage 22 is provided at the subsequent stage of the first discharge unit 14. An oil mat is laid on the separation unit 17, and the oil contained in the drainage 22 is adsorbed by the oil mat. The collected oil is discharged from the separation unit 17 to the outside.

  Further, the first discharge unit 14 may be disposed in parallel to the liquid surface 23 or may be disposed with an inclination with respect to the liquid surface 23. When the first discharge unit 14 is disposed to be inclined, the first discharge unit 14 is installed so as to have a downward slope toward the periphery of the tank 11.

  In this embodiment, the upper end of the first discharge part 14 is located below the liquid level 23 of the drainage 22. By doing in this way, drainage 22 can be efficiently discharged from the 1st discharge part 14 with the oil which floats on liquid level 23 outside. In addition, the upper end of the first discharge part 14 may be at the same level as the liquid level 23 or may be positioned above the liquid level 23 as long as the drainage 22 can be easily discharged.

  The second discharge unit 20 and the third discharge unit 21 are drainage paths provided at the bottom and side surfaces of the tank 11. A valve is interposed in the middle of the second discharge part 20 and the third discharge part 21. In particular, when the second discharge unit 20 provided at the bottom of the tank 11 is used, sludge that has settled at the bottom of the tank 11 can be recovered together with the drainage 22. Further, the location where the third discharge unit 21 is installed is preferably above the bottom of the tank 11 and below the liquid level 23 of the drainage 22.

  The collection unit 13 has a function of collecting the oil component floating on the liquid level 23 in the first discharge unit 14. Here, the collection unit 13 is installed above the liquid level 23 so as to be substantially parallel to the liquid level 23. Furthermore, the collection unit 13 is disposed so as to extend from the end of the tank 11 to the opposite end. Therefore, the length of the collection unit 13 is equal to the diameter of the tank 11. The collecting unit 13 is provided with an elastic body 24 made of rubber or the like at the lower portion, and the lower end of the elastic body 24 is positioned below the liquid level 23. That is, when the oil / water separator 10 is in operation, the lower end of the elastic body 24 is always immersed in the drainage 22. For example, a portion of 5 mm from the lower end of the elastic body 24 is immersed in the drainage 22.

  Furthermore, the collection unit 13 is connected to the motor 18 in the vicinity of the center, and rotates in parallel with the liquid level 23 by the driving force of the motor 18. Accordingly, the elastic body 24 provided in the lower part of the collecting unit 13 also rotates, and the oil component floating on the liquid surface 23 moves together with the elastic body 24 and is collected in the first discharge unit 14. The rotation speed of the collection unit 13 is, for example, about one rotation per minute.

  As is clear from FIG. 1B, the lower end of the collection unit 13 made of the elastic body 24 extends below the upper end of the first discharge unit 14. Therefore, when the collection unit 13 rotates and passes above the first discharge unit 14, the elastic body 24 provided at the lower part of the collection unit 13 comes into contact with the upper part of the first discharge unit 14. Even if both are in contact with each other, the elastic body 24 is deformed, so that the first discharge portion 14 is prevented from being damaged.

  With reference to FIG. 2, the related structure of the collection part 13 and the 1st discharge part 14 is further demonstrated. In FIG. 2, other components such as the bubble generating unit 12 constituting the oil / water separator 10 are omitted.

  The collection unit 13 has a configuration in which a plurality of elastic bodies 24 made of rubber or the like are sandwiched and fixed between two elongated plates 25. As the material of the plate 25, metals such as stainless steel and iron, plastics and the like can be adopted. Further, a plurality of individual elastic bodies 24 may be provided between the plates 25 without a gap, or one continuous elastic body 24 may be provided.

  The oil / water separator 10 having the above-described configuration can be used by being mounted on a loading platform of a transportation means such as a truck, for example. By doing in this way, it becomes possible to use the oil-water separator 10 in various places, and the convenience can be improved.

  Next, with reference to FIG. 1 (B), operation | movement of the oil-water separator 10 of the structure mentioned above is demonstrated.

  First, the drainage 22 is introduced into the tank 11 from the introduction unit 15. Examples of the drainage 22 include those described in the background art section. In particular, in this embodiment, the waste water 22 containing oil can be treated efficiently. The drainage 22 is introduced using a pump (not shown) interposed in the introduction unit 15. In this embodiment, the drainage 22 is introduced until the liquid level 23 is above or near the first discharge part 14. As described above, the oil contained in the waste water 22 includes a minute amount, and the minute oil is adsorbed with moisture at the molecular level, so that it is not easy to separate them.

  Next, the bubble generation unit 12 is operated to generate bubbles 19 inside the drainage 22 stored in the tank 11. As described above, in this embodiment, fine bubbles 19 having a diameter of about 10 nm to 30 nm are generated. When the fine bubbles 19 are generated, the drainage 22 immediately becomes white and turbid. Then, the oil and water bonded in the state of the emulsion are separated (emulsion decomposition). Furthermore, since the oil component separated from water has a specific gravity smaller than that of water, it floats on the liquid surface 23 of the drainage 22. Furthermore, the ascending force of the bubbles 19 also contributes to the floating of the oil component.

  The oil component floating on the liquid level 23 is collected by the collecting unit 13 in the first discharging unit 14. Specifically, the collection unit 13 rotates with the tip of the elastic body 24 immersed in the drainage 22. Therefore, no matter what part of the liquid surface 23 the oil contained in the drainage 22 floats, the oil is moved to the first discharge part 14 as the collecting part 13 rotates.

  The oil collected by the action of the collection unit 13 is transferred from the first discharge unit 14 to the separation unit 17 together with the drainage 22. In the separation part 17, the oil content is adsorbed by the oil mat, so that the waste water discharged from the separation part 17 contains almost no oil content. In addition, an object to be removed such as mud contained in the drainage 22 is deposited at the bottom of the tank 11. Therefore, the waste water that has passed through the separation unit 17 is clean from which oil and objects to be removed have been removed, and can be discharged into a river or the like as it is. Furthermore, when the pH of the waste water 22 indicates a strong acid or strong alkali, the waste water 22 is discharged to the outside after being neutralized.

  The vertical position of the liquid level 23 is monitored by a sensor (not shown), and the liquid level 23 is discharged from the third discharge unit 21 so that the liquid level 23 is always located near the upper side of the first discharge unit 14. The amount of drainage 22 is adjusted. In addition, since the oil content in the drainage 22 is lifted upward by the above processing, the drainage 22 discharged from the third discharge portion 21 contains almost no oil.

  When the above treatment is performed, the objects to be removed, such as earth and sand, contained in the introduced waste water 22 are deposited at the bottom of the tank 11. The sediment to be removed can be taken out together with the drainage 22 from the second discharge part 20 provided at the bottom of the tank 11.

  Furthermore, the drainage 22 may be taken out from the third discharge part 21 in synchronization with the above-described processing. Since the oil contained in the drainage 22 has risen to the liquid level 23 by the action of the bubbles 19, the clean drainage 22 from which the oil has been removed is taken out from the third discharge part 21.

  The feature of this embodiment is that a minute oil component contained in the drainage 22 is separated from the drainage 22 using the bubble generation unit 12 and the collection unit 13. Specifically, fine bubbles are generated inside the drainage 22 from the bubble generation unit 12 to separate the oil and moisture, and then the oil is raised to the liquid level 23. And the oil which floated on the liquid level 23 is collected by the 1st discharge part 14 by the collection part 13, and is discharged | emitted outside.

  Next, with reference to FIG. 3, the structure of the waste water treatment apparatus 30 containing the oil-water separator 10 mentioned above is demonstrated. The wastewater treatment apparatus 30 of this embodiment is an apparatus that removes oil from the wastewater and further treats an object to be removed such as sludge contained in the wastewater.

  The wastewater treatment apparatus 30 mainly includes an oil / water separator 10, an aggregating apparatus 31, drainage tanks 32 and 33, a filter press 34, a dryer 35, a kneader 46, and a press machine 37.

  In the oil / water separator 10, oil is removed from the waste water. The details of the oil / water separator 10 are the same as those in FIG. As the processing of the oil / water separator 10 proceeds, an object to be removed including mud or the like accumulates therein. The object to be removed is collected from the second discharge unit 20 (see FIG. 1) together with the waste water, and then transferred to the aggregating device 31.

  In the aggregating apparatus 31, the object to be removed is separated from the waste water by performing a precipitation process. In the aggregating apparatus 31, an object to be removed contained in the wastewater is separated by using an aggregating agent such as PAC (polyaluminum chloride). Details of the aggregating apparatus 31 will be described later with reference to FIG. Clean wastewater obtained from the aggregating device 31 is transferred to the drainage tank 32. On the other hand, the waste water containing the high concentration object to be removed is transferred to the drain tank 33.

  In the filter press 34, waste water containing a high concentration of the object to be removed stored in the drain tank 33 is introduced and dehydrated. Due to the action of the filter press 34, a lump of objects to be removed is obtained in a semi-solid state. The waste water that has passed through the filter press 34 is returned to the oil / water separator 10, the aggregating device 31, and the like.

  In the dryer 35, the object to be removed is dried. A machine generally called “kiln” may be employed as the dryer 35. Here, the object to be removed is dried by heating. All of the moisture contained in the object to be removed may be removed by drying here. Moreover, you may dry in the state which left some moisture in the to-be-removed thing. Specifically, the to-be-removed object may be dried by leaving about 4 to 5% by weight of water. There is a merit that forming a pressure-molded body by press-molding the object to be removed is facilitated by adding some moisture to the object to be removed and drying it. The object to be removed after being dried is transported to the kneader 46.

  In the kneader 46, the material to be removed and the curing agent 36 are mixed. The object to be removed generated by the kneader 46 is transported to the press machine 37. The curing agent 36 is a material having a function of improving the curing action of the object to be removed. For example, slaked lime can be used.

In the press machine 37, a pressure-molded body is formed by pressure-molding the kneaded material to be removed. Specifically, a predetermined amount of an object to be removed is accommodated in a mold, and this mold is pressurized by a press 37 to form a pressure molded body. The pressurizing pressure at this time may be about 100 to 200 N / mm ² . As an example of the above-mentioned pressure-molded body, building materials such as tiles and tiles can be considered.

  In this embodiment, slaked lime is employed as the curing agent 36 in the kneader 46. Slaked lime becomes limestone by reacting with carbon dioxide. Therefore, the pressure-molded body having slaked lime absorbs carbon dioxide in the atmosphere with the passage of time and becomes limestone, and its strength is improved. Limestone with improved strength has hardness that exceeds that of normal tiles. Therefore, the pressure molding formed from the mixed material of this embodiment can be used as a building material such as a tile.

  Furthermore, in this form, after removing oil from wastewater using the oil-water separator 10, building materials, such as tiles, can be manufactured from to-be-removed objects such as mud contained in the wastewater. In general, it has been considered difficult to reuse the objects to be removed contained in the wastewater containing oil and the like. By using the wastewater treatment apparatus 30 of this embodiment, after removing the oil from the wastewater, the removal object such as mud contained in the wastewater can be reused as a tile or the like. Therefore, since the removal object conventionally discarded as sludge can be reused as valuables such as tiles, the cost for sludge treatment can be reduced.

  With reference to FIG. 4, the detail of the aggregation apparatus 31 contained in the waste water treatment apparatus 30 mentioned above is demonstrated. 4A is a plan view of the aggregating device 31 as viewed from above, and FIG. 4B is a typical cross-sectional view of the aggregating device 31. FIG.

  With reference to FIG. 4 (A) and FIG. 4 (B), the aggregation apparatus 31 is mainly equipped with the stirring tank 38, the separation sedimentation tank 39, and the water discharge tank 40. FIG. Then, the waste water introduced into the aggregating device 31 is discharged to the outside of the aggregating device 31 after an object to be removed such as mud is removed.

  Referring to FIG. 4A, a stirring tank 38 is located at the center, a separation / precipitation tank 39 is provided so as to surround the stirring tank 38, and a water discharge tank 40 is provided so as to surround the separation / precipitation tank 39. . Moreover, each layer which comprises the aggregation apparatus 31 is circular shape planarly, and the outer peripheral part has become concentric circle shape. The stirring tank 38 is a tank in which the waste water and the flocculant are stirred. The separation / sedimentation tank 39 is a tank for precipitating the object to be removed contained in the waste water. The water discharge tank 40 is a tank in which the waste water from which the object to be removed is removed is stored.

  Referring to FIG. 4B, the liquid level of the wastewater stored in the stirring tank 38 is located at the uppermost position. The liquid level of the wastewater stored in the separation / precipitation tank 39 is located below the stirring tank 38. Furthermore, the liquid level of the wastewater stored in the water discharge tank 40 is located at the lowest position. Thus, by changing the vertical position of the liquid level stored in each layer, the waste water overflowed from the tank located inside can be introduced into the tank located outside.

  Moreover, the chemical injection machine 41 has a role which adds a flocculant to the stirring tank 38, and the adjustment tank 42 has a function which adjusts PH of waste_water | drain.

  The operation of the aggregating apparatus 31 having the above configuration will be described below.

  First, waste water is introduced from the introduction portion 43 into the stirring tank 38 located at the center of the aggregating device 31. Oil is removed from the introduced waste water using the oil / water separator 10 shown in FIG.

  Next, a flocculant is added from the chemical injection machine 41 to the wastewater stored in the stirring tank 38. The flocculating agent to be added may be the above-described PAC, or may be another type of flocculating agent. Liquid, solid or gel flocculants can be employed here. In particular, the gel-like flocculant has a very high speed of diffusing in the waste water, and is therefore suitable for the small flocculant 31.

  Further, after the flocculant is added, the waste water is stirred in the stirring tank 38. This stirring is performed by rotating a stirrer such as a propeller built in the stirring tank 38 by the driving force of the motor.

  The waste water stirred with the flocculant by the stirring tank 38 is introduced into a separation and precipitation tank 39 provided so as to surround the stirring tank 38. This introduction may be performed when the drainage overflows the upper end of the stirring tank 38, or the drainage may be introduced by a separately provided water channel. When drainage is introduced due to overflow, the level of drainage in the agitation tank 38 needs to be positioned higher than the level of drainage in the separation / precipitation tank 39.

  Inside the separation / sedimentation tank 39, an object to be removed such as mud contained in the introduced waste water is precipitated. Due to the agitation tank 38, an object to be removed such as mud contained in the waste water is combined with the flocculant and is in a flock state. Therefore, precipitation of the object to be removed is performed at an early stage.

  Further, the object to be removed that has settled at the bottom of the separation / precipitation tank 39 can be taken out to the outside by the discharge part 44 provided at the bottom of the separation / precipitation tank 39. The drainage containing the removed object to be removed is stored in the drainage tank 33 shown in FIG.

  The waste water that has undergone the precipitation treatment is introduced into the water discharge tank 40 by overflowing the separation and precipitation tank 39. As described above, the introduction of the waste water may be performed using a separately provided water channel. In the water discharge tank 40, the waste water from which most of the objects to be removed are removed is stored in order to be discharged.

The wastewater stored in the water discharge tank 40 is discharged to the outside after the pH is adjusted in the adjustment tank 42 and neutralization is performed. For example, the waste water discharged from the adjustment tank 42 is stored in the drain tank 32 shown in FIG. 3 and then released to the natural world such as a river.

It is a figure which shows the oil-water separator of this invention, (A) is a top view of an oil-water separator, (B) is sectional drawing of an oil-water separator. It is a perspective view of the oil-water separator of this invention. It is a figure which shows the waste water treatment apparatus of this invention. It is a figure which shows the aggregating apparatus contained in the waste water treatment apparatus of this invention, (A) is a top view of the aggregating apparatus, (B) is sectional drawing of an aggregating apparatus.

Explanation of symbols

DESCRIPTION OF SYMBOLS 10 Oil-water separator 11 Tank 12 Bubble generation part 13 Collection part 14 1st discharge part 15 Introduction part 17 Separation part 18 Motor 19 Bubble 20 2nd discharge part 21 3rd discharge part 22 Drainage 23 Liquid surface 24 Elastic body 25 Plate 30 Drainage Treatment device 31 Coagulation device 32 Drainage tank 33 Drainage tank 34 Filter press 35 Dryer 36 Curing agent 37 Press machine 38 Stirring tank 39 Separation and precipitation tank 40 Water discharge tank 41 Chemical injection machine 42 Adjustment tank 43 Introduction part 44 Discharge part 45 Pipe 46 Kneading Machine

Claims (7)

A tank in which wastewater containing oil is stored;
A gas supply means for supplying gas to the wastewater stored in the tank, and for raising the oil contained in the wastewater to a liquid level of the wastewater;
A discharge means provided near the liquid level of the waste water to lead the waste water to the outside;
An oil / water separator, comprising: a collecting means for collecting the oil floating on the liquid level of the waste water in the discharge means.   2. The oil / water separator according to claim 1, wherein the tank is cylindrical, and the drainage means extends from the periphery of the tank to the vicinity of the center. The drainage means is an open channel with an open top,
The oil-water separator according to claim 1, wherein an upper end of the drainage means is located below the liquid level of the drainage. The lower end of the collecting means is immersed in the liquid level of the waste water,
2. The oil-water separation according to claim 1, wherein the oil component floating on the liquid level of the drainage collects in the drainage unit when the collecting unit rotates substantially parallel to the liquid level of the drainage. apparatus.   The oil-water separator according to claim 4, wherein a lower end of the collecting means is made of an elastic body. It is a wastewater treatment device that treats wastewater containing oil and objects to be removed.
An oil / water separator that separates the oil from the waste water, a flocculant that removes a substance contained in the waste water as sludge using a flocculant, and a moisture content of the sludge recovered from the flocculant A wastewater treatment apparatus comprising a sludge treatment apparatus. The aggregating apparatus includes an agitation tank in which a flocculant is added to the wastewater and agitated, a separation and precipitation tank in which the wastewater is introduced from the agitation tank and the object to be removed is precipitated, and the object to be removed is removed. A drainage tank in which the drained wastewater is introduced from the separation and sedimentation tank,
The wastewater treatment apparatus according to claim 6, wherein the separation and sedimentation tank is provided inside the water discharge tank, and the stirring tank is provided inside the separation and precipitation tank.

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