DE3442535A1 - Process for treating the supernatant water from faecal sludges, in particular from domestic sewage treatment plants - Google Patents

Abstract

A process is proposed which is suitable for treating the supernatant water from faecal sludges, in particular from domestic sewage treatment plants. In order to be able to supply the effluent to an outfall, a mechanical preclarification in a sludge tank is followed downstream by a biological treatment stage having an intermediate simultaneous phosphate precipitation and a nitrification stage.

Description

The invention relates to a method for cleaning the over-

standing water from faecal sludge, in particular from domestic sewage treatment plants.

Due to the stricter provisions of environmental protection and the Waste Disposal Act the proper disposal of the faeces from small sewage treatment plants is becoming more and more difficult. A deposit on agriculturally used areas is permitted according to §§ 1, 2 and 15 of the Waste Disposal Act is no longer possible.

There are a number of rural areas that have sewers for the discharge of wastewater from households is missing. The fecal sludge must then extracted from domestic sewage treatment plants and fed to municipal sewage treatment plants. Here however, the difficulties that must be taken into account when introducing 'in communal Sewage treatment plants can arise. Often a direct introduction is the concentrated one Faecal sludge in municipal sewage treatment plants is not possible, as this causes the biological The balance of the plant can be significantly disturbed.

The present invention is based on the object of one possibility the cleaning of the excess water from faecal sludge, especially from domestic sewage treatment plants to accomplish.

This task is accomplished by combining the characteristics of the characteristic Part of the main claim solved.

Intensive development was required to solve the problem Finally, a procedure that complied with the official approval was in place. In particular it was only possible through the combination of a mechanical, a biological and a chemical one Cleaning stage as well as a nitrification stage achieve an optimal result, so that the wastewater can be led into a weak receiving water without hesitation can, d. H. Receiving waters with very little water flow. Only through the inventive It has become possible to concentrate in a sewage treatment plant: faecal sludge edit so that the excess water ge purifies the receiving water fed back can be.

The individual procedural steps are listed below with the indication further advantages explained in detail using an exemplary embodiment.

The faecal sludge supplied to the sewage treatment plant is handled by the Spezial First drive a mud basin over a led to the Bos of the mud basin Filling pipe fed. The mud basin has a capacity of approx. 6,000 in3. This serves as a collecting and buffer basin, as well as a mechanical pre] tion to settle coarse parts or to hold back against floating sludge.

According to a preferred embodiment, the mud basin a withdrawal basin with a capacity of approx.

1,600 m3 downstream, with a Mönch connection between the two basins separates. This extraction basin serves for the further separation of heavier ones in the bottom area substances from the remaining wastewater, d. H. for spatial separation from the sludge basin and biological level. There the protruding Water removed in doses and fed to the biological stage for further treatment. In addition, some of the in subsequent stages of already treated wastewater instead. This already takes place Partial breakdown of the ammonium nitrogen contained in the wastewater.

The biological downstream of the sludge basin or extraction basin The step for cleaning the supernatant water is used to remove dissolved organic Substances. The biological cleaning takes place in the classic way via the relevant known procedures. According to the invention, either by means of a plastic-filled Lightweight trickling filter or worked by means of a roller immersion filter. In which the former case, the sewage trickles through a round open top and bottom Container through a poured lump mass, consisting of hard slag, lava slag, Coke or plastic moldings. Replica forms on the surface of these chunks a lead time of approx. 3 weeks a slimy coating, the so-called. biological turf, which consists predominantly of bacteria, fungi and protozoa. Solved and colloidally distributed organic substances in the wastewater are adsorbed there and from the organisms aerobic, d. H. degraded under the action of oxygen. The rinsed Parts of the biological lawn are then separated off in a secondary clarifier.

The secondary clarifier downstream of the trickling filter has a capacity of 350 m3. Since a continuous loading of the trickling filter is necessary, especially then if no wastewater flows in from the sludge pond, a return pump i Put into operation, which makes it possible to take waste water at the end of the secondary clarifier and feed this to the inflow to the trickling filter.

Can be used as an economical alternative to biological cleaning Roller plungers can be used. This roller immersion head works in principle in the same way as the trickling filter, but the lump mass poured into cylindrical cages rotates. For example, two rollers, diam 2 m, length 2 m, settlement area ~ 2160 m2. A secondary clarifier is used for the roller immersion bodies downstream with a volume of approx. 350 m.

To achieve a good rate of degradation of organic matter this In addition to a good mechanical pre-treatment, the biological stage includes elimination of oils # and greases required. This is done via a diving wall between mud pools or withdrawal basin and biological stage.

The advantage of using the trickling filter method according to the invention lies inter alia also in the fact that even very small amounts of wastewater can be treated, which in the present case do not occur continuously. Next to it is the space requirement low and easy to maintain. The rate of degradation of organic substances can be up to to be 95%.

The flakes produced during the biological cleaning stage are dead colonies of microorganisms that are dissolved through their metabolism or convert colloidal organic compounds, d. H. to breathe in or to synthesize Use native substances.

According to the trickling filter method within the biological Purification stage a device for the simultaneous precipitation of those contained in the wastewater Phosphates installed. This is done by the fact that after the roller immersion bodies a Dosing of precipitants is provided.

In the intermediate chemical stage, metering is used from commercially available flocculants, especially phosphate, as well as one Formation of flakes for the separation of non-settling suspended matter and colloidally dissolved Substances favored. Iron (III) chloride sulphate solution is used as a flocculant.

According to the invention, the biological cleaning stage is combined with chemical precipitation is followed by a nitrification stage, which breaks down ammonium -Nitrogen and nitrite nitrogen is used. According to an official requirement is it is necessary that the ammonium nitrogen content in the sewage treatment plant deposited 2-hour mixed sample t is 2 mg / l.

This is achieved in the nitrification stage.

The nitrification stage consists of a round basin with a> 9 Compressed air ventilation system and a downstream clarification tank. The compressed air system consists of a soundproof encapsulated rotary piston blower and one on the bottom of the pool arranged aerator gallery, through which the compressed air in fine bubbles into the wastewater is entered.

In addition, there are foam cubes (edge length approx. 1 cm) as Carrier material for the nitrifying bacteria in the pool, which is approx. 35% of the pool volume.

The nitrifying bacteria remain practically completely on the Adhere to the carrier material. In addition, the foam cubes work for those out of the Aerator gallery escaping air bubbles as baffles, which is beneficial to the Oxygen yield value affects. To achieve the required nitrification, # ü must two essential requirements are met: 1. The wastewater should at least have a temperature of approx. 10 C or above.

2. The pH value must not be below 7.

To prevent the pH value from dropping too low and to reduce the nitrite and nitrate content through denitrification in an upstream nitrification stage To reduce the O-free zone, a pumping station with a pressure line containing nitrate is planned Wastewater from the exit of the nitrification stage in the withdrawal basin, which is called Oxygen zero zone can be designated to initiate. The required pumping station this is located between the nitrification basin and the associated secondary clarifier. In order to empty the basin during the standstill of the waste disposal site, e.g. B. in To avoid winter, the fan is equipped with a pole-changing motor. When switching to the low speed, only that much air is passed through the circular tank driven that the aerobic state is maintained.

The secondary clarifier downstream of the nitrification tank has the Task to hold back any settable substances before the wastewater finally cleaned according to official requirements, leave the sewage treatment plant can and is fed to the receiving water. Testfiscl that serve as an indicator of good cleaning performance.

In terms of process technology, the plant consists of the following stages: 1. Primary treatment: - Sludge basin V = 6000 m3 - Removal basin V = 1600 m3.

2. Biological stage with subsequent phosphate precipitation: - Roller immersion drip V = 12 m3, A = 2160 m2 - phosphate precipitation with dosing device - secondary clarifier V X 350 m3 3. Nitrification and denitrification: - Round tanks with aeration device and carrier material - pump shaft for partial extraction for denitrification - secondary clarifier.

Claims (8)

amtl. Bez .: Process for cleaning the supernatant water from faecal sludge especially from domestic sewage treatment plants "CLAIMS 1. Process for cleaning the excess water of fecal sludge, in particular from domestic sewage treatment plants, characterized by the Combination of features - that the faecal sludge is fed to a primary treatment consisting of a sludge basin serving as a collecting and settling basin - That in a subsequent biological purification stage with a downstream Secondary clarifier, mechanical secondary clarifier 0. Like. A biological degradation of organic substances takes place, with this purification stage is preferably interposed by simultaneous phosphate precipitation is - that the biochemical cleaning stage is a nitrification stage for The breakdown of ammonium nitrogen and nitrite nitrogen is downstream, - that the wastewater passes through a second secondary clarifier, mechanical secondary clarifier, etc. Like. The receiving water can be fed. 2. The method according to claim 1, characterized in that the sludge basin a withdrawal basin is connected downstream. 3. The method according to claim 2, characterized in that between the sludge basin and the withdrawal basin an overflow in the shape of a monk, between the extraction basin and the biological cleaning stage as well as the secondary clarifier the biological purification stage and the nitrification stage each have a baffle are. 4. The method according to claim 1 or 2, characterized in that the biological cleaning stage in the trickling filter process by means of roller immersion bodies odet Trickling filter takes place and that when performing the biological purification stage by means of a plastic-filled lightweight trickling filter a recirculation line from Secondary clarifier of the biological stage is provided for the inlet of the lightweight trickling filter is. 5. The method according to one or more of claims 1 to 4, characterized characterized in that in the, the biological stage interposed simultaneous Phosphate precipitation by adding a chemical precipitant increases flocculation non-settling suspended matter or colloidally dissolved substances as the phosphates contained in the wastewater precipitate. 6. The method according to one or more of the preceding claims, characterized in that the sludge from the sludge basin is conditioned, mechanically is drained and sent to an orderly landfill or disposed of in some other way, with the filtrate water from the drainage to the water cycle of the sewage treatment plant is fed. 7. The method according to claim 2, characterized in that the removal basin nitrite wastewater from the exit of the nitrification stage to carry out a Denitrification is supplied. 8. The method according to claim 1, 2 or 3, characterized in that the nitrification stage from a round basin with a pressure ventilation system and foam cube filling as a carrier material for bacteria as well as a downstream clarifier.