NL8801898A - USE OF THE FINE FRACTION OF SEDIMENTS FROM WATERS. - Google Patents

Description

rT

> -1- VO 1176

Use of the fine fraction of sediments from waters.

Nowadays, people are increasingly confronted with the task of removing sludge from natural and / or artificial waters, and thereby removing the harmful sludge-like sludge extracted from water in various process steps and recovering reusable recycling products therefrom. It is known from German patent application P 36 200 700.4 to separate, separate and clean the sludge extracted from water in various process steps in such a way that as many components as possible can be fed to further processing. A drawback here is that this cleaning process produces a fine fraction of sand and gravel, which is no longer usable and hitherto had to be stored in landfills.

Another area of engineering purpose is, in particular for waste landfill manufacturing, to provide a durable large area artificial seal which can prevent environmentally harmful leakage from the landfill into the groundwater or deeper lying soil layers can penetrate and cause serious damage to the environment. So far, landfills have been constructed where the natural localities have the necessary water impermeability properties, thus homogeneous clay soils ensure the water-blocking effect. However, such natural soil conditions are rare. There is a need to use artificial seals which exhibit qualitatively equivalent properties to those of naturally active clay.

In addition to the water impermeability coefficient, such an artificial seal must be capable of absorbing, without damage, the mechanical loads which arise with an increasing filling of the landfill. Sufficient load-bearing capacity and stability with a simple construction should be guaranteed.

In view of this prior art, the object of the invention is to make possible, while avoiding the above-mentioned drawbacks, a use of the fine fraction remaining during the extraction of sludge from waters in recycling processes which are customary for duller processes. According to the invention, * 8801898-2-, the use of the fine fraction of mineral grains obtained in the purification process when sediments are extracted from natural and / or artificial waters, in particular with components up to 0.063 mm in size, is used as landfill soil and / or landfill surface sealing material with an average water permeability coefficient of at least ^ 1 = 10 x 10 m / s, the fine fraction being added by adding a sodium silicate conditioner and a stabilizing agent which is mechanically active has been prepared. In addition, the conditioning agent, due to its location in the fine interstices of the fine fraction of mineral grains, ensures the high sealing capacity and the stabilizing agent ensures the mechanical properties in terms of load-bearing strength and durability, while additionally enhancing the sealing effect in combination. Surprisingly, this achieves the result that when using material which has hitherto not been re-used, a bottom seal is provided which is comparable in performance to naturally occurring clay soils when used as landfill soil and / or landfill surface sealing material with a permeability coefficient. of k> 1 x 10 ^ m / s.

The conditioning agent is preferably a dry, flour-fine powdered or liquid sodium-water glass, which is mixed into the fine fraction in a ratio of between 3 and 7% by weight, in particular 5% by weight, and by chemical reaction at this application forms insoluble jellies with a high sealing effect. Advantageously, as a sealant, the use of a pore-filling clay flour, preferably a bentonite, in an amount of up to 30% by weight, is proposed, which clay flour for admixing of the conditioning agent is mixed well with the fine fraction. Another possibility, which can also be used in combination, consists in providing use as a stabilizing agent of natural sands or the like from construction rubble processing and / or slag and material from grooves, in particular in an amount between 25 and 65 wt. %. Hereby simple and economical workability is achieved with good compressibility, mechanical load-bearing capacity and an enhancement of the sealing effect.

A soft jelly former may be added to the conditioner to adapt to special sealing conditions. „8801898 *

It is advantageous to additionally add lime to the fine fraction as a stabilizing agent.

In the preferred embodiment of the invention, as a landfill soil and / or landfill surface sealing material with an average water transmission coefficient of at least k = 1 x 10 m / s, a fine fraction is used, to which 5% by weight sodium silicate in dry, fine powder form as a conditioning agent and sand from construction rubble processing as a very granular material with a space-consuming pointed grain with a high impact and shear strength as a stabilizing agent in an amount between 50 and 65% by weight, as well as small amounts of clay flour as hydraulic binder are mixed. This provides a water-resistant sealing material, which can only be leached to a very small extent even by contaminated, for example, hydrocarbons or heavy metal-containing bulk materials.

The mixture according to the invention satisfies all requirements mechanically and in terms of durability, whereby optimisations and adaptations to the conditions of the construction site can be made in each case by meticulously dosing the additives. Thus, the applicability of a fine fraction of the processed water sediment conditioned and stabilized according to the invention for surface sealing of large landfill surfaces along the bottom as well as the slope and the landfill cover as a replacement for strongly clay-containing loam or clay layers on made economically possible.

Further details, features and advantages of the subject-matter of the invention will be apparent from the following description of the accompanying drawing, which shows a diagram for the method of river desludging with the application according to the invention.

The flowchart of the drawing shows an overall process with the associated devices for cleaning, in particular, polymers, suspended matter, phosphates and / or COD-contaminated water and for treating sludge extracted from the water for cleaning.

The device consists of a cutter piston 1 as a removal device for the sludge from a natural or artificial water. The cutter suction dredger 1 is combined with a stone catcher basket 2, which, for example, has a mesh size of 100 mm and thus catches larger components than 100 mm.

; 8801898, * * -4-

The dredging mixture is fed to a first separating stage consisting of a sieving cyclone 4, a washing drum 5 and a two-way vibration classifying bin 6, while a mixing regulator 3 is supplied for the supply to the device. In the first separation step, the inorganic and organic coarse components above a size of, for example, 6 mm are separated from the fine components with a size of less than 6 mm. In the sieving cyclone 4, a preliminary water separation takes place and the coarse components larger than 6 mm are pre-sieved, so that fine parts smaller than 6 mm (fine sludge) 10 are fed via a pipe 8 together with pre-separated water to the vibration classification vessel 6. The solid slurry with the coarse components pre-dewatered in the sieve cyclone 4 is fed to the washing drum 5, which is provided with separations, via an underflow 9. These cause a separation of the coarse organic constituents (wood, roots, etc.) from the coarse inorganic constituents (stones, pebbles, sand, etc.), the emissions from the washing drum 5 separated via the conduit 10 (organic constituents) and the line 11 (inorganic constituents) takes place.

The vibration classifying bin consists of two tracks, so that light materials can be discharged to a holder 12 via a pipe. Inorganic constituents> 2.5 mm reach the pebble storage 13 via a second path.

The coarse constituents are stripped of the fine organic parts on the tracks of the vibration classifying bin 6 by multiple reciprocating. These organic components can be fed from a container 12 together with the separated wood parts and the roots to a combustion for energy recovery or to a composting. The pebble from the pebble storage 13 can also be reused.

The inorganic and organic fine constituents with a size of less than 6 mm are supplied as suspension in a multicyclone 15 by means of a transport pump 14. In this cyclone installation 15, sand is deposited between a minimum size of 0.063 and 6 mm. A heavy turbidity sorter 16 is connected to the cyclone installation with a water supply 17, which sorter supplies the cleaned sand to a sand storage 19 via a crank dewatering device 18. The filtrate water from the crank dewaterer 18 is supplied to the vibrating classifier via a line 20.

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The fine mineral constituents with a size of less than 0.063 mm, which cannot be separated in the cyclone plant 15, as well as the organic fine constituents are fed via lines 21 (mineral turbidity) and 22 (organic turbidity) to a pre-basin 23, to which a compression thickener 24 connects. From there the further transport takes place by means of a transport pump 25 via a line 27 to a sieve belt press 26, which forms the third separating step to cyclone 15 as a second separating step.

In the sieve belt press, filtrate water is separated from the fine fraction of the sludge concentrate and fed through a filtrate water line 28 to a further treatment in a lamella purification plant 29. From this the sludge concentrate passes through a return flow line 30 to a compression thickener 24 and from there via the pump 25 to the sieve belt press 26.

The waste water obtained in the lamellar purification plant 29 gets through a filtration 31 into the drainage channel 32.

The fine fraction of mineral granules obtained in the sieve web press with components in a size range of up to 0.063 mm is fed to a use as landfill bottom and / or landfill surface sealing material. In order to provide the mechanical properties as well as the sealing properties as required, a conditioning agent and a soil mechanically acting stabilizing agent are mixed with the fine fraction. The conditioner is 5% by weight sodium silicate in dry, powdery powder form. It is commercially available as a "water glass" and causes a mixture in the cavities in the mixture, whereby a gel-resistant mass is obtained by jelly formation, which guarantees a transmission coefficient k = 1 x 10 µm / s.

As the stabilizing agent, fine-grained sand from construction rubble processing is added in an amount of up to 65% by weight. This improves the mechanical compaction and processability of the conditioned fine fraction by improving the soil mechanical shear strength. In combination with water glass as a conditioning agent, it leads to a further increase in the water impermeability of the total mixture.

Furthermore, for the further stabilization and reinforcement of the mixture, clay flour may additionally be mixed in an amount of about 5-30% by weight. The fine fraction thus prepared is mechanically compressible and has K values of up to 5 x 10 m / s.

In addition, lime can be added to the conditioned and stabilized fine fraction to improve the hydraulic bonding properties.

The new material obtained in this way can be used as an artificial sealing of landfill bottoms and landfill covers, since it makes it possible to produce sealing layers with good sealing properties over large areas in a simple manner, while also obtaining the necessary load-bearing properties. The sealing layer thus produced is resistant to chemical substances and resists the liquid leakages occurring in a landfill. Any threat to the soil areas, especially groundwater, located under the sealing layer has been avoided. Finally, due to its easy manufacture, sealing can also be retrofitted to existing landfills or unprotected industrial sites.

c8801898

Claims (7)

1. Use of the fine fraction of mineral grains obtained in a purification process from natural or artificial waters, in particular with constituents with a size up to 0.063 mm, as landfill soil and / or landfill surface sealing material with an average water permeability coefficient of at least k ^ = 1 x 10 ^ m / s, the fine fraction having been prepared by adding a sodium silicate conditioning agent and a stabilizing agent which is mechanically active. 2. Use according to claim 1, characterized in that the conditioning agent is a dry, flour fine powdered or liquid sodium water glass, which in the fine fraction in an amount of between 3 and 7% by weight, in particular 5% by weight. .%, is mixed. 3. Use according to claims 1 and 2, characterized in that the stabilizing agent is a pore-filling clay flour, preferably a bentorite, in an amount of up to 30% by weight, which before mixing the conditioning agent well with the fine fraction is mixed. Method according to any one of claims 1 to 3, characterized in that, individually or in connection with clay flour as a sealant, natural sands or the like from construction rubble processing and / or slag and material from grooves, in particular in a amount between 25 and 65% by weight as stabilizing agent in the fine fraction is mixed. Use according to any one of claims 1 to 4, characterized in that a plasticizer is added to the conditioning agent. 6. Use according to any one of claims 1 to 5, characterized in that lime is additionally added to the fine fraction as binder. Use of a fine fraction as a landfill bottom and / or landfill surface sealing material with an average water permeability coefficient of at least k ^ = 1 x 10 ^ m / s according to any one of claims 1-6, characterized in that the fine fraction 5 wt.% sodium silicate 50 in dry, powdery powder form as a conditioning agent and sand from construction rubble processing as a very granular material with a lot of space-consuming pointed grain with a high impact and shear strength as a stabilizing agent in an amount between 50 and 65 wt.% as well as small amounts of lime and clay flour are added as hydraulic connecting agents.