RU2406700C1 - Method of purifying waste water and device for realising said method having vertical oxidation channels - Google Patents

Abstract

FIELD: chemistry. ^ SUBSTANCE: invention relates to systems for biological treatment of domestic waste water with active sludge in suspended state. Disclosed vertical and zonal method of purifying waste water and device for realising said method are based on vertical and circular movement of liquid undergoing purification from a zone with high content of oxygen to a zone with low content of oxygen, thus activating various biochemical processes which require different level of availability of oxygen. The device and its method of operation save power and the device is reliable and easy to manufacture and service. ^ EFFECT: invention enables efficient operation in any situation with domestic waste water of non-standard composition. ^ 2 cl, 2 dwg

Description

The invention relates to biological systems, including a method and device for biological treatment of domestic wastewater with activated sludge in suspension, used both in freestanding cottages, homesteads, and in hotel complexes, schools, sports clubs, towns, catering establishments and etc.

Biological wastewater treatment uses exclusively aerobic activated sludge, which is a mixture of various aerobic bacteria and small microorganisms, but the activation process is possible only with continuous operation of the aeration system, i.e. continuous supply of air, and therefore, oxygen, which provides a different degree of concentration. This ensures the interaction of wastewater with various components of activated sludge in its suspended state and the activation of a full range of biochemical reactions necessary for deep biochemical wastewater treatment.

A known method of deep biochemical wastewater treatment and installation for its implementation (patent RU No. 2060967). According to the method according to patent RU No. 2060967, feed wastewater is supplied, primary wastewater sedimentation, aeration, sludge secondary sedimentation, ozonation, sludge recirculation and purified water are discharged. The installation for implementing this method consists of a primary sump, aeration tank with an aerator, a secondary sump, sewage supply pipelines, sludge removal, activated sludge recycling, purified water discharge, and ozonation in the primary sump, and is equipped with an additional sump communicated with the primary sump, capacity of purified water and pipelines for sludge of activated sludge connecting the lower parts of all sumps. However, this technical solution both in part of the method and in the part of the device is very complicated and cluttered with unnecessary pipelines, the use of the primary settler leads to the appearance of a large amount of untreated crude sludge, which is very dangerous in epidemiological terms and from the point of view of disposal

Known methods of wastewater treatment and devices for their implementation, protected by patents RU No. 2201405, 2220112, 2228915. These are fully automated systems of various levels of complexity. All these technical solutions contain an accumulative equalizing tank, where preliminary aerobic-anoxide biological treatment is carried out with aerobic activated sludge and the process of enzymatic decomposition of organic pollutants takes place. Next, pre-treated water with sludge enters the aeration tank - an activation tank, where the final destruction of organic pollution occurs, after which the water enters the sump. The settled sludge accumulates at the bottom of the sump, and water, after passing a series of purifications through porous filters, is removed from the installation.

A technical solution is known “A method for preliminary treatment of wastewater and storm water and a device for its implementation” according to the application No. 2006128075, according to which a decision was made on the issue of September 25, 2007. The device includes a tank with a pipe for receiving sewage and storm water, while in the tank a storage tray with a perforated bottom is installed, and a retention grid with linear aerators made of a set of plates.

The closest analogue to the present invention is the "Method of wastewater treatment and device for its implementation" according to patent RU No. 2305662. The device includes an equalizing tank, activation tank, aeration tank, sedimentation tank, sludge stabilization chamber, a system of pipelines and pumps that provide water flow or forced its pumping, and control unit. Although the design of this device provides a self-regulating method for wastewater treatment and uses only aerobic treatment processes, without the use of primary clarifiers, it also provides for more thorough filtration of water after the clarifier, but the considered technological process is relatively difficult to implement and require significant material costs.

The objective of the present invention is to provide a simple and effective system that ensures the achievement of a technical result, which consists in obtaining high-quality treated wastewater at inlet drains with very wide deviations from the standard composition by intensifying the processes of oxidation, nitrification, denitrification and dephosphation at all stages of wastewater treatment, constant oxidation of excess activated sludge through the implementation of low-waste technology that facilitates the work of cleaning in each tank And hence improve the efficiency of wastewater treatment.

To achieve the technical result, a vertical-zonal method of wastewater treatment is proposed, including supplying wastewater to a tank with activated sludge, flowing it to other containers with activated sludge, sludge sedimentation, pumping a suspension of sludge with water from the activation tank to a secondary sump, where water defend, and after raising the water in the sump above the cut of the nozzle with the filter by gravity by the upper flow, the removal of purified water outside the device, in which as tanks with activated sludge use tical oxidizing channels with activated sludge, the wastewater is supplied to the receiving and oxidizing channel with activated sludge, and when it reaches a level above the overflow pipe, followed by overflow to other oxidizing channels with activated sludge, while all oxidizing channels are saturated with oxygen, and water and recirculated sludge from the oxidation channels by gravity through their grating bottom is sent to the activation tank, activated sludge is deposited on the bottom of the activation tank with the formation of highly concentrated of the centered living sedimentary layer of sludge, then the sludge is pumped by recirculation airlift pumps into the oxidation channels, and the purified water from the activation tank is supplied to the secondary settler sedimentation tank in the area of its lower mouth, while the sludge is displaced from the secondary settler into the activation tank, and the purified water through the slit-like channel of the outlet pipe with a filter from the secondary sump is taken out to the outlet storage tank.

A device for wastewater treatment, comprising a housing with a sealed lid, which contains an activated sludge receiving tank with an inlet pipe, an activation tank with a secondary sump equipped with an inlet water damper, an outlet pipe and a biofilm aerator-breaker, in which the receiving tank is made in the form the receiving and oxidizing channel with activated sludge and is equipped with an overflow pipe connecting the receiving and oxidizing channel with other oxidizing channels, and the bottom of each channel in filled with a mesh over which a fine-bubble linear aerator is placed and which separates the oxidation channel with the activation tank, with recirculation airlift pumps located in the secondary sump, the suction ends of which are located below the mouth of the secondary sump in the bottom zone of the activation tank, and the outlet ends above the oxidation channels moreover, the outlet pipe is provided with a slit-like channel, the device is equipped with an instrument compartment containing a control unit and a compressor associated with an air distributor and air ducts for supplying oxidizing channel aerators and airlift pumps, the secondary sump in the lower part being made in the form of a truncated tetrahedral pyramid installed with a smaller base downward, and in the upper part as a rectangular well, the sides of which are located relative to the sides housing with a rotation of 45 degrees with the formation of three triangular oxidizing channels and an output storage tank with a float pump.

Figure 1 presents the technological scheme of wastewater treatment, illustrating the cleaning process from the inlet to the storage tank with a float pump. Figure 2 shows a device for wastewater treatment, top view.

A wastewater treatment device comprises a housing 1 and a hermetically closing cover 2. In the housing 1 there is a secondary sump 3 made in the upper part in the form of a rectangular well 4, and in the lower part - in the form of a truncated tetrahedral pyramid, installed with the smaller base 5 down, the sides of the well 4 are located relative to the sides of the housing 1 with a 45 degree turn to form triangular channels 6, 7, 8, and 9, each of which has its own functional purpose. So, channel 6 is a receiving-oxidizing one with activated sludge, where wastewater initially enters through the inlet pipe 10. Channels 7 and 8 are oxidizing, in which water is treated with live activated sludge in a highly concentrated state. Each channel 6, 7, 8 can be equipped with a delayed obliquely installed grill 11, blown from below by air from a fine-bubble linear aerator 12, where air is constantly supplied from the compressor 13. Due to the fact that air is constantly supplied to the aerators 12, the bubbles pass through through the inclined grating 11, prevent the deposition of various inclusions on it and clean the grating 11 of organic light inclusions settled on it. These fractions, together with the seething water-air flow, are directed upward and decompose under the influence of aerobic sludge, which is always present in the channel, and the presence of light biological charge 14 promotes mixing of organic inclusions and their partial mechanical crushing. The bottom 15 of each channel 6, 7 and 8 is made mesh, and all channels 6, 7 and 8 are connected by the upper overflow pipe 16. This embodiment of the receiving-oxidizing channel 6 with preliminary wastewater treatment by means of rising air flow eliminates large organic inclusions. In this case, an intensive fermentation process and preliminary decomposition of organic pollutants are already taking place in channel 6.

Channels 6, 7 and 8 in the lower zone are connected to the activation tank 17 through the mesh bottom 15. From channel 6, water flows by gravity through the mesh bottom 15 into the activation tank 17, live activated sludge in a highly concentrated state is always present in its bottom zone, which initiates the process denitrification in the bottom zone. Clarified water is pumped from the activation tank 17 by the circulating pump 18 to the settler 19 of the secondary sump 3, while the sludge from the secondary sump 3 is precipitated and displaced by water to the outlet of the secondary sump 3 through the lower neck 21 to the bottom zone of the activation tank 17, and the water rises and settles . Then the deposited sludge is pumped from the activation tank 17 to the oxidation channels 6, 7 and 8 by recirculation airlift pumps 22, the suction ends of which 23 are located in the bottom zone of the activation tank 17 below the neck 21, and the outlet ends 24 are located above the oxidation channels 6, 7 and 8 The secondary sump 3 is equipped with an aerator-breaker 25 of a floating biofilm, an outlet pipe 26 with a slit-like channel 27 for discharging purified water to the output storage tank 9 with a float pump 28. The slit-like channel 27 could s is made on the surface of the upper zone of the outlet pipe 26, as shown in Figure 2, or to one side, as shown in Figure 1.

The device is equipped with a device compartment 29 containing an accession unit 30 with a control unit and a compressor 13 connected to a distributor 31 connected by air ducts 32 to all aerators and airlift pumps.

The vertical-zone wastewater treatment method according to the invention, which ensures the operation of the device, is carried out as follows by the proposed wastewater treatment apparatus.

When choosing the size of a device, they always know in advance how much wastewater it should be designed for.

Contaminated wastewater through the inlet pipe 10 of the housing 1 enters the receiving and oxidizing channel 6, in which the process of treating wastewater with activated sludge begins. Wastewater with suspended sludge sequentially by gravity through the separation grate 11 enters the activation tank 17, while the sludge continues to move slowly into the bottom zone of the activation tank 17, drastically losing dissolved oxygen and activating denitrification. And after some time, activated sludge is deposited on the bottom of the activation tank 17, forming a highly concentrated living sedimentary layer, slowly moving to the suction ends of the recirculation airlift pumps 22. Moreover, in this living sedimentary layer of sludge (biomass), the processes of self-oxidation (selective lysis) of part of the biomass are activated which dramatically reduces its growth. A fine-bubble linear aerator 12 is installed under each grate 11, into which air is constantly supplied. Air bubbles pass through the separation lattice 11, preventing the deposition of various inclusions on the lattice 11, which cleans it of organic light fragments that have settled on it. These fractions, together with the bubbling air-water stream, are sent to the biological charge 14 and decompose under the influence of aerobic sludge. This embodiment of the channel 6 with preliminary wastewater treatment by means of a separation grid 5 with wastewater treatment by rising air flow eliminates the ingress of large organic impurities into subsequent containers of the device, leading to emergency situations due to blockage of the technological elements of the device. Moreover, already in this channel 6 there is an intensive fermentation process and preliminary decomposition of organic pollutants.

Water is pumped from the activation tank 17 to a stilling tank 19 of the secondary sump 3, where the sludge settles and is forced out by the water into the activation tank 17, and the clarified water from the secondary sump 3 is discharged into the storage tank 9 and further from the device. The sludge from the bottom zone of the activation tank 17 is fed by recirculation airlift pumps 22 to all oxidizing channels 6, 7 and 8, where it is saturated with oxygen and the processes of decomposition, oxidation and nitrification are activated. As the wastewater arrives for treatment, the purified water from the zone above the sedimentary layer of the activation tank 17 flows into it through the lower neck 21 of the secondary sump 3 and, moving from bottom to top, is released from activated sludge and flows evenly through the slot-like channel 27 into the outlet pipe 26. activated sludge is deposited in the lower zone of the secondary sump 3 and in pauses of wastewater intake it is forced out of the secondary sump 3 with clarified water due to the operation of 17 circulation pump 18, which supplies light leached wastewater from the zone above the sedimentary layer of the activation tank 17 to the settler 19 of the secondary sump 3. This ensures constant forced cleaning of the secondary sump 3 from the deposited sludge, and the slotted channel 27 of the outlet pipe 26 creates a certain resistance to the outlet of the purified water, which results in mass flow sewage to the level rise in all tanks and helps to average the speed of water at the outlet of the installation.

This ensures the so-called vertical-zonal aeration, which allows for the interaction of wastewater in the zones of excess and deficiency of dissolved oxygen with various components of activated sludge in its suspended state and activation of the full range of biochemical reactions necessary for deep biochemical treatment of wastewater.

The proposed device is simple in design and economical in production.

Experimental work on the implementation of the method showed the achievement of the technical task and ensuring the receipt of clean water without suspended solids, suitable for use in household needs and for subsequent disinfection in recycled water supply systems. The device very well tolerates the presence of animal hair, fat and various debris in waste water, which previously was the reason for the failure of many wastewater treatment plants.

The device and the method of its operation according to the invention are energy-saving, and the device is reliable in operation and easy to manufacture and maintain. Devices manufactured in accordance with the invention and operating according to the proposed method have shown effective operation in all situations with loading household wastewater with deviations from the standard composition.

Claims (2)

1. The vertical-zone method of wastewater treatment, including the supply of wastewater to a tank with activated sludge, its flowing into other containers with activated sludge, sedimentation of sludge, pumping a suspension of sludge with water from the activation tank into a secondary sump, where the water is settled, and then the rise of water in the sump above the cut of the nozzle with a filter, by gravity by the upper flow, the removal of purified water outside the device, characterized in that vertical oxidizing channels with activated sludge are used as tanks with activated sludge, wastewater is supplied to the receiving and oxidizing channel with activated sludge, and when it reaches a level above the overflow pipe, followed by overflow to other oxidizing channels with activated sludge, while all oxidizing channels are saturated with oxygen, and waste water and recirculated sludge from the oxidizing channels By gravity through their grating bottom is directed to the activation tank, activated sludge is deposited on the bottom of the activation tank with the formation of a highly concentrated living sedimentary layer of sludge, and then they are pumped by recirculation airlift pumps into the oxidation channels, and purified water from the activation tank is fed into the secondary sedimentation tank settler in the area of its lower neck, while sludge is displaced from the secondary settler into the activation tank, and the purified water through the slot-shaped channel of the outlet pipe with a filter from the secondary sump is discharged into the output storage tank. 2. A device for wastewater treatment, including a housing with a sealed cover, which contains an activated sludge receiving tank with an inlet pipe, an activation tank with a secondary sump equipped with an inlet water damper, an outlet pipe with a filter and a biofilm aerator-breaker, characterized in that the device is equipped with oxidizing channels, and the receiving tank is made in the form of a receiving-oxidizing channel with activated sludge and is equipped with an overflow pipe connecting the receiving-oxidizing agent the main channel with other oxidizing channels, and the bottom of each channel is mesh-like, above which a fine-bubble linear aerator is placed and which separates the oxidizing channel with the activation tank, and recirculation airlift pumps are located in the secondary sump, whose suction ends are located below the mouth of the secondary sump in the bottom zone of the activation tank, and the outlet ends above the oxidizing channels, and the outlet pipe with a filter is provided with a slot-like channel, the device equipped with an instrument compartment containing a control unit and a compressor connected to an air distributor and air ducts for supplying oxidizing channel aerators and airlift pumps, the secondary settling tank in the lower part made in the form of a truncated tetrahedral pyramid installed with a smaller base down, and in the upper part in the form of a rectangular well, the sides of which are located relative to the sides of the body with a 45 ° turn to form three triangular oxidizing channels and an output storage tank pa pump with a float.

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