DE2120542A1 - Device for the biological purification of waste water using the activated sludge process - Google Patents

Description

Essen, April 22, 1971 N 4447/14 Dr. Ha / B

Heinrich Koppers limited liability company, 43 Essen. Moltkestrasse 29

Device for the biological purification of waste water using the activated sludge process

The present invention relates to a device for the biological purification of wastewater by the activated sludge process, which consists of a circular basin seen in plan view, which through a baffle into a centrally located ventilation space and a ring-shaped surrounding, triangular seen in longitudinal section trained final clarification room is divided. A high-performance gyro is arranged in the center of the ventilation space, which is provided with a riser pipe that ends just above the bottom of the pool and to which several radially and horizontally running pipes are connected, which are height-adjustable in the area of the water surface in the secondary clarification room end up.

A device of this type is also known from German patent specification 1 281 367 and has generally proven to be quite good in practice, especially as a compact sewage treatment plant. The sewage is ventilated and circulated

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with devices of this type by means of the high-performance circle, its working principle, for example in the "Taschenbuch der Stadtentwässerung" by Karl Imhoff, 18th edition, Page 154, under the designation Bolton gyro has been briefly described. Those from the high-performance gyro in connection The movement of water caused by the riser pipe is intended to cause the sludge to settle on the bottom of the basin in the area prevent the ventilation space. Because the ventilation space and the final clarification space through an annular gap below the baffle are in connection with each other, the revitalized wastewater can from the ventilation space from below into the Enter secondary clarification room, its flow velocity increasing upwards because of the conical expansion of the Post-clarification room is constantly reduced, so that good sedimentation of the sludge can occur in the post-clarification room. As a result, a filter sludge layer of sufficient thickness should then form in the lower part of the secondary clarification room, from which the cleaned, almost completely clear wastewater should emerge upwards. This can then be done by one at the top the drainage channel located on the baffle and / or the pool subtracted from. At the same time, the heavy parts of the sludge should counteract the movement of the water in the secondary clarification room sink back down, pierce the filter sludge layer and get back into the ventilation space through the annular gap. The filter sludge layer in the final »

2098A5 / 0467

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212054Z "

- 3 - ■. April 22, 1971

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So space should constantly build up from below, while the heavy sludge components return to the secondary clarifier leaving. In the case of the device described in German patent specification 1,281, there are also in the middle area Short pipes distributed over the entire circumference of the baffle are provided · These pipes are inclined towards the bottom of the pool and roughly tangential to the flow of sewage in the aeration space arranged. They should be used to suck light sludge from your secondary clarification room back into the ventilation room.

In practical operation of the device according to German patent specification 1,281,367, however, it has been shown that in some In cases the height of the filter sludge layer that forms in the secondary clarification room cannot 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 under certain circumstances Sludge components from the filter sludge layer with the draining wastewater can get into the drainage channel above. 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 from the secondary clarification room back into the ventilation room. However, this disrupts the operation of the system,

209845/0467

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- 4 - April 22, 1971

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The present invention was based on the task of creating a device of the type mentioned " whose operation "the disadvantages described do not occur and the formation of the filter sludge layer can be controlled in this way can prevent malfunctions from occurring.

This object is achieved by a device for the biological purification of wastewater according to the activated sludge process, consisting of a circular basin seen in plan view, which through a diving wall into a centrally located ventilation space and a ring-shaped surrounding, triangular seen in longitudinal section trained secondary clarification room is divided, as well as one arranged in the center of the ventilation space and with a High-performance gyroscope equipped with a riser pipe that ends just above the bottom of the basin, with several Radial and horizontal pipelines are connected, which are height-adjustable in the area of the water surface end in the final clarification room, and which is characterized according to the invention that in the immersion wall in the area just below the water surface two or more circular "openings are provided, which are arranged in the secondary clarification room and overflow lines ending in the lower part of the same are connected.

209845/0467

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- 5 - April 22, 1971

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Through these overflow lines provided according to the invention becomes automatically from the upper part of the ventilation space a an activated sludge-wastewater mixture in the secondary clarifier promoted. It has been shown that by introducing a corresponding amount of the activated sludge waste water mixture the formation of the filter layer in the final clarification room can be influenced so that it does not reach an undesirably large volume. The number and diameter of the overflow lines should be measured depending on the inflow and the pool size so that about the simple Amount of dry weather per unit of time can be conveyed from the ventilation room to the secondary clarification room.

Depending on the size of the basin, it is therefore advisable to provide two, three or even four overflow lines per basin. The diameter of the overflow pipes is thereby weckmäßigerweise ζ in the range 150-550 mm be selected.

The device according to the German patent 1 281 367 short pipes provided in the middle area of the baffle, through which light sludge particles from the secondary clarification room are to be sucked back into the ventilation space, are omitted in the device according to the invention.

A particularly simple embodiment of the overflow line is shown in FIG. Reference numeral 1 represents the circular basin, which is through the baffle 2 in the

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Ventilation room 3 and the stream clarification room 4 is divided. the The overflow line 6 is in front of the circular opening 5 "is attached and hugs the baffle 2 tightly.

A "preferred embodiment of the overflow line is shown in FIG Mg. 2 shown. The overflow line 6 is exposed a horizontally running pipe section 7 and an almost

right running piece of pipe 8 together. The horizontally running one Pipe section 7 passes through the circular opening 5 in the immersion wall and ends beveled upwards in the ventilation space 3. The angle of the bevel can be be for example 60 °. The almost vertical pipe section 8 protrudes with its upper open end beyond the water surface 14 of the final clarification room 4. This results in a certain degassing of the overflow line through the overflow line activated sludge-wastewater mixture flowing into the secondary clarifier possible.

Pig. 3 finally gives a longitudinal section through an entire system with external sludge trap again. The circular basin 1 is in here again through the baffle the BölUftungsraum 3 and the clarification room 4 divided. in the The center of the ventilation space 3 is the high-performance top 9 arranged with the riser pipe 10. The high-performance circuit— the electrical system mounted on a service bridge 11

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21205A2

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- 7 - April 22, 1971

N 44.47 / U

tromotor 12 driven by a gear. The riser is mounted on the support 13. The rotation of the high-performance gyroscope turns the wastewater into a parabolic arc centrically symmetrically thrown over the water surface 14, whereupon it in the Eeclcen in a scion line-shaped movement comes back down and from there can flow back into the riser pipe. The negative pressure or injector effect generated in the riser pipe by the high-performance gyroscope ultimately causes that that wastewater back into the rotation area of the high-performance gyro returned and thrown again over the surface of the water. By this Umwälzbewegunguiig des Wastewater prevents the activated sludge formed during aeration from settling on the bottom of the basin. That at the Ventilation formed air sludge waste water ge.iiiisch penetrates through the annular gap 15 from below into the clarification chamber 4, whereby the flow velocity of the wastewater upwards because of the conical widening of the secondary clarification room constantly reduced, so that good sludge sedimentation can occur.

The overflow line 6 is in this case from the pipe pieces 7 and 8 assembled. Due to the rotation of the high-performance gyro At the same time, a certain amount of activated sludge and wastewater mixture from the ventilation space enters the Final clarification room, where egg flows from above onto the filter sludge layer that forms in the lower part of the final clarification room.

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- 8 - April 22, 1971

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The formation of the filter sludge can be controlled by the amount of activated sludge waste water that is discharged into the ITachkl3rrau3E in such a way that it is sufficiently thick on the one hand, but on the other hand the cleaned waste water clearly emerges from the filter sludge layer upwards, see above that no sludge components can get into the drainage channel 16. The strut 17 is used to attach 3 it pipe section 8 to the baffle 2. In the baffle, another circular opening 5 can also be seen, through which an overflow line (pipe sections 7) also passes. Since the thickness of Filterschlamiisehicht can be regulated properly with the inventive device, enter - as foreseen - the heavy fractions of the sludge against the movement of water in Ilachklr.rraura back down and pass through the annular gap 15 · back into the aeration space. 3

On the riser pipe 10 are several, radially and horizontally Pipes 18 connected, the height adjustable by means of the overflow devices 19 in the area of the water surface 14 end in final clarification room 4. In these pipelines As a result of the upward movement of the water in the riser, a water level difference arises through which the mineralizing or stabilizing mode of des Swimming pool sludge formed in the ventilation basin over the

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- April 9 - April 22, 1571

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] on the device sucked from the water surface in the clarifier wefl. 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 <2ien.

In the case of the Pi ^. 3 device shown is also provided outside the basin 1 of the CchlamTifang 20, which is through the. Pipeline 21 is connected to the riser pipe 10 and through the pipeline 22 to the ventilation space 3. The pipeline 21 is bent upwards in the area of the sludge trap and has an overflow device 2? provided, which can be designed as a slot or triangular weir.

The operation of the device is as follows: As a result of the upward movement of the sewage "im The riser pipe 10 creates a suction effect in the pipeline 21 which is sufficient to produce a controllable effect via the overflow device 23 sludge-free wastewater flow from the water surface to be withdrawn in the sludge trap. The size of the waste stream can can be adjusted by adjusting the height of the overflow device. The wastewater flow withdrawn through the pipeline 21 returns to the ventilation space via the riser 10 3. Since the ventilation and sludge trap through the

«AD 5 / 0A6 7

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- 10 - 2 ?. April 1971

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Pipe! Pi ⁴ T ¹ ITIf: 2? Tcommininatingly connected to one another nine !, an equal amount of T3e? _Ebtnchlr> .rnr! -Winner-genic through the pipe 2? directed into the sludge trap. The entrained activated sludge settles on the bottom and can be withdrawn at longer intervals of time every 3 - 3 days - through the line 24 as excess sludge, while that is released in the case of Abnotson and Eindiolce'.i the ^ ohlnnrieR Water still rises above. Zvirschf-m äcr. Schlainnfanc and the Beltiftun ^ Kraura consists nlno a Pl: i33iglceitslcre3.slauf _t whose size is regulated by the height adjustment of the overflow device. But does this also mean that the excess waste material is withdrawn from the ventilating room? can be set to the desired value. This Arbe ^ tεv, ^r ei ⁽ ^ e h.Tt the gate part, dnß ^ ?. n the overflow device not drrs An Activschl.imm-.A ^ wpi ^ ser-Gp ^ inoh, but

ready desludged wastewater is dosed, so that there is no danger of the overflow device becoming blocked. The gate direction according to the invention makes it possible, without using a Puiipe or any other energy-consuming conveying unit as a result of the removal of the excess slide arm, to automatically regulate the activated lamina content in the Beltiftungcrauni to the desired optimum value and thus ensure proper operation of the gate direction. If you assume that per inhabitant and day around 30 - 40 g of dry substance are produced as excess sludge and the activated sludge in the aeration

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- April 11 - April 22, 1971

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room has an optimal mohawk substance content of around 3
aufv / eif.er-, it follows that each Hiiiv / ohner and day r-uid G - 1 1 BfclüQtsoklai.uu-Al) v / a.süer-Geuioci'i to E ^ tocLla durcli Cen Schlaüiiufaag to headj. are.

Of course, the method according to the invention can also be used without the following :! teochrielaene autonafcische Ü ^ schußsciilaimneiiti ^ ahiae ". In this case it is normally provided that the oversized chlairüa by a" special e S- ¹ ^ s the lower part of the pelvis sporadically sibQe 7 / ird.

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Claims (4)

- April 12 - April 22, 1971 ΪΓ 4447/14 patent claims: 1.) Device for the biological purification of wastewater according to the activated sludge process, consisting of a circular basin when viewed from above, which is passed through a Immersion wall in a centrally located belt ventilation room and a post-clarification chamber which surrounds it in the shape of a ring and is triangular when viewed in longitudinal section is, as well as one in the center of the ventilation space arranged and equipped with a riser pipe ending just above the bottom of the pool. be, with several radially and horizontally on the riser pipe Running pipes are connected, which are height-adjustable in the area of the water surface in the specialist clarification room ends, characterized in that in the diving wall (2) in the area just below the water surface (14) two or more circular openings (5) are provided, one in the secondary clarification chamber (4) and one in the lower one Part of the same ending overflow pipes (6) connected are. 2. Apparatus according to claim 1, characterized in that the overflow lines (6) from a horizontal (7) and an almost vertical piece of pipe (8) together. 20 98 45/04 67 HK - 13 - 2 ?. April 1971 N 4447/14 are set, the former (7) by the circular opening (5) in the baffle (2) and sloping upwards in the area of the ventilation space (3) endot, while the latter (8) with its upper, open End over the water surface (14) of the llach clarification room (4) protrudes. 3. Door direction according to claims 1 and 2, characterized in that that the number and diameter of the overflow pipes (6) depending on the amount of inflow and the size of the basin so rooted that through it a total of about the simple dry weather stalk per unit of time can be conveyed from the ventilation room to the specialist clarification unit. 4. Device according to claims 1 to 3, characterized in that that a sludge trap (20) is arranged outside of the circular basin (1) seen in plan view, through a pipe (21) with the riser pipe (10) of the high-performance gyro (9) and through another pipe (22) is connected to the ventilation space (3), the in the riser pipe (10) opening pipe (21) in the area of the Schlainmfanges (20) bent upwards and with a ir «area of the water surface (14) adjustable in height Overflow device (23) is equipped. 209845/0467 -H- April 22, 1971 K 4447 / U Torrtchtun ^ after Aric ^ rueh · 1, i by. it also counts that the overflow device (? 3) is a slot or ore cup. ^r or trained; int. 209845/0467 AS Blank page