PL74231Y1 - Sewage treatment device - Google Patents

Abstract

The subject of the application is a sewage treatment device that comprises, between the oblique side wall (2) and the stream guides (9a, 9b), at least two partitions (6a, 6b), wherein the upper partition (6a) is parallel to the perpendicular side wall (4) and has a bend (7) in its lower part. The lower partition (6b) is in the lower part of the tank (1) and is parallel to the bend (7) of the upper partition (6a) and is inclined to the bottom (3) of the tank (1) at an acute angle of not less than 30° and not more than 60°. There is a partition space (8) between the bend (7) of the upper partition (6a) and the lower partition (6b). The supply pipe (13) is led between the circulation partition (5) and the upper stream guide (9a). The circulation partition (5) is perpendicular to the bottom (3) of the tank (1) and is at a distance from the perpendicular side wall (4) at least four times smaller than the length of the bottom (3) of the tank (1). The aerator (10) is in the form of a membrane pipe and is located at a depth of at least 0.6 and at most 0.85 times the height of this tank (1). The perpendicular side wall (4) in its lower, end section connecting to the bottom (3) of the tank (1) is bent towards the interior of this tank (1). Between the diagonal side wall (2) and the upper partition (6a), in the upper part of the tank (1) there is a trough (17), the outlet of which is connected to the discharge pipe (14) for treated sewage, wherein the diagonal side wall (2) has a discharge opening (19) in the upper part, through which the discharge pipe (14) for treated sewage is led from the trough (17).

Description

Description of the design The subject of the utility model is a sewage treatment device.

Biological wastewater treatment, using known methods, is carried out in flow-through devices with a continuous inflow of wastewater or in non-flow devices with a semi-continuous or periodic inflow of wastewater. Wastewater treatment is most often carried out using biological contaminant removal processes.

A well-known non-flow device for wastewater treatment consists of a tank equipped with aeration and mixing systems for the entire contents, and fittings for discharging clarified wastewater and excess sludge. The tank's shape determines the use of individual components, which allows for the use of various technical and technological solutions, such as mechanical mixers, surface aerators, subsurface aerators, injector aerators, fine bubble diffusers, static decanters, and telescopic decanters. One type of such devices is a sequencing batch reactor (SBR).

Biological wastewater treatment is carried out using microorganisms, most often found in the form of activated sludge in the form of flocs. Removal of pollutants such as carbon, nitrogen, and phosphorus compounds from wastewater occurs through metabolic processes in the activated sludge chamber. Activated sludge technology involves mixing incoming raw sewage with the microbial biomass constituting the activated sludge in a single tank, where the entire tank contents are mixed and aerated. Subsequently, the mixture of sewage and microbial biomass is separated in a secondary settling tank, which acts as a separator. The treated wastewater is then discharged to the receiving body, followed by recirculation of the required microbial mass back to the tank. For proper microorganism growth, appropriate hydraulic conditions must be ensured, particularly mixing the tank contents to ensure nutrient substrate availability, as well as optimal aerobic, anaerobic, or anoxic conditions regulated by supplying the appropriate amount of air. The oxygen concentration in the tank/reactor determines the nitrification of ammonium nitrogen, denitrification, and biological dephosphatation processes responsible for removing pollutants from wastewater. In flow-through wastewater treatment systems, settling tanks, usually separate devices in which the sedimentation process is carried out, are used to separate biomass from treated wastewater. The most popular wastewater treatment complex consists of a reactor tank containing the microbial biomass, a settling tank that separates the biomass from the treated wastewater, a pump to recirculate the biomass from the settling tank to the tank, and pipelines connecting the tank to the settling tank.

Patent descriptions US5205936A, US5021161A, CA2041329A1, US5792355A, and patent applications WO1995024361A1 and US20070119763A1 describe sequential batch reactors, i.e., wastewater treatment devices in which the inflow is periodic and the wastewater treatment process is carried out in cycles. Each operating cycle includes a filling phase, a reaction phase with aeration or mixing, a sedimentation phase, and a decantation phase, i.e., the discharge of treated wastewater outside the reactor. The reactors include devices for aerating wastewater and activated sludge, mixing devices, and a system for discharging clarified wastewater and excess sludge.

The patent description discloses a method of wastewater treatment that uses a device combining a settling tank with a batch reactor.

The patent describes a sewage treatment device with a tank and an aeration device for aerating the water contained in the tank. This known device has a plurality of aeration units connected to a compressed air source and mounted on a rigid, generally annular mounting body, movably mounted in a vertical direction. The aeration device, mounted on the body, is equipped with inflatable float elements.

The patent discloses a sewage treatment plant system for biological treatment of organic wastewater, which enables the biological decomposition of organic pollutants by creating aerobic and anaerobic treatment of raw sewage within the volume of a single reaction space in a vertical reaction chamber configuration, the design and shape of which depend on the assumed throughput volume. The patent also describes a sewage treatment plant with a single-tank design enabling the combined biological action of activated sludge and a biofilm bed. This known treatment plant is partially filled with growth media suspended in suspension and colonized with microorganisms, where the growth media have a specific gravity above 1.0 g/cm3.

The patent description describes a method for biological treatment of wastewater containing organic substances and a system for applying this method. This known method involves biological denitrification and dephosphatation using anaerobic, anoxic, and aerobic wastewater treatment. In the first phase of the treatment process in a sequencing reactor, raw wastewater mixed with activated sludge is subjected to anaerobic treatment. Then, after switching off the mixing, in the intermediate sedimentation phase, the wastewater is separated from the activated sludge and subjected to the nitrification process carried out on a separate biological bed containing nitrifying bacteria. Nitrification is carried out by circulating the wastewater in a closed loop of the sequencing reactor - biological bed - sequencing reactor system. In the subsequent anoxic dephosphatation phase, the system is mixed with nitrates produced during the nitrification process, under conditions of mixing with activated sludge previously separated in the sedimentation phase. intermediate stage, then aerobic treatment is carried out in a sequential reactor with aeration, and in the final sedimentation phase, with aeration turned off, in the same reactor, the treated wastewater is separated from the activated sludge.

The description of the patent application describes a sewage treatment device which comprises a main tank having a cylindrical part with a circular cross-section and a conical part, wherein the main tank contains a cylindrical chamber with an upper part with a circular cross-section and a lower part in the shape of a cone, and inside the main tank, under the cylindrical chamber, there is an aerator which is connected to a blower via a pipe, and furthermore, the outlet of the supply pipe is between the wall of the main tank and the wall of the cylindrical chamber, and in the cylindrical wall there is a discharge opening which is connected to the discharge pipe, and a pipe for removing excess sludge is connected to the wall of the cylindrical chamber.

The patent application describes a sewage treatment device comprising a tank with a bottom with an inlet pipe for raw sewage and a discharge pipe for treated sewage leading from it, as well as an outlet pipe for excess sludge, an aeration system comprising a blower connected by a pipe to an aerator. Inside the tank is a circulation partition, and the aerator is located on the tank's cross-section between the circulation partition and the inner wall of the tank closest to the circulation partition.

Patent description US3216573A discloses a wastewater treatment device comprising a tank with an oblique wall inclined to the tank bottom at an obtuse angle and an opposing wall perpendicular to the tank bottom. A circulation partition perpendicular to the bottom is located between the walls. An aerator is located between the side wall and the circulation partition. Lower and upper partitions are located between the circulation partition and the oblique wall. The discharge conduit for treated wastewater is located in the upper part of the tank. Patent description US4139471A, on the other hand, discloses a wastewater treatment device containing a stream guide.

The purpose of the utility model was to develop a new sewage treatment device that would enable efficient, continuous sewage treatment and allow for the production of purified sewage in a shorter time than in previously known sewage treatment devices.

A sewage treatment device comprising a tank with at least one oblique side wall inclined to its bottom at an obtuse angle and a side wall opposite it perpendicular to the bottom of the tank, wherein a circulation partition is located between these walls, and an aerator is located between this circulation partition and the perpendicular side wall, and furthermore, in the upper part of the tank, between the circulation partition and the oblique side wall, there is at least one upper stream guide, and in the lower part of the tank, between the circulation partition and the oblique side wall, there is at least one lower stream guide, wherein a supply line for raw sewage is connected between the circulation partition and the stream guide, and between the wall the diagonal side wall and the stream guides are at least two partitions, wherein in the upper part of the tank there is an upper partition parallel to the perpendicular side wall, while the lower partition is in the lower part of the tank, and in addition in the upper part of the tank there is a discharge pipe for treated sewage, and in the lower part of the tank there is an outlet pipe for excess sludge, which is led out through an outlet opening in the diagonal side wall, according to the utility model it is characterized in that the upper partition is parallel to the perpendicular side wall and has a bend in the lower part, which in turn is directed towards the diagonal side wall, wherein the obtuse angle between the diagonal side wall of the tank and its bottom has a value of 120° to 150°, and the lower partition wall is in the lower part of the tank, and it is at a distance from the bottom and is parallel to the bend of the upper partition wall and is inclined to the bottom of the tank at an acute angle of not less than ° and not greater than 60°, wherein between the bend of the upper partition wall and the lower partition wall there is a partition space, and in addition, the supply pipe is led between the circulation partition and the upper stream guide, wherein the circulation partition is perpendicular to the bottom of the tank and from the perpendicular side wall it is at a distance of at least four times smaller than the length of the bottom of the tank, and the aerator is in the form of a membrane pipe, wherein the aerator is located in the tank at a depth of at least 0.6 and at most 0.85 of the height of this tank, and in addition, the perpendicular side wall in its lower, end section connecting to the bottom of the tank is bent towards the interior of this tank, and between the diagonal side wall and the upper partition, in the upper part of the tank there is a trough, the outlet of which is connected to the treated sewage discharge pipe, wherein the diagonal side wall has a discharge opening in its upper part, through which the discharge pipe for treated sewage is led from the trough.

Preferably, there are two or three upper stream guide vanes, while there are three to five lower stream guide vanes, and in addition, the stream guide vane has the shape of an ellipse in its longitudinal cross-section, or has the shape of an oval arc in its longitudinal cross-section, or has the shape of a circular arc in its longitudinal cross-section.

This wastewater treatment device allows for continuous treatment without the need for downtime. Thanks to the use of flow guides, it is possible to more accurately mix raw sewage with activated sludge compared to conventional wastewater treatment devices, reducing wastewater treatment time.

The subject of the utility model is presented in the drawing, where Fig. 1 shows a sewage treatment device in longitudinal section.

The wastewater treatment device, according to the utility model, comprises a tank 1 made of plastic with a diagonal side wall 2, which is inclined to the bottom 3 of tank 1 at an obtuse angle of 150°. On the side of the tank opposite the diagonal side wall 2, there is a perpendicular side wall 4. Inside tank 1, at a distance five times smaller than the length of the bottom 3 of tank 1 from the perpendicular side wall 4, there is a circulation partition 5. Between the circulation partition 5 and the diagonal side wall 2, in the upper part of tank 1, there is an upper partition 6a, while in the lower part of tank 1, at a distance from its bottom 3, there is a lower partition 6b. The upper partition 6a is parallel to the perpendicular side wall 4 and has a bend 7 in its lower part, having a length of half the length of the upper partition 6a, the end of which is directed towards the diagonal side wall 2. The lower partition 6b is parallel to the bend 7 of the upper partition 6a and is inclined in relation to the bottom 3 of the tank 1 at an angle of 60°.

Between the bend 7 of the upper partition 6a and the lower partition 6b is a partition space 8 through which treated wastewater with activated sludge flows. Between the perpendicular side wall 4 and the partitions 6a, 6b are stream guides 9a, 9b, which have an oval arc shape in their longitudinal cross-section. In the upper part of tank 1, there are two upper stream guides 9a, while in the lower part of tank 1, there are three lower stream guides 9b. Between the perpendicular side wall 4 and the circulation partition 5, at a depth of 0.85 times the height of tank 1, there is an aerator 10, which is connected by a pipe 11 to a blower 12 located outside tank 1. A supply pipe 13 for raw sewage is connected between the circulation partition 5 and the stream guides 9a, 9b. On the opposite side of tank 1, between the diagonal side wall 2 and the upper partition partition 6a, there is a trough 17, the outlet of which is connected to the discharge pipe 14 for treated sewage. Between the diagonal side wall 2 and the lower partition 6b there is an outlet pipe 15 for excess sludge, which is led out through the outlet opening 16 in the diagonal side wall 2. The perpendicular side wall 4 in its lower, end section, which is connected to the bottom 3 of tank 1, is bent towards the interior of this tank 1. The outlet pipe 14, on the other hand, is led outside the tank 1, through the outlet opening 19 located in the upper part of the diagonal side wall 2. During sewage treatment, raw sewage is continuously fed through the inlet pipe 13 to the part of tank 1 with activated sludge, in which the stream guides 9a, 9b are located. At the same time, air is supplied from the blower 12 through the pipe 11 to the aerator 10 located between the perpendicular side wall 4 and the circulation partition 5.

Raw sewage is mixed with activated sludge. The circulation rate in the tank is regulated by the amount of air supplied from aerator 10 to tank 1. Furthermore, the circulation of the wastewater-activated sludge mixture in tank 1 is forced by upper stream guides 9a and lower stream guides 9b, the shape of which allows for circular motion of the mixture within tank 1. The mixture of treated sewage and activated sludge is then poured through the partition space 8 between the bend 7 of the upper partition 6a and the lower partition 6b. The amount of the mixture transferred and sent for sedimentation depends on the amount of air supplied by the aerator 10. Then, the treated sewage is separated from the biomass, with the microbial biomass accumulating at the bottom 3 of tank 1 in the form of sediment, which is partially recycled through the lower space 20 between the bottom 3 of tank 1 and the lower partition 6b to the part of tank 1 containing the stream guides 9a, 9b. The activated sludge is recycled by vacuum suction, and the amount of recycled activated sludge depends on the circulation in tank 1, which is directly related to the aeration intensity of tank 1, i.e., the amount of air supplied to tank 1 through aerator 10. Treated wastewater is discharged from tank 1 into trough 17, the outlet of which is connected to discharge pipe 14, through which the wastewater is discharged outside tank 1. Discharge pipe 14 is led outside tank 1 through discharge opening 19 located in the upper part of the diagonal side wall 2. Excess activated sludge is discharged outside tank 1 through discharge pipe 15.

A sewage treatment device according to the utility model, in a second embodiment, in which the oblique side wall 2 is inclined to the bottom 3 of the tank 1 at an obtuse angle of -135°, and the upper partition 6a has in its lower part a bend 7 having a length of 0.35 of the length of the upper partition 6a, and the lower partition 6b is inclined in relation to the bottom 3 of the tank at an angle of 45°, and furthermore the stream guides 9a, 9b have in longitudinal cross-section the shape of a circular arc, wherein in the upper part of the tank 1 there are three upper stream guides 9a, while in the lower part of the tank 1 there are five lower stream guides 9b. Between the perpendicular side wall 4 and the circulation partition 5, at a depth of 0.75 of the height of the tank 1, there is an aerator 10 in the form of a membrane pipe, which is connected by a pipe 11 to a blower 12 placed outside the tank 1.

A sewage treatment device according to the utility model, in a third embodiment, in which the oblique side wall 2 is inclined to the bottom 3 of the tank 1 at an obtuse angle of -120°, and the upper partition 6a has in its lower part a bend 7 having a length of 0.25 of the length of the upper partition 6, and the lower partition 6b is inclined in relation to the bottom 3 of the tank at an angle of 30°, and furthermore the stream guides 9a, 9b have in longitudinal cross-section the shape of an elliptical arc, wherein in the upper part of the tank 1 there are two upper stream guides 9a, and in the lower part of the tank 1 there are four lower stream guides 9b. Between the perpendicular side wall 4 and the circulation partition 5, at a depth of 0.6 times the height of the tank 1, there is an aerator 10 in the form of a membrane pipe, which is connected by a pipe 11 to a blower 12 placed outside the tank 1.

List of drawing symbols 1 – tank 2 – oblique side wall 3 – bottom 4 – perpendicular side wall – circulation partition 6a – upper partition 6b – lower partition 7 – bend 8 – partition space 9a – upper stream guide 9b – lower stream guide – aerator 11 – pipe 12 – blower 13 – inlet pipe 14 – outlet pipe – outlet pipe 16 – outlet opening 17 – trough 19 – outlet opening – lower space - – obtuse angle

Claims (6)

Protective Disclaimers 1. A sewage treatment device comprising a tank with at least one oblique side wall inclined to its bottom at an obtuse angle and a side wall opposite it perpendicular to the tank bottom, wherein between these walls there is a circulation partition, and between this circulation partition and the perpendicular side wall there is an aerator, and furthermore in the upper part of the tank between the circulation partition and the oblique side wall there is at least one upper stream guide, and in the lower part of the tank between the circulation partition and the oblique side wall there is at least one lower stream guide, wherein between the circulation partition and the oblique side wall there is a supply line for raw sewage, and between the oblique side wall there is an aerator, and the stream guides are at least two division partitions, wherein in the upper part of the tank there is an upper division partition parallel to the perpendicular side wall, and the lower division partition is in the lower part of the tank, and furthermore in the upper part of the tank there is a discharge conduit for treated sewage, and in the lower part of the tank there is an outlet conduit for excess sludge, which is led out through an outlet opening in the diagonal side wall, characterized in that the upper division partition (6a) is parallel to the perpendicular side wall (4) and has a bend (7) in the lower part, which in turn is directed towards the diagonal side wall (2), wherein the obtuse angle (?) between the diagonal side wall (2) of the tank (1) and its bottom (3) has a value from 120° to 150°, and the lower partition partition (6b) is in the lower part of the tank (1), and moreover it is at a distance from the bottom (3) and is parallel to the bend (7) of the upper partition partition (6a) and is inclined to the bottom (3) of the tank (1) at an acute angle of not less than 30° and not greater than 60°, wherein between the bend (7) of the upper partition partition (6a) and the lower partition partition (6b) there is a division space (8), and moreover the supply pipe (13) is led between the circulation partition (5) and the upper stream guide (9a), wherein the circulation partition (5) is perpendicular to the bottom (3) of the tank (1) and is at a distance of at least four times smaller than the length of the bottom (3) of the tank (1), and the aerator (10) is in the form of a membrane pipe, wherein the aerator (10) in the tank (1) is located at a depth of at least 0.6 and at most 0.85 of the height of this tank (1), and furthermore the perpendicular side wall (4) in its lower, end section connecting with the bottom (3) of the tank (1) is bent towards the interior of this tank (1), and between the diagonal side wall (2) and the upper partition (6a), in the upper part of the tank (1) there is a trough (17), the outlet of which is connected to the discharge pipe (14) of treated sewage, wherein the diagonal side wall (2) has a discharge opening (19) in its upper part, through which the discharge pipe (14) of treated sewage is led from the trough (17) discharge pipe (14) for treated sewage. 2. A device according to claim 1, characterized in that there are two or three upper stream guides (9a). 3. A device according to claim 1, characterized in that there are three to five lower stream guides (9b). 4. A device according to one of claims 1 to 3, characterized in that the stream guide (9a, 9b) has the shape of an elliptical arc in its longitudinal cross-section. 5. A device according to one of claims 1 to 3, characterized in that the stream guide (9a, 9b) has the shape of an oval arc in its longitudinal cross-section. 6. A device according to one of claims 1 to 3, characterized in that the stream guide (9a, 9b) has a circular arc shape in its longitudinal cross-section.