DE3717884A1 - Arrangement for retaining the pollutants from pollutant-containing landfill leachate waters - Google Patents

Abstract

To retain pollutants from landfill leachate waters, it is proposed to assign an adsorption layer (6) to a sealing layer (2) of mineral sealing materials, e.g. clay minerals, which adsorption layer contains materials at least in the form of additives, which are able to bind, by physical and/or chemical adsorption, pollutants contained in the leachate water. In the case of very slow flow through a layer of mineral sealing materials, such as corresponds to a percolation process or diffusion, it is possible to remove the pollutants from the leachate water onto the solid body and thus to retain them. The essential advantage of the invention is that by these adsorption processes, the permeability of the total system is decreased with increasing age and therefore the sealing action improves in geological time periods. <IMAGE>

Description

The invention relates to an arrangement for retaining the Pollutants from landfill leachate containing pollutants according to the preamble of claim 1 and the Construction of a landfill according to the generic terms of Claims 12 and 13.

In the case of landfills, in particular hazardous waste landfills, there is Requirement that the pollutants contained in the landfill body must not enter the biosphere. The landfill body is therefore provided with a landfill seal that be as dense as possible, i.e. avoid any harmful substances let the landfill leak. Technically, this will be Task so far through sealing layers made of mineral Sealing materials, mostly clay minerals, solved the one complete sheathing of the landfill body so as not to form only contained or formed approximately in the landfill body Withhold leachate, but also the ingress of To prevent precipitation in the landfill body.

Sealing layers made of mineral sealing materials can, technically speaking, be dense for short periods of time to be viewed as. In view of the fact that waste in the Landfills, however, are stored permanently, for eternity are not short, but geological, so very to consider long periods of time. Playing in such periods also the absolute amount of one by diffusion through the Landfill sealing through and out of the landfill Leachate plays a major role. The use of Combination seals made of mineral Sealing materials and sealing foils made of plastics brings for the short periods mentioned from 30 to 50 years higher tightness; but you forget mostly that after that time the organic matter existing film due to changes in fabric  Loses sealing effect.

Accordingly, the invention has for its object a Possibility to create the leakage of leachate containing pollutants from landfills also for prevent geological periods.

According to the invention, this object is achieved through the features of characterizing part of claim 1 solved.

Advantageous further developments result from the Subclaims.

The invention is based on the knowledge that mineral sealing materials made of solid (soil) exist due to its structural structure Has pore spaces, some with gas (pore air), some are filled with liquid (pore water). Between these Phases exist under the natural external conditions an apparent chemical stability that is only long-term disrupted by geological transformation processes (weathering) becomes. When using mineral Sealing materials for landfill sealing are advancing especially under the effect of dynamic pressure Landfill leachate very slowly into the sealing layer and displaces the pore air there or replaces it Pore water.

At the boundary between two phases, e.g. between the Landfill leachate and the surface of the soil particles, a transition area is formed (phase border area) from that under the influence of the electrostatic forces of the Molecules of the solution and the solid body stands. Depending on The type and properties of the solid phase are identified Enrichment of ingredients in the liquid phase at the Surface of the solid body instead, which is commonly called  Adsorption is called. Depending on the type of binding dissolved particles on the molecules of the solid one differentiates between the physical and the chemical adsorption. With physical adsorption ions or molecules of the solution are mainly caused by Van der Waals forces are bound to the solid body; they has the character of wetting or condensation the surface of the solid body. In contrast to that in chemical adsorption the determination of the in the Solution dissociated ions by more or less polar Bonds with the ions of the solid body.

In the further realization that landfill leachate is not completely, but only the pollutants it contains must be withheld, the invention makes this Processes of physical and chemical adsorption in the Way to use that with such a slow flow a layer of mineral sealing materials, such as it corresponds to a seeping process or diffusion that Pollutants contained in the leachate through this Adsorption withdrawn on the solid body and so be held back. Depending on the type, thickness and Composition of such an adsorption layer can basically all types of pollutants be held back.

The importance of those adjacent to the adsorption layer Sealing layers for the adsorption layer are present especially in the control of the Flow or leakage. This can be a task Sealing layer meet both when in Seen in the flow direction lies in front of the adsorption layer, as well as behind this.

A major advantage of the invention is that through these adsorption processes the permeability of the  Overall system is reduced with age, which Sealing effect improves and not, as with the known combination seals change over time worsened.

The invention will now be described with reference to the drawing explained. It shows

Fig. 1 shows a cross section through the bottom area of a formed according to the invention landfill sheath,

Fig. 2 is a cross section corresponding to FIG. 1 with a different layer arrangement and

Fig. 3 shows a cross section through a landfill.

In the cross section of Fig. 1, the lower region of a dump body 1 is schematically indicated that on a seal layer 2 of mineral sealing materials, such as a clay mineral, rests. A backwater level 4 has formed above the sealing layer 2 , be it through water formed in the landfill body or be it through precipitation, which is symbolized by arrows 3 , which acts on the sealing layer 2 with a certain back pressure (arrows 5 ). The precipitates 3 can in turn be contaminated by pollutants, which was attempted to indicate by two different symbols "x" and "o" .

An adsorption layer 6 is located below the sealing layer 2 . The adsorption layer 6 consists in the illustrated embodiment of two layers, namely an upper layer 6 'and a lower layer 6 ''. Below the adsorption layer 6 is the normal soil 7 with the groundwater level 8 .

From Fig. 1 it can now be seen how, as a result of the dynamic pressure acting on the sealing layer 2 (arrows 5 ), slowly polluted leachate (arrows 9 ) slowly penetrates into the sealing layer 2 and seeps through it, the - controllable - permeability of the sealing layer 2 the passage can be regulated. The leachate then penetrates into the top layer 6 'of the adsorption layer 6, where part of it is retained ( "x") of the pollutants, and then in the lower layer 6', in the other, where appropriate, other pollutant components' of the adsorption layer 6 ( " o ") are withheld. The leachate (arrows 10 ), which then has only low, harmless concentrations of pollutants, then escapes into the soil and enriches the groundwater 8 .

The type, thickness and arrangement of the sealing layer 2 and the possibly multi-layer adsorption layer 6 depend on the types and quantities of pollutants to be expected. The number of layers of the adsorption layer 6 , if different adsorber materials are to be used in the individual layers, depends on the types of pollutants to be expected, while the thickness of the layers is an estimate of the quantities of pollutants accumulating for a given period of time. It must be taken into account that the absolute tightness of the layer packs is considerably increased during the adsorption processes. This type of sheathing cannot lead to the well-known and feared increase in permeability due to rinsing processes or chemical aging, such as, for example, in the case of film.

The composition of the adsorption layer 6 or the individual layers 6 'and 6 ''of this layer depends on the type of pollutants. Mineral sealing materials, in particular clay minerals, to which the adsorber materials are admixed will probably essentially be used again. For example, a layer of a mixture of a clay mineral, such as bentonite, and calcium hydroxide can be used to remove heavy metals. For the adsorption of organic substances, for example, mineral mixtures can be used, to which certain microorganisms are admixed, which enable the adsorption of organic substances such as oils, PCB (polychlorinated biphenyls) and other substances.

FIG. 2 shows a different layer sequence of an arrangement according to the invention in a cross section similar to FIG. 1 . Here is the sealing layer 2 made of mineral sealing materials, for example from a clay mineral, between two filter layers 13 , for example from filter mats, embedded below the adsorption layer 6 , which in turn is separated from the landfill body 1 by an intermediate layer 11 made of rolled material, such as sand .

Similarly as in connection with FIG. 1 described here emerging from the landfill body 1, strongly polluted drainage water penetrates (arrows 12) through the sand layer 11 passes directly into the adsorption layer 6 a, in which two layers 6 'and 6' 'the pollutant retained by adsorption. Since the actual sealing layer 2 , the permeability of which will usually be lower than that of the adsorption layer 6 , is here below the adsorption layer 6, there will be a certain dynamic pressure (arrows 5 ) here above the sealing layer 2 , in the adsorption layer 6 , but possibly already Build up above the adsorption layer 6 .

As indicated in connection with the arrows 9, leakage water which is only slightly contaminated in harmless concentrations passes through the sealing layer 2 , which then (arrows 10 ) emerges from the lower filter layer 13 and enriches the groundwater, the level of which is again indicated at 8 .

In Fig. 3 is shown in a cross section through a landfill the structure of its casing from a layer sequence according to the invention.

In this landfill, the casing 21 initially consists of a sealing layer 23 which completely encloses the landfill body 22 and is made of a mineral sealing material, for example a clay mineral. In the area of the sole 24 and the embankments 25 , a first adsorption layer 26 'and a second adsorption layer 26 ''follow the sealing layer 23 , which are applied to the correspondingly prepared pending soil 27 . The adsorption layers 26 ', 26 ''are assembled and constructed in the manner described above in connection with Fig. 1. The sealing layer 23 is pulled in the upper region over the upper edges of the adsorption layers 26 ', 26 ''( 28 ) in order to also cover these.

A further possibility of the invention is indicated in FIG. 3 in that in the area of the sole 24 of the casing 21 there is a drain layer 29 below the sealing layer 23 , which is connected to a special adsorption unit 31 via a line 30 . This adsorption unit 31 is only indicated schematically here; it is basically constructed in the same way from sealing layers and adsorption layers, as has been described by way of example in connection with FIGS. 1 and 2. It is provided on the side and / or slightly below the landfill and can consist of several chambers, for example a chamber 31 'in which pollutant-specific adsorbers, for example for heavy metals, can be accommodated and a chamber 31 ''for example for biological purification of the leachate.

The external adsorption unit 31 can either already be effective in the initial state if a larger accumulation of pollutant-containing liquid should be expected from the landfill body 22 itself; it can be effective in the event of a fault if, at a later point in time, the precipitation that is to be retained by the cover from the sealing layer 23 should be greater than the possible outflow or if the provided in the casing 21 Adsorption layers 26 ', 26 ''should already be added by adsorption. In the case of a landfill designed in this way, a plurality of adsorber units 31 can also be provided; further adsorber units can also be added later.

Claims (13)

1. Arrangement for retaining the pollutants from landfill leachate containing pollutants with at least one sealing layer made of mineral sealing materials, in particular clay minerals, characterized in that the sealing layer ( 2 ) is assigned at least one adsorption layer ( 6 ) which contains or contains materials at least in the form of admixtures consists entirely or partially of materials which are able to bind pollutants contained in the leachate emerging from the landfill by physical and / or chemical adsorption. 2. Arrangement according to claim 1, characterized in that the adsorption layer ( 6 ) - seen in the flow direction - is arranged behind or in front of the sealing layer ( 2 ). 3. Arrangement according to claim 1, characterized in that an adsorption layer ( 6 ) lies between two sealing layers. 4. Arrangement according to one of claims 1 to 3, characterized in that the adsorption layer ( 6 ) consists at least essentially of mineral sealing materials, in particular clay minerals, to which the adsorbent materials are added. 5. Arrangement according to one of claims 1 to 4, characterized in that the adsorption layer (6) of two or more layers (6 ', 6' ') is made. 6. Arrangement according to one of claims 1 to 5, characterized in that the individual layers ( 6 ', 6 '') of the adsorption layer ( 6 ) contain materials with different adsorption properties. 7. Arrangement according to claim 5 or 6, characterized characterized in that at least one layer is provided, the Contains microorganisms for the adsorption of organic substances. 8. Arrangement according to one of claims 1 to 7, characterized in that the individual layers ( 2 , 6 ) or layers ( 6 ', 6 '') are separated from one another or from the adjacent layers by intermediate layers ( 11 , 13 ) . 9. Arrangement according to claim 8, characterized in that intermediate layers of layers ( 11 ) made of rolled material such as gravel, sand or the like are provided. 10. The arrangement according to claim 8, characterized in that Intermediate layers of cohesive material, such as clay minerals or the like are provided. 11. The arrangement according to claim 8, characterized in that intermediate layers of filter mats ( 13 ) made of inorganic fibers such as mineral fibers or the like and / or organic fibers such as synthetic fibers or the like are provided. 12. landfill with a landfill body and with a casing which consists at least of a sealing layer of mineral sealing materials, in particular clay minerals, characterized in that the casing ( 21 ) is formed at least in the bottom and / or embankment area according to claims 1 to 11. 13. landfill with a landfill body and with a casing, which consists at least of a sealing layer of mineral sealing materials, in particular clay minerals, characterized in that the landfill body, optionally with the interposition of a drain layer ( 29 ), at least one system designed according to claims 1 to 11 as a separate Unit ( 31 ) is subordinate.