DE2638965A1 - Farm yard sewage aeration system - using worm conveyor in vertical open tube for air and sludge circulation - Google Patents

Abstract

Sewage sludge in a tank is aerated by a worm conveyor which is rotated by a motor drive in a vertical tube with the top opening accessible to atmosphere and the bottom opening near the bottom of the tank. The motor is reversible so that either air is entrained at the top and forced into the sludge or the sludge is expelled at the top against a baffle plate which distributes it in a mushroom spray. System can be applied to animal farm waste without dilution. It improves the mixing and aerating conditions and prevents malodours.

Description

Apparatus and method for aerating sewage sludge.

The invention relates to a device and a method for ventilation from sewage sludge, especially for mixing and aerating sewage farms or similar

The sewage of a farm is usually Collected in pits, tanks, etc., and then spread as fertilizer on the fields to become. Such wastewater, e.g. liquid manure, spreads unpleasant smells and generate odorous exhaust products. A remedy and a preparation of the Sewage sludge can be achieved through thorough mixing and aeration of the sewage can be achieved in the sewage basin, but provide the existing devices for this no satisfactory results, especially if there is in the sewage is the heavily thickened sewage sludge from farms. The sewage sludge can be diluted with water to improve viscosity be, but this again requires larger containers to hold the diluted Materials.

The object of the invention is to provide an apparatus and a method for To create mixing and aeration of relatively strongly thickened sewage sludge, so as to improve the aerobic degradation conditions in the sewage sludge.

In the method according to the invention, by means of one in one Tubular casing rotating auger air via one accessible to the atmosphere Inlet opening sucked into the housing and immersed in the sludge via one Outlet opening expressed again. At the same time, sludge can get into the pipe housing are sucked in with a part of which is released again via the outlet opening and the other part remains in the housing and one on the inner wall Vortex forms. The screw conveyor is preferably rotated between 250 - Rotates 2000 per minute.

With an expedient design of the device according to the invention the screw conveyor is divided into two parts with a counter-rotating screw pitch. The tubular housing possesses in the area in which one part of the screw conveyor with the other Part collides, a common outlet opening for both parts. In the from The ends of the tubular housing remote from the outlet opening are openings as Arranged inlet openings. Such a design of the device can particularly good mixing and introduction of air or oxygen into viscous ones Sewage sludge can be achieved.

Alternatively, a screw conveyor with a simultaneous conveyor pitch can also be used used in a tubular housing with existing on opposite ends Inlet and outlet openings is arranged.

It is advantageous to have the conveyor in a sludge basin like this to arrange that it is supported by a traverse above the mud basin, then the traverse and / or the conveyor device relative to the sludge basin is movable.

The drive for moving the traverse and / or the conveyor can expediently by the reaction force to the torque of the engine Rotation of the screw conveyor and by the opposing force when ejecting the sludge be given from the conveyor.

Further features and advantages of the invention will become apparent on the basis of the exemplary embodiments described, which are shown in the drawings: Fig. 1 shows in schematic Representation shows a cross section through the device according to the invention, Fig. 2 shows in a schematic representation a cross section through another embodiment of the invention Fi 3 shows schematically the side view of the device according to FIG. 2 in combination with a cross member and FIG. 4 shows a schematic representation a device that is movable along a carrier.

According to Fig. 1, there is the device for mixing and aerating Sewage sludge from a rotatable shaft 10, which has a spiral-shaped Transport screw 11 carries. The shaft 10 is driven by means of the motor 12, whereby the direction of rotation of the motor is reversible. The screw conveyor 11 is from a tubular housing 13 surrounded, at the lower end of which a bracket 14 is arranged which is a bearing (not shown) for supporting the lower end of the shaft 10 carries.

The entire device is arranged in a sludge container 15, the surface level of which is provided with the reference number 16. At the bottom of the tubular housing 13, an opening 17 is formed, which depends on the The direction of rotation of the shaft 10 is used as an inlet or outlet opening. On the upper one End of the tubular housing an opening 18 is provided, which in the same way depending on The direction of rotation of the shaft 10 is used as an inlet or outlet opening.

Above the opening 18 a baffle 20 can be arranged, which is substantially concave in the form of a disk. Will be given appropriate Direction of rotation of the shaft, the waste water upwards through the opening 18 from the pipe housing 13 ejected, then the plate 20 is used to deflect the waste water in the radial direction and inclined slightly towards the surface mirror 16. In this way, becomes the sewage sludge is loosened and the individual parts of the mass are exposed to the air, thereby increasing the oxygen content in the wastewater and the aerobic degradation conditions in the sewage sludge can be improved. At the same time there is good mixing of the sewage sludge in the basin.

The device according to FIG. 1 normally operates with one direction of rotation the shaft, with air through the opening 18 in the top of the tubular housing is sucked in and pressed through the opening 17 into the sewage sludge. It deals here is the alternative operating mode to the operating mode described above, in which sewage sludge is ejected against the baffle 20.

The baffle 20 can also be formed with a greater curvature be. A further modification consists in the fact that the outer ones in the radial direction Edges of the baffle only a small distance from the surface mirror 16 of the Have a mud pool. With this arrangement, ventilation is increased even further of the sewage sludge, since the outer edges of the plate 20 have a kind of suction nozzle effect generate, whereby a larger amount of air is entrained in the sewage sludge, as it flows over the lower surface of the baffle 20.

The embodiment shown in Fig. 2 of the device for Aeration of sewage sludge shows a shaft 21 with two screw conveyor parts 22 and 23 is equipped. The parts 22 and 23 lie opposite one another on the shaft 21. A tubular housing, which is also formed in two subregions 24 and 25 is, surrounds with its one part 24 of the screw conveyor part 22 and with his Part 25 the screw conveyor part 23.

The shaft 21 is driven by means of the motor 26, again the direction of rotation of the motor is reversible.

The lower end of the shaft 21 is in a bearing (not shown) held, which is located in the bracket 27 on the tubular housing part 25 is attached.

At the lower end of the housing part 25 there is an opening 28. The upper end of the housing part 24 has the opening 29. In the area in which the housing parts 24 and 25 collide, the opening 30 is located here Also the cutting disk 32, which is on the shaft 21 between the screw conveyor parts 22 and 23 is arranged. The entire device is thus in a waste water basin 33 immersed that the surface mirror 34 is slightly above the lower edge the opening 29 is located.

As can be seen from Fig. 2, in the given direction of rotation Shaft 21 air through the opening 29 by means of the screw conveyor part 22 in the Housing part 24 sucked.

At the same time, sewage sludge is released through the opening in the housing part 25 sucked in. The air and the sewage sludge are made up of their respective Housing parts ejected together again through the opening 30, the separating disk 32 the air and the sewage sludge forcibly in the radial direction to the shaft 21 distracts. This way of working creates a downward flow in the sewage basin, the natural upward movement of the in the sewage counteracts entrained air bubbles. The achievable by means of the device The depth of the ventilation depends on a number of factors, including the conveying characteristics of the device and the speed of rotation of the screw conveyor. In principle, however, the depth effect can be improved if a Part of the wastewater passes through the opening 29 into the pipe housing.

The housing parts 24 and 25 are made by suitable structural means (not shown) connected to each other without thereby affecting the radial flow of the sewage and the radial flow of air through the opening 30 is hindered.

An alternative mode of operation of the device is then achieved when the surface level of the sewage is below the opening 30 and when the shaft 21 is rotated so that air through the opening 30 in the housing part 25 enters and is pressed through the opening 28 into the sewage sludge. At a Reversing the direction of rotation of the shaft, the wastewater is pumped up in this operating mode and a good mixing of the sewage sludge is achieved.

In both embodiments according to Figures 1 and 2 causes the screw conveyor, if it sucks in air and pushes it into the sewage sludge, first a pumping out of the sewage sludge from the pipe housing, whereby between a cavity is created between the inlet and the outlet and fills with air. Thereafter the screw conveyor generates a wastewater vortex on the inner wall of the housing, which extends from the outlet opening in the direction of the housing.

The lower end of the wastewater vortex is level with the outlet opening arranged so that the column of air that fills the center of the vertebra up to the Outlet opening reaches. Air bubbles are then branched off from this column of air and expressed through the outlet opening into the sewage sludge. In the embodiment According to FIG. 2, the air bubbles are discharged by pumping out the waste water from the housing part 23 supported.

The exact structural design of the screw conveyor in both embodiments can be selected according to known screw conveyors or screw pumps are, however, the dimensions are to be kept smaller, since in the device according to the invention only a reduced pump power is required. By means of the devices according to the invention can be an aeration of sewage sludge can be reached up to a depth of 7 - 8 meters below the surface level, only a relatively low drive power is required.

In Fig. 3 it is shown that the device for aerating sewage sludge according to FIG. 2 can be attached in an expedient manner to a traverse 36, which with each end on the top of the circular or rectangular sewer basin 33 is supported by means of wheels 37, so that the cross member 36 relative to the Sewer basin can be moved, thereby changing the position of the aeration device changes in the basin.

In addition, a carriage (cf.

Fig. 4) be arranged, which is movable along the traverse and carries the device according to the invention. In a similar way, of course, the The device according to FIG. 1 can be mounted in a sewage basin, so that changes in position possible are. It is advantageous if to move the device in the basin the reaction force of the motor torque is used.

As an alternative to the above-described cross member 36, the inventive Device can also be pivotably attached to a central mast.

In the embodiment shown in FIG. 4, the inventive Device for aerating sewage sludge by means of the carriage 39 held. The carriage is supported by means of the wheels 40 on the carrier 41, which is above of the sewage basin is arranged. The drive of the carriage 39 along the carrier track 41 is due to the reaction force exerted on the device by the ejection of the wastewater is exercised. This can be done by simple periodic reversal the direction of rotation of the conveyor shaft, the device from one side to the other side of the sewage basin. On the movement can through the Inclination influence that the axis of rotation of the shaft to the vertical and that for the discharge direction of the sewage sludge from the outlet opening 42 is decisive.

The speed of rotation of the screw conveyor is expedient between 250 and 2000 rpm depending on the consistency of the sewage and selected according to the delivery characteristics of the device.

The advantages of the device according to the invention are in particular then given if the device for mixing and aerating is relatively viscous, undiluted wastewater from farms, livestock farms or similar is used. Of course, it can also be used for other wastewater, e.g. industrial wastewater. Basically improves the invention Device the aerobic treatment conditions within the wastewater and prevents the formation of anaerobic products. You can also be of assistance used in the aerobic treatment of waste materials.

The results of the work of the devices according to the invention are also favored by the ability of the device to mix in small air bubbles to promote in the wastewater. Many small air bubbles enlarge the contact area between the air and the sewage. In addition, when using the inventive Device keeps the air bubbles in the sewage for a relatively long time. This is made possible by the after The downward flow of the wastewater achieved that brought into the wastewater Entrains air bubbles.

Claims (10)

Expectations. 0 method for aeration of sewage sludge, characterized in that that by means of a screw conveyor rotating in a tubular housing air over a The inlet opening accessible to the atmosphere is sucked into the housing and via an outlet submerged in the mud is squeezed out again. 2. The method according to claim 1, characterized in that in the Pipe housing sucked in sludge and released part of it through the outlet opening the part remaining in the housing forming a vortex on the inner wall forms. 3. The method according to claim 1 or 2, characterized in that by means of a divided and counter-rotating screw conveyor in the upper area of the Tubular housing air is sucked in and expressed again via an outlet opening and that sucked sludge in the lower area of the tubular housing and in the immediate vicinity Neighborhood to the air outlet is released again. 4. The method according to any one of claims 1 to 3, characterized in that that the screw conveyor is rotated at 250-2000 rpm. 5. Device for aeration of sewage sludge, marked by a screw conveyor (11, 22) rotatably mounted in a tubular housing (13, 24), the tubular housing having at least one inlet opening accessible to the air (18,29) and with at least one outlet opening (17,30) immersed in the sludge is provided. 6. Apparatus according to claim 5, characterized in that the screw conveyor (22) is divided into two parts and designed in opposite directions and that the tubular housing (24, 25) in the area in which one part (22,24) of the conveyor device with the other Part (23,25) collides, a common outlet opening (30) for both parts the conveyor owns. 7. Apparatus according to claim 6, characterized in that in the ends of the tubular housing (24, 25) remote from the outlet opening (30) Openings are arranged as inlet openings (28,29). 8. Apparatus according to claim 5, characterized by a concurrent Conveyor screw (11) in a tubular housing (13) with at opposite ends existing inlet and outlet openings (18 and 17) is arranged. 9. Device according to one of claims 5 to 8, characterized in that that the conveyor device (22,23,24,25) is arranged in a sludge basin (33) and is carried by a traverse (36, 41), the traverse and / or the conveyor device is movable relative to the mud basin. 10. Apparatus according to claim 9, characterized in that the drive for the movement of the traverse and / or the conveyor by the reaction force on the torque of the motor (12,26) for rotating the screw conveyor and through the counterforce is given when the sludge is ejected from the conveying device.