SU1091128A1 - System for control of process for primary separating of sewage - Google Patents

Abstract

1. SYSTEM - FOR REGULATING THE PROCESS OF PRIMARY SEPARATION OF WASTE WATER, containing a sump with pipelines, supplying wastewater, draining 0 | and water and draining sludge installed in each of the sumps of sludge level sensors connected to the corresponding first inputs of control units, the first outputs which are connected to an actuator mounted on the sludge discharge pipeline, the sewage tank and the sludge tank to which each of them is connected. septic tanks, characterized in that, in order to improve the efficiency and quality of cleaning, it contains sensors for the concentration of suspended substances in clarified waste water installed in the septic tanks, each of which is connected to a corresponding executive body installed on the sewage supply pipe to the septic tank, the first and the second level switches and the programmer, the first inputs and outputs of which are connected respectively to the second outputs and the second inputs of the control units, and the second input of the programmer is connected with the first level indicator installed in the sludge tank, the third inputs of the control units are connected to the second level indicator installed in the wastewater tank. . 2. The system according to claim 1, wherein the control unit comprises an amplifier, the first input is the first input of the control unit, the first and second time relay and the threshold device, the output of which is connected to the first and second outputs of the control unit, the second the input of which is the first input of the first time relay, the second input of which is connected to the output of the threshold device, the output of the first time relay connected to the second input of the amplifier, the output of which is connected to the first input of the threshold device, the second input d which connect A BTopof-o relay has a time relay whose input is connected to the output of a threshold device, the third input of which is the third input of the control unit. 3. The system according to claim 1, characterized in that the programmer contains a blocking element, the first inputs of which are connected to the second

Description

the outputs of the control units of each of the settling tanks, and the controller, the outputs of which are the outputs of the programmer, and the input connected to the output of the blocking element, the second input of the element connected to the first level gauge.

The invention relates to wastewater treatment, and more specifically to systems for regulating the process of primary sewage separation, and can be used, for example, in the separation of manure trunks of a large pig complex into solid and liquid fractions.

A known system for controlling the process of primary separation of sewage, containing a sump with sludge level sensors and pipelines equipped with electrified valves, as well as tanks for sewage and sludge C 11.

The disadvantage of such a system is the inconsistency of the discharge of sediment from the settling tanks, resulting in a discharge of several of the settlers simultaneously, which leads to overflow of the receiving tank and disruption of the process of subsequent sludge dewatering.

The most technical to the present invention is an automatic control system for the primary sewage segregation process, comprising: a settling tank with sludge level sensors and pipelines equipped with electrically operated valves, sewage and sludge tanks, as well as a control station C23.

The disadvantage of the system is the low quality of automatic regulation (regulation accuracy is + 15-20%) due to the lack of control of suspended solids in clarified waste water at the outlet of each settling tank and regulation of attracted drain water into the developed septic tank. In addition, the known system allows for the simultaneous discharge of sediment from sedimentation tanks without taking into account the degree of the sediment receiving tank filled, does not exclude the possibility of a plug in the lower part of the sedimentation tank due to excessive compaction of the sediment due to its long duration in the settling basin and does not exclude water at the overflow of the receiving tank. All this significantly impairs the quality of wastewater treatment and reduces the efficiency of the treatment plant.

The purpose of the invention is to increase the efficiency and quality of wastewater treatment.

This goal is achieved by the fact that in the system for regulating the process of primary sewage separation, containing a settling tank with wastewater supply pipelines, draining clarified water and sludge discharge, the ram sensors have been installed in each of the settlers. connected to the corresponding first inputs of the control units, the first outputs of which are connected to the actuating mechanism t installed on the sludge discharge pipeline, the sewage tank and the sludge tank, to which each of the settling tanks is connected. Contains suspended solids concentration sensors in clarified wastewater, each of which is connected to a corresponding executive authority installed on the wastewater supply pipe to the sump, the first and second V1ro9n signaling devices and the programmer, the first inputs and outputs of Kotoporo are connected respectively to the second outputs and WRITTING the inputs of the control units, and the second input of the programmer is connected to the first level gauge installed in the sludge tank, the third inputs of the block a control connected with vtorsh signalizato3 10 rum level established in reservoirs for re wastewater. The control unit contains an amplifier, the first input of which is the first input of the control unit, the first and second time relays and a threshold device, the output of which is connected to the first and second outputs of the control unit, the second input of which is the first input of the first time relay, the second input of which is connected with the output of the threshold device, the output of the first time relay is connected to the second input of the amplifier, the output of which is connected to the first input of the threshold device, the second input of which is connected to the output of the second relay in A belt whose input is connected to the output of a threshold device, the third input of which is the third input of the control unit. The programmer contains a blocking element, the first inputs of which are connected to the second outputs of the control units of each of the settling tanks, and the controller, the outputs of which are the outputs of the programmer, and the input is connected to the output of the blocking element, the second input of the blocking element is connected by the d first level indicator. FIG. 1 shows a system that looks like; in fig. 2 - block diagrams of programmer blocks, and controls. The system contains a tank 1 for wastewater, a pump 2 for sewage pumping, a distributor 3 with wastewater supply pipe 4, clarified water and sludge discharge into septic tanks 5, electric actuators (automatic filling stations 6) 7, actuators (gate valves) 8, tank 9 for sludge pump 10 sludge pumping, programmer 11, control units 12, sludge level sensors 13, regulators 14, first level signaling device 15, sludge pumping regulators 16, weighing substances concentration sensors 17 in brightener constant wastewater regulators 18 will do no waste water overflow pipe 19, the second switch layer 20, pump control unit 21. The programmer 11 consists of a blocking element 22 and a command device 23, each of the control units 12. Contains an amplifier 24, a threshold device 4 25, a first 26 and a second time relay 27. . FIG. 1 shows one of the settling tanks 5. Positions 1, 2, 3, 9, 10, 11, 15, 16, 19, 20, 21, 22, 23 are common to all the settling tanks 5, positions 4, 6, 7, 8, 12, 13, 14, 17, 18, 24, 25, 26, 27 correspond to the number of sumps 5. The system works as follows. The waste water from the pig complex enters the sewage tank t, from where pump 2 is pumped to distributor 3, represented by a container with pipelines 4 leaving it, through which the waste water flows by gravity, for example, into three primary vertical sedimentation tanks 5. The amount of ingress into the sewage sump 5 is regulated by a flap 6 with electric drive 7 installed by pipe Hia 4. In the sump 5 the sewage and sediment are separated: solid particles accumulate in the lower sump 5, and smoldered liquid overflow. It is diverted for biological treatment to subsequent treatment plants. With accumulation of sediment, it is discharged through open valves 8 into the reservoir 9 for sludge, from where it is pumped by pump Yu to subsequent constructions for its dehydration. FIG. 2 shows the block diagram of the programmer. No control unit 12 of one of the settling tanks 5 (other control units are not shown). In the absence of signals at the first inputs of the blocking element 22, it is turned on, and at the outputs of the command device 23, the signals of the pollutant level sensor 13 are generated alternately at a predetermined adjustable frequency. When the time relay 26 is turned off, through its normally closed contact, these interrogation signals from its output go to the second input of amplifier 24. Amplifier 24 enters the operating mode and a signal depending on the concentration of sludge in the zone appears at the input of threshold device 25 installation of sensor 13 (since there is no clearly expressed sedimentation boundary in the sump 5, we will determine its level conditionally by asking a certain value of its concentration). How ; Only in one of the settling tanks 5, the sediment reaches the installation level, the sensor 13 and its signal reaches a predetermined value determined by the setting of the threshold of the threshold device 25, it turns on and a signal appears on its outputs that acts on the regulator 14 to open the actuator 8 and the blocking element 22, disconnecting it and terminating further interrogation of the sensors 13. The sludge is drained into the tank 9, when filled, the electrode level indicator 15 gives a signal to close the actuator -8 mA, and also the inclusion of the pump 10 pumping sludge. After the entire sediment has been pumped out, the level indicator 13 gives a signal to the pump control unit 16 to switch off the pump H to the programmer 1 1 to the second input of the element, 22 and the polling cycle of the sensors 13 is resumed. In order to avoid excessive compaction of the sediment in the lower part of the settling tank 5 and the formation of a plug, control unit 12 limits the residence time of the sediment to 2 to 4 hours, after which the sediment is discharged independently of the signal from the sludge level sensor 13. Since when sediment is discharged from the sump 5, it is agitated, then in order to avoid false triggering, the sediment sensor 13 installed after the sediment is turned off for 3060 minutes. Sediment accumulation time limitation and delayed resetting of sediment caused by agitation occurs using time relays 26 and 27, which are started simultaneously with the start of sludge discharge from sump 5, the first relay runs for about 30 minutes, interrupting the interrogation signal during this time Sensor 13 of this sump, and the amplifier 24 is not working. The second relay processes the time delay, depending on the setpoint, from 2 to 4 hours, after which a second signal is sent to the second input of the threshold device 25 and it is turned on regardless of the level of sediment in the sump. The sludge is discharged from the sump 5, which is necessary to prevent the discharge pipe from being blocked due to the sludge being in the sump for a long time. Next is pumping out of the tank 9 in the same way as described above. Automatic concentration meters 17 monitor the content of suspended substances in clarified water at the outlet of the settling tanks 5 according to its optical density and, if it exceeds the target in one of the settling tanks 5, then the regulator 18 influences the actuator 7 of the damper 6 in the direction of reducing the flow cross section of the pipeline 4 and in sump 5 receives less wastewater. Excess wastewater from distribution The body 3 is discharged through conduit 19 back to wastewater tank 1 (WATU, which serves to accumulate wastewater during the hours of their greatest flow. During low flow hours (from 0 to 8 hours), their level in the receiving tank decreases, the excessive lowering of its level detector 20 gives a signal to the pump control unit 21 and the pump 2 is turned off. Thus, the optical density of the clarified water and, consequently, the suspended matter content is stabilized at the outlet of the sump 5. 1 for wastewater caused by a sharp increase in wastewater intake (damage to the water supply network at the complex, ground or melt water entering the sewer system, etc.) or disabling one of the sedimentation tanks for repair, the level indicator 20 gives a correction signal to the threshold device 25, reducing it The sludge hopper threshold. In this way, the sediment from the settling tank is discharged at a more liquid concentration, which leads to more frequent discharges, and the settling capacity of the settling tank increases. Simultaneously, the signal from the level indicator 20 comes to the controller 18 by valve 6, as a result of which it is fully opened regardless of the signal value of the concentration meter 17. This also increases the throughput of the settling tanks. As soon as the wastewater level in the wastewater tank is normalized, the correction signals of the level detector 20 are stopped and the circuit is operating as before.

The proposed system improves the accuracy of automatic control of the primary sewage separation process by up to + 5-10% compared to the known one, as a result of which the quality of the wastewater treatment is improved and the efficiency of the treatment facilities is increased.

In addition, the use of the proposed system to regulate

The process of primary sewage separation provides, compared to the existing ones, a reduction in labor costs for servicing settling tanks, preventing emergencies due to excessive compaction of sediment in settling basins, as well as the incidence of non-treatment waste water when the receiving tank is overflowed. From the signaling device 20

Fig: 1

Claims (3)

1. SYSTEM · FOR REGULATING THE PROCESS OF THE PRIMARY SEPARATION OF WASTE WATERS, containing a sump with pipelines for supplying wastewater, draining clarified water and draining sludge, sludge level sensors installed in each of the sumps connected to the corresponding first inputs of control units, the first outputs of which are connected to an actuator installed on the sludge discharge pipe, a sewage tank and a sludge tank, to which each of the settlers is connected, characterized in that, in order to increase the efficiency In order to improve the efficiency and quality of treatment, it contains sensors for the concentration of suspended solids in clarified wastewater installed in the tanks, each of which is connected to the corresponding executive body installed on the sewage * water supply pipe to the tank, the first and second level indicators and the programmer, the first inputs and outputs which are connected respectively to the second outputs and second inputs of the control units, and the second input of the programmer is connected to the first level switch installed in the tank for sediment, and the third inputs of the control units are connected to the second level switch installed in the wastewater tank. 2. Pop system. 1, distinguished by the fact that the control unit contains an amplifier, the first input of which is the first input of the control unit, the first and second time relays and threshold devices, the output of which is connected to the first and second outputs of the control unit, the second input of which is the first input of the first time relay, the second input of which is connected to the output of the threshold device, and the output of the first time relay is connected to the second input of the amplifier, the output of which is connected to the first input of the threshold device · ² · device, the second input of which connected to the output of the second time relay, the input of which is connected to the output of the threshold device, the third input of which is the third input of the control unit. 3. The system according to p. 1, characterized in that the programmer contains a blocking element, the first inputs of which are connected to the second SU „„ 1091128 by the outputs of the control units of each of the tanks, and a command device, the outputs of which are the outputs of the programmer, and the input is connected to the output of the blocking element, and the second input of the element is connected to the first level switch. nya.