BG109181A - Method and device for deep biological treatament of waste waters - Google Patents

Abstract

The method comprises two phases of operation of the device. The waste waters are sent to a compensating reservoir (8) with active sludge which runs across a slit-type filter (10) into first compensation aerator reservoir (11), and gets across an aeration filter (14) into a second compensation aerating reservoir (12) and runs out into the bottom zone of an aerator settling tank (22). In the first phase aeration of the first and the second aeration reservoir (11 and 12) is made, and by the main pump (20) the previously settled and treated water from the tubular well (19) of the aerated settling tank (22) in the lower zone of the settling tank (12) is pumped out. Tubular well (19) is aerated, the operation of the main pump (20) is automatically ceased when the level falls under its scarf, the displaced treated water runs out from the upper layers of the settling tank (12) into chamber (40) with a porous filter (32), and after it - into pumping chamber (41) wherein it is periodically pumped out by a draining pump (35). The completely treated water is discharged outside the plant, the sludge is pumped out by a sludge pump (18) from the bottom zone of settling tank (22) to a chamber for sludge stabilization (30) and the displaced water with the sludge running out to the compensation reservoir (8) thus establishing continuous circulation of the water and the sludge being treated in all vessels. In the second working phase the operation of the main pump (20) and the aeration in the aeration reservoirs (11, 12) are discontinued. Air is fed in the aeration tanks of reservoir (8) and the settling tank (22).Large-bubble aerator (26) is turned on for cleaning the water surface in the secondary settling tank (25) and the combination pump of canal (6) in order to eliminate the gradually floating biological film together with the water from the secondary settling tank (25) in reservoir (8) and the settled active sludge of the bottom zone of settling tank (25) by feeding air into the elbow of duct (6). The operation of the combined recirculation unit (5) is automatically terminated at any drop of the level of the settling tank (25) under the water horizon of the upper pumping tubular connection (45) of recirculation unit (5). By means of recirculation pump (17) of the small circulation canal (7) the active sludge is pumped out of settling tank (22) in the compensation reservoir (8). Aerator (26) in chamber (30), the aerator (9) for the regeneration of the porous filter (32) and pump (28) for pumping of the filtrate formed in chamber (30) are turned on. Aerators (9) of aeration reservoirs (11, 12) are turned on in periodically pulsing regime for maintaining the sludge in dispersed state, after which, by a signal of the timer, the device is switched back to its first operating phase.

Description

FIELD OF THE INVENTION

The invention relates to devices for deep biological treatment of wastewater by activated sludge in dispersed state, suitable for use in detached houses and villas, as well as in hotel complexes, schools, sports clubs, small settlements, catering establishments, etc. .

Biological wastewater treatment uses activated sludge, which is a mixture of different bacteria and small microorganisms, the activation process being possible only with the constant presence of oxygen from the air with varying degrees of saturation in the treated water, which ensures continuous interaction of the wastewater with the dispersed sludge and a continuous oxidation process.

BACKGROUND OF THE INVENTION

There are known patents of Russia in class C 02 3/02, №819069, 1987 "Wastewater treatment plant" and №2057085,1994 "Compact wastewater treatment plant", which have aeration chambers , two-stage sedimentation tanks, sludge collectors, pneumatic aerators, pipe deflections to supply waste water, flow of treated water from one chamber to another and discharge of treated water. However, these devices do not have wastewater collection chambers, which makes it difficult to use them efficiently during periods of irregular wastewater flow.

There is a known technical solution according to the patent of Russia No. 2060967, class C 02 F 3/02, 1995 "Method for deep biochemical treatment of wastewater and installation for its implementation", in which according to the method is the supply of wastewater, primary sedimentation of waste water, aeration, secondary sedimentation of the mud, ozonation, recirculation of the sludge and discharge of purified water. According to this source of information, the installation consists of a primary precipitator, an aerator reservoir, a secondary precipitator, waste water supply pipelines, sludge removal, recirculation of activated sludge, discharge of purified water, and ozonation in the primary sludge. connected to the primary sludge, the purified water tank and the sludge and active sludge piping connecting the lower parts of all sludge. But this technical solution - both in terms of method and device - is too complicated and cluttered with unnecessary pipelines, and ozonizers are installed in inefficient places in vessels.

There is a known series of installations under the general name “YUBAS”, protected by the patents of the Russian Federation No. 2201405, 2220112, 2228915 “Method for wastewater treatment and device for its implementation”. These are fully automated systems of varying complexity. All of these technical solutions include a reservoir balancing tank, where pre-aerobic anoxide biological treatment with aerobically activated sludge is carried out and a process of enzymatic degradation of organic contaminants takes place. The pre-purified water, together with the sludge, then enters the activation air reservoir, where the final destruction of the organic contamination occurs, after which the water enters the precipitator. The precipitated sludge is collected at the bottom of the precipitator and the water is purified

through several porous filters and is removed from the installation.

The closest technical solution to the aforementioned is "Wastewater treatment method and device for its implementation" according to RF patent No. 2228915, class C 02 F 3/02, 2003, which includes a leveling tank, an activation tank, a sludge, a chamber with a porous filter consisting of three compartments, a sludge stabilization chamber, a system of pipelines and pumps to ensure water leakage or forced pumping, and a control unit. This device and the wastewater treatment method provide for more precise filtration of the water after the sludge, but from the equalization tank, water with not completely decomposed organic pollutants enters the activation tank, which complicates the operation of the activation tank and the sludge.

It is an object of the invention to provide a method and a compact installation ensuring the achievement of a technical result resulting in the production of high quality recyclable wastewater, reduction of energy costs in the intensification of treatment, resulting in the organization of a rational process scheme of enzymatic degradation of organic pollutants with free carbon accumulation, as well as of the process of nitrification, denitrification and dephosphorization at all stages of purification and wastewater, which facilitates the purification work in each subsequent reservoir, and consequently increases the efficiency of the wastewater treatment, and results in increased operational safety of the installation and in reducing the complexity both in its production and in its operation.

SUMMARY OF THE INVENTION

This task is solved by creating a wastewater treatment method that includes two operating phases of the device and consists of supplying the wastewater to the leaching tank with activated sludge, its subsequent flow through a slit filter into the first equalization air tank, then its flow through an aerated biofilter into the second balancing air reservoir with subsequent leakage into the bottom zone of the settler air reservoir, in the first phase aeration of the first and second balancing air reservoir is performed and pumped with a head pre-precipitated pre-precipitated water pump entering the tube well from the upper layers of the precipitator air reservoir, into the lower zone of the secondary precipitator, aeration of the tube well with large air bubbles, automatic shutdown of the main pump during the fall of the main pump tube well, leakage of displaced purified water from the upper layers of the secondary precipitator into a porous filter chamber and then to a pump chamber, periodically pumped from the pump chamber by a drainage pump with a float level sensor it and the removal of completely purified water outside the installation, pumping the sludge with a mud pump from the bottom area of the tank-sludge tank into the sludge stabilization chamber and the leakage of displaced water with sludge from the sludge stabilization chamber into the equalizing tank, circulation of purified water and sludge in all vessels except in the secondary sludge through circulation channels, in the first phase aeration by supplying air into the aeration elements of the first and second and equivalent to air reservoirs and biofilter, in the bladder aerator inside the tubing well of the main pump for spreading the biological flue and cleaning the water surface above it and supplying air for the operation of the mud and the main pump, and after the timer signal is switched on the installation second working phase, termination of operation of the main pump and aeration in the first and second leveling air tanks, and supplying air to the aerators of the leveling tank and air tank-settler, incl. the large bladder aerator is cleaned to clear the water horizon in the secondary settler, the combined pump of the large circulation duct for pumping along with the water of the sequentially biological biological zipper

the secondary sludge horizon in the leveling tank, and then the activated sludge from the bottom area of the secondary sludge, by supplying air to the combination recirculator's knee, automatically stops the combined pump operation when the level of the secondary sludge falls. of the upper pump deflection of the combined pump, the circulation pump of the small circulation duct is included to pump the activated sludge from the tank-sludge tank into the equalization reserve p to maintain the circulation of the purified water, include the bladder stirring aerators in the sludge stabilization chamber, include the aerator for regeneration of the porous filter in the porous filter chamber and the pump for pumping the resulting filtrate into the chamber , the aerators of the first and second leveling aerators are periodically pulsed to maintain the sludge in a dispersed state, after which the device switches back to the timer signal. first working phase.

He also created a wastewater treatment plant, including a housing with an airtight lid, which houses an equalization tank with activated sludge, with a tubular deflection for supplying waste water, with an aerator connected through a slit filter to the first equalizing air tank equipped with an aerator. which in turn is connected by means of a biological filter to the second balancing air reservoir, also provided with an aerator, and connected by means of a large-scale filter with an air reservoir-settler, in which are located an aerator, mud pump, circulation pump, purge well and main pump for pumping pre-purified water into a self-contained sealed secondary sludge fitted with an outlet filter for leaking displaced water into a porous filter chamber, the secondary sludge being connected to with the large circulation duct in the form of a pipeline, one end of which is made in the form of a U-shaped knee, provided with a tube deflection for supplying compressed air and located in the equalization tank, and their end is connected to a combined pump, is made in the form of a vertical pipe deflection with open ends and is located in the secondary settler, the lower end of the vertical pipe deflection is located in the bottom area of the secondary settler, the upper end is in its upper zone, and an additional channel is installed inside the secondary settler, the outlet of which is located in the lower zone of the secondary settler and serves to receive the water pumped by the main pump from the tank-sludge tank, sludge stabilization chamber, equipped with with large bladder stirring aerators, a large circulation duct, the other end of which interacts with the leveling tank, a filtrate well with a filtrate pump and a tube deflection connected to the porous filter chamber, the porous filter being disposed between the upper filter and the mesh filter. , the porous filter chamber being provided with an aerator for regeneration of the porous filter located in its bottom zone and a clean water discharge channel interacting with a pump chamber, provided with a drainage pump with a float sensor and fully purified water outlet, control unit, air compressor connected to the duct, fitted with a valve and distributors for supplying air during the first and second operating phases of the device. The device is characterized in that the tubular deflection of the tubular well for the filtrate is located above the upper mesh filter of the porous filter chamber. The device is characterized in that the gap filter is located in the middle zone of the barrier separating the leveling tank and the first leveling air tank. The device is characterized by the fact that the aerated biofilter is located in the upper zone of the barrier between the first and second equalizing air tank-settlers.

DESCRIPTION OF THE FIGURES Attached

In more detail, the invention is illustrated by an exemplary embodiment shown in the figure, which is a flow chart of a wastewater treatment plant.

EXAMPLE IMPLEMENTATION AND ACTION OF THE INVENTION

The wastewater treatment device according to the flow chart of the figure consists of a housing 2 with a watertight lid (not shown in the figure), provided with a pipe deflection to infuse waste water 1, in which the housing has all the water treatment vessels. Leveling tank 8 has two water levels: 3 - overflow level and 4 - lower operating level. In the equalization tank 8 are placed a membrane aerator 9 and the end of the combined recirculator 5, made in the form of a pipe, this end of the pipe is made in the form of a U-shaped elbow 13 and is provided with a tube deflection for air supply 15 and the second end of the pipe is provided with a vertical pipe deflection with open ends 24, 45 and is located in the secondary sludge 25, with the lower open end 24 being located at the bottom of the secondary sieve 25 and the upper open end 45 in the upper zone of the secondary sludge 25, as mentioned ertikalno tubular deviation of the air supply in a pipe deviation 15 is used for a combined pump. From the leveling tank 8, water flows through a slotted filter 10 into a first leveling aero reservoir 11, where it is aerated by a membrane aerator 9, then flows through an aerated biofilter 14 into a second leveling aerator 12, where water is also aerated by a membrane 9, which is then aerated. flows through a large-gap filter 16 into the air reservoir 22. A membrane aerator 9, a circulating pump 17 interacting with a small circulation channel 7 for pumping n is located in the bottom zone of the air reservoir-sludge 22. the water in the leveling tank 8, and the mud pump 18 for pumping the sludge into a sludge stabilization chamber 30, as well as a tube well 19 with a main pump 20 and a purge 21, both the circulation pump 17 and the mud pump 18 are aerated with air, but in different operating phases of the device. The main pump 20 pumps partially purified and soothed water from the tube well 19 into an additional channel 23 of the secondary sludge 25, which is provided with a surface filter for the biological zipper 43 with an outlet tube deflection 42 of the secondary sludge to drain the displaced chamber 40 filter 32. The porous filter 32 above and below is enclosed by mesh filters 38 and 31, and the chamber 40 is provided with a membrane filter 9 located in its bottom zone. Above the upper mesh filter 38 there is a tubular deflection 39 of the tubular well for the filtrate 33, and inside the well 33 is a pump for the filtrate 28. Below the lower mesh filter 31 in the bottom area of the chamber 40 there is a channel 29 for leakage of completely purified water. in the pump chamber 41. The mud pump 18 pumps the sludge into the sludge stabilization chamber 30, which is equipped with large bladder stirring aerators 26, and at the top of the chamber 30 there is an open tube deflection of a large circulation duct 6, the second end of which interacts with the leveling tank 8. The pumping chamber 41 is provided with a drainage pump with a float sensor 34 and an outlet 53 of the fully purified water used for business purposes. A control unit 52, a compressor 51, connected via the duct 50 to the switch valve 49 and the air distributors 47, 48, are provided in the housing 2 to ensure the operation of the device in the first or second phase.

The method according to the invention is carried out by means of the proposed wastewater treatment device, which works as follows.

When choosing the size of the unit, you should always know in advance what volume of wastewater is intended for. In this regard, the day is divided into intervals and the duration of the operating phases of the device is set, fixed by a timer with successive alternation of the first and second phases. Through the inlet duct for inflowing wastewater 1 of the housing 2, the contaminated wastewater enters the equalization tank 8, in which the treatment of the activated sludge, which is constantly present in it, begins by supplying air from the membrane aerator 9 during the second working phase. on the device. On the principle of docked vessels, water is drained sequentially from the leveling tank 8 into the first leveling air reservoir 11 connected to it by means of a slit filter 10, then flowing through the aerated biofilter 14 into the second leveling air reservoir 12, and further through the large-hole filter 16. 22, such as the membrane aerators 9 of the leveling air tanks 11,

are activated during the first operating phase and the membrane aerator 9 of the precipitator air tank 22 is activated during the second operating phase. The leveling tank 8, the first 11 and the second 12 leveling air tanks, as well as the air tank-sludge 22 are actuation vessels, have a collecting reservoir volume and represent coupled vessels. The sludge tank 22 is provided with a circulation pump 17 connected to the small circulation channel 7, which is switched on during the second operating phase of the device and which pumps the water from the sludge from the tank sludge 22 into the leveling tank 8 at low water inflow and inlet water 8. mud pump 18, which is switched on during the first operating phase of the device and which pumps the sludge from the sludge air tank into the sludge stabilization chamber 30. The treated water is then redistributed between the tank 8 and the air tanks 11, 12 and 22 on the docking principle and on the displacement principle. The sludge stabilization chamber 30 is provided with large bladder stirring aerators 26 which are switched on during the second operating phase of the device. Due to the incoming sludge from the precipitator air tank 22, the upper layers of water rise, i.e. the water is displaced and the excess part of it flows into the large circulation channel 6 connected to the leveling tank 8, along this channel 6, which is collected above the level of the muddy water with dispersed, i.e. a slight sludge flows into the leveling tank 8. In the precipitator air tank 22, the water precipitated during the first phase, when it reaches above level 4, flows into the tube well 19, from which, through the main pump 20, the water is pumped into the secondary tank 25, as the tube well 19 through the first operating phase of the device is continuously purged by a large bladder aerator. The second phase involves the supply of air into the tubular deflection 15 of the U-shaped knee 13 of the combined recirculator 5, which ensures the pumping of water first with the biological zipper from the secondary sludge into the leveling tank 8 from the water level 46 to the level below the water level. pipe deflection horizon 45, pumping the sludge through the suction tube deflection 24 from the bottom of the secondary sludge 25, whereby the water level drops to level 44. Wastewater without active sludge flows from the secondary sludge through the outlet o a tubular deflection 42 with a filter 43 retaining the biological zipper in the chamber 40 with a porous filter 32 which is closed top and bottom with mesh filters 31, 38. The chamber 40 is provided with a membrane aerator 9 located in the bottom zone, a channel fully the purified water 29, also located below the lower mesh filter 31, and above the upper mesh filter 38 there is an inlet deflection 39 of the tubular well 33 for the filtrate that accumulates above the upper mesh filter 38 during operation of the membrane aerator 9 during the second operating phase. the device. The tube well 33 is provided with a pump for the filtrate 28, which is switched on during the second operating phase of the device. Completely purified water enters chamber 40 into pump chamber 41, from which drainage pump 35 with float sensor 34 is discharged into the outlet 53 from where it is used for business purposes.

The experiments in the implementation of the method, carried out with different percentages

the level of pollution of the wastewater proved that the technical task has been fulfilled and the provision of clean water without dispersed substances, suitable for economic needs and for subsequent purification and decontamination in the circulating water supply systems, is ensured.

According to the invention, the device and its method of operation are energy efficient and the device is safe to operate and easy to operate. Devices manufactured according to the invention and operating according to the proposed method have proven effective in any wastewater load situation.

Claims (5)

Patent Claims 1. A method of treating waste water, characterized in that it comprises two operating phases of the device and consists of supplying the waste water to a leveling tank (8) with activated sludge, its subsequent flow through a slit filter (10) in the first leveling reservoir (11), then flowing it through an aerable biofilter (14) into a second leveling reservoir (12) with subsequent leakage into the bottom zone of a reservoir-settler (22), in the first phase aeration of the first and second aeration is performed. (11 and 12) and pumping with the main pump (20) of pre-precipitated purified water from the tube well (19) of the precipitator air tank (22) in the lower area of the secondary precipitator (12), aeration of the tube well (19), automatic shutdown of the main pump (20) ) when the level below the tube well (19) falls, the leaked displaced water from the upper layers of the secondary sludge (12) flows into a chamber (40) with a porous filter (32), and then into the pump chamber (41), pumping periodically from the pump chamber (41) with a drainage pump (35) with a float sensor (34) for level and discharge delivering completely purified water outside the installation, pumping the sludge with a sludge pump (18) from the bottom area of the sludge tank (22) into a sludge stabilization chamber (30) and leaking displaced sludge water from the sludge stabilization chamber in leveling tank (8), creating a constant circulation of purified water and sludge in all vessels through circulation channels, by supplying air to the aeration elements of the first and second leveling reservoirs and the biofilter, aeration inside the tubing (19) of the main pump (20) for spreading the biological zipper and clearing the water horizon above it, aeration of the mud pump (18), and after the timer signal, the installation switches to a second operating phase, terminating the operation of the main pump (20) and aeration in the first and second leveling air reservoirs (11, 12), and air is supplied to the aerators of the leveling tank (8) and the air reservoir-settler (22), including the large bladder aerator (26) for water purification surface in the secondary settler (25), the combination is included a pump of the circulation channel (6) for pumping the sequentially floated biological zipper together with the water from the water surface of the secondary sludge (25) into the leveling tank (8) and then of the sedimented activated sludge from the bottom area of the secondary sludge (25) by feeding air in the knee of the circulation duct (6), automatic shutdown of the combined recirculator (5) is performed when the level in the secondary settler (25) falls below the water horizon of the upper pump deflection pipe (45) of the combined recirculation (5), the circulation pump (17) of the small circulation duct (7) is switched on to pump the activated sludge from the air tank-settler (22) into the leveling tank (8), the large-bubble stirring aerators (26) are included in the stabilization chamber. the sludge (30), include the aerator (9) for regenerating the porous filter (32) in the porous filter chamber (40) and the pump (28) for pumping the filtrate formed therein into the sludge stabilization chamber (30), periodically pulsating switch on the aerators (9) of the first and second leveling aerators containers (11, 12) for maintaining the sludge in a dispersed state, after which the device switches back to the first operating phase by the timer signal. 2. Wastewater treatment plant, characterized in that it comprises a housing (1) with an airtight lid, in which there is a leveling tank (8) with activated sludge, a tubular deflection for inflow (2) of the wastewater, an aerator ( 9) connected through a slit filter (10) to a first leveling air reservoir (11) provided with an aerator (9), which in turn is connected via a biological filter (14) to a second leveling air reservoir (12) also provided with an aerator (9). 9), and connected by means of a large-scale filter (16) to an air reservoir-settler (22), in which are located erator (9), tube well (19) with main pump (20) and blower (21), mud pump (18), circulation pump (17), secondary settler (25) with outlet deflection (42) provided with filter (43) to drain the water into a chamber (40) with a porous filter (32) and with a combined recirculator (5), made in the form of a pipeline, one end of which is made in the form of a U-shaped knee ( 13), provided with a tube deflection (15) for supplying compressed air and located in the leveling tank (8) and the other end having a vertical tube deflection with open ends in the secondary settler (25), the lower end (24) of the vertical tubular deflection being located in the bottom zone of the secondary settler (25), and the upper end (45) of the vertical tubular deflection being in the upper zone of the secondary settler (25) , and an additional channel (23) is provided inside the secondary sludge (25) for receiving the water pumped by the main pump (20) from the sludge tank (22) and there is also a chamber (30) for stabilizing the sludge fitted with large bladder stirring aerators (26), with a circulation duct (6), the end of which is located in the leveling tank (8), with a tubular well for the filtrate (33) with a pump for the filtrate (28) and a tubular deflection (39) connected to a chamber (40) with a porous filter (32) whose porous filter (32) is located between an upper (38) and a lower (31) mesh filter, the porous filter chamber (40) being provided with an aerator (9) for the regeneration of the porous filter (32) located in its demarcated area and a clean water outlet ( 29) interacting with a pump chamber (41), equipped with a drainage pump (35) with a float sensor (34) and a drain (53) of completely purified water, there is also a control unit (52 ), a compressor (51) connected to an air duct (50) equipped with a valve (49) and distributors (47, 48) for supplying air during the first and second operating phases of the device. Device according to claim 2, characterized in that the tubular deflection (39) of the tubular well for the filtrate (33) is located above the upper mesh filter (38) in the chamber (40) with a porous filter (32). Device according to claim 2, characterized in that the slit filter (10) is located in the middle zone of the barrier separating the leveling tank (8) and the first leveling air tank (11). Device according to claim 2, characterized in that the aerable biofilter (14) is located in the upper zone of the barrier between the first (11) and the second (12) leveling air tanks.