JPH06214096A - Method and device for extracting and treating sludge - Google Patents

Abstract

PURPOSE:To provide a sludge extracting treatment technique capable of automatically and precisely regulating a sludge to be extracted from a sludge storage tank and transferred to a treatment process to a required concentration on the treatment process side, and suppressing the total treatment quantity of the sludge extracted and treated from the sludge storage tank to the quantity for one sludge storage tank. CONSTITUTION:A sludge in a sludge storage tank 1 is stirred by a sludge stirring pump 3 and then extracted through upper and lower sludge extracting pipings 6a, 6b, the concentration of the sludge is measured by a densitometer 11, and the concentration measurement value is compared with a concentration set value by a calculator 16. The sludge is returned to the sludge storage tank 1 through a sludge circulating piping 12 in case of the concentration measurement value>the concentration set value, and the sludge is sent to the treatment process through a sludge transferring piping 14 and treated in case of the concentration measurement value <= the concentration set value.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a sludge extraction treatment method and apparatus for handling radioactive sludge waste such as ion exchange resins and filter aids generated during operation of a nuclear power plant, and particularly to sludge. The present invention relates to a sludge extraction treatment method and apparatus suitable for properly adjusting the transfer concentration of the sludge to the required concentration on the treatment process side and suppressing the total treatment amount to one fraction of the sludge storage tank.

[0002]

2. Description of the Related Art Radioactive sludge wastes such as ion exchange resins and filter aids generated during the operation of nuclear power plants are
After being stored in the sludge storage tank for a certain period of time to reduce radioactivity, it is extracted from the sludge storage tank and transferred to a treatment process for treatment.

As conventional techniques for such sludge extraction processing, there are techniques shown in FIG. 7 and Japanese Patent Laid-Open Nos. 52-129670 and 4-70600.

First, in the prior art shown in FIG. 7, a sludge storage tank 1, a sludge agitation pump 3, a sludge extraction system 5, a sludge concentration meter 11, a sludge circulation pipe 12, and a sludge transfer pipe 14 are provided. Is configured. Sludge to be treated is stored in the sludge storage tank 1, and while the sludge is stored, the sludge is separated into the supernatant water 2a and the sludge body 2b which is a sediment in the sludge storage tank 1. The sludge agitation pump 3 is suspended by a wire rope 4,
Prior to the sludge withdrawal process, the sludge in the sludge storage tank 1 is agitated to mix the supernatant water 2a and the sludge body 2b.

The sludge extraction system 5 has sludge extraction pipes 6a, 6a, 7b, 7c having valves 7a, 7b, 7c, respectively.
6b, 6c and these sludge extraction pipes 6a, 6
b, 6c, a sludge extraction pipe 8 connected across the downstream side, a sludge extraction transfer pump 9 connected to this, a sludge concentration meter 11 connected to this through a sludge extraction pipe 10, and a valve 13. The sludge circulation pipe 12 is provided and is connected to the downstream side of the densitometer 11, and the sludge transfer pipe 14 is provided with a valve 15 and is connected to the further downstream side of the sludge circulation pipe 12.

In the prior art shown in FIG. 7, the sludge in the sludge storage tank 1 is agitated by the sludge agitation pump 3 for a predetermined time, and the supernatant water 2a and the sludge body 2 are agitated.
Stir with b. Next, the sludge extraction pipe 6a,
The valves 7a, 7b, 7c provided in 6b, 6c and the valve 13 provided in the sludge circulation pipe 12 are opened, and the valve 15 provided in the sludge transfer pipe 14 is kept closed. Is started and the sludge in the sludge storage tank 1 is extracted through the sludge extraction pipes 6a, 6b, 6c and 8. Next, the extracted sludge is sent to the densitometer 11 through the sludge withdrawing pipe 10, the concentration is measured, and after the sludge is withdrawn, it is once returned to the sludge storage tank 1 through the sludge circulation pipe 12. Then, when the measured concentration value of the extracted sludge exceeds the preset concentration set value based on the required concentration on the processing step side, the extracted sludge is returned to the sludge storage tank 1 as it is through the sludge circulation pipe 12, When the measured concentration value falls below the set concentration value, the valve 1 installed in the sludge transfer pipe 14
5 is opened, the valve 13 provided in the sludge circulation pipe 12 is closed, and the extracted sludge is sent to the treatment process through the sludge transfer pipe 14 for treatment. In the prior art shown in FIG. 7, a worker reads the concentration of sludge displayed on the densitometer 11, compares the measured concentration value with a set concentration value, and opens and closes the valves 13 and 15 based on the comparison result. Is trying to do.

On the other hand, in the prior art disclosed in Japanese Patent Application Laid-Open No. 52-129670, a sludge transport system, a sludge treatment system, and a central processing unit are provided, and the sludge transport system and the sludge treatment system have a long distance. It is connected by a transportation pipe. The sludge transport system includes a slurry line, a transport liquid tank, and a transport liquid line, and the slurry line and the transport liquid line are connected at a connection point. The slurry line has a flow meter, a flow rate control valve, and a concentration detector,
The slurry to be processed is sent to the connection point. The transport liquid line includes a pump, a flow meter, a flow rate control valve, and a concentration detector, and the pump pumps the transport liquid from the transport liquid tank and sends the transport liquid to the connection point. There is. At the connection point, the slurry to be treated sent through the slurry line and the transport liquid sent through the transport liquid line are taken in,
Mix. The long distance conduit is adapted to transport the mixture of slurry and transport liquid mixed at the connection point to the sludge treatment system. The sludge treatment system includes a centrifugal clarifier, a solidification treatment device, a clarification liquid line that has a densitometer and connects the centrifugal clarification device and the transport liquid tank, and a sludge line that connects the centrifugal clarification device and the solidification treatment device. Is equipped with. The centrifugal clarifier is adapted to separate a mixture of a slurry and a transport liquid into a sludge and a clarified liquid by a centrifugal force. The clarified liquid line is configured to return the clarified liquid separated by the centrifugal clarifier to the transport liquid tank and reuse it as the transport liquid. The sludge line transports the sludge separated by the centrifugal clarifier to the solidification treatment device. The solidification processing device solidifies the sludge. The central processing unit fetches the current flow rate measurement value of the line from the flowmeters provided in the slurry line and the transport liquid line, and also fetches the concentration measurement value from the concentration detector provided in each part, Based on the measured value and the measured concentration value, the opening of the flow rate control valve provided in the slurry line and the transport liquid line and the processing speed of the centrifugal clarifier are appropriately controlled.

On the other hand, in the prior art disclosed in Japanese Patent Laid-Open No. 4-70600, a tank for storing slurry, a slurry withdrawal line, a slurry transfer line, a slurry stirring line, and a wash water supply line are provided. It is equipped with. The tank stores the slurry to be treated. The extraction line is provided with a valve and an extraction pump. The transfer line is provided with a valve, and the transfer line is connected to the downstream side of the extraction line so that the slurry to be processed extracted by the extraction line is transferred to the processing step. . The stirring line has a valve and is connected to the downstream side of the extraction line, and the slurry extracted from the tank through the extraction line is jetted toward the bottom of the tank to stir the slurry in the tank. ing. The cleaning water supply line has a valve. When operating this cleaning water supply line to clean each line, when cleaning the tank side part of the extraction line, open the extraction line valve and close the transfer line valve and the agitation line valve. When cleaning the transfer line side part of the extraction line and the transfer line, open the transfer line valve, close the extraction line valve and the agitation line valve, and operate the extraction pump. Supply cleaning water, and transfer line side part of extraction line,
When washing the stirring line, the valve of the stirring line is opened, the valve of the extraction line and the valve of the transfer line are closed, and the extraction pump is operated to supply the washing water.

A technique for storing sludge in a sludge storage tank and then extracting the sludge from the sludge storage tank and transferring the sludge to a treatment process is disclosed in Japanese Patent Application Laid-Open No. Hei 4
There is a technique described in Japanese Patent Laid-Open No. 194796.

[0010]

Among the above-mentioned conventional techniques, the technique shown in FIG. 7 and the technique described in Japanese Patent Laid-Open No. 4-70600 are sludge that is extracted from a sludge storage tank and transferred to a treatment process. Is automatically and accurately adjusted to the required concentration of the treatment process side, and the total amount of sludge that is extracted from the sludge storage tank and treated is limited to one fraction of the sludge storage tank. Absent.

Further, in the technique disclosed in Japanese Patent Laid-Open No. 4-70600, a transport liquid to be mixed with the slurry fed from the slurry line at the initial stage of processing the slurry (sludge) is secured in advance in the transport liquid tank. You need to do it. Therefore, even in this conventional technique, only the amount of the transport liquid that must be secured in advance has to be circulated and processed extra, and there is a problem that the total amount of processing increases. Moreover, in this conventional technology, the sludge transportation system is provided separately for the sludge line and the transportation liquid line,
Since both lines are connected at the connection point, the required number of devices increases, and a large central processing unit is required to control these devices, which causes a problem that the equipment cost increases accordingly.

An object of the present invention is to provide a sludge that can be automatically and precisely adjusted to the required concentration on the processing process side, and that can be extracted from the sludge storage tank and transferred to the processing process. It is an object of the present invention to provide a sludge extraction treatment method capable of suppressing the total amount of treatment to the amount of one sludge in a sludge storage tank and capable of being implemented by a simple facility.

Still another object of the present invention is to provide a sludge withdrawing apparatus capable of accurately carrying out the method of the present invention.

[0014]

The above object is to extract sludge from at least the upper side and the lower side of a sludge storage tank, measure the concentration of the extracted sludge, and measure the concentration based on the measured concentration and the required concentration of the treatment process side. When the measured concentration value> the set concentration value, the extracted sludge is returned to the sludge storage tank, and then extracted again together with the sludge in the sludge storage tank, and the measured concentration value ≤ When the concentration setting value is reached, the extracted sludge is sent directly to the treatment process for treatment,
To be achieved.

The above-mentioned purpose is to extract sludge from at least the upper side and the lower side of the sludge storage tank, measure the concentration of the extracted sludge, and set the concentration determined based on the measured concentration value and the required concentration on the treatment process side. When the measured concentration is greater than the set concentration, the extracted sludge is returned to the sludge storage tank, and then extracted again together with the sludge in the sludge storage tank. When the measured concentration ≤ the set concentration Sends the sludge extracted to the treatment process as it is, and measures the level of the remaining sludge in the sludge storage tank while the sludge is being extracted, and measures the level and the preset level setting value. When the level measurement value <level setting value and the concentration measurement value> concentration setting value, the sludge extracted is compared. The sludge in the sludge storage tank is returned to the sludge storage tank, the supernatant water obtained by processing the sludge extracted is further fed into the sludge storage tank, and the sludge in the sludge storage tank is diluted and then extracted again for processing. Well achieved.

Further, for the above-mentioned purpose, a sludge storage tank provided with sludge agitating means has a first valve, and has an upper sludge withdrawing pipe for withdrawing sludge from the upper side in the sludge storage tank and a second valve. And a sludge extraction system composed of a lower sludge extraction pipe for extracting sludge from the lower side of the sludge storage tank, and a sludge extraction pipe having a sludge extraction transfer pump and connected between the upper and lower sludge extraction pipes. Sludge concentration system is provided in this sludge extraction system, and a sludge circulation pipe that has a third valve on the downstream side of the sludge extraction system and that returns the extracted sludge to the sludge storage tank; It has a valve and is connected to a sludge transfer pipe that sends the extracted sludge to the treatment process. Connect the 1st, 2nd, 3rd and 4th valves and the densitometer to the calculator, and compare the measured concentration value of the extracted sludge with the preset concentration set value, and measure the concentration. If value> concentration setting value, return the sludge to the sludge storage tank through the sludge circulation pipe,
When the concentration measurement value ≦ concentration set value, the sludge is achieved by having a function of controlling the sludge to be sent to the treatment process through the sludge transfer pipe.

The above object is to provide a sludge storage tank equipped with sludge agitating means with a first valve and an upper sludge withdrawing pipe for withdrawing sludge from the upper side in the sludge storage tank, and a second valve. And a sludge extraction system composed of a lower sludge extraction pipe for extracting sludge from the lower side of the sludge storage tank, and a sludge extraction pipe having a sludge extraction transfer pump and connected between the upper and lower sludge extraction pipes. Sludge concentration system is provided in this sludge extraction system, and a sludge circulation pipe that has a third valve on the downstream side of the sludge extraction system and that returns the extracted sludge to the sludge storage tank; A sludge transfer pipe that has a valve and sends the extracted sludge to the treatment process is connected to the sludge. The storage tank is provided with a level measuring device for measuring the level of residual sludge inside the storage tank, and on the downstream side of the sludge transfer pipe, a supernatant water tank for storing the supernatant water obtained from the treated sludge is installed, The supernatant water tank has a supernatant water pumping pump and is connected to a supernatant water transfer pipe for sending the supernatant water to a sludge storage tank, and at least the first, second, third and fourth valves and a densitometer Connect the supernatant water pump to a calculator, and use this calculator to compare the measured concentration value of the extracted sludge with the preset concentration set value. Return to the sludge storage tank through the sludge circulation pipe, and send the sludge to the treatment process through the sludge transfer pipe when the concentration measurement value ≤ concentration set value, and then use the level measurement device Compare the sludge level measurement value with the preset level setting value, and when the level measurement value <level setting value and the concentration measurement value> concentration setting value, clear the supernatant water from the supernatant water tank by the supernatant water pump. It is better achieved by having the function of pumping and controlling the clear water to be sent to the sludge storage tank through the clear water transfer pipe.

[0018]

In the method of the present invention, the sludge stored in the sludge storage tank is stirred, and then the sludge is extracted from at least the upper side and the lower side of the sludge storage tank. Then,
The concentration of the extracted sludge is measured, and the measured concentration value and the preset concentration value are compared. The density setting value is set in advance based on the required density on the processing step side. When the measured concentration value and the set concentration value are compared, and the measured concentration value> the set concentration value, the extracted sludge is once returned to the sludge storage tank and then extracted again together with the sludge in the sludge storage tank. . At this time, the sludge in the sludge storage tank has a low concentration on the upper side and a high concentration on the lower side, so by extracting the sludge from the upper side and the lower side of the sludge storage tank again, The concentration becomes thinner than the concentration of sludge extracted last time. On the other hand, as a result of the comparison between the sludge concentration measurement value and the concentration setting value, if the concentration measurement value ≦ concentration setting value, the extracted sludge is directly sent to the processing step for processing. As a result, it becomes possible to automatically and accurately adjust the sludge that is extracted from the sludge storage tank and transferred to the treatment process to the required concentration on the treatment process side. Furthermore, when the measured sludge concentration is greater than the set concentration, the concentration of sludge in the upper part of the sludge in the sludge storage tank is low while the sludge diluting liquid is not introduced from the outside and the extracted sludge is circulated. Also, when the sludge is extracted again from the sludge storage tank because the concentration on the lower side becomes thicker, the sludge concentration becomes thinner than the concentration of the sludge extracted last time. The total amount of sludge that is extracted from the storage tank and processed can be suppressed to a maximum of one sludge storage tank, and as a result, processing efficiency can be increased and the size of processing equipment can be reduced. Becomes Moreover, compared to the conventional technology in which the slurry line and the transport liquid line are provided in parallel, the required number of devices can be reduced, and the calculator for controlling these devices can be small in size. It becomes possible to carry out with various facilities.

By the way, when the sludge is extracted from the sludge storage tank and treated as described above, the residual sludge in the sludge storage tank is reduced, and the concentration of the residual sludge is increased, and the extracted sludge is circulated. There is a case where the sludge that has been extracted cannot be completely diluted with just this. Therefore, in the method of the present invention, the level of the residual sludge in the sludge storage tank is measured during the sludge extraction process, and the level measurement value is compared with the preset level set value. As a result of the comparison,
Level measurement value <level setting value and concentration measurement value>
When the concentration reaches the set value, the sludge extracted from the sludge storage tank is returned to the sludge storage tank, and the supernatant water obtained by treating the extracted sludge is sent to the sludge storage tank, and the sludge in the sludge storage tank is discharged. Dilute. After that, the sludge is extracted again from the sludge storage tank and processed. As a result, also by the method of the present invention, the sludge extracted from the sludge storage tank and transferred to the treatment process can be automatically and accurately adjusted to the required concentration on the treatment process side, and the sludge to be treated by being extracted from the sludge storage tank. The total amount of treatment can be suppressed to one portion of the sludge storage tank, and it can be implemented with simple equipment. In particular, in the method of the present invention, the residual sludge in the sludge storage tank is reduced, and even when the sludge concentration is high, the residual sludge in the sludge storage tank is obtained by using the supernatant water obtained by treating the sludge. Since the sludge is diluted, the water for sludge dilution can be covered by the water held inside.

In the device of the present invention, after the sludge in the sludge storage tank is stirred by the sludge stirring means, the sludge extraction transfer pump provided in the sludge extraction pipe of the sludge extraction system is operated to remove the sludge in the sludge storage tank. It is extracted through an upper sludge extraction pipe having a first valve and a lower sludge extraction pipe having a second valve. Next, the extracted sludge is transferred through a sludge extraction pipe, the concentration of the extracted sludge is measured by a densitometer provided in the sludge extraction pipe, and the measured concentration value is sent to a calculator. In this calculator, the measured concentration value fetched from the densitometer is compared with the concentration set value preset based on the required concentration on the processing step side. As a result of the comparison, when the measured concentration value> the set concentration value, the calculator controls the third valve provided in the sludge circulation pipe to be opened and the fourth valve provided to the sludge transfer pipe to be closed, and the withdrawal is performed. The sludge is once returned to the sludge storage tank through the sludge circulation pipe, and extracted through the upper and lower sludge extraction pipes. The sludge thus extracted again has a lower concentration than the previously extracted sludge. On the other hand, as a result of comparison by the calculator, when the concentration measurement value ≦ concentration set value, the calculator opens the fourth valve provided in the sludge transfer pipe and opens the third valve provided in the sludge circulation pipe. The sludge is controlled to be closed, and the extracted sludge is transferred to a processing step through a sludge transfer pipe for processing. Therefore, according to the device of the present invention, the method of the present invention can be properly carried out.

In the apparatus of the present invention, while the sludge is being extracted from the sludge storage tank and processed as described above, the level of the residual sludge in the sludge storage tank is measured by the level measuring device provided in the sludge storage tank. , Send that level measurement to the calculator. Therefore,
The calculator compares the level measurement value acquired from the level measuring device with a preset level setting value. Also,
The calculator takes in the concentration measurement value of the sludge extracted from the densitometer as described above and compares it with the concentration set value.
As a result of the comparison by the calculator, when the level measurement value <the level setting value and the concentration measurement value> the concentration setting value, the calculator opens the third valve provided in the sludge circulation pipe, and the sludge transfer pipe. The fourth valve provided in the is controlled to be closed, and the extracted sludge is returned to the sludge storage tank through the sludge circulation pipe. Furthermore, the calculator operates the supernatant water pump and pumps the supernatant water from the supernatant water tank that stores the supernatant water obtained by treating the sludge, and the supernatant water is sent through the supernatant water transfer pipe to the sludge storage tank. And dilute the residual sludge in the sludge storage tank with this supernatant water. In this way, the residual sludge in the sludge storage tank is diluted with the supernatant water obtained by treating the sludge and then extracted again from the sludge storage tank for treatment. Therefore, according to the device of the present invention, the method of the present invention can be properly carried out.

[0022]

Embodiments of the present invention will be described below with reference to the drawings.

FIG. 1 is a system diagram showing a first embodiment of an apparatus for carrying out the method of the present invention, FIG. 2 is an explanatory diagram showing the relationship between the height of sludge storage tank and sludge concentration, and FIG. 2 is a flowchart of the embodiment.

In the first embodiment shown in these figures, FIG.
As shown in FIG. 1, a sludge storage tank 1, a sludge agitation pump 3 that is a sludge agitation means, a sludge extraction system 5, a concentration meter 11, a sludge circulation pipe 12, a sludge transfer pipe 14, and a calculator 16 are provided. It is configured to have.

Sludge is stored in the sludge storage tank 1. When this sludge is radioactive sludge waste such as ion exchange resin and filter aid generated during the operation of a nuclear power plant, for example, it is stored in the sludge storage tank 1 for a certain period of time to attenuate radioactivity. . As a result, the sludge in the sludge storage tank 1 is separated into the supernatant water 2a and the sludge body 2b.

The sludge agitation pump 3 is suspended by a wire rope 4 and is sunk from a standby position to an arbitrary position in the sludge storage tank 1 prior to sludge withdrawal, and a supernatant water 2a and a sludge body 2b are provided. It is designed to stir.

The sludge extraction system 5 includes a first valve 7
The upper sludge withdrawing pipe 6a having a and being provided to withdraw sludge from the upper side in the sludge storage tank 1, and the second valve 7b, withdrawing sludge from the lower side in the sludge storage tank 1. The lower sludge withdrawing pipe 6b, the sludge withdrawing pipe 8 connected to the upper and lower sludge withdrawing pipes 6a and 6b, and the sludge withdrawing transfer pump 9 provided in the sludge withdrawing pipe 8. It is constituted by a sludge extraction pipe 10 connected to this.

The densitometer 11 comprises a sludge extraction system 5
The sludge extraction pipe 10 is provided to measure the concentration of the sludge extracted from the sludge storage tank 1 and send the measured concentration value to the calculator 16.

The sludge circulation pipe 12 is connected to the third valve 1
3 and a densitometer 11 in the sludge extraction system 5
The sludge is returned to the sludge storage tank 1 when the concentration of the extracted sludge is high.

The sludge transfer pipe 14 is connected to the fourth valve 1
5 and a densitometer 11 in the sludge extraction system 5
Is connected to the downstream side of. The sludge transfer pipe 14 transfers the sludge to the treatment process when the extracted sludge has a concentration equal to or lower than the required concentration on the treatment process side.

The calculator 16 is constructed as follows in this first embodiment. That is, the calculator 16 fetches the concentration measurement value from the densitometer 11 and compares the concentration measurement value with the concentration setting value set based on the required concentration on the processing step side. As a result of the comparison, when the measured concentration value> the set concentration value, the third valve 13 is opened and the fourth valve 14 is closed so that the extracted sludge is returned to the sludge storage tank 1 through the sludge circulation pipe 12. Control. At this time, the calculator 16 slightly increases the opening degree of the first valve 7a and slightly decreases the opening degree of the second valve 7b in this embodiment. Further, as a result of the comparison, when the measured concentration value ≦ the set concentration value, the fourth valve 15 is opened and the third valve 13 is closed so that the extracted sludge is transferred to the treatment process through the sludge transfer pipe 14. Control.

Next, one embodiment of the method of the present invention will be described with reference to the operation of the apparatus of the first embodiment.

In the apparatus shown in FIG. 1, the sludge agitation pump 3 is set to the standby position in the initial state, and the first and second valves 7a and 7b, the third valve 13 and the fourth valve 15 are closed. , Sludge extraction transfer pump 9 and densitometer 1
1 is stopped. The sludge in the sludge storage tank 1 is divided into the supernatant water 2a and the sludge body 2b.

From this state, the sludge agitation pump 3 is first submerged by the wire rope 4 at an arbitrary position in the sludge in the sludge storage tank 1 and is operated for a predetermined time as shown in FIG. Stir with 2b. As described above, when the sludge in the sludge storage tank 1 is stirred for a predetermined time, the sludge is mixed to have a substantially uniform concentration. However, after a while, the sludge concentration and the height of the sludge storage tank 1 are shown in FIG. The relationship is as shown.

After stirring the sludge in the sludge storage tank 1 for a predetermined time, the sludge agitation pump 3 is stopped, and as shown in FIG. 3, the first and second valves 7a, 7b are opened to a predetermined opening degree to open the sludge. The extraction transfer pump 9 is started, and the sludge is extracted from the sludge storage tank 1 through the upper and lower sludge extraction pipes 6a and 6b and the sludge extraction pipes 8 and 10. Since the concentration is unstable at the initial stage of sludge withdrawal, the fourth valve 15 is kept closed, the third valve 13 is opened, and the withdrawn sludge is once passed through the sludge circulation pipe 12 to the sludge storage tank 1 Return to.

Then, the densitometer 11 is activated to measure the concentration of the sludge extracted from the sludge storage tank, and the measured concentration value is sent to the calculator 16. In the calculator 16,
As shown in FIG. 3, the density measurement value read from the densitometer 11 is compared with the density set value set based on the required density on the processing step side. As a result of the comparison, when the measured concentration value> the set concentration value, the third valve 13 is kept open and the fourth valve 15 is kept closed, and the extracted sludge is transferred to the sludge storage tank 1 through the sludge circulation pipe 12. return.

At this time, in this embodiment, as shown in FIG. 3, the calculator 16 slightly increases the opening of the first valve 7a, for example, 5%, and slightly decreases the opening of the second valve 7b. For example, the sludge storage tank 1 which is reduced by 5% and has a relatively low concentration through the upper sludge extraction pipe 6a
The sludge on the upper side of the inside is controlled so as to be extracted much, and the extracted sludge is diluted by adjusting the opening degree of the first and second valves 7a and 7b.

Here, the required concentration (concentration set value) and the treatment capacity from the treatment process, which is the destination of sludge transfer, are Creq and q, respectively, and the concentration and flow rate of the sludge extracted from the upper sludge extraction pipe 6a are C respectively.
h and Qh, and the concentration and flow rate of the sludge extracted from the lower sludge extraction pipe 6b are Cl and Ql, respectively.
Then, the following relations of the following equations 1 and 2 are established.

[0039]

[Equation 1]

[0040]

[Equation 2]

After the agitation of the sludge in the sludge storage tank 1, the concentration of the sludge in the upper portion becomes thin, and thus the extracted sludge is circulated to the sludge extraction system 5 → sludge circulation pipe 12 → sludge storage tank 1. The concentration of the extracted sludge becomes thin during the operation.

By the way, when the result of the comparison by the calculator 16 is that the concentration measurement value ≦ the concentration set value, the calculator 16 opens the fourth valve 15 and opens the third valve 13 as shown in FIG. The sludge transfer pipe 1
It is sent to a processing step through 4 and a predetermined processing is performed.

By the operation of each part described above, the sludge extracted from the sludge storage tank 1 and transferred to the treatment process can be automatically and accurately adjusted to the required concentration on the treatment process side. Even if the extracted sludge is thick, it is diluted with the sludge on the upper side with a low concentration in the sludge storage tank 1 without diluting it with the dilution water taken from the other, so the total amount of sludge to be treated can be reduced. The maximum amount of sludge storage tank 1 can be reduced to one.
Further, in this embodiment, the calculator 16 causes the first valve 7a to
The opening degree of the second valve 7b is slightly increased, and the opening degree of the second valve 7b is slightly decreased, so that a large amount of sludge on the upper side in the sludge storage tank 1 having a relatively low concentration is extracted through the upper sludge extraction pipe 6a. , First and second valves 7a, 7
Since the sludge to be extracted is diluted by adjusting the opening degree of b, the extracted sludge can be rapidly diluted to a concentration set value or less and transferred to the treatment process.
Further, in this embodiment, the sludge is circulated through the sludge extraction system 5 → the sludge circulation pipe 12 → the sludge storage tank 1 so as to be diluted to a concentration set value or less. Compared to the conventional technology in which both lines are connected and connected at the connection point, the required number of devices can be reduced, and the calculator for controlling these devices can be small, so simple equipment can be used. It becomes possible to carry out.

In the first embodiment, the sludge concentration meter 11 may be provided on the upstream side of the sludge extraction transfer pump 9. Also, on the sludge storage tank 1,
In addition to the lower sludge withdrawing pipes 6a and 6b, an intermediate sludge withdrawing pipe may be provided, and further, upper and lower sludge withdrawing pipes 6a and 6b may be provided respectively.

Next, FIG. 4 is a system diagram showing a second embodiment of the present invention.

In the second embodiment shown in FIG. 4, the sludge extraction transfer pump 9 in the sludge extraction system 5 is used.
A water injection pipe 17 for cleaning is connected to the upstream sludge withdrawing pipe 8. A valve 18 is provided in the water injection pipe 17 for cleaning.

In the second embodiment, for example, after all sludge in the sludge storage tank 1 is extracted and treated, the valve 18 is opened, cleaning water is injected into the sludge extraction system 5 through the water injection pipe 17, and the cleaning water is removed. Is sent to the inside of the apparatus using the sludge extraction transfer pump 9 for cleaning.

The other structure and operation of the second embodiment are similar to those of the first embodiment.

Next, FIG. 5 is a system diagram showing a third embodiment of the apparatus for carrying out the method of the present invention, and FIG. 6 is a flow chart of the third embodiment.

In the third embodiment, the sludge storage tank 1 is provided with a level measuring device 19. The level measuring device 19 measures the residual sludge in the sludge storage tank 1 and sends the level measurement value to the calculator 16.

A dehydrator 20 which is a sludge treatment device is installed downstream of the fourth valve 15 in the sludge transfer pipe 14. The dehydrator 20 is provided with a supernatant water tank 21 for storing the supernatant water obtained by treating the sludge.

A supernatant water transfer pipe 22 having a supernatant water pumping pump 23 is connected to the supernatant water tank 21. The supernatant water pump 23 is connected to the calculator 16. The supernatant water transfer pipe 22 sends the supernatant water pumped from the supernatant water tank 21 by the supernatant water pump 23 to the sludge storage tank 1.

The calculator 16 fetches the measured concentration value from the densitometer 11 and outputs the measured values to the first, second, third and fourth valves 7.
In addition to the functions described above for controlling a, 7b, 13, and 15,
It is configured to work as follows. That is,
The level measurement value of the residual sludge in the sludge storage tank 1 is fetched from the level measuring device 19 and compared with a preset level setting value. As a result of the comparison, when the level measurement value ≧ the level set value, the control is performed so that the sludge is extracted from the sludge storage tank 1 and processed while the supernatant water pumping pump 23 is stopped. As a result of the above comparison, when the level measurement value <the level setting value, the sludge concentration measurement value is compared with the concentration setting value, and when the concentration measurement value ≦ the concentration setting value, the supernatant water pumping pump 23 is stopped. The sludge is controlled to be extracted from the sludge storage tank 1 and treated while being left as it is. When level measurement value <level setting value and concentration measurement value> concentration setting value, the third valve 13 is opened, and the extracted sludge is returned to the sludge storage tank 1 through the sludge circulation pipe 12. Then, the supernatant water pumping pump 23 is started, the supernatant water is pumped from the supernatant water tank 21, and the supernatant water is controlled to be sent to the sludge storage tank 1 through the supernatant water transfer pipe 22.

Regarding the other construction of the third embodiment,
This is the same as the first embodiment.

Next, another embodiment of the method of the present invention will be described with reference to the operation of the apparatus of the third embodiment having the above-mentioned structure.

First, as shown in FIG. 6, the level of residual sludge in the sludge storage tank 1 is measured by the level measuring device 19 provided in the sludge storage tank 1, and the level measurement value is sent to the calculator 16. . Therefore, the calculator 16 takes in the level measurement value from the level measuring device 19, compares it with the level setting value, and controls as follows based on the comparison result.

That is, when the relationship between the level measurement value of the residual sludge in the sludge storage tank 1 measured by the level measuring device 19 and the level setting value is level measurement value ≧ level setting value, and level measurement value <level When the set value and the measured density value ≦ the set density value, the same control as in the first embodiment is performed.

Then, when the level measurement value <the level setting value,
When the measured concentration value> the set concentration value, the calculator 16 activates the supernatant water pump 23. As a result, the supernatant water pumping pump 23 pumps up the supernatant water stored in the supernatant water tank 21, and transfers the supernatant water to the supernatant water transfer pipe 2
2 to the sludge storage tank 1.

By returning the extracted sludge to the sludge storage tank 1 and sending the supernatant water to the sludge storage tank 1, when the residual sludge in the sludge storage tank 1 rises above a predetermined level, the supernatant water is pumped up. The pump 23 is stopped.

Hereinafter, the same control as in the first embodiment is performed,
Extract sludge and process.

As described above, in this third embodiment, the sludge diluting liquid is not introduced from the outside, and the supernatant water obtained by treating the extracted sludge is used to retain the sludge in the sludge storage tank 1. Since the sludge is diluted, in this case as well, the total amount of sludge to be treated can be suppressed to one maximum of the sludge storage tank 1.

Incidentally, also in the third embodiment, the water injection pipe 17 for cleaning may be provided as in the second embodiment.

[0063]

The present invention described above has the following effects.

(Claim 1) The sludge is extracted from at least the upper side and the lower side of the sludge storage tank, the concentration of the extracted sludge is measured, and the concentration set based on the concentration measurement value and the required concentration of the treatment process side. When the measured value is compared with the set value, when the measured concentration value> the set value, the extracted sludge is returned to the sludge storage tank, and then extracted again together with the sludge in the sludge storage tank.
When the concentration is set, the sludge extracted is sent directly to the treatment process for treatment, so the sludge extracted from the sludge storage tank and transferred to the treatment process is automatically and accurately adjusted to the required concentration on the treatment process side. The effect is that the total amount of sludge that is extracted from the sludge storage tank and processed can be suppressed to a maximum of one sludge in the sludge storage tank, and the slurry line and the transport liquid line are arranged in parallel. Compared with the conventional technology of providing and processing, the required number of devices can be reduced, and the calculator for controlling these devices can be small in size, so that there is an effect that it can be implemented with simple equipment.

(Claim 2) The sludge is extracted from at least the upper side and the lower side of the sludge storage tank, the concentration of the extracted sludge is measured, and the concentration set based on the measured concentration value and the required concentration of the treatment process side. When the measured value is compared with the set value, when the measured concentration value> the set value, the extracted sludge is returned to the sludge storage tank, and then extracted again together with the sludge in the sludge storage tank.
When the concentration is the set value, the sludge extracted is sent to the treatment process as it is, and the level of the residual sludge in the sludge storage tank is measured while the sludge is extracted, and the level measurement value and preset value are set. When the measured level <value set value and the measured concentration value> concentration set value, the extracted sludge is returned to the sludge storage tank, and the extracted sludge is processed. The resulting supernatant water is sent to the sludge storage tank, and the sludge in the sludge storage tank is diluted and then extracted again for treatment.Therefore, sludge that is extracted from the sludge storage tank and transferred to the treatment process is treated. It has the effect that it can automatically and precisely adjust to the required concentration on the side of It has the effect that the total amount of sludge to be processed can be suppressed to a maximum of one piece in the sludge storage tank, and it has the effect that it can be implemented with simple equipment. Even when the concentration of is increased, the supernatant water obtained by treating the sludge is used to dilute the residual sludge in the sludge storage tank.
There is an effect that the water for sludge dilution can be covered by the water inside.

(Claim 3) A sludge storage tank equipped with sludge agitating means has a first valve and an upper sludge extraction pipe for extracting sludge from the upper side in the sludge storage tank, and a second valve. And a sludge extraction system composed of a lower sludge extraction pipe for extracting sludge from the lower side of the sludge storage tank, and a sludge extraction pipe having a sludge extraction transfer pump and connected between the upper and lower sludge extraction pipes. Sludge concentration system is provided in this sludge extraction system, and a sludge circulation pipe that has a third valve on the downstream side of the sludge extraction system and that returns the extracted sludge to the sludge storage tank; It has a valve and is connected to a sludge transfer pipe for sending the extracted sludge to the treatment step, and at least the first sludge Second, third, fourth valve and densitometer connected to calculators, this calculator compares the measured density values of the extracted sludge and a preset concentration setting,
When the measured concentration> set concentration, the sludge is returned to the sludge storage tank through the sludge circulation pipe, and when the measured concentration ≤ concentration set value, the sludge is sent to the treatment process through the sludge transfer pipe. Since it is provided, there is an effect that the method of the present invention according to claim 1 can be properly carried out.

(Claim 4) A sludge storage tank equipped with sludge agitating means has a first valve, an upper sludge extraction pipe for extracting sludge from the upper side in the sludge storage tank, and a second valve. And a sludge extraction system composed of a lower sludge extraction pipe for extracting sludge from the lower side of the sludge storage tank, and a sludge extraction pipe having a sludge extraction transfer pump and connected between the upper and lower sludge extraction pipes. Sludge concentration system is provided in this sludge extraction system, and a sludge circulation pipe that has a third valve on the downstream side of the sludge extraction system and that returns the extracted sludge to the sludge storage tank; It has a valve and is connected to a sludge transfer pipe for sending the extracted sludge to the treatment process, Ku, provided with a level measuring device for measuring the level of residual sludge inside it, downstream of the sludge transfer pipe, a supernatant water tank for storing supernatant water obtained from the treated sludge is installed, The supernatant water tank has a supernatant water pumping pump and is connected to a supernatant water transfer pipe for sending the supernatant water to the sludge storage tank, and at least the first, second, third and fourth valves, the concentration meter and the upper part Connect the clear water pump and the calculator, and to this calculator,
Compare the measured concentration value of the extracted sludge with the preset concentration setting value, and if the measured concentration value> the concentration setting value, return the sludge to the sludge storage tank through the sludge circulation pipe, and measure the concentration value ≤ concentration setting value. In that case, the sludge is sent to the treatment process through the sludge transfer pipe, and the level measurement value of the residual sludge by the level measuring device is compared with the preset level setting value, and the level measurement value <the level setting value, and When the measured concentration> the set concentration, the supernatant water pump has a function of pumping the supernatant water from the supernatant water tank and sending the supernatant water to the sludge storage tank through the supernatant water transfer pipe. There is an effect that the method of the present invention according to claim 2 can be properly carried out.

[Brief description of drawings]

FIG. 1 is a system diagram showing a first embodiment of the present invention.

FIG. 2 is an explanatory diagram showing the relationship between the height of the sludge storage tank and the sludge concentration.

FIG. 3 is a flowchart of the first embodiment shown in FIG.

FIG. 4 is a system diagram showing a second embodiment of the present invention.

FIG. 5 is a system diagram showing a third embodiment of the present invention.

FIG. 6 is a flowchart of the third embodiment shown in FIG.

FIG. 7 is a system diagram showing a conventional technique.

[Explanation of symbols]

DESCRIPTION OF SYMBOLS 1 ... Sludge storage tank, 2a ... Supernatant water in sludge storage tank, 2b ... Sludge main body, 3 ... Sludge stirring pump which is sludge stirring means, 5 ... Sludge extraction system, 6a, 6b ... Upper and lower sludge extraction pipes, 7
a, 7b ... First and second valves, 8, 10 ... Sludge extraction pipe, 9 ... Sludge extraction transfer pump, 11 ... Sludge concentration meter, 12 ... Sludge circulation pipe, 13 ... Third valve, 14 ... Sludge Transfer pipe, 15 ... Fourth valve, 16 ...
Calculator, 19 ... Level measuring device for residual sludge in sludge storage tank, 20 ... Dewatering device that is a sludge treatment device, 21 ... Clear water tank, 22 ... Clear water transfer pipe, 23
… Pumping clear water.

 ─────────────────────────────────────────────────── ─── Continuation of the front page (72) Akihiro Komatsu 3-2-1, Saicho-cho, Hitachi-shi, Ibaraki Hitachi Engineering Co., Ltd. (72) Hirofumi Sato 3--2, Saiwai-cho, Hitachi, Ibaraki No. 1 within Hitachi Engineering Co., Ltd.

Claims (4)

[Claims] 1. A sludge extraction treatment method in which sludge stored in a sludge storage tank is stirred, then extracted from the sludge storage tank, transferred, and processed, in which the sludge is extracted from at least an upper side and a lower side of the sludge storage tank. , The concentration of the extracted sludge was measured, and the measured concentration value was compared with the concentration setting value set based on the required concentration of the treatment process side, and when the concentration measurement value exceeded the concentration setting value, it was extracted. After sludge is returned to the sludge storage tank, it is extracted again together with the sludge in the sludge storage tank, and when the measured concentration value is less than the set concentration value, the extracted sludge is sent to the treatment process as it is for processing. Sludge extraction treatment method. 2. A sludge extraction treatment method in which sludge stored in a sludge storage tank is agitated, then extracted from the sludge storage tank, transferred, and processed, wherein the sludge is extracted from at least an upper side and a lower side of the sludge storage tank. , The concentration of the extracted sludge was measured, and the measured concentration value was compared with the concentration setting value set based on the required concentration of the treatment process side, and when the concentration measurement value exceeded the concentration setting value, it was extracted. After returning the sludge to the sludge storage tank, the sludge is extracted again together with the sludge in the sludge storage tank, and when the measured concentration value is equal to or less than the concentration set value, the extracted sludge is directly sent to the treatment step for treatment and the sludge During the extraction process, measure the level of residual sludge in the sludge storage tank and If the level measurement value is less than the level setting value,
When the measured concentration value exceeds the set concentration value, the extracted sludge is returned to the sludge storage tank, and the supernatant water obtained by treating the extracted sludge is sent to the sludge storage tank. The sludge extraction treatment method is characterized in that after diluting the sludge, the sludge is extracted and treated again. 3. A sludge storage tank provided with a sludge agitating means, which has a first valve and has an upper sludge withdrawing pipe for withdrawing sludge from the upper side in the sludge storage tank, and a second valve, and sludge. A sludge extraction system consisting of a lower sludge extraction pipe for extracting sludge from the lower side in the storage tank and a sludge extraction pipe having a sludge extraction transfer pump and connected between the upper and lower sludge extraction pipes is connected. A sludge concentration meter is provided in this sludge extraction system, and a third valve is provided on the downstream side of the sludge extraction system and a sludge circulation pipe for returning the extracted sludge to the sludge storage tank and a fourth valve are provided. And at least the first, second and third sludge transfer pipes connected to the sludge transfer pipe for sending the extracted sludge to the treatment process. , The fourth valve and densitometer are connected to a calculator, and the calculator compares the measured concentration value of the extracted sludge with the preset concentration setting value, and the concentration measurement value exceeds the concentration setting value. When it is present, the sludge is returned to the sludge storage tank through the sludge circulation pipe, and when the measured concentration value is below the set concentration value, the sludge is controlled to be sent to the treatment process through the sludge transfer pipe. Sludge extraction processing equipment. 4. A sludge storage tank provided with sludge agitating means, which has a first valve and has an upper sludge withdrawing pipe for withdrawing sludge from the upper side in the sludge storage tank, and a second valve, and sludge. A sludge extraction system consisting of a lower sludge extraction pipe for extracting sludge from the lower side in the storage tank and a sludge extraction pipe having a sludge extraction transfer pump and connected between the upper and lower sludge extraction pipes is connected. A sludge concentration meter is provided in this sludge extraction system, and a third valve is provided on the downstream side of the sludge extraction system and a sludge circulation pipe for returning the extracted sludge to the sludge storage tank and a fourth valve are provided. And the sludge transfer pipe for sending the extracted sludge to the treatment process, and connecting it to the sludge storage tank. A level measuring device for measuring the level of the remaining sludge inside is installed, on the downstream side of the sludge transfer pipe, a supernatant water tank for storing the supernatant water obtained from the treated sludge is installed, and in this supernatant water tank , A supernatant water pumping pump and connecting a supernatant water transfer pipe for sending the supernatant water to a sludge storage tank, and at least the first, second, third and fourth valves, a concentration meter, and a supernatant water pumping pump. Is connected to a calculator, and this calculator compares the measured concentration value of the extracted sludge with the preset concentration setting value, and when the measured concentration value exceeds the concentration setting value, the sludge is circulated through the sludge. Return the sludge to the sludge storage tank through the pipe, and when the measured concentration value is less than the set concentration value, send the sludge to the treatment process through the sludge transfer pipe, and further remove the residual sludge from the level measuring device. The level measurement value of the wedge and the preset level setting value are compared, and when the level measurement value is less than the level setting value and the concentration measurement value exceeds the concentration setting value, the supernatant water is pumped to obtain the supernatant water. A sludge extraction processing device having a function of controlling the pumping of supernatant water from a tank and sending the supernatant water to a sludge storage tank through a supernatant water transfer pipe.