PL189121B1 - Method of speeding up the growth of micro-organisms in sewage body and apparatus therefor - Google Patents

Abstract

1. The device for accelerating the growth of the number of micro-organisms in sewage is designed especially for sewage which contains organic elements. It is characterised in that it consists of a pump (1) with pressurised connection to a tapered pipe (2), which is located at the entrance of the expansion chamber (3), which is connected to a large-volume sewage reactor (4).

Description

The subject of the invention is a device for accelerating the growth of the number of microorganisms in wastewater, especially with a high organic content.

It is well known that the intensity of wastewater treatment increases with the increase in the number of microorganisms contained in the wastewater. The object of the invention is to provide a device for accelerating the growth of microorganisms in waste water.

According to the invention, the device consists of a pump in pressure connected to an orifice or orifice placed at the entrance to the expansion chamber and in fluid communication with the large-volume sewage reactor. The ratio of the orifice diameter to the expansion chamber diameter is at least 1/100. The expansion chamber is equipped on one side with an orifice, and on the other side it is connected to the large-volume sewage reactor.

The pump with the grinder is connected to the reducer by a pressure pipe. Downstream of the orifice, a pipe is connected to the expansion chamber and is connected upstream by a shut-off valve to a pressurized air source. The outlet of the pipe supplying air to the expansion chamber downstream of the orifice is preferably spaced from the orifice by at least half the length of the expansion chamber.

According to the invention, in a second embodiment, the device consists of a pump connected in pressure to an orifice or orifice located at the entrance to the sewage reactor. The ratio of the orifice diameter to that of the sewage reactor is at least 1/100. A pipe is connected downstream of the orifice to the sewage reactor, connected at its inlet by a shut-off valve to a pressurized air source. The outlet of the air supply pipe to the sewage reactor downstream of the venturi is spaced from the ventricle by at least half the diameter of the sewage reactor.

According to the invention, in both embodiments, the axis of the orifice and the axis of the outlet of the air supply pipe are straight lines lying in one plane. The axis of the reducer and the axis of the outlet of the air supply pipe are straight, twisted, not lying in one plane.

The axis of the outlet of the air supply pipe is placed at an acute angle, preferably in the range from 0 ° to 30 ° in a projection on a vertical plane with respect to the direction of the orifice axis. In another version of the invention, in both embodiments, the axis of the outlet of the air supply pipe is placed at an acute angle ranging from 45 ° to 60 ° in a projection on a transverse plane perpendicular to the axis of the orifice with respect to the direction radial to the axis of the orifice.

The device according to the invention enables the acceleration of the growth of the number of microorganisms contained in the sewage and the grinding of organic parts contained in the sewage.

The subject of the invention is presented in the embodiment in the drawing, in which fig. 1 shows a diagram of the device in a side view, fig. 2 - an expansion chamber in a cross-section AA in fig. 1, fig. 3 - a device in a compact version in a view from on the side, fig. 4 is a schematic view of the reactor in section BB in fig. 3, and fig. 5 is a diagram of the reactor in fig. 3 in a plan view.

The device consists of a pump 1 connected by pressure to an orifice 2 placed at the entrance to chamber 3, in fluid communication with the large-volume sewage reactor 4. The ratio of the diameter d of the orifice 2 to the diameter D1 of the plenum 3 is at least 1/100. The expansion chamber 3 is provided on one side with an orifice 2 and on the other side is connected to the large-volume sewage reactor 4. The pump 1 with the grinder is connected to the orifice 2 by means of a pressure pipe. A pipe 6 is led into the expansion chamber 3 downstream of the orifice 2, connected at its inlet by a shut-off valve 7 to a pressurized air source.

The outlet 11 of the air supply pipe 6 to the expansion chamber 3 downstream of the orifice 2 is preferably spaced from the orifice 2 by at least half the length of the expansion chamber 3.

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In another embodiment, the device consists of a pump 1 in fluid communication with an orifice 2 located in the sewage reactor 4. The ratio of the diameter d of the orifice 2 to the diameter D2 of the sewage reactor 4 is at least 1/100. Downstream of the orifice 2, the sewage reactor 4 is connected to a pipe 6 connected at its inlet via a shut-off valve 7 to a pressurized air source. The outlet 11 of the air supply pipe 6 to the sewage reactor 4 downstream of the orifice 2 is spaced from the orifice 2 by at least half the diameter D2 of the sewage reactor 4. The axis 8 of the throttle 2 and the axis 10 of the outlet 11 of the air supply pipe 6 are straight in one plane.

In another embodiment, the axis 8 of the orifice 2 and the axis 10 of the outlet 11 of the air supply pipe 6 are straight, twisted and not coplanar. The axis 10 of the outlet 11 of the air supply pipe 6 is placed at an acute angle, preferably in the range from 0 ° to 30 °, in a projection on a vertical plane relative to the direction of the axis 8 of the venturi 2. In another version of the invention, in both embodiments, the axis 10 of the outlet 11 of the air supply pipe 6 is located at an acute angle b, preferably in the range from 45 ° to 60 ° in a projection on a transverse plane perpendicular to the axis 8 of the orifice 2 in relation to the radial direction 9 to the axis 8 of the orifice 2. The volume of the sewage reactor 4 and the remaining chambers is such that the residence time wastewater in them enables their sufficient biological treatment.

Wastewater or sewage sludge with a large amount of organic parts is fed by a pump 1 equipped with a grinder to the pressure pipe 5, where it obtains a high flow velocity and is pre-compressed, and then, passing through the orifice 2 into the expansion chamber 3, it suddenly decompresses. The microorganisms contained therein are broken from the expansion chamber 3, and the wastewater is forced into the wastewater reactor 4, where there is an accelerated increase in their number, necessary in the wastewater treatment process. Depending on whether an aerobic or anaerobic reaction is required, air is supplied or shut off via pipe 6. In another version, pump 1 is connected to the expansion chamber 3, and also the expansion chamber 3 is connected to the large-capacity sewage reactor.

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Publishing Department of the UP RP. Circulation of 50 copies. Price PLN 2.00.

Claims (18)

Patent claims 1. Device for accelerating the growth of the number of microorganisms in the wastewater, especially those containing organic parts, characterized in that it consists of a pump (1) connected under pressure, with an orifice (2) placed at the entrance to the expansion chamber (3), in fluid communication with the sewage reactor (4) large volume. Device according to claim 1, characterized in that the ratio of the diameter (d) of the orifice (2) to the diameter (D1) of the expansion chamber (3) is at least 1/100. 3. The device according to claim A device according to claim 1, characterized in that the expansion chamber (3) is equipped on one side with an orifice (2) and on the other side is connected to the large-volume sewage reactor. 4. The device according to claim A device according to claim 1, characterized in that the pump (1) with the grinder is connected to the orifice (2) by means of a pressure pipe. 5. The device according to claim 1 A pipe (6) is supplied to the expansion chamber (3), downstream of the orifice (2), connected at its inlet by a shut-off valve (7) to a pressurized air source. 6. The device according to claim 1 The pipe as claimed in claim 1, characterized in that the outlet (11) of the pipe (6) supplying air to the expansion chamber (3) downstream of the orifice (2) is preferably spaced from the orifice (2) by at least half the length of the expansion chamber (3). The device according to claim 1 The pipe according to claim 1, characterized in that the axis (8) of the orifice (2) and the axis (10) of the outlet (11) of the air supply pipe (6) are straight lines lying in one plane. 8. The device according to claim 1 The pipe as claimed in claim 1, characterized in that the axis (8) of the orifice (2) and the axis (10) of the outlet (11) of the air supply pipe (6) are straight twisted, not coplanar. 9. The device according to claim 1 The air supply pipe (6) is positioned at an acute angle (a) in the range of 0 ° to 30 ° in a projection on a vertical plane with respect to the direction of the axis (8) of the venturi (2). ). 10. The device according to claim 1 3. A method according to claim 1, characterized in that the axis (10) of the outlet (11) of the air supply pipe (6) is arranged at an acute angle (b), preferably in the range from 45 ° to 60 ° in a projection on a transverse plane perpendicular to the axis (8) the venturi (2) relative to the radial direction (9) to the axis (8) of the venturi (2). 11. Device for accelerating the growth of the number of microorganisms in the sewage, especially those containing organic parts, characterized in that it consists of a pump (1) in fluid communication with an orifice (2) placed in the sewage reactor (4). Device according to claim 10, characterized in that the ratio of the diameter (d) of the orifice (2) to the diameter (D2) of the sewage reactor (4) is at least 1/100. 13. The device according to claim 1, The method of claim 10, characterized in that a pipe (6) is led downstream of the orifice (2) to the sewage reactor (4), connected at its inlet by a shut-off valve (7) to a pressurized air source. 14. The device according to claim 1 The device of claim 10, characterized in that the outlet (11) of the air supply pipe (6) to the sewage reactor (4) downstream of the orifice (2) is spaced from the orifice (2) by at least half the diameter (D2) of the sewage reactor (4). 15. The device of claim 1, The device of claim 10, characterized in that the axis (8) of the reducer (2) and the axis (10) of the outlet (11) of the air supply pipe (6) are straight, lying in one plane. 16. The device according to claim 1, 10. A device as claimed in claim 10, characterized in that the axis (8) of the orifice (2) and the axis (10) of the outlet (11) of the air supply pipe (6) are straight twisted, not coplanar. 17. The device according to claim 1, 10, characterized in that the axis (10) of the outlet (11) of the air supply pipe (6) is arranged at an acute angle (a) in the range from 0 ° to 30 ° in a projection on a vertical plane with respect to the direction of the orifice axis (8) (2). 189 121 18. The device of claim 1 10, characterized by the fact that the axis (10) of the outlet (11) of the pipe (6), which is at an acute angle (b), preferably in the range from 45 ° to 60 ° in a projection on a transverse plane perpendicular to the axis ( 8) the venturi (2) relative to the radial direction (9) to the axis (8) of the venturi (2).