DE19800664C2 - Process for biological wastewater treatment and installation for carrying out the process - Google Patents

Description

The invention relates to a method for biological wastewater treatment Pre-treatment of wastewater, activated sludge treatment in aeration tank under acid material supply and subsequent sludge retention by separating sludge and Pure water. The invention also relates to a system for performing the Ver driving with a rake arranged in the inlet, a sand trap and a bele exercise pool with drain pipe.

Waste water is discharged from households and the commercial industry flowing, contaminated water. Urban wastewater in particular In addition to coarse additives such as sand, they also contain rotting substances and bacteria. The wastewater treatment should be operated so that the self-cleaning power of The receiving water is sufficient to remove the remaining dirt.

Various wastewater treatment processes are known, with the help of biological processes to remove the pollutants because of the large quantities Lich degraded by microorganisms. In so-called aeration tanks the contaminated wastewater with activated sludge and the contained therein NEN microorganisms so far biologically cleaned that in a subsequent night clarification the sludge can be separated from the pure water. It must be animated Mud should always be recycled to a sufficient amount of Mi to secure microorganisms in the biological treatment stage. The clarification is thus an integral part of the biological stage in such aeration systems (DE-PS 43 29 239). It is also known from DE-PS 43 29 239, in the secondary clarifier ken plate packs to use the disadvantages of the previously known sediments fixation basin. It also becomes prior art in the description special lamella separators mentioned, which take place or complement the sedimentation cymbals have been used. To increase the biomass concentration in Bel Exercise pools are also such sloping lamella packs proposed. In the plate packs can be used to control the residence time of the  Sludge in the slats ventilation immediately before or in the slats in front be there. Clarification in the clarifier remains necessary. by Part of it is that in such processes and also the facilities provided not only the activated sludge must be circulated, but that the night clarification represents a separate stage with a correspondingly high investment. It not only fall higher production costs, but above all also significantly higher operating costs. This is particularly problematic when an existing one Plant must be expanded due to higher wastewater quantities.

The post-published patent application P 196 44 334.2 describes a procedure for the biological and biological-chemical treatment of waste water as well as a corresponding plant in which the activated sludge concentration in the activated sludge tank is increased and in the case without a clarifier or with a clarifier with a reducer volume to be worked. The activated sludge concentration is said to be high Concentration ranges are increased, the exact height is not specified. Therefore, the general state of the art must be considered, for example that "Waste water waste" regulations, where it is stated that 2.5 to 5 g / l are possible. the 5 g / l must be regarded as a "high concentration range". Especially with such high concentration ranges, it must be clearly recognizable to the person skilled in the art No clarification in the lamella separator at short notice because the separated activated sludge flakes are below the lamella separator build up in the envisaged aeration basin with longitudinal flow so that they up to rise in the lamella separator. The proposed "internal recirculation" cannot lead to a full-scale deduction of the separated activated sludge ren, so that a clarification is absolutely necessary.

The invention is therefore based on the object of a wastewater treatment proceed and create a system with which the clarification is relieved or even can be saved.

The object is achieved according to the invention in that Activated sludge treatment and sludge retention are combined in such a way that the  Sludge retention after the activated sludge treatment already in the Bele Exercise pool is made so that the aeration tank with <8 g / l dry substance content is operated, as specified in claim 1.

If such a method is implemented, this can be done both when new Construction of corresponding systems, as well as the expansion of corresponding extensions some of the investment costs were saved. In the case of a new building, basic no further clarification, while existing and too Enlarging plants the clarification by using the invention The procedure is relieved to the extent that the clarification without corresponding costs elaborate expansion can continue to operate while the activated sludge treatment is designed according to the new circumstances. Because of the Zu retention of the activated sludge already in the activated sludge tank eliminates any recirculation of sludge with corresponding savings in operating costs. There is an advantage that the sludge retained in the sludge retention water to be cleaned and then just for further wastewater treatment tion is advantageously available more evenly. This means that the Rei cleaning process improved by the retention of the sludge in the aeration tank becomes.

According to an expedient embodiment of the invention it is provided that the Mud retention made up to 80% in the aeration tank and itself this is followed by a filter treatment of the wastewater. Such an execution of the Procedures can have advantages if the existing aeration tank corresponds other loads or if in particular a corresponding one Sludge retention in the necessary size is not available or not turned on can be judged. The existing sludge components are then filtered separated from the water without any problems, without the need for clarification.

A quiet and steady operation and a corresponding realization of the method according to the invention is given when the sludge-laden rivers liquid in the order of magnitude of the inflowing wastewater to the sludge separator  is targeted. There is only so much pure water in the aeration tank taken from how wastewater is fed, so that overall the calm, uniform Flow in the aeration tank can be maintained, so before the water drain from the activated sludge one or more of the liquid loaded with activated sludge Sludge separators arranged in the aeration tank are fed in and from there Mud is released.

The method according to the invention can be carried out particularly expediently when the flow of the sludge-laden liquid is inclined to the vertical The slat plates of a sludge separator are evened out and in pure water water and sludge is separated, the pure water in countercurrent to the Slat plates separated and slipping down in the slats in the slats is led upwards, while the sludge preferably from the circulating water transported and partly deposited on the pool floor. With accordingly dimensioned slats, which are formed by the slanted slat plates, the activated sludge is excreted as far as possible via the drain line only pure water is discharged, which is easily fed to the receiving water can be. The slipping activated sludge comes back into the system and becomes taken away from the circulating water where necessary and for cleaning or leg cleaning flow of the incoming wastewater.

Another expedient embodiment of the invention provides that the sludge-laden liquid is oxygenated and then applied to the lamella lenplatten formed slats is directed. The liquid flow then penetrates so far possible and necessary in the area of the slats, while the rest of the liquid current flow is continued below the same. The appropriately loaded liquid speed penetrates into the lamellae, where an off occurs due to the treatment with oxygen activated sludge can occur.

While in the prior art a large part of the activated sludge required must be returned from the clarification to the aeration tank, he is Process according to the invention always has the necessary amount of activated sludge available.  Ultimately there is even an excess of activated sludge, which is on the Sedimentation tank bottom. To get the necessary flow below of the sludge separator, the invention provides that in the Area of the aeration tank below the slats or slat plates Biological excess sludge slipped out of the system at regular intervals Will get removed. A wide variety of methods can be used, for example also collecting the excess sludge on or in the pool floor seen bunkers from which the biological excess sludge is withdrawn and ent can be taken care of.

To carry out the method it is provided that a before the drain line completely or partially filling the flow cross-section of the aeration tank formed sludge separator, preferably with inclined slat plates is ordered. The sludge-laden liquid flow is thus forced through guided the sludge separator before it ge to the drain pipe or the drain gutter reached. Mud and pure water are separated from each other, so that the drain channel practically pure water and at least as much pre-cleaned wastewater discharged is that it can be derived in the receiving water. Although with slats equipped sludge separator for the partial separation of sludge also in the biological wastewater treatment already used, but not for complete Separation of activated sludge to avoid subsequent clarification. Rather, there has been clogging of the lamellae due to the sludge building up fears why, among other things, air is added, especially the speed ability to influence within the slats. It has also been shown that through the special training of the process and the return of the biological Sludge in the aeration tank the whole process can be carried out more optimally can. A pure water flow largely relieved of sludge can flow in unhindered the receiving waters are given. In particular, it has surprisingly been found that the spaces between the individual slanted slat plates are not through the activated sludge, but rather with appropriate training ensure an advantageous procedure even over long periods of time.  

The long service life is ensured in particular by the fact that the Lamellar plates made out of plastic plates or other smooth materials are formed, the lamella plate spacing of 50-500 mm, preferably 100 mm exhibit. The mainly used plastic sheets have the The advantage of being able to withstand even more aggressive media and a constant smoothness have, so that the slipping of the activated sludge on the inclined plates is ensured. The gap of 100 mm and more increases prevents the gaps without adversely affecting the degree of separation would flow. In known lamella separators, the lamella gap is included well below 100 mm.

For easier assembly and, if necessary, disassembly is according to the Erfin tion provided that the lamella plates combined into lamella packets in the arranged sludge-laden liquid and fi via a mounting structure are fixed on the pelvic floor and / or on the side walls of the Bele exercise pool supports. Such training has the advantage that the to Lamellenpa keten combined compact unit with the mounting structure in the Bele exercise pool can be used, i.e. after appropriate preparation at the factory and without the need for retrofitting in the sewage treatment plant. Such a com pact station can then be removed from the activation tank and if necessary can be serviced without the need in the meantime ken as such to shut down and empty.

In known systems, aerators are used to support the growth of the Mi favoring microorganisms. It has proven to be particularly advantageous in Strö direction in front of the sludge separator integrated in the aeration tank Arrange surface aerators or a suitable one if pressure ventilation is used Provide flow-generating submersible mixers. These ventilation devices sor conditions for the uniform supply of the required air, if possible via the seen entire flow cross-section, so that a corresponding "work tender "sludge comes into the area of the sludge separator, which among other things also has the advantage that the activated sludge slipping on the lamellae, which then  for the Wei t treatment of the wastewater is available in optimal condition.

It was pointed out earlier that a flow of Water below the sludge separator is appropriate. In addition, the Invention before that the sludge separator with the lamella plates on the fastening construction a sufficient distance of preferably 1/5 to 1/3 of the Bec total height to the pelvic floor is arranged. In addition, si that the sludge slipped off the lamella plates as far as possible is captured and carried along by the water flow flowing through below.

For activated sludge disposal, the invention provides that the pool floor of the aeration tank at one or more places sludge drains for the over weft sludge are assigned. There is a certain amount of mud on the Bec kenboden present, the excess sludge is discharged collected. For this it may be useful to have openings in the pool floor or a kind of bunker watch the mud slide into. The can also from this mud bunker Sludge can then be removed at regular intervals. It is important that it in the area below the lamella plates there are no adverse currents under certain circumstances into the spaces between the individual slats Act. Rather, the liquid flow should also be as equal as possible in this area be moderate.

The invention is particularly characterized in that a method and a system has been created, both by the investment and the operating bring cost-effective relief. This applies to both the new building appropriate wastewater treatment plants, as well as for the expansion of existing wastewater treatment plants, because the clarification required so far has been largely or even completely dispensed with can. This also eliminates the need for secondary clarifiers as well as for the sludge Install ring lines with appropriate pumps. Surprisingly, that is Degree of separation so good that with appropriate arrangement and training of Sludge separator that the pure water can be fed directly to the receiving water.  

Known lamella can be used for the sludge separator used lenabscheider be used, but for use in the aeration basin must be equipped and constructed. Especially when expanding Städ and the need to dispose of larger quantities of wastewater has proven itself the method according to the invention and the system according to the invention as an immense front partly because the wastewater quantities without expanding the aeration tank and above all can be processed without expansion or the new construction of secondary settling tanks. Even if the aeration tank is enlarged, you can use a secondary clarifier waived or the existing clarifier even further relieved be used.

Show it:

Fig. 1 shows a schematically represented plant with pre-ter turn, biological phosphorus elimination,

Fig. 2 shows a corresponding plant without the elimination of phosphorus,

Fig. 3 is a plan view of a system with two activated sludge basin,

Fig. 4 is an enlarged illustration of the area deposition of sludge,

Fig. 5 shows a cross section through the sludge separator and

Fig. 6 shows the lower area of the sludge separator with sludge bunker.

Fig. 1 and Fig. 2 show a simplified representation of a wastewater treatment plant 1 with an aeration tank 2 , which is supplied with wastewater via the inlet 3 with rakes 4 and 5 sand trap.

In the case of FIG. 1, the actual activation tank 2 is preceded by a plurality of phosphor treatment tanks 6 , 7 .

From the phosphorus treatment pool 6 , 7 or directly from the sand trap 5 , the wastewater is introduced into the activation tank 2 , with the guide walls 11 , 12 ensuring a certain flow direction.

In front of the drain pipe 9 , a sludge separator 10 is provided, via which the activated sludge entrained is separated in such a way that more or less pure water is drawn off via the drain pipe 9 .

Fig. 3 shows a wastewater treatment plant 1 , in which two aeration tanks 2 , 13 are brought together to form a unit, both of which are enriched with sludge te wastewater via the inlet 3 . It is easy to see that about the Füh approximately 11 , 12 for a certain flow is provided, with a partition 14 with slide 15 is provided between the two activation tanks 2 and 13 . Via the slide 15 there is the possibility of connecting the two activation tanks 2 , 13 to one another.

The sludge separator 10 , which is composed of many lamella plates 16 , 17 , 18 which run obliquely to the vertical, is inserted into the flow of the water supplied. The individual lamella plates 16 , 17 , 18 are assembled to Lamellenpake th 19 , 20 , which are connected as such via a beam structure 25 to a compact station or compact unit, which can be used as such in the respective aeration tank 2 , 13 .

The water flow 23 , which is guided in the direction of flow 24 , is still supplied with the necessary acid material before the lamella plates 16 , 17 , 18 by an aerator 26 , so that the microorganisms in the activated sludge when reaching the lamella packets 19 , 20 or the entire Sludge separator 10 are in optimal condition. Upstream guide walls 8 , 8 ', which in particular can also be seen in FIG. 4 in their position, are arranged upstream of the individual plate packs 19 , 20 .

A catwalk 21 , which runs in the flow direction 24 in front of the plate packs 19 , 20 over the activation tank 2 , 13 , serves both for monitoring the separation process and for assembly and disassembly.

Not only the wastewater flowing in via the inlet 3 but also the agitator 28 assigned to the agitator bridge 27 ensure the necessary flow within the activation tanks 2 , 13 .

The water that flows through the individual plate packs 19 , 20 and that has separated from the activated sludge is fed via the drainage channel 30 to a collecting pipe 29 , from where it either flows into the receiving water or the clarifier.

Fig. 4 shows the area of the sludge separator 10 in an enlarged view, whereby in particular the arrangement of the guide walls 8 can also be seen, wherein these guide walls 8 can be changed in their respective arrangement if necessary. The catwalk 21 can also be seen , via which this area can be monitored well. In the present case, the purified water is taken up by the two aeration tanks 2 , 13 via the drainage channel 30 and fed to the collecting pipe 29 in order to be fed together from there to the receiving water, for example.

Fig. 5 shows a section through the sludge separator 10 , which, as he already mentioned, has a plurality of slanted plate plates 16 , 17 , 18 , which are assembled into plate packs 19 , 20 . The lamella interspace 32 is chosen so that the deposited or deposited activated sludge cannot bake up in order to close the lamella interspace 32 . Rather, by a distance of 100 mm or more, there is the certainty that the activated sludge slides on the slants of the lamella plates 16 , 17 , 18 in order to get back into the activation tank 2 , 13 . From here it is either captured by the water stream 23 and taken away or disposed of in a suitable manner. The individual plate packs 19 , 20 are, as already mentioned, held on a beam structure 25 , which is supported on the floor 33 or on the side wall 34 . There remains a sufficient distance 35 below the plate packs 19 , 20 , so that there is always a sufficient water flow 23 below the sludge separator 10 , which carries the sinking sludge as far as necessary.

If too much sludge forms below the sludge separator 10 , this water, as can be seen in FIG. 6, is collected, for example, in a sludge bunker 37 and then discharged via the sludge discharge 38 . Turbulence and other disadvantages are prevented by the fact that the side walls 39 of the sludge bunker 37 run obliquely and also have rounded edges 40 .

Claims (7)

1.Procedure for biological wastewater treatment with wastewater pretreatment, activated sludge treatment in the activated sludge tank with oxygen supply and sludge retention by separating sludge and pure water after the activated sludge treatment in lamella plates of a sludge separator which are inclined vertically, characterized in that activated sludge treatment and sludge retention is carried out in such a way that this is done Aeration tank with <8 g / l dry matter content is operated and that the pure water is directed in countercurrent to the sludge deposited on the sufficiently dimensioned slat plates and slipping downwards in the slat plates, while the slipped sludge is transported away by the circulating water, the amount of which Sludge separators that are specifically supplied with sludge which liquid corresponds to the size of the inflowing wastewater. 2. The method according to claim 1, characterized, that more than 80% of the sludge retention was carried out in the aeration tank followed by a filter treatment of the wastewater. 3. The method according to any one of the preceding claims, characterized, that the sludge-laden liquid supplies oxygen and then on the from the Slat plates formed slats is directed. 4. Plant for carrying out the method according to claim 1 and / or claims 2 and 3 with a feed ( 3 ) assigned rake ( 4 ), a sand trap ( 5 ), an aeration tank ( 2 , 13 ) and serving as a sludge separator ( 10 ) Lamella packs ( 16 , 17 , 18 ), which are arranged in front of the drain line ( 9 ), characterized in that the sludge separator ( 10 ) partially fills the flow cross section of the activation tank ( 2 , 13 ) and a sufficient distance ( 35 ) from preference 1/5 to 1/3 of the total pool height to the pool floor ( 33 ) is positioned, whereby in the flow direction ( 24 ) in front of the sludge separator ( 10 ) an aerating pool ( 2 , 13 ) integrated surface aerator ( 26 ) is arranged or at on Set of compressed air ventilation immersion agitators are provided, which generate a suitable flow and that the slats ( 16 , 17 , 18 ) are slanted to ensure that the sludge slides off. 5. Plant according to claim 4, characterized in that the lamella plates ( 16 , 17 , 18 ) are designed as plastic plates which have a lamella plate distance ( 32 ) of 50 to 500 mm. 6. Installation according to one of the preceding claims, characterized in that the lamella plates ( 16 , 17 , 18 ) to form lamella packets ( 19 , 20 ) are arranged in the sludge-laden liquid ( 23 ) and are fixed via a fastening construction ( 25 ) is supported on the pool floor ( 33 ) and / or on the side walls ( 34 ) of the activation tank ( 2 , 13 ). 7. Plant according to one of the preceding claims, characterized in that the sludge separator ( 10 ) with the lamella plates ( 16 , 17 , 18 ) guide walls ( 8 , 8 ') are arranged upstream.