NL2002709C2 - METHOD FOR CLEANING POLLUTED GROUND FROM A BALLAST BED - Google Patents

Description

Method for cleaning contaminated soil from a roadbed

The present invention relates to a method for cleaning contaminated soil from a ballast bed. The present invention also relates to a screen for cleaning contaminated soil, in particular for use as a sound barrier.

In many countries there is large-scale traffic of 10 goods on railways. In many countries many people also use the train, tram or metro every day to travel from A to B. Although these means of transport are seen as relatively environmentally friendly means of transport, environmental pollution does indeed occur with their use.

The use of a train, tram or metro causes various types of pollution, such as in the form of pollutants and / or particles. These contaminations mainly concern heavy metals in the form of metal particles and / or metal dust which are released as a result of wear and tear of parts of such vehicles, overhead lines, gantry masts and / or the rails on which the trains travel. Oily substances are also released from parts of these vehicles, such as the engine or other parts that depend on lubrication for their operation.

Such contaminants will mainly occur in the body of stones and sand that provides track stability, the so-called ballast bed. Stones 30 from such a ballast bed are designated by the person skilled in the art and herein referred to by the term ballast. Suitable stones that can be used as ballast can be selected from crushed stone (crushed, solid or sedimentary rock, such as purple stone, basalt, granite, gneiss, limestone and sandstone), crushed gravel or gravel or a combination of these stones. In addition to such stones, the ballast also comprises a fraction consisting of smaller particles which may consist essentially of sand, but also soil or clay or a mixture thereof. This fraction is referred to herein as the term soil.

In addition to the ballast bed damping vibrations and providing stability to the rails, the ballast bed has a draining effect due to the freely open structure of the ballast bed. By using bricks of a suitable size, in principle a ballast bed with a fairly open structure is created, whereby a suitable drainage of rainwater takes place under different circumstances.

The whole of the ballast bed and the bottom located below is placed in such a way that these can and will usually remain in use for many years. Although such a prolonged placement entails the advantage that the maintenance costs will be low, an adverse effect occurs, however, that the contaminants will accumulate with regard to metal particles and / or oily substances and the stones of the ballast bed, the sand, contaminate the earth and / or soil.

The contaminants of the contaminated ballast bed mainly concern contaminants in the form of small metal particles such as copper, lead, zinc, cadmium, nickel, iron or combinations thereof. This type of contamination occurs as a result of wear-resistant metal parts of trains (mainly brakes or wheels), rails or overhead lines. Furthermore, contamination of oily substances occurs because rails, wheels or other parts are lubricated with lubricant or grease or because parts show leakage. As a result, this type of contamination mainly concerns oily substances, mineral oils, oils, volatile aromatics and polyaromatic hydrocarbons (PAH). When using older types of wooden sleepers, the so-called sleepers, contamination can be present in the form of toluene, benzene, naphthalene.

That large amounts of pollutants are released as a result of train traffic has been explained by Lijzen and Franken (Lijzen, J.P.A. and Franken, R.O.G., 1994. Sources of soil contamination, report number 950011002, RIVM 1994). The amount of copper released into the environment is set in this report at 20 to 40 tons per year for the entire rail network in the Netherlands. A deposit of 500 tons per year applies to iron. The amount of 15 PAH released in this report is set at 26 tonnes per year. Although the amount of wooden sleepers is decreasing, according to this report the amount of wooden sleepers in use will still be 55% in 2003. The amounts of PAH released will therefore still be considerable until the moment that almost only concrete sleepers will be used. In addition, the question of cleaning will remain topical by replacing wooden sleepers for concrete ones.

The replacement or removal of a contaminated ballast bed is characterized by the occurrence of a number of problems. The cleaning of contaminated soil from a ballast bed according to conventional methods often involves complex, time-consuming remediation projects that involve significant costs. Such projects include, for example, extensive logistics, such as the transport of the soil to be cleaned. Furthermore, storing in large, dedicated storage depots intended for that purpose and then cleaning the contaminated soil obtained from the ballast bed. With the current method for cleaning material from a ballast bed as referred to herein, it is also necessary to frequently obstruct regular train traffic or to put it out of service. As a result, the renewal or removal of a contaminated roadbed is slow.

According to the current state of the art, a contaminated ballast bed is first removed using a chain screen, whereby contaminated soil can be separated from the ballast. The contaminated soil is hereby placed in a wagon intended for this purpose. In this case, unpolluted ballast, together with unpolluted soil, is put back in the ballast bed. Such a method proceeds slowly because there is a limitation due to the limited capacity for storing contaminated soil and / or ballast from a contaminated ballast bed in empty wagons.

After obtaining contaminated soil from a ballast bed, the contaminated soil and / or ballast goes according to the current costly and labor-intensive method (s) to a processing installation where the soil is sieved and subsequently cleaned extractively. The soil is washed and rinsed, whereby soil or sand particles are separated from the contamination under the influence of a difference in specific weight and settling speed. Such methods are expensive and can be considered as non-environmentally friendly.

The present invention has for its object to provide a solution for the aforementioned disadvantages by providing a method and screen for cleaning sand contaminated with heavy metals.

This object is achieved by providing a method for cleaning contaminated soil from a ballast bed, comprising obtaining contaminated soil from a ballast bed, moving the contaminated soil originating from the ballast bed to a nearby cleaning location and placing it on the cleaning site cleaning the contaminated soil through plant-mediated cleaning.

An advantage of the present invention is that it is possible to replace or remove a ballast bed efficiently. When replacing or removing a contaminated ballast bed according to the present invention, the soil obtained is moved from the contaminated ballast bed to a nearby cleaning location, such as a location in the vicinity of a railway line. The contaminated soil is then cleaned at the cleaning site by plant-mediated cleaning. The improved efficiency hereby occurs because it is possible to place the polluted soil and / or ballast next to the track instead of having to place it in a wagon intended for this purpose and subsequently having to be transported to a suitable remote cleaning place for this purpose. As a result, the replacement or removal of a contaminated ballast bed is not dependent on the capacity of empty wagons for the collection of the contaminated soil.

Another advantage of the invention is that the method involves an advantageous, minimal logistics.

According to the current state of the art, only a choice can be made from an ex-situ method in which a large distance must be bridged in order to move the soil to be cleaned from a ballast bed to a distant cleaning location. The second choice according to the current state of the art concerns an in-situ method. The cleaning of the soil to be cleaned takes place here without the contaminated soil having to be moved. Such an in-situ method is not possible with a ballast bed to be replaced because the soil to be cleaned is in the ballast bed. The method according to the invention is distinguished in that contaminated soil is placed in the vicinity of the original location of the contaminated ballast bed.

The method according to the invention also makes it possible to select the soil to be cleaned on the basis of the amount of contamination in the contaminated soil. This allows the soil to be treated to be classified in various degrees of contamination.

Plant-mediated cleaning of the polluted soil has the advantage that labor-intensive and process-intensive cleaning, such as chemical cleaning, according to the current state of the art is not necessary. An advantage of the present invention is that cleaning takes place of both the heavy metals and the contamination in the form of the oily substances. By allowing plants suitable for plant-mediated cleaning to grow in the polluted soil, the heavy metals are absorbed from this.

Degradation of oily substances present in the soil can also be promoted by plant-mediated cleaning.

The method according to the present invention furthermore has the advantage that it can be applied in the case that little or no rush is required when cleaning soil becomes available but it is desired to clean the contaminated soil because of a particular necessity for this purpose. The plant-mediated cleaning according to the invention can take several years, but has the advantage that the contamination has been removed from the ballast bed. In the cleaning of contaminated soil according to the current state of the art, it is necessary to store the contaminated soil in a designated storage for contaminated soil, which can incur high costs.

Another advantage of the invention is that a more active or passive cleaning of the soil to be cleaned can be chosen. Due to the use of a slow-growing woody plant, such as the aforementioned heath species, the removal of biomass from these plants is less intensive compared to faster-growing herbaceous plants such as rapeseed. The desirability of the speed of cleaning can be adjusted here by choosing a plant type according to the invention suitable for this purpose. It is clear to a person skilled in the art which other plants are suitable for carrying out the invention. Such plants fall within the idea of the invention.

Yet another advantage of the invention is that it is possible to collect the plants, or material from plants, at suitable times for this purpose in order to be able to remove the pollution accumulated by the plants, such as heavy metals. Because such plants absorb and accumulate heavy metals from the soil, it is possible to remove the plants with increased levels of heavy metals at a suitable moment to a suitable processing location.

It is hereby possible to determine the amounts or concentrations of heavy metals in the plant material, whereby the desirability or necessity for further processing of the plant material can be adjusted to the determined levels of heavy metals. When the concentrations or amounts of heavy metals in the plant material are below the relevant relevant standards, the plant material can be treated and processed, for example, as is usual with unpolluted organic material or biomass. With too high levels of heavy metals in the plant material 8 originating from the polluted soil, a suitable processing process will have to be chosen. This prevents the heavy metals present in the plant material from reaching unwanted places.

According to a preferred embodiment of the invention, the nearby cleaning location is at a distance of less than 200 meters, in particular less than 100 meters, more in particular less than 50 meters, even more in particular less than 25 meters, most in particular less than 10 meters from the polluted bed.

Because the cleaning site, such as a sound-winding screen, is located in the vicinity of the polluted bed, and therefore in the vicinity of the train track, the polluted ground does not have to be transported over a large distance. This saves considerable costs on cleaning the polluted soil.

In a preferred embodiment of the invention, plant-mediated cleaning of the contaminated soil takes place with a plant that receives heavy metals from the contaminated soil and / or takes place with a plant that lives in symbiosis with mycorrhizal fungi.

Plant-mediated cleaning of contaminated soil, whereby the contamination occurs in the form of heavy metals, results in the levels of heavy metals in the contaminated soil decreasing. This effect occurs with both plant-mediated cleaning that takes place with the help of mycorrhizal fungi and with plants that absorb the heavy metals themselves from the soil. In both cases, accumulation of the heavy metals occurs in the plants used for this purpose. By removing such plants, the heavy metals are hereby also removed.

9

In suitable embodiments for applying the present invention, the plant for plant-mediated cleaning of the contaminated soil is selected from the group of a plant of the genus Papaver, in particular Papaver argemone, Papaver dubium, Papaver rhoeas; a plant from the genus Brassica, in particular Brassica napus; a plant from the genus Utrica, in particular Urtica dioica or Urtica urens; a plant from the genus Calluna, in particular Calluna vulgaris; a plant from the genus Erica, in particular Erica scoparia; a plant from the genus Carex, in particular Carex arenaria; a plant from the genus Chamerion, in particular Chamerion angustifolium; a plant from the genus Salix, in particular Salix alba, Salix aurita, Salix caprea, Salix cinerea, Salix daphnoides, Salix dasyclados, Salix fragilis, Salix pentandra, Salix purpurea, Salix repens, Salix triandra or Salix viminalis. In addition to such plants, it is clear to those skilled in the art which other plants are suitable for plant-mediated cleaning of contaminated soil originating from a contaminated roadbed.

Another effect of the cleaning of soil contaminated with heavy metals according to the invention is that the plant-mediated cleaning can also promote the soil-cleaning activity of microorganisms. The growth of a plant that cleans the soil of heavy metals also stimulates the growth of the microorganisms living in the soil, such as bacteria and fungi, which degrade oily substances, mineral oils, oils, volatile aromatics and PAH, as well as any toluene, benzene and naphthalene present.

Incidentally, plants can also be used that ensure the degradation of such substances. Such plants concern plants from the genus Miscanthus, as well as plants from the genus Lolium, in particular Lolium perenne, as well as plants from the genus Medicago, in particular Medicago sativa.

Although the levels of oily substances in the polluted soil from a ballast bed are low, such substances can be broken down into harmless substances by means of plant-mediated cleaning. Such cleaning occurs due to the presence of microorganisms naturally present in the soil, such as bacteria and / or fungi. Such species include, for example, Pseudomonas spp., Bacillus spp. and / or Dehalococcoides ethenogenes, but may also concern other microorganisms. Plant-mediated cleaning of oily substances includes in particular aerobic but also anaerobic degradation. It is clear to the person skilled in the art which plants can be used for degradation of oily substances by means of plant-mediated cleaning. It is also clear that the degradation of the oily substances can be further stimulated by promoting the activity or growth of microorganisms with a cleaning effect. In addition to growing plants that are capable of plant-mediated cleaning, this can be achieved by adding substances to the soil that can serve as nutrients for the microorganisms with a cleaning effect. Such nutrients can be carbon or phosphate-containing substances. Variants of the cleaning according to the invention, such as the use of other microorganisms, other nutrients, aeration of the populations of microorganisms, will be clear to the skilled person and fall within the inventive idea of the present invention.

In a suitable embodiment, mycorrhizal fungi are added to the contaminated soil.

11

Mycorrhizaschiiranels are naturally present in soil and can be used in accordance with the invention because of their ability to take up from the soil and subsequently release heavy metals to plants. The mutualistic symbiosis that occurs between mycorrhizal fungi and plants is based on the effect that, in addition to the heavy metals referred to herein, micro or macronutrients such as nitrogen, phosphorus and manganese are released to plants. Hereby the mycorrhizal fungi receive substances from the plant that the mycorrhizal fungi cannot synthesize themselves, such as sugars. The present invention makes use of the possibilities that these mycorrhizal fungi offer to take up the heavy metals from the contaminated soil. It is clear to those skilled in the art which mycorrhizal fungi and plants are suitable for applying the invention.

Although mycorrhizal fungi are present in the soil, such as soil from a ballast bed, the addition of additional mycorrhizal fungi offers the advantage that the naturally occurring population of mycorrhizal fungi is supplemented and optionally expanded so that the cleaning of the contaminated soil can commence in a suitable manner.

In a suitable embodiment of the invention, the mycorrhizal fungus is selected from the group consisting of an arbuscular mycorrhizal fungus, an ecto-mycorrhizal fungus, an ericoid mycorrhizal fungus, an ectemia-mycorrhizal fungus, or a combination thereof.

In suitable embodiments of the invention, the arbuscular mycorrhizal fungus is selected from the group of Glomus mosseae and Glomus intraradices, the ecto-mycorrhizal fungus selected from the group of Laccaria laccata, Boletus edulis, Cantharellus cibarius and Paxillus involutus, the ericoid mycorrhosis 12 group of Hymenoscyphus ericae and Rhizoscyphus spp and the ectendo-mycorrhizal fungus selected from the group of Tuber spp, Tricharina spp and Wilcoxina spp.

Such mycorrhizal fungi can hereby be added in the dry state or in a liquid medium to the contaminated soil originating from the ballast bed.

Another aspect of the invention relates to the heavy metals which are essentially copper, lead, zinc, cadmium, nickel or a combination thereof. These heavy metals 10 are the main forms of contamination of heavy metals that occur in a ballast bed. The plant-mediated cleaning of the contaminated soil takes place with a plant that picks up heavy metals from the contaminated soil and / or takes place with a plant that lives in symbiosis with mycorrhizal fungi according to the invention offers a solution for extracting these heavy metals from the Poluted soil.

The contaminated soil originating from the ballast bed can occur in the form of sand, earth, podsol, clay or a mixture thereof. In general, sand is used as part of a rail supporting ballast bed. However, other types of soil may also have been used or have ended up in the ballast bed as a result of the operation of the elements over the years. It may also be that the contamination has penetrated into the ground which is located under the ballast bed. Such soil can also be cleaned according to the invention.

According to a preferred embodiment of the invention, obtaining contaminated soil from the ballast bed is achieved with a chain screen. When a chain screen is used, the contaminated soil can be obtained from the contaminated ballast bed, whereby a residual fraction is also obtained. This residual fraction mainly concerns the 13 ballast from the contaminated ballast bed. An advantage that occurs here is that the contaminated soil is separated from the relatively unpolluted ballast. The pollution is hereby concentrated more, so that the pollution becomes better available for the plant-mediated cleaning.

According to another embodiment of the invention, the contaminated soil originating from the ballast bed is stored prior to moving it to the nearby cleaning location. Such a storage location can be in the form of a depot which is preferably located in the vicinity of the rail-supporting ballast bed.

According to yet another embodiment of the invention, in addition to the contaminated soil, ballast from the ballast bed is also provided at the cleaning site. An advantage here is that when the cleaning site serves as a screen, in particular as a sound barrier, such ballast can be used as building elements for filling the screen. As a result, less padding needs to be supplied for a possible sound barrier.

According to yet another embodiment, the contaminated soil coming from the ballast bed is mixed with substantially unpolluted soil prior to the plant-mediated cleaning. By mixing with unpolluted soil, improved conditions can be created for plants and mycorrhizal fungus, making the cleaning of the contaminated soil more efficient. Such an admixture may be desirable or necessary if the soil is not suitable enough for certain plants and mycorrhizal fungi according to the invention. Parameters that play a role in this are the levels of relevant nutrients, acidity of the soil, humidity of the soil, soil composition or the degree of pollution of heavy metals and / or oily substances. Because the type of soil that comes from a contaminated ballast bed is a fixed fact, the present invention provides the necessary flexibility to create suitable conditions.

According to specific embodiments, the unpolluted soil is selected from the group consisting of sand, soil, podsol, clay or a mixture thereof.

A final aspect of the method of the invention relates to plant-mediated cleaning of the contaminated soil which preferably takes place in a container intended for this purpose, in particular a screen serving container.

In a preferred embodiment of the invention, plant-mediated cleaning of the contaminated soil preferably takes place in a container intended for this purpose, in particular a screen serving container.

This screen for cleaning contaminated soil, in particular for use as a sound barrier, comprising a holder which comprises contaminated soil originating from a ballast bed and a plant suitable for plant-mediated cleaning of the soil originating from the ballast bed relates to another aspect of the invention.

An advantage of such a screen according to the invention is that soil and ballast originating from the contaminated ballast bed can be reused in the screen serving container. As a result of the reuse of soil and ballast from the ballast bed, money can be saved on the discharge of the contaminated soil and the supply of materials for the screen serving container.

Such a holder can hereby be placed at less than 200, 100, 50, 25, or even 10 meters from the location with the contaminated soil. In a preferred embodiment, the screen serving holder is placed in the longitudinal direction along the track. The screen can hereby be constructed, for example, in a modular manner from separate elements, such as baskets, which, depending on the need, can be placed before material from the ballast bed becomes available from the ballast bed for cleaning. In such a method, material originating from a ballast bed can be quickly supplied in a container intended for this purpose. As a result, the replacement of an old ballast bed can be done quickly and efficiently.

Another advantage of the invention becomes apparent during the replacement or removal of a contaminated ballast bed. When this is replaced, a quantity of ballast and / or soil of approximately 1.0 cubic meter will be obtained per linear meter of ballast bed. With such a quantity of material, a screen with a corresponding size can be installed per linear meter of ballast bed to be removed. When obtaining a quantity of ballast and / or soil of approximately 1 cubic meter from a contaminated ballast bed, a screen with a content of approximately 1 cubic meter will be particularly suitable for collecting contaminated soil and / or ballast. It is preferred here to install a screen with a height which is suitable for realizing a sufficient noise reduction. In particular, this screen will have a height of between 0.3 to 1.5 meters. Most particularly, such a screen has a height of 1.0 meter plus or minus 0.2 meter. It will be clear that these values concern a general guideline which in certain cases, depending on the amount of material to be cleaned from the ballast bed or the degree of contamination of the ballast bed or the thickness of the ballast bed or other relevant 16 parameters, may be deducted. give way. In cases where the amount of material originating from the ballast bed does not correspond to the content of the screen serving container, it can be chosen to adjust the size of the screen accordingly. It is also possible to top up the screen serving container with soil or ballast or similar other material. By placing the material released from the ballast bed in such a holder, a great deal of money is saved on the costs of removal of contaminated material and the construction of a screen comprising ballast and / or soil from a ballast bed.

When such a screen is placed along a railway yard or railway line in urban areas, the screen can contribute to reducing noise nuisance.

It is important here that the screen is placed at such a short distance at the track that the desired degree of noise reduction occurs. In general it holds that the closer the screen is placed to the track, and thus the passing trains, the better the noise reduction will be. It will be clear to the person skilled in the art what distance is needed in order to achieve the desired noise reduction.

The screen can also function to hide unwanted elements, such as a railway line, portals or trains. Therefore, a more scenic or urban desired appearance can be provided. A screen according to the invention can also be used to accommodate cables, wires and / or pipes. Currently, problems often arise with existing infrastructures such as cables, wires and / or pipes because these are arranged in unsuitable or unclear ways. Such infrastructures can also cross with utility lines, which can cause problems. Such complications often result in 17 delays in work on the track or damage to such infrastructures.

The screen according to the present invention can also serve as an additional barrier for preventing unauthorized persons from entering the track or track.

Another advantage that occurs with the present invention is that plants or parts of plants can be collected in a simple manner and at suitable moments from the screen for cleaning contaminated soil. For example, it is possible to tune the logistics involved in collecting such biomass to potentially relevant times when or a season in which biomass can be collected. Such a relevance occurs with the removal of biomass from annual plants, which may be seasonal. When using more woody plants or slow-growing plants, less seasonal biomass collection can be chosen. Therefore, due to a suitable choice of the plant species, the moment of removal of heavy metals can be adjusted to the desirability thereof.

Material from plants can also be collected in which both the above-ground and underground parts are collected. An advantage hereof is that plants are removed from the intended holder of the screen according to the invention in a quick and simple manner. A plant can hereby be substantially completely removed from the holder intended for this purpose from the screen and subsequently the holder intended for this can be filled in a simple and rapid manner with another plant or as a seed to obtain a new plant. When re-sowing, it may be necessary to fill the hole that remains after the removal of the plant with suitable soil.

Another advantage of this embodiment is that the screen has a natural and green appearance, which benefits the visual attractiveness of such a screen.

Another aspect of the invention relates to a screen wherein the holder also comprises ballast.

An advantage of this aspect of the invention is that any contamination present in the ballast can also be cleaned. Another advantage is that such ballast can also serve to hold the contaminated soil together or can serve to protect the contaminated soil against the operation of the elements.

In a preferred embodiment, the screen 15 further comprises a ballast-containing part. The ballast comprising part can hereby be separated from the holder with contaminated soil. An advantage of this embodiment is that the ground and the ballast are separated in the screen. The part comprising the ballast can hereby serve as reinforcement or support for the holder comprising the ground.

In a preferred embodiment, the ballast is located in an outer part or the lower part of the screen. An advantage of such a device is that the screen can be adapted to suitably hold the soil comprising the contamination in place by providing ballast on the sides and optionally on the bottom of the soil containing holder. As a result, the soil will remain better fixed, or stay in place, and will be washed away or washed away less as a result of precipitation and wind. When the ballast comprising part is situated on the side (s) and / or bottom side of the holder comprising soil, a suitable reinforcement and / or support will occur of the holder comprising soil 19, whereby the holder comprising soil has its cleaning effect on suitable, long-lasting can be retained. It will be clear that in this embodiment the part comprising the ballast is suitably enclosed on the outside or bottom by a wall to hold the ballast together. Such a wall can for instance be a metal grid-shaped wall.

In another embodiment, the ground-containing holder of the screen is separated from the part comprising the ballast 10 by means of a water-permeable separation. An advantage that occurs here is that there is good drainage of water from the soil-containing container. Good soil conditioning takes place as a result of which the plants and mycorrhizal fungi remain and remain in good conditions. As a result, the cleaning action according to the invention can take place in a labor-extensive manner.

In specific embodiments, the water-permeable separation is selected from the group consisting of an active carbon comprising separation, a plastic separation, a flexible cloth, a foil, a net, mesh or a metal-containing layer. Such water-permeable separations are suitable for effecting a good drainage of water, which is necessary in the case of prolonged or frequently occurring precipitation. With activated carbon, an additional cleaning can also take place through the binding, purifying action of the activated carbon. The active carbon-containing separation will then, if deemed desirable, be replaced by another separation, such as a new active carbon-containing separation or other separation.

Another aspect of the invention relates to a screen that has a content that can be adjusted to the amount of ballast and soil originating from a ballast. When a ballast bed is replaced or removed, a certain amount of ballast and / or soil is released from the ballast bed. By placing a screen whose content substantially corresponds to the amount of ballast and / or soil released from a ballast bed, this can be provided from the ballast bed in the screen intended for this purpose. As a result, the material from the ballast bed does not have to be stored temporarily in a wagon or place intended for this purpose, such as a hump next to the track.

Another advantage of this aspect of the invention is the small amount of space that occurs when material from a ballast bed to be replaced is placed in a screen according to the invention. The screen according to the invention can have such dimensions that substantially all the material from a ballast bed can be placed in the screen according to the invention, whereby no additional space or storage area would be required to accommodate the material from a ballast bed. The small amount of space that a screen according to the invention takes up becomes clear when it is taken into account that the screen substantially only takes up space along a railway line.

In yet another embodiment of the invention, the ground is a container which is substantially not covered at the top. This makes the accessibility of the container suitable for providing, for example, water and / or nutrients. Due to such a construction, precipitation can end up in the soil comprising container, whereby extensive, low-maintenance conditions are created. Also, if too little precipitation occurs over a certain period, water can be added in a simple manner to the container comprising the invention according to the invention. If desired, nutrients intended for plants and / or mycorrhizal fungi can be supplied to the soil in a simple manner because of the substantially unhedged embodiment on top and the associated suitable accessibility of the soil.

In order to further optimize the conditions for a suitable cleaning of the soil, the soil comprising holder of the screen according to the invention can be placed above a drainage device. As a result, any excess water in the soil is discharged correctly so that an environment suitable for the cleaning action according to the invention remains in place over time or under different weather conditions.

The invention is further illustrated in the following example. The example is not intended to limit the invention in any way.

20

Examples Example 1:

Figure 1 describes a specific embodiment of the present invention. In this embodiment, a wire steel mentioned under (1) is used for anchoring the screen. The tube mentioned under (2) is a perolate control tube. Number (3) refers to the vegetation with cleaning effect according to the invention.

Number (4) concerns contamination, mycorrhizal fungus, sieved plants and bacteria, originating from a ballast bed. Number (5) refers to a water-permeable separation. In this case this separation comprises a water-permeable cloth and optionally an active carbon-containing component. Number (6) refers to a fraction comprising a ballast. In the present case, this concerns screened gravel from a ballast bed. Number (7) relates to a foil that serves to keep the ballast from a ballast bed separate from the bottom located below, and to prevent possible leaching of contamination to the underlying bottom. Number (8) relates to a perforated drain comprising coconut material and drain sand. The dimensions of the screen outlined here relate to a height, width and depth of 1 meter. It will be clear that embodiments with deviating dimensions do not detract from the inventive idea and fall within the invention.

Claims (26)

Method for cleaning contaminated soil from a ballast bed, comprising obtaining contaminated soil from a ballast bed, moving the contaminated soil originating from the ballast bed to a nearby cleaning location and cleaning plant-mediated cleaning at the cleaning site the polluted soil. Method according to claim 1, wherein the nearby cleaning location is at a distance of less than 200 meters, in particular less than 100 meters, more in particular less than 50 meters, even more in particular less than 25 meters, most in in particular less than 15 meters from the polluted bed. 3. Method as claimed in claim 1 or 2, wherein the plant-mediated cleaning of the contaminated soil takes place with a plant that receives heavy metals from the contaminated soil and / or takes place with a plant that lives in symbiosis with mycorrhizal fungi. A method according to any one of claims 1-3, wherein the plant for plant-mediated cleaning of the contaminated soil is selected from the group of a plant of the genus Papaver, in particular Papaver argemone, A method according to claim 3 or 4, wherein 5 mycorrhizal fungi are added to the contaminated soil. 6. A method according to any one of claims 3-5, wherein the mycorrhizal fungus is selected from the group consisting of an arbuscular mycorrhizal fungus, an ecto-mycorrhizal fungus, an ericoid mycorrhizal fungus, an ectedemia mycorrhizal fungus or a combination thereof. 7. A method according to any of claims 3-6, wherein the arbuscular mycorrhizal fungus is selected from the group of Glomus mosseae and Glomus intraradices, the ecto-mycorrhizal fungus is selected from the group of Laccaria laccata, Boletus edulis, Cantharellus cibarius and Paxillus involutus , the ericoid mycorrhizal fungus is selected from the group of Hymenoscyphus ericae and Rhizoscyphus spp and the ectendo mycorrhizal fungal is selected from the group of A method according to any one of claims 3-7, wherein the mycorrhizal fungus is added in the dry state or in a liquid medium to the contaminated soil originating from the ballast bed. A method according to any one of claims 1-8, wherein the soil originating from the ballast bed is contaminated with copper, lead, zinc, cadmium, nickel or a combination thereof. 10. Method as claimed in any of the claims 1-9, wherein the contaminated soil originating from the ballast bed is sand, soil, podsol, clay or a mixture thereof. A method according to any of claims 1-10, wherein the soil coming from the ballast bed is further contaminated with oils, mineral oils, volatile aromatics, polyaromatic hydrocarbons, toluene, benzenes, naphthalenes or a combination thereof. A method according to any one of claims 1 to 11, wherein obtaining contaminated soil from the ballast bed is achieved with a chain screen. 13. Method as claimed in any of the claims 1-12, wherein the contaminated soil originating from the ballast bed is stored prior to moving it to the nearby cleaning location 10. A method according to any one of claims 1-13, wherein in addition to the contaminated soil, ballast from the ballast bed is also provided at the cleaning site. A method according to any of claims 1-14, wherein the contaminated soil coming from the ballast bed is mixed with substantially unpolluted soil prior to the plant-mediated cleaning. 16. A method according to claim 15, wherein the unpolluted soil is selected from the group consisting of sand, soil, podsol, clay or a mixture thereof. A method according to any one of claims 1-16, wherein the plant-mediated cleaning of the contaminated soil preferably takes place in a container intended for this purpose, in particular a container serving as a screen. A screen for cleaning contaminated soil, in particular for use as a sound barrier, comprising a holder which comprises contaminated soil originating from a ballast bed and a plant suitable for plant-mediated cleaning of the soil originating from the ballast bed. 19. Screen as claimed in claim 18, wherein the holder also comprises ballast. The screen of claim 18 or 19, wherein the screen further comprises a ballast comprising part. Tuber spp, Tricharina spp and Wilcoxina spp. A screen as claimed in any one of claims 18-20, wherein the ballast is located in an outer part or the lower part of the screen. 22. Screen as claimed in any of the claims 18-21, wherein the soil-containing container is separated from the part comprising the ballast by means of a water-permeable separation. 23. Screen as claimed in any of the claims 18-22, wherein the water-permeable separation is selected from the group consisting of an active carbon comprising separation, a plastic separation, a flexible cloth, a foil, a net, mesh or a metal-containing layer. 24. Screen as claimed in any of the claims 18-23, wherein the screen has a content which can be adjusted to the amount of ballast and contaminated soil originating from a ballast bed. 25. Screen as claimed in any of the claims 18-24, wherein the contaminated soil comprising container is substantially not covered at the top. Papaver dubium r Papaver rhoeas; a plant from the genus Brassica, in particular Brassica napus; a plant from the genus Utrica, in particular Urtica dioica or Urtica urens; a plant from the genus Calluna, in particular Calluna vulgaris; a plant from the genus Erica, in particular Erica scoparia; a plant from the genus Salix, in particular Salix alba, Salix aurita, Salix caprea, Salix cinerea, Salix daphnoides, Salix dasyclados, Salix fragilis, Salix pentandra, Salix purpurea, Salix repens, Salix triandra or Salix viminalis; a plant from the genus Carex, in particular Carex arenaria; a plant from the genus Chamerion, in particular Chamerion angustifolium. 26. Screen as claimed in any of the claims 18-25, wherein the contaminated soil-containing container is placed above a drainage device.