RU37592U1 - INSTALLATION FOR BIOLOGICAL CLEANING OF HOUSEHOLD AND INDUSTRIAL WASTE - Google Patents

Description

Installation for biological treatment of domestic and industrial wastewater.

The utility model relates to the biological treatment of wastewater using activated sludge in suspension, and is intended for the treatment of drains (wastewater) of residential and industrial buildings.

Known devices for biological wastewater treatment, containing aeration chambers and sumps with aerators, a wastewater injection unit, pipelines and pumps for transferring sludge and wastewater from one chamber to another, as well as for discharging treated wastewater, see RU No. 819069, M .cl. S 02F 3/02, 1978 and No. 2057085, cl. S 02 F 3/02, 1994

However, with an uneven inflow of effluents, the effectiveness of these devices decreases sharply and with volley discharge effluents, they easily fail.

The closest analogue of the claimed utility model is a device for biological wastewater treatment, containing a surge tank with a wastewater supply, level sensors and a pump for pumping fresh wastewater into the aeration tank with an aerator, a sludge recirculation pump, a secondary sump with a U-shaped airlift for pumping treated sewage water for filtration and in the release, see patent RU No. 2201405, M.cl. Since 02F 3/02, 2003

The disadvantage of this installation is the design complexity and inefficiency in salvo discharge discharges, which is due to large fluctuations in the level of treated water in the device during intensive operation, leading to rapid siltation of the filters by suspended sludge, which either does not have time to sediment and / or is captured in the fluid stream entering the filtration . In addition, the problem of removing coarse sewage (toilet paper, etc.) has not been resolved, the decomposition of which creates a source of unpleasant odor.

The technical problem solved by the claimed utility model is to reduce costs in the manufacture and operation of the installation while ensuring high quality wastewater treatment and waste safety, which in the form of stabilized sludge can be used as a valuable organic fertilizer. In addition, the utility model solves the problem of increasing the stability of wastewater treatment, especially in conditions of their uneven inflow.

M.cl / A01K63 / 04; F04f1 / 18

waste water input and output nodes, level sensors, compressors, pumps and aerators, according to a utility model, the installation is additionally equipped with a after-treatment chamber with decanter and filter compartments, as well as a programmable control unit and an aeration system equipped with a compressor connected to aerators, mixers and pumps through a controlled distribution unit, while the equalization tank is made in the form of a rough waste water treatment chamber with a distribution chamber connected by means of overflow pipes with electric with at least two activation tanks, each activation tank is equipped with a mixer, a sludge pump, a wastewater and sludge level sensor, a pump for supplying treated wastewater to the decanter compartment of the after-treatment chamber with a rotary decanter and a pump for pumping purified wastewater from this compartment into the filter compartment of the tertiary treatment chamber equipped with an electric outlet valve or pump, and each activation tank is connected to a corresponding sump equipped with emergency overflow a distribution chamber equipped with an overflow to the emergency tank, which is equipped with a pump for transferring wastewater to the distribution chamber, while the programmable control unit is connected to the distribution unit of the aeration system to the compressor, pumps, mixers and electrovalves with the possibility of their automatic on / off in accordance with the specified program and the ability to change the programmed mode of operation of the installation according to the signals of the level sensors when the intensity of the influx of wastewater changes. In embodiments, the distribution chamber is connected to the bypass line of the emergency discharge of sewage by means of an electrovalve; the filter compartment of the after-treatment chamber is equipped with a filter, a means of regenerating the filter and a means of removing contaminants; the filter is made of at least two layers with a lower sand layer located on the supporting grid and the upper gravel layer, while the filter regeneration means made in the form of a distribution pipe connected to the aeration system and located in the space between the bottom of the after-treatment chamber and the supporting grid; The means for removing contaminants from the after-treatment chamber is made in the form of a pump, the flow line of which is connected to the sump.

The drawings show a possible design of the proposed installation, where,

in FIG. 1 schematically shows a plan of the General view of the proposed installation;

in FIG. 2 is a general view of the activation reservoir (longitudinal section AA of FIG. 1);

in FIG. 3 is the same, section BB of FIG. 1.

The installation consists of activation tanks 1a and 16 with sedimentation tanks for sludge accumulation, respectively 2a and 26; distribution chamber 3; emergency tanks 4a and 46, which are hydraulically interconnected; input drains 5; discharge of treated effluents 6; sludge recirculation pumps 7a and 76; overflow nozzles with electrovalves 8a and 86, respectively activation tanks 1a and 16; emergency overflows 9a and 96, respectively, of sedimentation tanks 2a and 26; emergency overflow 10 from the distribution chamber 3; pump 11 emergency tank 4A; emergency tap 12 from the distribution tank 3; emergency tap 12 to the bypass line 12 connected to the installation; mixers 13a and 136; level sensors of drains 14a and 146; a computer control unit 15c; pre-treatment chambers 16; aerators 17a and 176, 18a and 186; compressors 19a and 196; pumps for pumping the treated effluents 20a and 206 to the decanter compartment 21 a and 216 of the after-treatment chamber 22 with a pump 23 for pumping the treated effluents to the filter compartment 24 of this chamber. At the outlet from the after-treatment chamber, a pump 25 or (in the version with gravity of treated wastewater) a solenoid valve 26 is installed. The decanter compartments 21a and 216 are equipped with decanters - a device for gravity drainage of liquid sludge, made in the form of L-shaped curved float rotary nozzles 27 (in FIG. 1, respectively 27a and 276) with a head overflow partition 28. In FIG. 2 also shows, 29 - the maximum level of effluents, 30 - the minimum level of effluents, 3V - 31 - the range of heights of the working levels of the treated wastewater, 32-upper level of the location of the sludge layer. The filter located in the filter compartment of the after-treatment chamber, made at least two-layer with a lower sand layer 33, located on the carrier grid 34 and the upper gravel layer 35, while in the space between the bottom of the after-treatment chamber and the carrier grid 34 there is a filter regeneration means made in the form of a distribution pipe 36 connected to an aeration system. Means for removing contaminants is made in the form of a pump 37, the suction section of which is located on the surface of the filter, and the flow line is connected to the sump (2A or 26). Installation for biological treatment of domestic and industrial wastewater can be made in the form of a reinforced concrete tank with an above-ground structure. Installation works as follows. Domestic and industrial wastewater, which is a common municipal sewage, flows through the inlet 5 into the pre-treatment chamber 16. Then, by gravity or by pumps (to hell, not shown conditionally), the wastewater enters the distribution chamber 3, from which, through overflow pipes with electrovalves 8a and 86 they enter the activation tanks 1a and 16, the filling time of which depends on the intensity of the inflow and is controlled by the computer of the control unit 15 (the height of the level of effluents is controlled by sensors 14a and 146). Activation tanks 1a and 16 and sedimentation tanks - sludge accumulators 2a and 26 are aerated when the compressors 18a rl) jjSo) and 186 are switched on, respectively, which pump air into the corresponding aerators. A control program for all actuators, including compressors, pumps, mixers and solenoid valves, has been introduced into the control unit computers. At the same time, according to a given program (due to the computer of the control unit), the electrovalves 8a or 86 are opened alternately to fill one or another activation tank. The signals of the level transmitter about the speed of filling the activation tank are received in the computer. If filling takes place accelerated (compared to the program time), then the automatic adjustment of the duration of the cleaning phase is carried out in another activation tank, which is closed during a given period. With small inflows of effluents, the control unit computer lengthens the cleaning phase. This ensures the quality of treatment with significant fluctuations in the intensity of wastewater inflow. For example, when filling the activation tank 1a, the electrovalve 86 is closed, while the activation tank 16 is in the wastewater treatment phase (compressor 176 is turned on and air is supplied to the aerator 176). In this phase, aeration is alternated with stirring by periodically turning on the agitator 136. After the purification phase, the sludge precipitation phase follows. After sedimentation of sludge, the treated wastewater is pumped from the activation tank 196 to the decanter compartment 21 a and then through the pump 23 to the filter compartment 24. In this compartment, the water is finally cleaned and removed from the installation by pump 25 (or when opening the solenoid valve 26 - in the version with gravity removal of treated wastewater). Then the cleaning cycle is repeated, and at the signal of the control unit computer, the electrovalve 86 opens (the electrovalve 8a closes) and fresh wastewater from the distribution chamber 3 enters the activation tank 16. At a low load of the device, the control unit computers put the activation tanks into sleep mode with periodic switching on of compressors to create oxidizing conditions in activation tanks (and sedimentation tanks). In the event of an emergency overload of the installation, the effluents are discharged into emergency tanks 4a and 46, from which they are pumped by pump 11 to the distribution chamber 3 and further (with the solenoid valve open or 8a or 86 overflow pipes), the wastewater enters either the activation tank 1a or activation tank 16. When the emergency tanks are completely filled, the effluents from the pre-treatment chamber 16 and the distribution chamber 3 go through the emergency branch 12 for discharge into the bypass line 12 From the activation tanks 1a and 16, the mixture of sludge with water it is pumped automatically by sludge recirculation pumps 7a and 76 to the sumps 2a and 26, respectively. The signals of the sensors 14a and 146 about the height of the upper level - 30 layer of sludge are fed to the computer of the control unit, in which the optimal pumping time (as well as the optimal time of all phases) cleaning process), while

wastewater is removed from settlers 2a and 26 through emergency overflows 9a and 96 into distribution chamber 3. The treated wastewater is pumped from activation tanks 1a and 16 to pumps 20a and 206 into the decanter compartments of the aftertreatment chamber when filling, the L-shaped nozzles of decanters 27a are also filled and 276, their buoyancy is reduced, while they are rotated so that the upper faces of the overflow partitions 28 are 20-100 mm below the level of treated wastewater, thereby ensuring the gravity discharge of purified water into the decanter compartment . When the water level in the decanter compartments drops below a certain level, the decanters are emptied and their buoyancy is restored, while they return to their previous position with the release of the upper faces of the overflow partitions above the level of wastewater. Thus, the decanters, in addition to the gravity discharge of treated wastewater, also ensure that suspended sludge and other contaminants get into the treated water, which significantly increases the filtration performance and the filter operating time between its cleanings. When cleaning the filter, compressed air is supplied to the distribution pipe 31 manually or automatically, while the contaminants are removed to the sump (2a or 26) by the pump 37. The purified wastewater from the device is discharged either by pump 25 or (in the embodiment) by gravity with an open solenoid valve 26.

After disinfection, for example, by chlorination, the wastewater is completely purified and disinfected and meets the characteristics of drinking water. Treated wastewater can be useful, for example, in decorative ponds, streams, fountains, for watering plants, etc.

Stabilized sludge from sedimentation tanks 2a and 26 is pumped out by fecal transport through hatches (to hell, not shown). The concentration of dry sludge under normal conditions is 2-3%, i.e. 20-30 kg / m.

The ability to flexibly change the operating modes of the installation over a wide range allows you to optimize its operation based on specific conditions with minimal energy and cleaning costs, while the installation works reliably with both minimal and maximum inflows.

The proposed installation is advantageously used for the treatment of effluents of more than 300 conventional consumers, as well as for the treatment of industrial wastewater. At the same time, it is possible to connect the computer of the control unit to a telephone line or mobile communication (cellular) for remote control of the installation.

Claims (5)

1. Installation for biological treatment of domestic and industrial effluents, containing equalization and activation tanks, a sump, nodes of input and output of wastewater, level sensors, compressors, pumps and aerators, characterized in that the installation is additionally equipped with a after-treatment chamber with decanter and filter compartments, as well as a programmable control unit and aeration system equipped with a compressor connected to aerators, mixers and pumps through a controlled distribution unit, while the equalization tank is made n in the form of a coarse sewage treatment chamber with a distribution chamber connected by means of overflow pipes with solenoid valves to at least two activation tanks, each activation tank equipped with a mixer, sludge pump, wastewater and sludge level sensor, and a treated sewage feed pump water into the decanter compartment of the after-treatment chamber with a rotary decanter and a pump for pumping treated wastewater from this compartment into the filter compartment of the after-treatment chamber equipped with an electric outlet valve whether a pump, each activation tank connected to an appropriate sump equipped with an emergency overflow into the distribution chamber, equipped with an overflow into the emergency reservoir, which is equipped with a pump for transferring effluents to the distribution chamber, while the programmable control unit is connected to the distribution unit of the aeration system, compressor, pumps, mixers and electrovalves with the ability to automatically turn them on / off in accordance with a given program and the ability to change the programmed operating mode of the installation according to the signals of level sensors with changes in the intensity of wastewater inflow. 2. Installation according to claim 1, characterized in that the distribution chamber is connected to the bypass line of the emergency discharge of sewage by means of an electrovalve. 3. Installation according to claim 1, characterized in that the filter compartment of the aftertreatment chamber is equipped with a filter, a means of regenerating the filter and a means of removing contaminants. 4. Installation according to claims 1 and 3, characterized in that the filter is made of at least two layers with a lower sand layer located on the supporting grid and an upper gravel layer, while the filter regeneration means is made in the form of a distribution pipe connected to aeration system and located in the space between the bottom of the aftertreatment chamber and the supporting grid. 5. Installation according to claim 1, characterized in that the means for removing contaminants from the after-treatment chamber is made in the form of a pump, the flow line of which is connected to the sump.