DE19644334A1 - Process for the biological and biological-chemical treatment of wastewater and plant for carrying out this process - Google Patents

Abstract

The invention concerns a method for the biological and biological-chemical treatment of waste water using activated sludge in an activation tank (1). The invention further concerns a plant for carrying out this method, wherein the activated sludge concentration in the activation tank (1) is to be increased and it should be possible to proceed without final sedimentation tanks (2) or at least with final sedimentation tanks having a considerably reduced volume. To that end, activated sludge and solids are retained in the outlet region of the activated sludge tank or activation tank (1). For this purpose, a separator (9) for activated sludge and solids is provided upstream of the outlet (8) in the activated sludge tank or activation tank (1), the separator possibly being a plate separator.

Description

The invention relates to a method for biological and biological-chemical treatment of waste water using of activated sludge in an aeration tank as well as a plant to carry out this method with at least one Be activated sludge containing sludge with an inlet and an expiry.

The usual systems of this type consist of a bele training pool in which the wastewater is cleaned with activated sludge and a downstream clarifier, in which a Activated sludge and waste water are separated. The Afterwards, cleaned wastewater is channeled via drainage channels clarification derived. The sedimented activated sludge is removed from the floor of the secondary clarifier by clearing devices and returned to the aeration tank as return sludge guided. This repatriation is required in order to get on preservation of the biological degradation processes one desired high activated sludge concentration in the aeration tank guarantee. A retention of the activated sludge in the Bele exercise pool does not take place here. Consequently, the Be live sludge concentration in the drainage basin drain equal to that in the aeration tank overall. This well-known ver driving style requires large secondary settling tanks for support, Sedimentation, thickening and storage of the activated sludge mes. But since the activated sludge concentration, i.e. the amount the biomass working in the aeration tank is limited, are also very large volumes in the aeration tank conducive.

Proceeding from this, the invention is based on the object a process and an installation for its implementation to increase the activated sludge concentration in the aeration tank increase and without or with secondary clarifier with significantly reduced decorated volume.  

This task is mentioned in a method of the beginning ten kind solved in that in the drainage area of the revitalization tank / the aeration tank activated sludge and solids be held back. This way an increase the activated sludge concentration in the activated sludge tank has been reached, so that the volume of the aeration tank is reduced or the Effect of the aeration tank is intensified. A night clarifier may not be necessary. But if the ver use of a clarifier is still necessary, then its volume can be significantly reduced. Simultaneously The amount of return sludge to be recycled then becomes relevant lowered.

The invention for performing the described Ver Fahrens proposed system provides that in the Aeration tank a drain for activated sludge and solids upstream.

The aeration tank can be part of a total be any configuration. In particular, meh Several activation tanks can be arranged in series or in parallel. The basin can e.g. B. around a centrally arranged Clarifiers lie. The aeration tank can also be used as Endless trench.

According to the invention it is further provided that the separator is a lamella separator. It can be z. B. um Direct current, counter current, diagonal current, cross current lamella act as a separator that separates waste water and Effect activated sludge in the aeration tank.

The invention further provides that the course of the Bele training basin flows into a secondary clarifier.

The invention further provides that between secondary settling tanks and aeration tanks a return line for revitalized mud is provided.  

The invention further provides that the aeration tank Zo pretreatment, especially denitrification and de phosphating.

The invention further provides that at the exit of the Dephos a separator for activated sludge and solid substances is provided and that this zone via a return line for activated sludge with the secondary clarifier is bound.

Finally, the invention further provides that a recir supply line is provided, which the outlet area of the aeration tank connects to the denitrification zone.

Process and plant according to the present invention explained below using drawings as an example.

It shows:

Fig. 1 is a schematic plan view of a Ausfüh approximate shape of the system according to the invention and

Fig. 2 shows a partial section through the drainage area of an aeration tank.

The game now to be described with reference to the figures has an aeration tank 1 and a secondary settling tank 2 . The activation tank 1 is provided with an inlet 4 for waste water. This wastewater first passes into a dephosphating zone 3 , from which it passes through a separator 5 for activated sludge and solids into the denitrification zones 6 , 7 . In the exemplary embodiment, the activation tank is provided with an outlet 8 opposite the inlet 4 . In the area of the drain 8 , a wide separator 9 is arranged in the activation tank 1 , which is described below with reference to FIG. 2.

The drain 8 opens into the secondary clarifier 2 . A return line 11 leads from the secondary clarifier 2 into the dephosphating zone 3 and serves to return sludge from settled in the secondary clarifier.

A recirculation line 12 starts from the area below the separator 9 in the activation tank 1 and leads into the denitrification zones 6 and 7 . Through the recirculation line 12 , sludge can be returned to the zones mentioned.

The in Fig. 2 in the drainage area of the aeration tank 1 cal matically illustrated separator 9 is a direct current lamella separator in which the wastewater to be cleaned between guide surfaces 13 , 14 and fins 15 , 16 is guided downwards and in the direction of the inlet 4 . When the waste water passes through the separator 9 , a large part of the activated sludge and the solids contained in the waste water settles on the upwardly facing surfaces of the fins 15, 16 and the guide surface 14 . In turn, activated sludge and solids slide down from these surfaces in order to be drawn off below the separator 9 .

At the lower end of the fins 15 , 16 pockets 17 are provided for the collection of activated sludge and solids.

Of course, in particular the number of lamellae be adapted to the requirements of the respective system.

The escaping from the separator 9 , at least partially cleaned wastewater passes after the separator 9 in the direction of the arrow 18 to the outlet 8 , then into the secondary settling tank 2 and finally cleaned into a trough 19 .

The separator ( 5 ) provided in the dephosphatization zone 5 can be designed as that shown in FIG. 2. However, any separator known for separating similar solids can also be used here.

The aeration tank described in Fig. 1 can be easily varied in that the dephosphation zone and / or the denitrification zones are omitted or changed in view of the particular nature of the waste water. In the same way, the secondary clarifier described can also be dispensed with under certain circumstances, or it can be replaced by another secondary clarifier.

Other designs can also be used as separators the, as the specialist for the retention of solids fen are known.

According to the invention, Ab are thus multifunctional and simultaneous water purification, activated sludge and solids retention tion and thus solid enrichment up to a high level Concentration ranges reached. The return of return Sludge from a clarifier is significantly reduced adorns or can be omitted completely in some cases. Ge compared to the usual return sludge conveyance of The inflow concentration of the wastewater does not become 100% diluted by 50%. The effective residence time of the wastewater in the reactor, i.e. the aeration tank, is the same Dirt load room load increased by up to 70%, in some Cases even doubled. But since the biological Implementation processes with higher concentrations of dirt fabrics run exponentially faster, result in the inventive methods higher degradation rates and the result is significantly better efficiency.

The process and system enable the use of small beles Exercise pool volume with the same services as konventio Processes and systems.

The secondary clarifier volume can be reduced accordingly Sludge volume feed can be significantly reduced and in special cases are completely eliminated.  

If ge with several aeration tanks connected in series an intermediate clarification can usually be carried out omitted.

Claims (8)

1. A method for the biological and biological-chemical treatment of waste water using activated sludge in a activated sludge tank ( 1 ), characterized in that activated sludge and solids are retained in the drainage area of the activated sludge tank / the activated sludge tank ( 1 ). 2. Plant for performing the method according to claim 1, with at least one activated sludge-containing activation tank ( 1 ) having an inlet ( 4 ) and an outlet ( 8 ), characterized in that in the / the activation tank ( 1 ) the outlet ( 8 ) a separator ( 9 ) for activated sludge and solids is connected upstream. 3. Plant according to claim 1, characterized in that the separator ( 9 ) is a lamella separator. 4. Plant according to claim 2 or 3, characterized in that the outlet ( 8 ) of the aeration tank ( 1 ) opens into a secondary settling tank ( 2 ). 5. Plant according to claim 4, characterized in that a return line for activated sludge is provided between secondary clarification tank ( 2 ) and aeration tank ( 1 ). 6. Plant according to one of claims 2 to 5, characterized in that the activation tank ( 1 ) zones for pretreatment ( 3 , 6 , 7 ), in particular denitrification and dephosphatization. 7. Plant according to claim 6, characterized in that a separator ( 5 ) for activated sludge and solids is provided at the exit of the dephosphatization zone ( 3 ) and that this zone is connected via a return line ( 11 ) for activated sludge to the secondary settling tank ( 2 ). 8. Plant according to claim 6 or 7, characterized in that a recirculation line ( 12 ) is provided which connects the outlet area of the activation tank ( 1 ) with the denitrification zone ( 6 , 7 ).