NL2015167B1 - Method and device for salvaging contaminated material. - Google Patents

Abstract

The invention relates to the storage of contaminated material under a water layer, in particular the storage of bottom ash. To this end, the invention provides a method for salvaging a contaminated material under a water layer, comprising the processing steps of supplying the contaminated material and applying the contaminated material in a retention layer located below a water layer and wherein the contaminated material is not in contact with the water layer, and the retention layer comprises bottom material wherein the supplied contaminated material is applied to the retention layer without further processing and wherein the contaminated material applied in the retention layer is completely enclosed by bottom material. The invention also provides a device for storing contaminated material.

Description

Method and device for salvaging contaminated material

The invention relates to a method and device for salvaging contaminated material. In particular, the invention relates to the storage of contaminated material under wet conditions.

Every year, several tens of million tonnes of contaminated material are generated by waste plants in Europe. This material is often deposited as building material in road construction, for example as filler material in mainly slopes for and as a rise under highways, or in the construction of sound barriers.

The use of contaminated filler material is, however, limited by the danger of leaching heavy metals and salts, such as sulphates and chlorides, which can lead to contamination of the groundwater. For this reason, the disposal of contaminated materials at a landfill is subject to strict requirements, certainly if these materials can come in (in) direct contact, through leaching of heavy metals and salts, with drinking or recreational water basins. It is very important to industry, governments and civil society organizations to further increase the applicability of contaminated material.

European patent application EP 2 708 293 A1 describes a method for salvaging a contaminated material under a water layer. The contaminated material is mixed with soil material before placing this mixture in or under a soil material comprising retention layer under a water layer. During the transport of the mixture through the water layer, the mixture is not in contact with the water layer.

U.S. Patent 5,915,885 describes a method and on a device for moving a mass to an area lying below the earth's surface and below a ground mass. The mass to be moved is pre-treated before moving to an area below the earth's surface and below a ground mass. Processing of a pre-treated mass in an aquatic environment is also described.

An object of the present invention is to provide an improved method and device for storing contaminated material under a water layer.

To this end, the invention provides a method for salvaging a contaminated material under a water layer comprising the processing steps of: a) supplying the contaminated material and b) applying the contaminated material in a retention layer located below a water layer, wherein the contaminated material in processing step d) is not in contact with the water layer, and the retention layer comprises soil material, wherein the contaminated material supplied in processing step a) is applied in the retention layer without further processing and wherein the contaminated material applied in the retention layer is completely enclosed by soil material .

An advantage of the method according to the present invention is that by applying contaminated material in a retention layer located below a water surface or groundwater level, the leaching of contamination, including heavy metals, is greatly reduced compared to a, in an above contaminated material applied to the water surface or groundwater level. In the known current application, contaminated material is applied in a retention layer, the retention layer consisting of clay or plastic film being above a water surface or groundwater level. External factors, including atmospheric influences such as rainwater, wet the retention layer with the result that the water percolates through the contaminated material under the influence of gravity. As a result of the percolating water, contaminants, including heavy metals, are leached from the isolated contaminated material. The method according to the present invention avoids the problem of leaching of contaminants, including heavy metals, by introducing contaminated material into a retention layer, the retention layer being below a water surface and / or groundwater level. The additional advantage of directly applying contaminated material, instead of a mixture as described in European patent application EP 2 708 293 A1, in a retention layer that is under a water layer is that a higher concentration of contaminated material can be introduced into the soil with a constant volume and where no actions are required prior to the storage. The method according to the present invention therefore provides a storage facility with an increased storage capacity.

Preferably, in processing step b), the contaminated material is applied under pressure to the retention layer, which pressure is selected such that only an outer layer of the contaminated material provided in the retention layer is mixed with the bottom material contained in the retention layer. By forming an outer layer in which the contaminated material is mixed with the bottom material already present in the soil, an impermeable shell is formed for the contaminated material present in the core.

The present invention therefore provides a useful application for salvaging contaminated material. After all, by introducing the contaminated material into a retention layer, the invention therefore provides a method for raising the retention layer in order to promote the development of nature in the water surface located above the retention layer.

It is noted that preferably the pressure exerted on the contaminated material is chosen such that the core of the contaminated material applied in the retention layer does not mix with the bottom material. This results in an increased storage capacity. After all, the pre-mixing of contaminated material with soil material is no longer required to prevent leaching of heavy metals. The pressure is preferably chosen such that at most 20% of the contaminated material applied in the retention layer mixes with the bottom material. Preferably also at most 15%, more preferably at most 10% or at most 5%.

"Contaminated material" is understood to mean material whose eluate contains one or more heavy metals whose concentration is above the determined intervention value. An intervention value for copper of 75 pg / l is used here as a reference. For heavy metals such as cadmium and lead, an intervention value of 6 pg / l and 75 pg / l applies. For example, contaminated material may comprise bottom ash, whether or not processed, or may include residual flows from bottom ash processing. The concentrations of heavy metals in, for example, bottom ash are above the intervention values, which can cause pollution of the groundwater. Examples of bottom ash are AEC bottom ash and E bottom bottom or powdered bottom bottom ash.

The term “soil material” includes material that has been released from the soil or bank of a surface water body or from non-aqueous soil types. Soil material includes both dry and wet soil material. Dry soil material can for instance comprise soil and / or sand. Wet soil material may, for example, comprise dredged soil material, such as dredging spoil, sludge or wet clay. Preferably, the bottom material of the present invention is not contaminated and the concentrations of heavy metals fall within the intervention values as defined above.

The insulation layer according to the present invention comprises material, preferably uncontaminated soil material, such as clean soil and / or clean dredging material. The retention layer can for instance comprise contaminated dredging material.

According to the present invention, the water layer can comprise a surface water layer. In the case of a surface water layer, this can be formed by a lake or water basin.

In an embodiment of the method according to the present invention, it further comprises applying and / or supplementing the retention layer. In an appropriate case, the location for storing the contaminated material contains a natural retention layer of existing soil material. The present invention provides in the event that such a natural retention layer is lacking in applying a retention layer consisting of uncontaminated soil material before carrying out the method of the present invention. If necessary, the retention layer can be supplemented with soil material during the execution of the method. More preferably, an insulating layer is applied before applying the retention layer.

The insulating layer according to the present invention has a height of at least (approximately) 1 meter in a specific case, preferably this height is at least about 2 meters to realize a sufficiently insulating layer.

The term "approximately" as used herein is intended to include values with a deviation of 10% from the stated values. Preferably, the term "approximately" includes values that deviate 5% from the stated values.

In a further embodiment according to the present invention, the distance between the contaminated material applied in or below the retention layer and the water layer located above the retention layer is at least about 1 meter, preferably this distance is at least about 2 meters.

In another embodiment of the method according to the present invention, the method further comprises supplying water to mix the supplied contaminated material before placing the contaminated material diluted with water in a retention layer located under a water layer. Mixing the supplied contaminated material with a quantity of water increases the pumpability of the contaminated material to be introduced into the retention layer.

The contaminated material is not in contact with the water layer during the transport of the contaminated material through a pipe running through the water layer. In one embodiment, the conduit is a substantially vertically arranged cylindrical conduit. The cylindrical conduit is preferably adapted to be able to move it up and down or to move it relative to the bottom surface in the horizontal plane.

In a further embodiment according to the present invention, the method comprises a processing step c) in which after the application of the contaminated material, a mixture consisting of mainly bottom material is transported through the pipe before removing the pipe from the retention layer.

The invention further provides a device for storing a contaminated material under a water layer, comprising at least one feed device for supplying the contaminated material and at least one dump device, which dump device comprises a supply and discharge opening, wherein the feed opening of the dump device is connected to the at least one feeding device and wherein the discharge opening of the dumping device is arranged in a retention layer located under a water layer. The device according to the present invention differs from the devices as described in the aforementioned cited literature in that the device does not comprise a processing device, such as a mixing device, for further processing of the contaminated material to be supplied. The device according to the present invention therefore relates to a simplified device which is already suitable for storing contaminated material.

In a further embodiment, the feed device for supplying contaminated material comprises at least one funnel for releasing the contaminated material. A funnel makes it possible to unload contaminated material that is supplied by ships into the dumping facility.

In a further embodiment according to the present invention, the dumping device comprises a substantially vertically placed conduit. The conduit further comprises a transport screw with which the contaminated material is transported through the conduit in the direction of the retention layer. Such a conveyor screw has the further advantage that the contaminated material can be pressed into the retention layer.

Next, the present invention will be further elucidated with reference to the accompanying drawings, in which:

Figure 1: a dumping device that flows into a retention layer.

Figure 1 shows a dumping device 11 that is positioned substantially vertically and cuts through a water layer 12 and flows into a retention layer 13, which comprises bottom material in the present embodiment. The retention layer 13 may already be present or was brought under the water surface from, for example, a float by the chutes (not shown here). The pouring device comprises a feed line 14, such as a cylindrical tube, comprising a transport screw 15 which presses the contaminated material 10 into the retention layer 13. The retention layer 13 can be provided on the underside with an insulation layer 16 comprising clean dredging material. The insulating layer 16 is preferably applied to a sandy bottom 17. In the exemplary embodiment as shown in Figure 1, an already applied amount of contaminated material 18 forms a layer 19 with the second amount of contaminated material 10 shown in Figure 1. The invention therefore provides a method for raising the retention layer 13 to promote nature development.

Claims (16)

A method for salvaging contaminated material (10, 18) under a water layer (12), comprising the processing steps of: a) supplying the contaminated material (10, 18); and b) applying the contaminated material (10, 18) in a retention layer (13) located below the water layer (12), wherein the contaminated material (10, 18) in processing step b) is not in contact with the water layer ( 12) and the retention layer (13) comprises bottom material, characterized in that the contaminated material (10, 18) supplied in processing step a) is applied in the retention layer (13) without further processing and wherein the contaminated layer applied in the retention layer (13) material (10, 18) is completely enclosed by soil material. Method according to claim 1, characterized in that in processing step b) the contaminated material (10, 18) is applied under pressure to the retention layer (13), which pressure is selected such that mixing of an outer layer of the contaminated material (10, 18) applied to the retention layer (13) with the bottom material contained in the retention layer (13). Method according to claim 2, characterized in that the pressure is chosen such that the core of the contaminated material (10, 18) provided in the retention layer (13) does not mix with the bottom material. Method according to claim 2 or 3, characterized in that the pressure is chosen such that the percentage of the contaminated material (10, 18) applied in the retention layer (13) mixed with the bottom material is at most 20%, preferably is at most 15%, at most 10% or at most 5%. Method according to one of the preceding claims, characterized in that it further comprises applying and / or supplementing the retention layer (13). Method according to one of the preceding claims, characterized in that an insulating layer (16) is located under the retention layer (13). Method according to one of the preceding claims, characterized in that the height of the insulation layer (16) is at least 1 meter. Method according to one of the preceding claims, characterized in that the contaminated material (10, 18) is applied in the retention layer (13) above the insulating layer (16). A method according to any one of the preceding claims, characterized in that the distance between the contaminated material (10, 18) disposed in or below the retention layer (13) and the water layer (12) located above the retention layer (13) is at least 1 meter. A method according to any one of the preceding claims, characterized in that the non-contacting of the contaminated material (10, 18) with the water layer (12) is achieved by transporting the contaminated material (10, 18) through a the line (14) running through the water layer (12). A method according to any one of the preceding claims, characterized in that the contaminated material (10, 18) comprises bottom ash. Method according to one of the preceding claims, characterized in that the insulating layer (16) comprises uncontaminated dredging spoil. A method according to any one of the preceding claims, characterized in that the water layer (12) comprises a water basin. An apparatus for storing a contaminated material (10, 18) under a water layer (12), comprising: at least one supply device for supplying the contaminated material (10, 18); and at least one pouring device (11) comprising a feed and discharge opening, wherein the feed opening of the pouring device (11) is connected to the at least one feed device and wherein the discharge opening of the pouring device (11) is arranged in a water layer (12), characterized in that the device does not comprise a processing device, such as a mixing device, for further processing of the contaminated material to be supplied (10, 18). Device according to claim 14, characterized in that the feed device for supplying contaminated material (10, 18) comprises at least one funnel for releasing the contaminated material (10, 18). Device according to claim 14 or 15, characterized in that the pouring device (11) comprises a substantially vertically placed pipe (14) and wherein the pipe (14) comprises a conveyor screw (15).