DE2120542B2 - Device for the biological purification of wastewater using the activated sludge process - Google Patents

Description

The present invention relates to a device for the biological purification of wastewater according to the activated sludge process, consisting of a circular basin, viewed from above, which is divided by a dip wall into a centrally located ventilation space and a secondary clarification space that surrounds it and is triangular when viewed in longitudinal section a high-performance gyro arranged in the center of the ventilation space and equipped with a riser pipe ending just above the bottom of the basin, with several radially and horizontally running pipelines connected to the riser pipe, which end in the area of the water surface in the secondary clarification room, adjustable in height.

A device of this type is known from German patent specification 1,281,367 and has generally proven to be very effective in practice, especially as a compact sewage treatment plant. In devices of this type, the aeration and recirculation of the wastewater takes place by means of the high-performance gyro, the working principle of which has been briefly described, for example, in the "Taschenbuch der Stadtentwässerung" by Karl I mh o f. 18th edition, p. 154, under the name Bolton gyro The water movement caused by the high-performance gyro in connection with the riser pipe is intended to prevent sludge from settling on the bottom of the basin in the area of the ventilation space. Since the ventilation space and the secondary clarification space are connected to one another through an annular gap below the baffle, the revitalized wastewater can escape

ίο enter the ventilation space from below into the secondary clarification room, with its flow velocity continuously decreasing towards the top due to the conical expansion of the secondary clarification room, so that a good sedimentation of the sludge in the secondary clarification room

15, can kick. This should then be in the lower part of the Nachklärraumes form a filter sludge layer of sufficient thickness, in the upwards nigte the gerei, almost completely clear effluent emerging target This can then wall by a at the upper edge of the dip and / subtracted odur pelvic gutter located are . At the same time ^ -Met? the heavy parts of the sludge sink back down against the movement of the water in the secondary clarification room, penetrate the filter sludge layer and pass through the ring-shaped

* 5 enter the ventilation space again through the gap. the The layer of fire sludge in the secondary clarification room should therefore constantly build up from below, while the heavy sludge components leave the secondary clarification room. In the case of the German patent specification 1 281 367 described device are also in the middle area of the baffle over the whole Short tubes distributed around the circumference. These pipes are inclined towards the bottom of the basin and are roughly tangential arranged for the flow of sewage in the ventilation space. They should illuminate parts of the mud be sucked back into the ventilation room from the secondary clarification room.

In practical operation of the device according to German patent specification 1 281 367, however, it has been shown that that in some TaIIeP the height of the layer of retaining sludge that forms in the postclad room is not can be adequately controlled. In these cases there was such a strong swelling of the filter sludge layer observed that the clarification zone in the upper part of the post-clarification room decreased so much that below Circumstances sludge components from the filter sludge layer with the running wastewater in the can get overhead drainage channel. At the same time, the heavy sludge components succeed it is no longer easy to pierce the voluminous filter sludge layer from top to bottom and to get back into the ventilation room from the final clarification room. But that means the operation of the System disturbed.

The present invention is therefore based on the object of creating a device of the type mentioned at the beginning, in the operation of which the disadvantages described do not occur and the formation of the sludge layer can be controlled in such a way that operational malfunctions do not occur.

This object is achieved according to the invention in that in the baffle in the area just below the water surface two or more circular openings are provided, to which in the secondary clarification room arranged and in the lower part of the same ending overflow lines are connected.

Through these overflow lines provided according to the invention, the upper part of the ventilation

an activated sludge-wastewater mixture is automatically conveyed into the post-cooling chamber. It has shown that by introducing an appropriate amount of the activated sludge-wastewater mixture in the final clarification room, the formation of the filter sludge layer can be influenced in such a way that it does not reach an undesirably large volume and the disadvantages described above are avoided.

In the device according to German patent specification 1 281 367 in the middle area of the immersion wall ιο The short drilling provided, through which light sludge parts & as the secondary clarification room are to be sucked back into the ventilation room, are omitted in the device according to the invention.

Advantageous refinements of the invention are the subject matter of the subclaims.

Various embodiments of the device according to the invention are shown, for example, in the drawing, which is explained in more detail below.

A particularly simple embodiment of the overhead line is shown in FIG. 1 reproduced. The reference number 1 represents the circular basin which is divided by the baffle 2 into the ventilation space 3 and the secondary clarification space 4. The overflow line 6 is attached in front of the circular opening 5 and stretches close to the baffle 2.

A preferred embodiment of the overflow line is shown in FIG. 2 shown. The overflow line 6 is composed of a horizontally extending pipe section 7 and an almost vertical one Pipe section 8 together. The horizontally extending pipe section 7 passes through the circular opening 5 through the baffle and ends sloping upwards in ventilation space 3. The angle of the bevel can for example be 60 °. The almost vertical pipe section 8 protrudes with his upper open end beyond the water surface 14 of the final clarification room 4. This is a certain Degassing of the activated sludge / wastewater mixture flowing through the overflow line into the secondary clarifier possible.

F i g. 3 finally gives a longitudinal section through an overall system with external sludge trap ν ieder. The circular basin 1 is again divided into the ventilation space 3 and the secondary clarification room 4 by the baffle. In the center of the ventilation space 3, the high-performance gyro 9 with the riser pipe 10 is arranged . The riser pipe is mounted on the support 13. As a result of the rotation of the high-performance gyroscope, the wastewater is thrown centrally symmetrically over the water surface 14 in the form of a parabolic arch, whereupon it descends in the basin in a helical movement and can flow back from there into the riser pipe. The negative pressure or injector effect generated in the riser pipe by the high-performance gyro ultimately causes the wastewater to return to the area of rotation of the high-performance gyro and is thrown again over the surface of the water. This circulating movement of the wastewater prevents the activated sludge formed during aeration from settling on the basin loop. The activated sludge-wastewater mixture formed during aeration penetrates through the annular gap 15 from below into the secondary clarification chamber 4, the flow rate of the wastewater decreasing upwards due to the conical expansion of the secondary clarification chamber, so that good sludge sedimentation can occur.

The overflow pipe 6 is composed of the pipe sections 7 and 8 in this case. Due to the routing of the high-performance gyroscope, a certain amount of the activated sludge-waste water mixture from the ventilation space reaches the secondary clarification room, where it flows from above onto the filter sludge layer that forms in the lower part of the secondary clarification room

Due to the amount of activated sludge / wastewater mixture introduced into the secondary clarifier, the Formation of the filter sludge layer can be controlled so that the same on the one hand has a sufficient thickness has, on the other hand, however, the purified wastewater emerges clearly from the filter sludge layer upwards, so that no sludge components can get into the drainage channel 16. The strut 17 is used for attachment of the pipe section 8 on the immersion wall 2. In the immersion wall there is also another circular opening 5 can be seen through which an overflow line (pipe sections 7) also hindurcntnu. Since with the invention Device the thickness of the filter sludge layer can be adjusted correctly, the heavy parts of the Against the movement of the water in the secondary clarifier, the sludge goes down again and passes through the ring-shaped Gap 15 back into ventilation space 3.

A plurality of radially and horizontally extending pipelines 18 are connected to the riser pipe 10, which adjustable in height by means of the overflow devices 19 in the area of the water surface 14 in the secondary clarification room 4 ends. In these pipelines, due to the upward movement of the water in the Riser pipe a water level difference through which the mineralizing or stabilizing driving style Any floating sludge that may have formed in the aeration basin is removed from the surface of the water via the overflow device is extracted in the secondary clarification room. Since several pipes 18 - for example three - are provided, they can also be used as support elements to increase the stability of the riser pipe to serve.

In the case of the in FIG. 3, the sludge trap 20 is also provided outside the basin 1, that through the pipe 21 with the riser 10 and through the pipe 22 with the ventilation space 3 is connected. The pipeline 21 is bent upwards and around the area of the sludge trap give away with a height-adjustable overflow device 23 in the area uer water surface 14, which as Slotted or triangular weir can be formed.

The operation of the device is as follows: As a result of the upward movement of the sewage in the riser pipe 10 a suction effect arises in the pipeline 21 which is sufficient to pass over the overflow device 23 a controllable sludge-free waste water flow from c'jr water surface 14 in the sludge trap deduct. The size of the waste water flow can be adjusted by adjusting the height of the overflow device be settled. The withdrawn through the pipeline 21 Waste water flows back into the ventilation space 3 via the riser pipe 10 and sludge trap are communicatively connected to each other by the pipeline 22 is simultaneously an equal amount of activated sludge-wastewater mixture through the pipe 22 into the sludge trap

20 headed. The activated sludge carried along settles from the bottom of the sludge trap and can at longer intervals - about every 3 to 6 days - be drawn off through the line 24 as excess sludge, while the settling and thickening of the The released water rises to the top. Between the sludge trap and the ventilation space So there is a liquid circuit, the size of which is determined by the height adjustment of the overflow device is regulated. In this way, however, the excess sludge removal from the ventilation space can also be set to the desired value. This mode of operation has the advantage that it is not the activated sludge-wastewater mixture, but rather the wastewater that has already been desludged, that is dosed at the overflow device. so that there is no risk of clogging the overflow device. The inventive device allows without using a pump or of another energy-consuming conveying unit to automatically regulate the activated sludge content in the ventilation space to the desired optimal value as a result of the excess sludge removal and thus ensuring proper operation of the device guarantee. Assuming that per inhabitant and day around 30 to 40 g of dry matter accumulate as excess sludge and the activated sludge in the ventilation space has an optimal dry matter content of about 5 g / l, it follows that each one resident and day around 6 to 8 I activated sludge waste water water mixture must be passed through the sludge trap for desludging.

Of course, the device according to the invention can also be used without the automatic transfer described above.

shot sludge removal is operated. In this Trap is normally provided that the excess sludge through a special line from the the lower part of the pelvis is withdrawn sporadically.

For this purpose 2 sheets of drawings

Claims (3)

Patent claims: J. Device for the biological purification of wastewater according to the activated sludge process, consisting of a circular basin, viewed from above, which is divided by a dip wall into a centrally located ventilation space and a post-clarification space that surrounds it in a ring shape and is triangular in longitudinal section, as well as a arranged in the center of the ventilation space and equipped with a riser pipe ending just above the basin base, with several radially and horizontally running pipelines being connected to the riser pipe, which end adjustable in height in the area of the water surface in the secondary clarification room, characterized in that in the immersion wall (2) two or more circular openings (5) are provided in the area just below the water surface (14) , to which overflow lines (6) arranged in the post-cooling space (4) and ending in the lower part thereof are connected. 2. Apparatus according to claim 1, characterized in that the overflow lines (6) from one horizontally extending pipe section (7) and an almost vertical pipe section (8) composed are, the former passing through the circular opening (5) in the baffle (2) and ends sloping upwards in the area of the ventilation space (3), while the latter ends with its upper, open end over the water surface (14) of the final clarification room (4) protrudes. 3. Device according to claim 1 or 2, characterized in that cue Zal · 'and the diameter the overflow lines (6) are selected depending on the inflow volume and the size of the basin, that by them a total of about the simple amount of dry weather per unit of time from the ventilation space can be funded in the final clarification room.