KR101675025B1 - System for dissolving flocculant - Google Patents

Abstract

The present invention relates to a small tank having a charging portion into which a flocculant powder and water are introduced; A high-speed stirrer for dissolving the coagulant powder in the water in the small tank; An agglomeration liquid pump for pumping the agglomeration liquid in the small tank; A large tank for storing the flocculated liquid discharged from the flocculating liquid pump; A water supply pipe for supplying water to the large tank; And a low-speed stirrer for mixing the coagulating liquid discharged from the coagulating liquid pump and the water supplied through the water supply pipe in the large tank.

Description

[0001] SYSTEM FOR DISSOLVING FLOCCULANT [0002]

The flocculant dissolving apparatus is an apparatus for automatically dissolving a flocculant used for improving solid-liquid separation efficiency in water. The present invention relates to an entire system including hardware and control technology of the flocculant dissolving apparatus.

At present, the sewage discharged from homes and factories is sent to the sewage treatment plant and processed. The sewage treatment process includes a purification process and a sludge treatment process. In the purification process, the sewage is purified to a range where the self-purification of the river can be activated and discharged to a public water such as a river. In the sludge treatment process, The sludge is treated.

The sludge treatment process includes a concentration process and a dehydration process. The concentration process is a solid-liquid separation process that primarily reduces the water content of the sludge, which contributes to the reduction of the load during the dehydration process and the improvement of the treatment efficiency. The dehydration process is a solid-liquid separation process that secondarily lowers the water content of the sludge using a dehydrator.

In the solid-liquid separation process as described above, a coagulant (also referred to as a "polymer" as a polymer organic coagulant) is generally used to improve the solid-liquid separation efficiency. However, since the coagulant loses coherency after a certain period of time after being dissolved in water, it is mostly produced in the form of powder. And the coagulant in powder form is not uniformly mixed with the sludge. Thus, the coagulant in the form of a powder is dissolved in water whenever necessary to form an aggregate, and the aggregate is mixed with the sludge.

A coagulant dissolver for carrying out this process generally includes a large tank and a stirrer mounted in a large tank. When the coagulant powder and water are put into a large tank, when the wing of the stirrer rotates in a large tank, the coagulant powder is dissolved in water. The resulting aggregated liquid is mixed with the sludge, and then the sludge is subjected to a solid-liquid separation process such as concentration or dehydration.

Patent No. 10-1063767 (polymer dissolution apparatus) Japanese Patent Registration No. 10-1409735 (coagulant dissolution apparatus) Registration Practical Utility Model No. 20-0448590 (Coagulant Dissolution Apparatus) Japanese Patent Application Laid-Open No. 10-2005-0040327 (polymer automatic dissolving apparatus)

In the above-described conventional flocculant dissolver, the tank, which is the place where the flocculant powder is dissolved, is a large tank. In this case, if the blades of the stirrer are small, dissolution is not performed well. If the wing of the agitator is large, a large load is applied to the motor of the agitator, so that the motor of the agitator is inevitably driven at low speed. For this reason, it takes a lot of time to dissolve the coagulant powder in water to make it into a coagulated liquid.

Accordingly, the present invention provides a technique that can significantly reduce the time required for dissolving the aggregated liquid powder.

The present invention relates to a small tank having a charging portion into which a flocculant powder and water are introduced; A high-speed stirrer for dissolving the coagulant powder in the water in the small tank; An agglomeration liquid pump for pumping the agglomeration liquid in the small tank; A large tank for storing the flocculated liquid discharged from the flocculating liquid pump; A water supply pipe for supplying water to the large tank; And a low-speed stirrer for mixing the coagulating liquid discharged from the coagulating liquid pump and the water supplied through the water supply pipe in the large tank.

The flocculant dissolving system comprises: a sensor provided in the small tank for sensing the level of the flocculating liquid; And an upper and lower partition plate provided on the small tank so as to allow the passage of the flocculation liquid, so that the sensor is placed on the bottom of the high-speed agitator.

The coagulant dissolution system includes a controller for controlling the amount of coagulated liquid discharge using an output value of the sensor and a predetermined reference water level. In the control of the flocculated liquid discharge amount, when the output value of the sensor reaches the reference water level, the discharge amount increase control for increasing the amount of the flocculated liquid discharged from the flocculating liquid pump is performed, The amount of the coagulating liquid discharged from the coagulating liquid pump is reduced more than the amount of water supplied to the charging unit.

In the discharge amount increase control and the discharge amount decrease control, the amount of water to be introduced into the charging unit is constant and the amount of the flocculating liquid flowing into the coagulating liquid pump from the small tank may be increased or decreased.

The small tank and the flocculating liquid pump are connected by a main discharge pipe and an auxiliary discharge pipe. The main discharge pipe is provided to discharge an amount of flocculation liquid smaller than the amount of water to be introduced into the flushing unit, The amount of the liquid is increased or decreased by opening and closing the auxiliary discharge pipe.

On the other hand, the controller does not stop the coagulant pump until a predetermined additional time elapses even if the introduction of the coagulant powder into the charging unit is stopped.

According to the present invention, since the dissolution of the flocculant powder is carried out in a small tank and the dilution of the high concentration flocculant formed in a small tank is performed in a large tank, the flocculant dissolving operation is performed much faster than the conventional one, The operation of adding the flocculant powder to the flocculant and the maintenance of the flocculant feeder are much easier than in the past.

Further, according to the present invention, even if a high-speed agitator is applied to a small tank, the level of the agglomerated liquid in the small tank can be accurately detected by the upper and lower partition plates installed in the small tank.

Further, according to the present invention, the level of the flocculated liquid in the small tank can be maintained at an appropriate level by controlling the flocculated liquid discharge amount.

According to the present invention, since the flocculated liquid in the small tank moves to the large tank for a certain period of time after the flocculant feeder stops, the flocculant powder fed by the flocculant feeder can be moved to the large tank.

1 shows a flocculant dissolution system according to the present invention.

Hereinafter, preferred embodiments of the flocculant dissolving system according to the present invention will be described in detail with reference to the drawings. It is to be understood that the terminology or words used herein are not to be construed in an ordinary sense or a dictionary, and that the inventor can properly define the concept of a term to describe its invention in the best possible way And should be construed in accordance with the meaning and concept consistent with the technical idea of the present invention.

1, the flocculant dissolving system 100 according to the present invention includes a small tank 110, high-speed agitators 152 and 154, a flocculating liquid pump 160, large tanks 170a and 170b, A large tank water supply pipe 134, and low-speed stirrers 182a and 184a (182b and 184b).

The small tank 110 has a volume of about 1/100 of that of the large tanks 170a and 170b and has a charging portion 112 into which the flocculant powder and water are charged. A coagulant feeder 120 is provided above the charging unit 112. When the charging unit 120 is operated, the coagulant powder is introduced into the charging unit 112. [ The water supply pipe 132 for the small tank is connected to the charging unit 112. When the valve 132a mounted on the water supply pipe 132 is opened, water is introduced into the charging unit 112. [ The coagulant powder and water introduced into the charging unit 112 drop into the small tank 110.

The flocculant feeder 120 includes a hopper 122 for receiving the flocculant powder and a motor 124 for rotating the screw provided at the outlet of the hopper 122 so that the mortar 124 is operated, The coagulant powder in the hopper 122 is pushed by the screw and falls to the charging unit 112. [

The high-speed agitators 152 and 154 are for dissolving the coagulant powder in water in the small tank 110, and include a motor 152 and a wing 154. The motor 152 is located outside the small tank 110 and operates at high speed. The vane 154 is located inside the small tank 110 and rotates at high speed (about 3600 rpm) during operation of the motor 152 to rapidly dissolve the flocculant powder in water.

Conventionally, the coagulant powder and water have been introduced into a tank having a size similar to that of the large tanks 170a and 170b, and a melting operation has been performed in this tank. In this case, the blades of the stirrer must be large, I can not help it. Therefore, it took about 2 hours to dissolve the coagulant powder in water.

In the present invention, since the coagulant powder and water are injected into the small tank 110, which is much smaller than the large tanks 170a and 170b, and the dissolving operation is performed here, the wings 154 of the stirrer may be small, ) Can operate at high speed. Therefore, in the present invention, it takes about 6 to 7 minutes to dissolve the same amount of coagulant powder in the small tank 110 as in the conventional method.

Conventionally, since the coagulant feeder 120 must be installed above the large tanks 170a and 170b, the operator must climb the ladder to the coagulant feeder 120 to add the coagulant powder or repair the coagulant feeder 120 Respectively. Therefore, in the past, the addition of the flocculant powder and the maintenance of the flocculant feeder 120 were very troublesome. However, in the present invention, since the flocculant feeder 120 is installed on the small tank 110 which is much smaller than the large tanks 170a and 170b, the addition of the flocculant powder and the maintenance of the flocculant feeder 120 easy.

The aggregate liquid produced in the small tank 110 has a concentration much higher than the desired concentration. The flocculating agent dissolution system 100 according to the present invention includes the flocculating liquid pump 160, the large tanks 170a and 170b, A water supply pipe 134 for a large tank, and low-speed agitators 182a and 184a (182b and 184b).

The flocculating liquid pump 160 pumps the flocculated liquid in the small tanks 110 into the large tanks 170a and 170b and includes a discharge pipe 140 connecting the small tanks 110 and the large tanks 170a and 170b, Respectively. A valve 140a is provided at a portion of the discharge pipe 140 located between the small tank 110 and the flocculating liquid pump 160. When the flocculating liquid pump 160 operates in a state where the valve 140a is opened , The high concentration aggregate liquid in the small tank 110 moves to the large tanks 170a and 170b.

The large tanks 170a and 170b are used as a place where a high concentration of aggregate liquid is mixed with water and diluted to a desired concentration. Only one such large tank 170a or 170b may be provided, or a plurality of such large tanks 170a and 170b may be provided. The valves 172a and 172b are provided at the portions of the discharge pipe 140 located near the entrance of the large tanks 170a and 170b to adjust the opening and closing of the valves 172a and 172b, (170a).

The water supply pipe 134 for the large tank is for supplying water to be used for diluting the concentrated liquid of high concentration to the large tanks 170a and 170b. The water supply pipe 134 is provided to have a valve 134a and is arranged to be fitted with the discharge pipe 140. [ Accordingly, when the valve 134a is opened, water is supplied to the discharge pipe 140 and then supplied to the large tanks 170a and 170b together with the concentrated liquid. On the other hand, although not shown, the water supply pipe 134 for the large tank may be directly connected to the large tanks 170a and 170b.

The low-speed mixers 182a and 184a and 182b and 184b mix the high-concentration flocculated liquid discharged from the flocculating liquid pump 160 and the water supplied from the water supply pipe 134 for the large tank into the large tanks 170a and 170b And includes motors 182a, 182b and wings 184a, 184b. The motors 182a and 182b are located outside the large tanks 170a and 170b and operate at a low speed. The vanes 184a and 184b are much larger than the wings 154 of the high speed agitator and are provided inside the large tanks 170a and 170b and rotate at a low speed (about 10 rpm) Dilute the high concentration of aggregate with water. These low-speed agitators 182a and 184a and 182b and 184b are provided in the same number as the large tanks 170a and 170b and installed in the respective large tanks 170a and 170b.

In the present invention, the dissolution of the aggregated liquid powder is already carried out in the small tank 110 as described above. In the large tanks 170a and 170b, the degree of dilution in which the high concentration aggregated liquid transferred from the small tank 110 and water are mixed The time required for this dilution is only about 30 seconds to 1 minute even with the low-speed stirrers 182a and 184a (182b and 184b). Therefore, the total time required to obtain the desired concentration of flocculating liquid in one large tank (for example, the tank 170a) is about 6 to 7 minutes, which takes time to dissolve in the small tank 110, Which is the sum of the time of about 30 seconds to about 1 minute, which is about 6 minutes 30 seconds to about 8 minutes, which is a very short time compared to about 2 hours which was conventionally required to dissolve the same amount of coagulant powder in a large tank .

On the other hand, if the amount of water supplied from the water supply pipe 132 for the small tank is larger than the amount of the flocculated liquid discharged from the flocculated liquid pump 160, the level of the flocculated liquid in the small tank 110 gradually increases, The water in the water supply pipe 132 and the coagulant powder in the coagulant feeder 120 can not be introduced into the small tank 110. [ Conversely, when the amount of water supplied from the small-tank water supply pipe 132 is smaller than the amount of the flocculated liquid discharged from the flocculated liquid pump 160, the level of the flocculated liquid in the small tank 110 gradually decreases, In this case, there is a problem that the coagulant powder supplied from the coagulant feeder 120 can not be completely dissolved. Particularly, in the present invention, since the dissolving operation is performed in the small tank 110 having a small size, the above water level change is performed quickly, and it is necessary to maintain the level of the flocculated liquid in the small tank 110 at an appropriate level.

The level of the flocculating liquid in the small tank 110 can be kept constant if the amount of water supplied from the small tank water supply pipe 132 is equal to the amount of the flocculating liquid discharged from the flocculating liquid pump 160. However, It is practically difficult to adjust the amount of the aggregating liquid to be the same. Therefore, in the present invention, after the sensor 116 for detecting the level of the flocculated liquid is installed in the small tank 110, the level of the flocculated liquid in the small tank 110 is appropriately maintained according to the output value of the sensor 116 .

At this time, since the flywheel 154 of the high-speed agitator rotates at a high speed, the aggregated liquid in the small tank 110 also rapidly rotates. In this case, the centrifugal force causes the water level to rise from the center of the small tank 110 toward the outer side So that the sensor 116 can not accurately sense the level of the flocculating liquid. Therefore, the upper and lower partition plates 114 are provided inside the small tank 110.

The upper and lower partition plate 114 is provided inside the small tank 110 so that the sensor 116 is placed on the lower portion and the wing 154 of the high-speed agitator is placed below. Further, the upper and lower partition plates 114 are installed only on a part of the cross-section of the cross-section of the inner space of the small tank 110 to allow passage of the flocculation liquid in the vertical direction. When the upper and lower partition plates 114 are provided, the flocculation liquid in the lower part of the upper and lower partition plates 114 is clogged by the upper and lower partition plates 114, so that the flocculated liquid is in a calm state at the upper part of the upper and lower partition plates 114, The sensor 116 can accurately sense the level of the flocculating liquid.

Since the output value of the sensor 116 is reliable when the upper and lower partition plates 114 are installed in the small tank 110 and the sensor 116 is installed in this way, There is an advantage that the liquid level can be accurately controlled. However, the technique provided by the present invention extends to the control of the level of the flocculated liquid using the output value. Hereinafter, this will be described in more detail.

The present invention includes a controller 200 for flocculating liquid level control. The controller 200 receives the output value of the sensor 116, compares the output value with a preset reference level (which may be given as a range), and controls the amount of the flocculated liquid discharged according to the comparison result.

In the coagulating liquid discharge amount control, the discharge amount increase control or the discharge amount decrease control is performed. The controller 200 controls the amount of the liquid to be discharged from the condenser liquid pump 160 so that the amount of the condensed liquid discharged from the condenser liquid pump 160 is larger than the amount of water supplied from the water tank 132 for the small tank. When the reference water level reaches the reference water level. When the discharge amount increase control is performed, the level of the flocculated liquid which has reached the reference water level is lowered again.

The discharge amount reduction control is a control for reducing the amount of the flocculated liquid discharged from the flocculating liquid pump 160 rather than the amount of water supplied from the water tank 132 for the small tank. If the output value does not reach the reference water level, this discharge amount reduction control is performed. Therefore, if the level of the coagulated liquid is lower than the reference level, the level of the coagulated liquid is increased by the discharge amount reduction control.

According to the control of the flocculated liquid discharge amount, if the level of the flocculated liquid does not reach the reference level, the level of the flocculated liquid increases. On the contrary, if the float level of the flocculated liquid reaches the reference level, , The level of the coagulating liquid in the small tank 110 will be maintained near the reference level.

The discharge amount increase and decrease control may be performed by various methods. For example, the amount of water supplied from the small water tank 132 for the small tank is made constant, and then the amount of water supplied from the small tank 110 to the flocculated liquid pump 160 And increasing or decreasing the amount of the liquid.

In this case, a main discharge pipe as the discharge pipe 140 and an auxiliary discharge pipe 144 as a separate discharge pipe are provided between the small tank 110 and the flocculating liquid pump 160, as shown in the figure. The auxiliary discharge pipe 144 extends from the small tank 110 and is joined to the main discharge pipe 140. The main discharge pipe 140 is provided with a manual valve 140a so that the amount of the flocculated liquid discharged through the main discharge pipe 140 is supplied from the water supply pipe 132 for a small tank It is adjusted in advance so as to be smaller than the amount of water. As the flocculating liquid pump 160, a pump having a capacity capable of discharging a larger amount of flocculated liquid than the amount of water supplied from the small-tank water supply pipe 132 is used. The auxiliary discharge pipe 144 is provided with an automatic valve 144a that is automatically opened and closed by the controller 200. [

The controller 200 opens the valve 144a of the auxiliary discharge pipe 144 so that the flocculated liquid is discharged from the flocculated liquid pump 160 through both of the discharge pipes 140 and 144. In this case, The amount of the flocculated liquid discharged from the flocculating liquid pump 160 becomes larger than the amount of water supplied from the water discharge pipe 132 for the small tank. When the discharge amount reduction control is performed, the controller 200 closes the valve 144a of the auxiliary discharge pipe 144. Since the flocculated liquid flows into the flocculated liquid pump 160 only through the main discharge pipe 140, The amount of the flocculated liquid discharged from the pump 160 becomes smaller than the amount of water supplied from the water discharge pipe 132 for the small tank.

Unlike the above example, the discharge amount increase and decrease control may be performed by increasing or decreasing the rotational speed (the number of revolutions per minute) of the aggregate liquid pump 160 after the amount of water supplied from the water supply pipe 132 for the small tank is made constant . In this case, the opening degree of the manual valve 140a provided in the main discharge pipe 140 is adjusted in advance so that the amount of the condensed liquid discharged through the main discharge pipe 140 is larger than the amount of water supplied from the water supply pipe 132 for the small tank And the auxiliary discharge pipe 144 may be omitted. As in the previous example, a pump having a capacity capable of discharging a larger amount of flocculated liquid than the amount of water supplied from the small-tank water supply pipe 132 is used as the flocculating liquid pump 160.

In this example, when the discharge amount increasing control is performed, the controller 200 raises the rotating speed of the flocculating liquid pump 160 to a predetermined upper limit. Conversely, when the discharge amount reduction control is performed, the controller 200 reduces the rotation speed of the flocculating liquid pump 160 to a predetermined lower limit.

On the other hand, since the concentration of the final flocculating liquid to be obtained in the large tanks 170a and 170b must be set to a desired concentration, all of the predetermined flocculant powders must move to the large tanks 170a and 170b. To this end, the controller 200 drives the motor 124 of the coagulant feeder 120 constantly at a predetermined rotational speed for a predetermined drive time, stops the motor 124 of the coagulant feeder 120 Does not stop the coagulant pump 160 at least within a predetermined additional time.

When the motor 124 of the coagulant feeder 120 is driven at the rotational speed for the driving time, the desired amount of the coagulant powder is all introduced into the small tank 110. However, if the flocculant pump 160 is immediately stopped in this state, the flocculant powder expected to move to the large tanks 170a and 170b remains in the small tanks 110 and can not move to the large tanks 170a and 170b. Therefore, even if the motor 124 of the coagulant feeder 120 is stopped, the controller 200 drives all of the coagulant powders charged into the small tank 110 to the large tank 170a , 170b.

During this additional time, the controller 200 maintains the open state of the water supply pipe 132 for the small tank to maintain the water supply to the small tank 110, and also maintains the operation of the high-speed agitator motor 152. Then, when the additional time elapses, the controller 200 stops the coagulating liquid pump 160 and stops pumping the coagulating liquid. At this time, the valve 132a of the water tank for the small tank 132 and the motor 152 ).

Alternatively, the controller 200 may continue to operate the flocculating liquid pump 160 even after an additional time elapses. In this case, most of the water is discharged from the small tank 110 after an additional time elapses and the large tanks 170a and 170b And this water will be used as dilution water together with the water supplied from the water supply pipe 134 for the large tank. In this example, the valve 132a of the water supply pipe 132 for small tanks remains open even after an additional time elapses.

The controller 200 maintains the open state of the valve 134a of the water supply pipe 134 for the large tank and the operation state of the low speed stirrer motors 182a and 182b so that the large tanks 170a and 170b ), The coagulating liquid is diluted while the water is continuously supplied. The controller 200 closes the valve 134a of the water supply pipe 134 for the large tank when the water level sensed by the sensors 176a and 176b of the large tanks 170a and 170b reaches a preset reference water level. If the coagulating liquid pump 160 is set to operate continuously after the elapse of the elapsed time, the controller 200 stops the coagulating liquid pump 160 and closes the valve 132a provided in the small-water tank water supply pipe 132 And stopping the high-speed agitator.

Hereinafter, the operation of the coagulant dissolution system 100 will be described.

When the operation of the system 100 is started, water and coagulant powder are introduced into the small tank 110, the high-speed agitator is operated to dissolve the coagulating liquid powder in the small tank 110, and the coagulating liquid pump 160 is operated So that the concentrated liquid of high concentration moves to one of the large tanks 170a. The controller 200 automatically opens and closes the auxiliary discharge pipe 144 in accordance with the output value of the sensor 116 mounted on the small tank 110 and appropriately maintains the level of the flocculated liquid in the small tank 110. Further, when the operation of the system 100 is started, water is supplied to the large tank 170a, and low-speed agitators 182a and 184a are operated to dilute the high-concentration aggregate in the large tank 170a.

When the predetermined time is reached after the operation, the introduction of the coagulant powder into the small tank 110 is stopped. Thereafter, when the level of the coagulating liquid sensed by the sensor 176a mounted on the large tank 170a reaches a predetermined level, The supply of water to the tank 170a is stopped, the supply of water to the other large tank 170b, and the introduction of the flocculant powder into the small tank 110 are performed. Then, the coagulant powder is dissolved again in the small tank 110, and the concentrated liquid of the high concentration in the small tank 110 is moved to the other large tank 170b and diluted.

Thereafter, when the driving time is further elapsed, the introduction of the coagulant powder into the small tank 110 is stopped, and when the level of the coagulating liquid sensed by the sensor 176b mounted on the large tank 170b reaches a predetermined water level, The pump 160 and the high-speed agitator are stopped, the supply of water to the small tank 110 is stopped, and the supply of water to the large tank 170b is stopped.

At the end of this process, the aggregated liquid of a desired concentration is stored in the large tanks 170a and 170b, and this aggregated liquid is supplied to the sludge subjected to the solid-liquid separation process.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. It is to be understood that various changes and modifications may be made without departing from the scope of the appended claims.

100: Agglomerated liquid dissolution system 110: Small tank
112: input portion 114: upper and lower partition plate
116, 176a, 176b: sensor 120: coagulant feeder
132, 134: water supply pipe 140: discharge pipe
144: auxiliary discharge pipe 152: high-speed agitator motor
154: high-speed agitator blade 160: agglomerated liquid pump
132a, 134a, 140a, 144a, 172a, 172b:
170a, 170b: large tanks 182a, 182b: low speed stirrer motor
184a, 184b: low speed stirrer wing 200:

Claims (6)

A small tank having a charging portion into which the flocculant powder and water are introduced;
A high-speed stirrer for dissolving the coagulant powder in the water in the small tank;
An agglomeration liquid pump for pumping the agglomeration liquid in the small tank;
A large tank for storing the flocculated liquid discharged from the flocculating liquid pump;
A water supply pipe for supplying water to the large tank;
A low speed stirrer for mixing the flocculated liquid discharged from the flocculating liquid pump and the water supplied through the water supply pipe in the large tank;
A sensor provided in the small tank for sensing the level of the flocculation liquid; And
And an upper and lower partition plate provided on the small tank so as to allow the passage of the flocculation liquid, so that the sensor is placed on the bottom of the high-speed agitator. delete The method according to claim 1,
And a controller for controlling the amount of flocculation liquid discharge using an output value of the sensor and a predetermined reference water level,
In the control of the flocculated liquid discharge amount, when the output value of the sensor reaches the reference water level, the discharge amount increase control for increasing the amount of the flocculated liquid discharged from the flocculated liquid pump is performed, Wherein the amount of the coagulating liquid discharged from the coagulating liquid pump is less than the amount of water supplied to the charging unit. The method of claim 3,
Wherein the amount of water supplied to the charging unit is constant and the amount of the condensed liquid flowing into the condensing liquid pump from the small tank is increased or decreased in the discharging amount increasing control and the discharging amount reducing control. 5. The method of claim 4,
The small tank and the flocculating liquid pump are connected by a main discharge pipe and an auxiliary discharge pipe. The main discharge pipe is provided to discharge an amount of flocculation liquid smaller than the amount of water to be introduced into the flushing unit, And the liquid amount is increased or decreased by opening and closing the auxiliary discharge pipe. The method of claim 3,
Wherein the controller does not stop the flocculant pump until a predetermined additional time has elapsed even if the introduction of the flocculant powder into the inlet has been stopped.

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