DE3826519A1 - Process for the biological clarification of waste water - Google Patents

Abstract

The invention relates to a process for the biological clarification of waste water (effluent), in which, in parallel to the biological purification process in a main stream biology, specialised microorganisms are cultured in at least one side-stream biology and these are added to the main stream as required.

Description

The invention relates to a method for biological Wastewater treatment and one to carry out this Appropriate treatment plant.

It is known to waste water through biological processes to clarify. In particular, it is also known for Inoculation or support for biodegradation of hard-to-decompose organic substances in sewage treatment plants specialized microorganisms, enzymes and other auxiliaries use fabrics. These become the wastewater to be treated added as needed. The microorganisms, the enzymes and the other auxiliaries are outside the clarifier manufactured and are commercially available products.

These products are relatively expensive. Since their addition to Accordingly, wastewater causes high costs often only used sporadically. This will make success biological wastewater treatment does.

If the wastewater contains substances that affect the micro We inhibit organisms and the biological auxiliary substances  ken, then the known method is either very expensive dig, i.e. A lot of biological material has to be bought in and added, or it is ineffective if the amount added is not increased sufficiently.

A major disadvantage arises in the known Process from the fact that for the purification of waste water different microorganisms used side by side some of them have to be faster and some grow more slowly. In particular, specialized micro orga nisms often grow slowly. Then there is a risk that the specialists through fast-growing microorganisms nisms are overgrown and by washing out or when removing excess sludge from the Reactor get lost.

The slow growth of specialized microorganisms also has an adverse effect on the design of a clarifier lay out. For a sufficient increase in specialists to ensure the reactor can one after the known wastewater treatment plant not operated according to the optima len mud age of the heteropopulation used be, but it must be the much lower wax minimum rate of the specialized microorganisms factor are taken into account.

Despite the disadvantages mentioned, the biological Reini wastewater treatment is much cheaper than chemical physical processes. So there is a big one Interested in biological cleaning if possible to be able to apply it comprehensively, especially to waste water Serin ingredients with slow degradation kinetics, for example se the degradation by nitrification, autotrophic denitrification tion or biological phosphorus elimination, as well as on the degradation of persistent organic substances. For all of these  Specialized microorganisms are required for purposes which are not in the reactors of the known sewage treatment plants increase to a sufficient extent.

The object of the invention is to provide a method for biolo wastewater treatment that it could ten disadvantages.

The problem is solved in that in a procedure for the biological treatment of wastewater parallel to the biological purification process in a mainstream biology specialized microorganisms in at least one subsidiary current biology breeds and this as required the main current added.

Preferred embodiments of the invention result from the subclaims.

Under the term "mainstream biology" are in the frame the present description of the process stages usual biological clarification process summarized. In particular, mainstream biology includes the reactor, in which the biological cleaning process takes place and of the total amount of wastewater to be treated must be gone through. Increase in mainstream biology the easily and quickly growing microphones organisms.

The method according to the invention differs from the known method in particular in that parallel operated a secondary current biology to the main current biology will. Under the name "sidestream biology" become those within the scope of the present description Process stages summarized, the breeding specialty based and especially slow-growing microorganism  serve outside of mainstream biology. Essentials Breeding reactions are an integral part of sidestream biology gates that optimize the specialized microorganisms Offer growth conditions.

The inventive method makes it possible Share of specialized microorganisms in the heteropo population of an activated sludge plant under normal operation conditions through controlled metering from the secondary to keep current constant or at a desired level. The ratio between the content of waste water problem substances and specialized microorganisms can be added of biomass from the breeding reactors in the required Amount can be influenced effectively.

In the method according to the invention, the specialty based microorganisms mainly in the process rens generated. You only need to a small extent Commissioning of the respective secondary flow biology purchased insofar as this is not through natural selection and development of specialized microorganisms mainstream biology. This allows a significant cost reduction compared to known ones Achieve procedures.

Because the necessary specialists in the branch flow biolo gie generated in the required amount and then the Sufficiently added to wastewater to be cleaned a consistently effective clarification of the Sewage reached.

With the method according to the invention, such Effluent that contains substances which inhibit the multiplication of certain specialized microorganisms. Since the Vermeh  of the specialists mainly outside the main stream biology, care can be taken to ensure that the inhibitory substances do not adversely affect theirs Impact growth.

Due to the fact that in the inventive Process the specialized microorganisms in separate Reactors are grown, there is no risk of Overgrowth by faster growing microorganisms. In the method according to the invention, the specialty not by washing out or removing excess sludge from the reactor of the main stream biolo lost.

Finally, it is with the method according to the invention possible the reactor for the biological cleaning process after the optimal mud age of the heteropopulation to measure. The low growth rate of the specialized Microorganisms are required when dimensioning the reactor not be considered as a minimum factor.

Usually in the method according to the invention the necessary for the operation of the secondary flow biology Water taken from the wastewater inlet, i.e. that too clarifying wastewater is divided into one main stream and one Sidestream divided. If a wastewater inlet substances contains the growth of certain specialized Inhibit microorganisms, then it is not appropriate the necessary for the breeding of these specialists Take water from this inlet. In this case one is preferably on a different wastewater inlet dodge. If necessary, can also be clarified with enriched with the necessary nutrient substrates Wastewater used for the operation of the secondary flow biology will. The natural wastewater, even if it is with Nutrient substrates must be supplemented because of the better ones  Possibilities of adaptation of the microorganisms to the opposite given conditions compared to sterile nutrient solutions pulled.

For the cultivation of the specialized microorganisms in the Secondary flow biology is preferably a suspension freak gate, i.e. a totally mixed reactor used. Another preferred type of reactor is the biofilm freak gate. Also fixed bed, fluidized bed and floating bed reactors with special carrier materials can with good success be used.

The reactor or reactors selected are in the bypass operated under conditions that the growth of specialty favor favored microorganisms. In particular it may be appropriate to feed the sidestream reactor enriched with nutrient substrate for specialists. If the pH of the feed for the growth of the specialists is not optimal, then it is preferred to add it of acid or base to the optimal value.

The temperature in the bypass reactor is as possible on the optimal one for the growth of microorganisms Held high. Depending on the needs of the specialists the sidestream reactor is operated aerobically or anaerobically. In individual cases it can be useful to be aerobic and anaerobic Apply conditions alternately. This can be discontinuous Lich or using formwork in a row Reactors also take place in continuous operation. According to the invention, the operating conditions are essential in the reactors of sidestream biology in every conceivable way In terms of the growth needs of specialty adapted microorganisms.

The side-stream biology preferably shows in addition to the breeding reactors also on a thickener, in which the in  Biomass generated by-flow with specialized microorganism is thickened before it is added to the main stream becomes. This will also compensate for the swan the need for specialized biomass.

The biomass produced in the bypass with specialized Microorganisms become the activated sludge of the main stream bio logic added. Also in mainstream biology several reactors can be provided, which in succession from Main wastewater flow to be run. In this case are the respective specialized microorganisms metered in at the point (s) where this is from the process technically most favorable.

The invention also relates to a wastewater treatment plant tion of the method described above. The invent wastewater treatment plant according to the invention has in addition to a Hauptstrombiolo A bypass for the biological cleaning process biology for the cultivation of specialized microorganisms and a dosing device for the controlled transfer tion of the microorganisms from the sidestream biology in the main current biology.

In the following, the invention is explained in more detail with reference to the figure explained. In the figure is based on a flow diagram the inventive method using the example of biolo shown phosphoric elimination.

For biological phosphorus elimination in a clarifier the ability of a number of microorganisms for example from Acinetobacter sp., for uptake and Storage of phosphates used. The removal of the Phosphates from the wastewater treatment plant can be used in two different ways Wise. Either the excess sludge is removed men, i.e. the microorganisms supersaturated with phosphate  are removed from the wastewater treatment plant. Alternatively it is possible, the microorganisms supersaturated with phosphate transfer from aerobic zones to anaerobic reactors, in which the microorganisms reactivate the phosphates give up the water. From the water supernatant in these The phosphates can then be used in special anaerobic reactors be chemically precipitated. With the latter procedure the sludge freed from phosphates becomes wise again introduced into the main stream, i.e. it is recycling the Microorganism specialized in phosphate elimination nisms possible.

According to the figure, the wastewater inlet is introduced as a main stream into an activation tank 1 . From the aeration tank, the main stream is led to a secondary clarifier 2 . The clarified water is drained from the clarifier. A return sludge pump 3 is provided, which makes it possible to return part of the activated sludge to the activated sludge tank. The aeration tank 1 , the secondary settling tank 2 and the return sludge pump 3 together with the lines connecting them and the inflows and outflows are part of the main flow biology in the example shown in the figure.

The remaining details in the figure relate to the sidestream biology. The water for the operation of the secondary flow biology is removed from the wastewater inlet through line 7 and introduced into an aerobic reactor 4 by the pump provided in this line. The side stream is transferred from the aerobic reactor 4 to the anaerobic reactor 5 . It is passed on from the anaerobic reactor 5 to the thickener 6 . The thickened activated sludge with specialized microorganisms is added by the metering pump 8 as required to the inlet to the ventilation basin 1 of the mainstream biology. A return pump 9 enables biomass with special microorganisms to be returned from the anaerobic reactor 5 to the aerobic reactor 4 . A dosing station 10 is provided for substrate corrections and automatic control of the milieu conditions. Supernatant water is drawn off from the thickener 6 through the line 11 and passed to chemical phosphorus precipitation.

For the optimal development of phosphorus-storing microorganisms, for example Acinetobacter sp., The sequential change between aerobic and anaero conditions is particularly important. For example, it is beneficial if three hours under aerobic conditions are followed by five hours under anaerobic conditions. In the method according to the figure, the change between aerobic and anaerobic conditions in the context of a continuous mode of operation is ensured by the fact that the side stream is first passed through the aerobic reactor 4 and then through the anaerobic reactor 5 .

Alternatively, discontinuous operation of the Bypass flow reactor possible. In this case the reak gate filled first. After that there will be a time first long stirred under anaerobic conditions. Subsequently is ventilated for a while, i.e. the reactor is under operated aerobic conditions. After switching off the stirrer or aerator, sedimentation takes place. The abge biomass is put in the next reactor or in transferred the thickener.

The presence of readily degradable substances, for example acetate, is important for the multiplication of the phosphorus-storing microorganisms. If necessary, such substances can be added from the dosing station 10 via a dosing pump.

When cultivating Acinetobacter sp. it is harmful if nitrite or nitrate is present in anaerobic zone 5 . For this reason, the bypass water will only be removed through line 7 if the waste water inlet has a low nitrate and nitrite content. If this is not the case, the bypass water is taken from another source.

Inoculating the secondary flow biology with the desired specialized microorganisms can be introduced by of commercially available products or by adding of activated sludge from mainstream biology via the the normal activated sludge with special microorganisms enriched.

Typically, approx. 10 % of the absolute activated sludge volume of the main stream biolo generated and dosed as required. The specialized Biomass can be arbitrarily dependent in the bypass flow of the desired phosphorus elimination capacity Sewage treatment plant produced and metered into the main flow biology will.

The example described above makes it clear that it is possible through the bypass biology, optimal Growth conditions for example for Acinetobacter sp. to create in a sewage treatment plant. In a well-known Wastewater treatment plant it is not possible for an optimal This specialized microorganism requires growth conditions, such as the sequences change between aerobic and anaerobic conditions the presence of easily degradable substances such as  for example acetate and the absence of nitrite and nitrate in the anaerobic zone without the growth conditions conditions for other microorganisms, which are also important Perform partial steps of the entire cleaning process, to affect. This has the consequence that in the known ten sewage treatment plants the development of Acinetobacter sp. Population is more or less left to chance and as a result, the phosphorus eliminating ability is subject to large fluctuations. In contrast, it takes place in the inventive method, as above ge shows the growth of Acinetobacter sp. under control conditions. The phosphorus elimination ability gene can in a sewage treatment plant according to the invention on the the required level.

Claims (15)

1. A process for the biological treatment of waste water, characterized in that, in parallel to the biological purification process in a mainstream biology, specialized microorganisms are cultivated in at least one secondary stream biology and metered into the mainstream as required. 2. The method according to claim 1, characterized in that one Main flow and secondary flow by dividing a waste water electricity generated. 3. The method according to claim 1, characterized in that one Main stream and secondary stream from different wastewater sources len takes. 4. The method according to any one of the preceding claims, characterized characterized that one for breeding the specialized Microorganisms in the secondary flow biology suspension freak gates, fixed bed, fluidized bed and / or floating bed gates with special carrier materials and / or biofilm reactors used. 5. The method according to any one of the preceding claims, characterized characterized that one for the inoculation of the secondary flow biology uses external microorganisms and / or from the Mainstream biology takes sludge and through targeted Selection of the enrichment of the specialized microorganisms in bypass biology, doing this process can be repeated as needed.   6. The method according to any one of the preceding claims, characterized characterized in that the feed to the sidestream reactor with nutrient substrate for the specialized microorganisms enriches. 7. The method according to any one of the preceding claims, characterized characterized in that the feed to the sidestream reactor by adding acid or base to the for growth of the specialized microorganisms optimal pH value sets. 8. The method according to any one of the preceding claims, characterized characterized in that the temperature in the sidestream freak on the optimal for the growth of microorganisms Holds high. 9. The method according to any one of the preceding claims, characterized characterized in that one cultivates the microorganism men in the secondary flow biology aerobic and anaerobic conditions applies alone or alternately. 10. The method according to claim 8, characterized in that a change between anaerobic and aerobic conditions Continuously performed by bypassing series reactors conducts the anaerobic or operated aerobically. 11. The method according to claim 8, characterized in that one a change between anaerobic and aerobic conditions carried out discontinuously by taking the sidestream through a reactor which is sequentially anaerobic or is operated aerobically.   12. The method according to any one of the preceding claims, characterized characterized in that one generated in the bypass Biomass with specialized microorganisms before Dosing thickens to the main stream. 13. The method according to any one of the preceding claims, characterized characterized in that one generated in the secondary storm Biomass with specialized microorganisms for balance of fluctuations in demand. 14. The method according to any one of the preceding claims, characterized characterized in that the Bio produced in the sidestream mass with specialized microorganisms the activated sludge metered into the mainstream biology. 15. Wastewater treatment plant to carry out the process according to one of the preceding claims, characterized in that they a major current biology for biological cleaning process, a secondary current biology for breeding specia lized microorganisms and a dosing device for the controlled transfer of the microorganisms from the Shows secondary current biology in the main current biology.