DE19520399A1 - Process and device for the treatment of waste water from wet dedusting from shredder systems - Google Patents

Abstract

A process and device for the treatment of waste water from the wet dedusting of shredders ensure the environmentally acceptable removal of the foreign substances in a substantially continuous waste water circuit. For this purpose the waste water circuit is first treated to separate coarse foreign substance components, whereafter fine, sedimenting foreign substances and the buoyant and non-buoyant substances are separated and finally a dewatered material with a relatively high dry substance content of >55 % is produced, the continuous circuit consisting of a main (8) and a second circuit (9).

Description

The invention relates to a method and a device for treating waste water from wet dedusting from shredder systems for the disposal of the contained in the waste water foreign substances.

Such methods and devices are known in which the wet foreign matter is directly are separated from the other shredder fractions after they are incurred. The Foreign matter is collected as sludge in a container, possibly one Drying section fed and disposed of as dried material.

In practice it has turned out to be disadvantageous that after these process steps the the water remaining in the plant still contains high levels of foreign matter.

The invention has for its object to provide a method and a device by means of a qualitatively improved preparation in a coherent cycle of the wastewater to ensure environmentally friendly disposal of the foreign substances.

According to the invention, this object is achieved by the method steps of claim 1 Claims 2 to 5 and by the features of claim 6 with the claims Chen 7 to 12 solved.

Thus, the invention advantageously allows an energy and environmentally conscious treatment of like waste water with disposal of foreign substances, which can be used inexpensively.

The invention is illustrated below with the aid of a drawing with a schematically represented direction configuration explained.  

The device consists essentially of a wet dedusting system 1 arranged sieve 2 , a hydrocyclone 3 , a flotation system 4 and a drainage device 7 . A collecting container 5 is assigned to the sieve 2 . With a corresponding composition of the waste water, it may be expedient to provide a line, not shown, from the screen 2 for the removal of foreign matter to the collecting container 6 . The hydrocyclone 3 and the flotation system 4 are connected to a further collecting container 6 . The drainage device 7 is assigned to the collecting container 6 and is preferably designed as a press.

According to the invention, a main circuit 8 for the waste water is formed between the wet dedusting plant 1 via the sieve 2 and the hydrocyclone 3 and the flotation plant 4 .

The hydrocyclone 3 , the flotation system 4 and the collecting container 6 have a connection to the drainage device 7 that is essential for the invention. A second circuit 9 between the dewatering device 7 and the wet dedusting system 1 represents the third feature relevant to the invention, the main circuit 8 and the second circuit 9 being a functional unit for an essentially coherent, closed circuit for the waste water.

The process flow according to the invention provides that first in the wet dedusting system 1 waste water in the sieve 2 for separating relatively coarse constituents, such as. B. fibers and lint, and then the separated components are fed to the collecting container 5 . Here, at the beginning of the process steps, the screen 2 is used as a dynamic dewatering and classifying screen without mechanically moving parts for a process-influencing start effect in order to determine the efficiency of the entire process from the outset. From a water discharge of the screen 2 , not shown, the wastewater treated in this way is led to the hydrocyclone 3 for the separation of fine, sedimentable foreign matter, while the foreign matter load is reduced by up to 60% of the foreign matter contained.

The separated constituents then enter the collecting container 6 as cloudy. This effect of reducing the foreign matter load by up to 60% advantageously combines the effect of the first, previously described process step in the sieve 2 , where the fiber / lint-like components have already been removed.

After the third process step according to the invention, the wastewater which has been freed from foreign substances is fed to the flotation plant 4 . This removes further foreign matter, after which the foreign matter load is completely minimized. Here, who carried the parts of the foreign substances by the flotation to the surface of the waste water level and fed from there to the collecting tank 6 as foam. The non-floatable components sink, are drawn off and fed to the collecting tank 6 as sludge, where the purified waste water with a dry substance content of less than 1 g / l is returned to the wet dedusting system 1 in the main circuit 8 . This result surprisingly results from the combination effect described above, since this value cannot be achieved by conventional flotation due to the chemically and physically different foreign substances in the waste water. The three process steps culminate in a new effect, namely the reduction of the dry matter content in the wastewater to less than 1 g / l.

Only due to this treatment does the final fourth process step enable the foreign substances which are likewise separated and located in the collecting container 6 in the z. B. Press 7 to drain so that a dewatered material 10 with a relatively high dry substance content of <55% TS, even proven in experiments to almost 80% TS can be produced. Products of this type can be disposed of directly without further after-treatment and comply with the legal regulations. The method according to the invention concludes by the fact that from the z. B. Press 7 accruing waste water to the second circuit 9 and in turn the wet dedusting system 1 is supplied.

Practically, it has been shown that the hydrocyclone 3 is particularly efficient in the course of these process steps if a high load of relatively light, but sedimentable foreign substances is contained in the waste water. This means that, depending on the contamination of the wastewater, there is no need to interpose a hydrocyclone 3 and the procedure is as defined in claim 2.

It is also possible to separate further foreign substances after the flotation.

In addition, under certain circumstances, sedimentation and / or flocculants can be added to increase the degree of treatment. The functional unit of the essentially coherent, relatively closed circuits 8 , 9 thus permit energy-saving, environmentally compatible wastewater treatment of generic processes when producing a product which, with regard to its dry substance content, enables disposal in accordance with the legal regulations and, if appropriate, also permits thermal recycling.

Reference list

1 wet dedusting system
2 sieve
3 hydrocyclone
4 flotation plant
5 collecting containers
6 collecting containers
7 Drainage device
8 main circuit
9 second circuit
10 drained material

Claims (12)

1. Process for the treatment of wastewater from wet dedusting of shredder plants by means of separation and dewatering of the foreign substances in an essentially coherent cycle of the wastewater, characterized by the procedural steps

• a) Acting in a wet dedusting system ( 1 ) accumulating waste water in a sieve ( 2 ) for separating coarse constituents, such as. B. fibers and fluff, and feeding the separated foreign matter components to a collecting container ( 5 ),
• b) Continuation of the wastewater purified in this way, if necessary, to a hydrocyclone ( 3 ) for separating fine, sedimentable foreign matter and reducing the foreign matter load by up to 60% of the foreign matter contained, and feeding the separated foreign matter constituents as sludge to another collecting container ( 6 ),
• c) forwarding of the wastewater treated in this way, if appropriate, to a flotation plant ( 4 ) for the separation of further foreign substances, wherein
• - the freight of foreign substances is completely minimized,
• Parts of the foreign matter are carried to the surface of the waste water level by flotation and from there are fed to the collecting container ( 6 ) as foam,
• - The non-floatable foreign substances sink, are withdrawn and fed to the collection container ( 6 ) as sludge and
• - The cleaned wastewater with a dry matter content of less than 1 g / l is returned to the wet dedusting system (I) in a main circuit ( 8 ),
• d) dewatering the foreign substances separated from the process steps a) b) and c) and fed to the collecting container ( 6 ) in a device ( 7 ) and producing a dewatered material ( 10 ) with a relatively high dry substance content of <55% TS, the can be disposed of or recycled directly without further after-treatment,
• e) supplying the waste water from the device ( 7 ) in a second circuit ( 9 ) to the wet dedusting system ( 1 ).

2. The method according to claim 1, characterized in that the process steps b) and c) are combined in a uniform separation plant such as flotation plant ( 4 ). 3. The method according to claim 1 and / or 2, characterized in that a dewatered material ( 10 ) with a dry matter content of almost 80% TS is generated. 4. The method according to claim 1 and / or 2, characterized in that after flotation other foreign substances are separated. 5. The method according to one or more of claims 1, 2 and 4, characterized characterized in that to increase the degree of preparation at least one of the Process steps sedimentation and / or flocculants are added. 6. Device for carrying out the method, which is connected to a scrubber of a wet dedusting system from shredder systems, consisting of a sieve, optionally a hydrocyclone, a flotation system and a dewatering device, characterized in that

• a) the main circuit ( 8 ) for the wastewater cleaned in accordance with the process is formed between the wet dedusting plant ( 1 ) via a sieve ( 2 ), optionally a hy drocyclone ( 3 ) and a flotation plant ( 4 ),
• b) between possibly the hydrocyclone ( 3 ), the flotation system ( 4 ) and the collecting tank ( 8 ) there is a connection to a dewatering device ( 7 ),
• c) a second circuit ( 9 ) after the dewatering device ( 7 ) for the Naßentstau treatment plant ( 1 ) for the waste water after the generation of the dewatered material ( 10 ) and
• d) main circuit ( 8 ) and second circuit ( 9 ) form a functional unit for the sequence of the process steps.

7. Device according to claim 6, characterized in that the main circuit ( 8 ) without the hydrocyclone ( 3 ) is formed. 8. Device according to claim 6 and / or 7, characterized in that the bow sieve ( 2 ) of the collecting container ( 5 ) for the separated coarse foreign matter, such as. B. fibers and lint is assigned. 9. Device according to one or more of claims 6 to 8, characterized in that the curved screen ( 2 ) has a line for the removal of foreign matter to the collecting container ( 6 ). 10. Device according to one or more of claims 6 to 9, characterized in that the drainage device ( 7 ) is assigned to the collecting container ( 6 ). 11. The device according to claim 6 and / or 10, characterized in that the drainage device ( 7 ) is a press. 12. The device according to claim 6, 8 and / or 9, characterized by the use of a sieve ( 2 ) consisting essentially of a feed device, an arcuate sieve arranged below for the lateral discharge of the solids and a continued discharge in the feed direction.