KR20060014645A - Plural sludge collector control process - Google Patents

Abstract

The present invention is to control the operation of two or more sludge collectors used to purify sewage and waste water sequentially or alternately in one control unit to collect a high concentration of sludge, the power consumption of the entire sedimentation equipment is reduced, It is a method of controlling sludge collectors that can minimize the wear and damage of accessories, which not only prolongs the life of the facility, but also enables economic and efficient facility operation, and enables unmanned operation. Alternatively, when the wastewater is supplied to each of the first sludge collector and the second sludge collector, the sludge is settled for a predetermined time, and then one of the sludge collectors and an electric valve linked thereto are operated to suction and discharge the sludge settled into the discharge orifice. The first operation to transfer the sludge to the concentration tank by the conveying pump Sludge from the collector and a second sludge collector to consist of a sequential or alternating with the invention can be achieved by controlling the plurality of sludge collector.

Suction, Sludge Collector, Multiple, Operating System, Control Method

Description

Plural sludge collector control process             

1 is a schematic diagram showing a system configuration according to the present invention

2 is a block diagram of a system according to the present invention;

3 is a flowchart of a control method according to the present invention.

4 is a flowchart of an inspection mode according to the present invention.

Explanation of symbols on the main parts of the drawings

10: control unit 20: distribution tank

30: first sludge collector 31, 61: discharge orifice

40: first electric valve 50: first conveying pump

60: second sludge collector 70: second electric valve

80: second conveying pump 90: concentration tank

110: concentration sensor 120: flow sensor

The present invention relates to a plurality of sludge collector control method for efficiently operating a plurality of sludges to remove sediment generated when the sewage and waste water is purified,

In particular, two or more sludge collectors used to purify sewage and wastewater can be controlled sequentially or alternately by one control unit to collect sludge of high concentration and to operate the sludge collector economically and efficiently. It relates to a plurality of sludge collector control method.

In general, the sludge collector which collects sediment generated when the sewage and wastewater is purified is dewatered from the sewage and wastewater supplied from the distribution tank, and the sludge contained in the sewage and wastewater is deposited on the bottom, and the precipitated sludge is returned to the pump. It was configured and operated to transfer to the thickener.

However, the sludge collector as described above is a sludge collector is continuously operated when the sludge is deposited on the floor to continuously transport the sludge, low concentration of sludge is discharged, the power consumption is increased by long-term operation, the wear of the machinery is rapidly As the maintenance costs, such as incurred, have increased, more efficient sludge collectors have to be operated.

Among the conventional sludge collectors, the scraper type sludge collector is operated by gradually scraping the sludge settled at the bottom of the sedimentation basin with a central hopper while rotating a plurality of scrapers installed in the lower part of the sedimentation basin. Slowly and gradually, the sludge collector is operated continuously for 24 hours.

Therefore, the conventional scraper type sludge collector causes severe disturbance by water flow at the bottom by continuous rotation of the scraper type, which reduces the formation of sludge layer and reduces the time for sludge concentration due to the continuous sludge discharge, so that low concentration of sludge is discharged. In addition, wear of accessories such as scrapers occurs rapidly, and frequent replacement of accessories such as scrapers causes problems in that stable operation of the sedimentation basin is difficult and maintenance costs are frequently high due to frequent replacement of accessories.

In addition, in the operation of the conventional scraper type sludge collector, when a problem such as a breakdown or malfunction of the device occurs, the operation method must be changed manually, and a problem of continuous manual operation until a normal operation occurs again occurs.

In case of the suction type sludge collector which has been developed to solve these various problems, the sludge is sucked into the orifice of the tube header without using the scraper, unlike the scraper type sludge collector, in which a plurality of scrapers are discharged to the hopper by several rotations. In this case, the suction type sludge collector discharges the sludge from the entire bottom of the sedimentation basin with only one rotation of the tube header.

However, when the operation of the suction type sludge collector as described above is operated for 24 hours as in the conventional sludge collector, the amount of sludge discharged is excessive, low concentration of sludge is discharged, and the operation of the sedimentation basin is inefficient.

Therefore, an object of the present invention is to control the operation of two or more sludge collectors used to purify sewage and wastewater sequentially or alternately in one control unit to collect a high concentration of sludge, for each sludge collector The operation time can be shortened, which reduces the power consumption of the whole sedimentation equipment and minimizes the wear and damage of accessories. This can not only prolong the service life of the equipment, but also enable economic and efficient operation of the equipment. In the present invention, a plurality of sludge collector control methods are provided so that an unmanned operation can be performed by switching the operation to another sludge collector.

The object of the present invention is a sludge collection method for sewage and wastewater is supplied from the distribution tank sedimentation collection, and then supplied to the concentration tank to be discharged concentrated, the first sludge collector and the second sludge in the distribution tank Supplying sewage and wastewater to a collector, operating a first sludge collector selected by a sludge collector selected by a control unit connected to the first sludge collector and the second sludge collector, and operating the first sludge collector; A first transfer valve opening step operated by the control unit, and a first transfer pump operating step operated by the control unit together with the opening of the first transfer valve to supply the sludge collected in the first sludge collector to the concentration tank; The sludge supplied to the concentration tank from the first transfer pump detects the state of the sludge with a concentration sensor and a flow sensor and is input to the controller Stopping operation of the first sludge collector, the first electric valve and the first conveying pump when the operation time limit set in the controller is compared with the standard value; and the first sludge collector, the first electric valve and the first conveying pump Operating the second sludge collector at the same time as the operation is stopped, opening the second electric valve operated by the controller together with the operation of the second sludge collector, and operating by the controller together with the opening of the second electric valve. The second conveying pump operation step of supplying the sludge collected and sediment collected in the second sludge collector, and the state of the sludge supplied from the second conveying pump to the thickening tank by the concentration sensor and the flow sensor is input to the control unit Repeating the step of stopping the operation of the second sludge collector, the second electric valve and the second conveying pump when the operation time limit set in the controller is compared with the reference value. It is controlled by a plurality of sludge collector so may be achieved.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

When the sewage or waste water to be purified from the distribution tank 20 is supplied to each sludge collector 30, 60, the sludge is settled for a predetermined time and then the sludge collector 30, 60 is operated to discharge the orifice 31 ( Suction the sludge precipitated in 61).

At this time, the sludge suctioned from the discharge orifices 31 and 61 is discharged to the first conveying pump 50 and the second conveying pump 80 through the opened first electric valve 40 and the second electric valve 70. It is configured to be transferred to the concentration tank 90 by.

In particular, the transfer of the sludge settled in the first sludge collector 30 and the second sludge collector 60 as described above is the first sludge collector 30 and the second sludge collector 60 by the control unit 10 or Since it is to be operated separately each alternately, the first electric valve 40 and the first conveying pump 50 and the second to suction and discharge the sludge deposited in the first sludge collector 30 and the second sludge collector 60 The electric valve 70 and the second conveying pump 80 are also configured to be operated by the control unit 10, respectively.

In addition, the sludge discharged from the first sludge collector 30 and the second sludge collector 60 is discharged through the first conveying pump 50 and the second conveying pump 80 to the concentration tank 90. The concentration and the flow rate are detected by the sensor 110 and the flow rate sensor 120 to be compared with the reference values of the concentration and the flow rate set in the controller 10.

According to the present invention comprising the equipment having such a configuration, the controller 10 first inputs data on the reference concentration value or the flow rate value of the sludge and the operating time of the sludge collector and the reference value of the steady state, and is controlled by the controller 10. The situation outputs data compared with the collimation values, operation state, and the like, and records and displays them on the work site, the central control room, and the remote control device.

When the control unit 10 operates the first sludge collector 30, the first electric valve 40, and the first transfer pump 50, the second sludge collector 60 and the second electric valve 70 are operated. ) And the second conveying pump 80 may be operated economically and efficiently by maintaining the stationary state by the control unit 10.

That is, when sewage and wastewater are supplied from the distribution tank 20 to the first sludge collector 30 and the second sludge collector 60, the sewage supplied from the first sludge collector 30 and the second sludge collector 60 is supplied. And sludge from the wastewater are deposited on the bottom.

When the precipitation is made as described above, the control unit 10 reads the state of various accessory devices and checks whether there is an abnormality of the accessory device, and when it is read that there is an error, the control unit 10 calls the various accessory device checking mode in the state of stopping the equipment, If the results of reading the status of the various accessories are found to be intact, the operation mode of the first sludge collector 30 and the second sludge collector 60 is selected, and the first sludge collector 30 and the second sludge collector are selected. Various data of 60 are collected and read.

After adjusting the set value or the operating time of the control unit 10 on the basis of the data readout, such as the settling time, the supply flow rate collected by the first sludge collector 30 and the second sludge collector 60, By comparing the data of the first sludge collector 30 and the second sludge collector 60, one of the sludge collectors having high operating efficiency is operated first.

When the first sludge collector 30 is operated according to the data comparison decision, the first electric valve 40 is opened to discharge the sludge deposited on the bottom of the first sludge collector 30 through the discharge orifice 31.

When the operation of the first sludge collector 30 and the first electric valve 40 is advanced by the time set in the controller 10, the controller 10 stops the first sludge collector 30, and the first electric valve ( At the same time as closing 40, the first conveying pump 50 is operated to transfer the sludge discharged from the first sludge collector 30 to the concentration tank 90.

At this time, the sludge conveyed to the concentration tank 90 is measured by the concentration sensor 110 and the flow sensor 120 and compared with the reference value input to the control unit 10 to restart the first sludge collector 30. Judge.

When the operation of the first sludge collector 30 is stopped according to the determination, the second sludge collector 60 is operated, and at the same time, the second electric valve 50 is opened to discharge the orifice of the second sludge collector 60. The sludge deposited on the bottom of the second sludge collector 60 through 61 is discharged.

When the operation of the second sludge collector 60 and the second electric valve 70 proceeds for the time set in the controller 10, the controller 10 stops the second sludge collector 60, and the second electric valve ( At the same time as closing 70, the second conveying pump 80 is operated to transfer the sludge discharged from the second sludge collector 60 to the concentration tank 90.

At this time, the sludge conveyed to the concentration tank 90 is measured by the concentration sensor 110 and the flow sensor 120, and the second sludge collector 60 is restarted by comparing with the reference value input to the controller 10. Judge.

As described above, the measured value detected by the concentration sensor 110 and the flow sensor 120 is higher than the reference value input to the control unit 10 or the flow rate is higher, so that the operation of the other sludge collector is switched to high concentration. Not only can increase sludge collection efficiency, but also alternately operate the first sludge collector 30 and the second sludge collector 60 to reduce the power consumption by reducing the operating time of the equipment, and also wear the accessories of the equipment. It will be reduced.

After discharging all the settling sludge from the first sludge collector 30 and the second sludge collector 60 by the above operation, the first sludge collector 30 and the second sludge collector 60 are stopped, and the first sludge collector 60 is discharged. At the same time as closing the electric valve 40 and the second electric valve 70, the first conveying pump 50 and the second conveying pump 80 are stopped, and then the operation mode of the entire equipment is changed.

When the inspection mode starts, the control unit 10 switches the equipment to the manual mode, displays the overall work items and errors according to the sludge collection and discharge, and then calls the manager to check the equipment based on the displayed records. To do it.

At this time, the operation of the first sludge collector 30 and the second sludge collector 60 is converted by the concentration and flow rate and the set time of the sludge discharged as mentioned above, the first sludge collector 30 ) If the abnormality occurs in any one of the sludge collector 60 and the second sludge collector 60, the controller 10 stops the sludge collector in which the abnormality occurs and operates another sludge collector, thereby checking and repairing the sludge collector in which the abnormality has occurred. The sludge can still be collected from other sludge collectors.

In addition, the present invention is connected to a plurality of sludge collectors in addition to the first sludge collector 30 and the second sludge collector 60 is controlled by the control unit 10 and operated sequentially or alternately sludge collection and discharge efficiency In addition, the first transfer pump 50 and the second transfer pump 80 may be alternately opened and operated even when only one first transfer pump 50 and the second transfer pump 80 are operated. Since the first sludge collector 30 and the second sludge collector 60 are blocked, the sludge can be collected normally.

The present invention is not limited only to the above-described examples, the control method and the installation position of the control unit associated with the interlocking operation of the sludge collector drive unit, sludge conveying pump, sludge electric valve, settling basin, sludge collector, electric valve, conveying pump Various modifications are possible within the spirit and scope of the present invention, such as the number and operation order of the change.

As described above, the present invention can collect a high concentration of sludge by controlling two or more sludge collectors used to purify sewage and wastewater sequentially or alternately in one control unit, and operation for each sludge collector. As the time can be shortened, the power consumption of the whole sedimentation basin facility is reduced, and the wear and damage of accessories can be minimized, so that not only the life of the facility can be extended, but also economical and efficient operation of the facility, and the sludge collector in operation When generated, the operation is switched to another sludge collector to provide an unmanned operation.

Claims (4)

In the sludge collection method to receive sewage and waste water from the distribution tank to collect the sludge and then supply it to the concentration tank for concentration and discharge. Supplying sewage and wastewater to the first sludge collector and the second sludge collector in the distribution tank; A first sludge collector operating step of operating one sludge collector selected by a controller connected to the first sludge collector and the second sludge collector; Opening the first electric valve operated by the control unit with the operation of the first sludge collector; A first conveying pump operating step of supplying the sludge collected and precipitated in the first sludge collector to the concentration tank by the control unit with the opening of the first electric valve; The first sludge collector, the first electric valve, and the first sludge collector are sensed by the concentration sensor and the flow sensor, and compared with the reference values input to the controller. 1 stopping the operation of the conveying pump, Operating the second sludge collector at the same time as the operation of the first sludge collector, the first electric valve and the first conveying pump is stopped; A second electric valve opening step of being operated by a control unit together with operation of the second sludge collector; A second conveying pump operating step of operating the control unit together with opening of the second electric valve to supply the sludge collected and precipitated in the second sludge collector to the concentration tank; The sludge supplied from the second conveying pump to the concentration tank is sensed by the concentration sensor and the flow sensor, and compared with the reference value input to the control unit. A method of controlling a plurality of sludge collectors, characterized in that the step of stopping the operation of the conveying pump can be repeated. The method of claim 1, The controller detects the first sludge collector and the second sludge even when the value detected by the concentration sensor and the flow sensor is lower than the reference value input to the controller, or when the flow rate is high and an abnormality occurs in the operating equipment. A method for controlling a plurality of sludge collectors, characterized by switching the operation targets of the collectors. The method of claim 1, The control unit is a plurality of sludge collector control method characterized in that the first and second sludge collector in addition to the plurality of sludge collectors to control the operation sequentially or alternately. The method of claim 1, The first conveying pump and the second conveying pump are operated continuously by using only one conveying pump, and the first and second transmission valves are alternately opened and closed by the control unit in the first and second sludge collectors. A method for controlling a plurality of sludge collectors, characterized in that the sludge is collected sequentially or alternately.

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