NL1014185C2 - Method for applying a moisture-impermeable layer in the soil, as well as a trench obtained by such a method. - Google Patents

Abstract

A method for introducing a moisture-impermeable layer into the ground, wherein the moisture-impermeable layer is placed into the ground in a trench, which trench is supported by one or more casing members and filled with a clay-containing mixture of dry solids, which mixture can form a moisture-resistant gel, comprising powdery or pulverized smectite and/or smectite-containing natural rock and a water-soluble polymer.

Description

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Short indication: Method for applying a moisture-impermeable layer in the soil, as well as a trench obtained according to such a method.

The present invention relates to a method for applying a moisture-impermeable layer in the ground, wherein the moisture-impermeable layer in the soil is applied in a trench, as well as to a trench obtained by such a method.

German Offenlegungsschrift 37 17 885 discloses a method for producing a sealing layer of mineral sealing materials, such as, for example, bentonite, in which the dry material is placed in a slot using a trench method. A drawback of this method is that the dry mixture comes into direct contact with any contaminated water from the environment during the insertion in the slot, so that the swelling capacity of the still dry bentonite is impaired, so that the durability is impaired compared to already pre-hydrated bentonite. No further information regarding the composition is available.

US patent 3,986,365 relates to a method of forming a moisture-impermeable layer in which a composition of soil and bentonite is mixed with a water-soluble polymer. The mixture thus obtained is only suitable for horizontal application under water basins, and due to the unspecified properties of bentonite and soil, this mixture is unusable for vertical sealing systems.

Such a method is known per se from US patent 5,259,705. According to this patent, a moisture-impermeable layer is applied in the ground using a special installation method using guided containers. Such guide containers consist of vertical surfaces which are connected to each other using spacers. After the guiding containers have been placed in the ground, a liquid mixture is introduced into the guiding container, after which a partition wall is thus created in the ground.

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US 4,664,560 also discloses a method for the installation of sheet piling in the ground, which method comprises placing vertical dividing walls which are mutually connected in the ground. However, such partitions are subject to rusting and / or rotting processes, so that a durable shielding is not obtained. Moreover, the connections between such partitions are prone to leakage, so that the intended purpose, in particular obtaining shielding, is disturbed.

[0007] From US patent 4,877,357 a method is further known for applying a moisture-impermeable layer in the ground in which a trench is provided in the ground, which trench is then filled with a liquid, which liquid is finally a water impermeable layer. Such a method can be considered as the slurry method, in which slurries are used on the basis of water-mixed cement and bentonite, which slurries are liquid at the time of processing by adding retardants. Such slurries will cure to a solid material after a certain period of time due to the action of cement. However, such liquid slurries-based methods have a very low dry density and a large surface area which makes them susceptible to shrinkage cracks. Moreover, it has been found that the slurry, when arranged in the trench, offers only limited resistance to the penetration of the adjacent ground, so that local failure of the wall 25 can occur. Since the impermeability of the slurries is relatively high compared to the density of the higher dry mass materials used in conventional horizontal seals, a relatively thick wall is necessary to provide sufficient security.

The object of the present invention is to provide a method for applying a moisture-impermeable layer in the soil in which the aforementioned problems according to the prior art have been considerably eliminated.

Another object of the present invention is to provide a method for applying a moisture-impermeable layer in the soil, which method provides a sealing system, 101 4 185 3 corresponding to the hitherto conventional, horizontally applied or surface sealing systems used.

The method as mentioned in the preamble according to the present invention is characterized in that the slot is supported by one or more jacket bodies, which slot is then filled with a clay-containing mixture of dry substances, which mixture can form a moisture-resistant gel , comprising powdered or ground smectite and / or smectite-containing natural rock and a water-soluble polymer.

10 When this dry mixture comes into contact with water or water-containing liquid, which happens during rainfall, trickling water or a seeping aqueous solution, gel formation will spontaneously occur and continue for a certain period of time causing the formation of a moisture-resistant, water impermeable gel 15 results. The use of a dry mixture leads to a good filling degree or compaction so that a good cross-linking occurs after contact with water.

Such a clay-containing mixture of dry substances is known per se from European patent 0 682 684 issued in the name of the present applicants. However, from this granted European patent the special application according to the present invention is, namely the application in the ground of a trench, which trench is then filled with the clay-containing mixture of dry substances, not known, which application should therefore be regarded as new and inventive. In addition, a clay-containing mixture which can form a moisture-resistant gel is known from European patent specification 0 335 653, but the application known therefrom is substantially different from the present application.

In the present method, it is particularly preferred that the trench is obtained in the ground using one or more casing bodies, comprising placing one or more hollow elements in the ground, consisting of at least two connected by spacers plates, which plates are optionally provided with a detachable closing part on the underside. A closed closure on the sides of the elements can also function as a spacer, which closure can also serve as a guide with the adjacent elements.

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In such an embodiment it is possible that the hollow element, before it is placed in the ground, is first filled with the clay-containing mixture of dry substances, after which the element thus filled is then placed in the ground.

According to a special embodiment of the present invention, on the other hand, it is also possible that the hollow element is first placed in the ground, after which the element is subsequently filled with the clay-containing mixture of dry substances.

In order to achieve a sufficient compaction of the clay-containing mixture of dry substances, it is preferred that the aforementioned element is removed from the slot by vibration, so that the compacted clay-containing mixture of dry substances thus remains in the slot. If a hollow element with a detachable closing part on the underside of the plates is used, the closing part will remain in the slot after the hollow element has been removed from the slot. Such a closing part prevents penetration of soil and / or water into the hollow element when it is placed in the ground.

In order to obtain a sufficient compaction of the clay-containing mixture of dry substances, in certain embodiments it is in particular desirable that such a compaction takes place by vibrating the element present in the trench, as a result of which, as a result of the transmission of vibrational energy, the mixture in the trench is compacted.

In a particular embodiment it is preferable that the hollow element is first provided on the inside with a material, after which subsequently the filling with the clay-containing mixture of dry substances takes place, which material adheres the clay-containing mixture of dry substances with the hollow element suppressed.

Such a material promotes sliding of the hollow element when it is removed from the trench and also functions as a separating layer between the clay-containing mixture of dry substances and the adjacent soil. Geotextile fabric can be mentioned as such material.

In certain embodiments of the present invention, it is preferable to use one or more hollow elements which are provided with a number of compartments. It is thus possible to obtain a different composition, for example a compartment with the clay-containing mixture of dry substances and a compartment with sand. Such an embodiment is particularly favorable if the trench does not have to be provided over the entire length, depth and width of the same clay-containing mixture of dry substances, so that in general there is a cost saving.

In a special embodiment of the present method, the trench arranged in the ground is provided on both longitudinal sides thereof with one or more casing bodies, comprising one or more panels, after which the space thus enclosed by the panels is filled with the clay-containing mixture of dry matter. In order to achieve a sufficient compaction of the clay-containing mixture of dry substances present in the trench, it is thus possible for the panels present in the trench to be vibrated. However, it is particularly desirable that the clay-containing dry matter mixture present in the trench is densified by removing the panels from the trench such that a compaction of the clay-containing dry matter mixture present in the trench is obtained. Such a compaction is obtained in particular if the panels are removed vibratively from the slot.

In a special embodiment it is preferred that the panels on the side facing away from the ground are provided with a material, after which subsequently the filling with the clay-containing mixture of dry substances takes place, which material is adhering to the clay-containing mixture of dry substances. with panel 25 suppressed. Such a material promotes sliding of the panel when it is removed from the soil and also functions as a separating layer between the clay-containing mixture of dry substances and the adjacent soil.

In addition, it is possible that the clay-containing mixture of dry matter in the form of a mat, consisting of two geotextile cloths between which the clay-containing mixture of dry matter is fixed, is placed in the slot as a body.

It should be understood that to obtain a slot filled with the clay-containing mixture of dry substances, a number of consecutively placed, possibly interconnected or overlapping, hollow elements, mats and / or panels can be used, which depends on of the dimensions of the trench and the method used thereby, namely the hollow elements, the mats and / or the panels arranged on both longitudinal sides of the trench.

Since after the compacting of the clay-containing mixture applied in the trench, a certain level drop thereof has taken place in the trench, it is preferred that the space thus created is supplemented, preferably with the same clay-containing mixture of dry substances. However, it is not inconceivable that instead of the present clay-containing mixture of dry substances, a different filling material is used, for instance sand. The trench is thus filled in phases.

According to a special embodiment of the present invention, it is possible that a supporting liquid is used during the creation of the trench in the ground to prevent collapse of the side walls of the trench. It is also preferable that the support liquid is displaced from the slot when the hollow elements and / or the mat are placed in the slot.

In order to obtain a sufficiently moisture-resistant gel, it is preferable that the smectite is in an inactive state, viz. The optionally present grid sodium lithium ions do not account for more than 30% of the sum of the exchangeable grid cations. The following can be mentioned as smectite: montmorillonite, beidellite, hectorite, montronite, saponite, illite, allevardite, mixtures thereof, natural rock containing one or more of these (such as 25 bentoni et), or artificial mixture of smectite-type si 1 icate compounds (for example, Laponite brand, sold by Laporte Co., Great Britain).

The moisture content of the present clay-containing mixture of dry substances is preferably <20%, the method of processing this mixture, as well as the dimensions of the trench, determine the desired moisture content to a considerable extent. Thus, when filling a narrow trench in the soil, a moisture content of <10% will be preferred due to the required flow properties of the clay-containing mixture, however, filling of a hollow element outside the trench 35 will also be possible with a moisture content of up to 20%.

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The clay-containing mixture of dry substances preferably additionally comprises 0.8-6.0 wt.% Powdery activating agent, based on the weight of smectite. In addition, the clay-containing mixture preferably comprises more than 0.5 wt% of one or more solid inert fillers with an average particle size greater than 0.05 mm, based on the weight of smectite. In a special embodiment, the clay-containing mixture of dry substances, in particular comprises 1-95 wt.% Solid inert filler, based on the weight of the total mixture. It is particularly preferred that the solid inert filler has a particle size of 0.1-8.0 mm.

Any water-soluble polymer that can react with smectite can be used as a polymer component in the present clay-containing mixture of dry substances. Examples of such polymers are polymers containing -C00H, C00'Me + (Me + is a monovalent metal-15 cation), -C0NH2, -OH and / or = C-O-C = groups as functional groups. Examples of polymers to be used are polyacrylamide with a degree of hydrolysis of less than 40%, polymethacrylamide, acrylic amide acrylic acid copolymers, vinyl alcohol-acrylic acid copolymers, polyethylene oxides and mixtures thereof. Graft polymers, such as acrylamide grafted on a cellulose backbone, can also be used. The molecular weight of the polymer is generally less than 15,000,000, with the preferred molecular weight range being between 400,000 and 10,000,000.

The clay-containing mixture of dry substances can also comprise one or more solid inert fillers, for example sand, silica compounds, ground rock or minerals, a ground ceramic material or a mixture thereof.

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Claims (24)

1. Method for applying a moisture-impermeable layer in the ground, wherein the moisture-impermeable layer is applied in the ground in a trench, characterized in that the trench is supported by one or more jacket bodies, which trench it is then filled with a clay-containing mixture of dry substances, which mixture can form a moisture-resistant gel, comprising powdered or ground smectite and / or smectite-containing natural rock and a water-soluble polymer. Method according to claim 1, characterized in that the trench in the ground is obtained using one or more casing bodies, comprising placing one or more hollow elements in the ground, consisting of at least two spacers 15 connected plates, which plates are optionally provided with a detachable closing part at the bottom. 3. A method according to claims 1-2, characterized in that the hollow element is first filled with the clay-containing mixture of dry substances and then placed in the ground to obtain a trench with clay-containing mixture of dry substances. Method according to claims 1-2, characterized in that the hollow element is first placed in the ground, after which it is filled with the clay-containing mixture of dry substances to obtain a trench with clay-containing mixture of dry substances. A method according to claims 1-4, characterized in that the element containing the clay-containing mixture is removed from the slot in such a way that the clay-containing mixture of dry substances remaining in the slot is compacted. 6. Method according to claim 5, characterized in that the element is removed from the trench by vibration, whereby the possibly present closing part is uncoupled and remains in the ground. 7. A method according to claims 1-6, characterized in that the hollow element is first provided with a material on the inside, after which the filling is then carried out with the clay-containing mixture of dry substances, which material adheres to the clay-containing mixture of dry substances with the hollow element suppressed. 8. A method according to claim 1, characterized in that the trench arranged in the ground is provided on both longitudinal sides thereof with one or more casing bodies, comprising one or more panels, after which the space thus enclosed by the panels is filled with the clay-containing mixture of dry matter. 9. A method according to claim 8, characterized in that the panels are provided on the side facing away from the ground with a material, after which subsequently the filling with the clay-containing mixture of dry substances takes place, which material adheres to the clay-containing mixture. of dry substances with the panel suppressed. 10. A method according to claims 8-9, characterized in that after the clay-containing mixture of dry substances has been applied in the space enclosed by the panels 15, the panels are removed from the slot in such a way that the clay containing residues in the slot mixture of dry substances is compacted. Method according to claim 10, characterized in that the panels are removed from the slot by vibration. Method according to claims 1-11, characterized in that the clay-containing mixture of dry substances present in the trench is compacted by vibrating one or more hollow elements or panels, respectively. 13. A method according to claims 5-6 and 10-12, characterized in that an additional amount of clay-containing dry matter mixture is added to the clay-containing mixture of dry substances compacted in the trench. 14. Method according to claim 1, characterized in that the jacket body comprises the clay-containing mixture of dry substances in the form of a mat, consisting of two geotextile cloths between which the clay-containing mixture of dry substances is fixed, in the slot. is applied. 15. A method according to claims 1-14, characterized in that a supporting liquid is used during the formation of the trench in the ground to prevent collapse of the side walls of the trench. 101 4185 * 4 * i t Method according to claim 15, characterized in that the supporting liquid is displaced from the slot when one or more hollow elements and / or mats are placed in the slot. 17. A method according to claims 1-16, characterized in that the smectite is in an inactive state, viz. The optionally present lattice sodium and lithium ions do not constitute more than 30% of the sum of the exchangeable lattice cations. A method according to claims 1-17, characterized in that the clay-containing mixture of dry substances additionally comprises 0.8-6.0 wt.% Of powdery solid activating agent, based on the weight of the smectite. 19. A method according to claims 1-18, characterized in that the clay-containing mixture of dry substances additionally comprises more than 0.5% by weight of one or more solid inert fillers with an average particle size greater than 0.05 mm, based on the weight of the smectite. A method according to claims 1-19, characterized in that the solid inert filler is sand, silica compounds, ground rock or minerals, a ground ceramic material or a mixture thereof. A method according to claims 1-20, characterized in that the clay-containing mixture comprises 1-95 wt.% Solid inert filler, based on the weight of the total mixture. A method according to claims 1-21, characterized in that the solid inert filler has a particle size of 0.1-8.0 mm. 25 A method according to claims 1-22, characterized in that the clay-containing mixture of dry substances has a moisture content of less than 20%. 24. Slot obtained according to the method as described in claims 1-23. 101 4185 COOPERATION TREATY (PCI) REPORT ON NEWNESS RESEARCH OF INTERNATIONAL TYPE OF IDENTIFICATION OF THE NATIONAL APPLICATION Characteristic of the applicant or of the authorized representative ___ZK 9134 / AB / mvl_. Dutch application no. Filing date 1014185 January 26, 2000 Priority date invoked Applicant (Name) Trisoplast International B.V. Date of the request for an international type investigation Granted by the International Research Authority (ISA) to the request for an international type investigation. SN 34390 EN I. CLASSIFICATION OF THE SUBJECT \ ERP (when using different classifications, indicate all classification symbols) According to International Classification (IRC) lnt.CI.7: E02D19 / 18 II. FIELDS OF TECHNIQUE RESEARCHED __Researched minimum documentation___ Classification system Classification symbols lnt.CI.7: E02D Documentation examined other than minimum documentation provided that such documents are included in the areas examined III. [| NO RESEARCH POSSIBLE FOR CERTAIN CONCLUSIONS (comments on supplement sheet) flV. LACK OF UNIT OF INVENTION (Notes on Supplementary Sheet) Porm PCT / ISA / 20t («) 07.1979