EP0936316A2 - Mineral barrier, especially for use as barrier over or under refuse dumps - Google Patents

Abstract

The mineral seal (2) has a layer (4) of a waterproof mineral extending lateral in a sealed plane. A moistening aggregate system and a humidity sensor element (8) extend parallel to the sealed plane. The moistening aggregate system is regulated according to a comparison of values measured by the sensor element with predetermined nominal values of the humidity. The is composed of at least one layer (4) of a waterproof mineral material extending lateral in a sealed plane. A moistening aggregate system extends parallel to the sealed plane. A sensor element (8) extends parallel to the sealed plane for measuring at least a degree of humidity. The moistening aggregate system is arranged above, within, or directly underneath the seal, and the sensor element is arranged within the seal. The moistening aggregate system is regulated according to a comparison of values measured by the sensor element with predetermined nominal values of the humidity.

Description

The invention relates to a mineral seal consisting of at least one layer of a water-impermeable mineral building material extending laterally in a sealing plane, a method for operating such a mineral seal and uses of such a mineral seal. - Mineral seals are layers of mineral-based material that are artificially introduced into a floor. Typical examples of such materials are clay or loam, optionally tempered with water glass or clay powder. The term sealing refers to the fact that a layer of a layer and or the composite of several layers forming a layer has only a low permeability to water. Typical transmission coefficients are usually less than 10 ^-9 m / s, K values of less than 5 * 10 ^-10 m / s, or optimally less than 10 ^-10 m / s, are desirable. Here, it goes without saying that it is also desirable to retain to a high degree also substances which are dissolved or dispersed in water, for example pollutants. Ideally, any pollutants are irreversibly immobilized, for example by adsorption or absorption. A mineral sealing is typically oriented essentially horizontally, ie sealing in the vertical direction, but an obliquely increasing or decreasing orientation can also be provided. In particular, a trough-shaped structure of the seal can also be set up.

Mineral seals are often used in places where the risk of a transfer of pollutants exists in soils. These are typically landfills, Pipelines, tank farms and the like. The mineral Sealing prevents pollutants or water contaminated with pollutants into the groundwater can reach. In the case of landfills, one calls such a seal the landfill base seal. she is below the landfill body, preferably trough-shaped designed, arranged. At landfills often also a landfill surface seal above of the landfill body set up to prevent the ingress of Reduce or prevent leachate. Landfill surface seals are needed regularly when a landfill is busy and sealed should.

Mineral seals are in a wide variety Variants known. However, the variants have one thing in common the use of clay, clay and the like as a base material. In practice, is regularly in the or on the mineral seal, for example above the waterproofing, a plastic waterproofing membrane attached to additional security in the case of To ensure disruption of the mineral seal. This practice seems to be an increased security To create, however, is from soil physics Considerable disadvantages for reasons. In particular in the case of landfills, the basis of which is clear arranged above the groundwater fluctuation range is with the attachment of the plastic waterproofing membrane the moisture balance of the mineral Sealing disturbed. This occurs all the more more when the landfill body becomes anaerobic due to or heated aerobic processes, which is typically is to be expected. Such warming is included Temperatures over 20 ° C, sometimes over 40 ° C and more. As a result, the mineral seal dries out of lack Seepage water supply from above and lack of groundwater availability from below, with the consequence of Shrinking processes and cracking. The resulting However, cracks are highly permeable paths in the event of a Cracks in the plastic waterproofing membrane, for example due to settlements. In addition, the plastic waterproofing membrane in turn through the shrinking processes exposed to mechanical loads with the increased risk of breakage, of all things where the mineral seal is already disrupted is. Ultimately, in the event of a break, the Plastic waterproofing membrane without the entire waterproofing Function and can only be done through complex measures be repaired. The relationships explained above apply in particular to landfill surface seals, because these are even more unfavorable Boundary conditions.

In contrast, the invention is the technical problem to provide a mineral seal, which works with higher reliability, in particular even in cases of great heights above the groundwater fluctuation range at the landfill base and / or Desiccation at the landfill surface sealing / - base seal.

The invention teaches to solve this technical problem a mineral seal consisting of at least one is laterally in a sealing plane extending layer of an impermeable mineral Building material, being parallel to the sealing level extending humidification system is set up, with at least one sensor element extending parallel to the sealing plane set up to measure the degree of moisture and with the humidification system above, inside or immediately below the seal and the sensor element within the Sealing are arranged, the humidification system according to a comparison of means measured actual values of the sensor element Moisture levels with specified target values of Humidity degrees can be controlled and / or regulated. - As Humidifier system is a facility denotes, by means of which water the mineral Sealing can be supplied. For example by means of so-called lances, which in a floor so that outlet nozzles of the lances in the area of mineral sealing are arranged and consequently distributed in a grid pattern are parallel to the sealing level. But it is also possible with a network of water pipes too work, which runs parallel to the sealing level and outlet openings distributed along the lines for water. It is still possible to work with conventional drainage layers, which but then not the water drainage, but the water supply serve. As a sensor element for moisture measurement are designated devices that have an electrical Measurement of conductivity or resistance deliver electrical signals with the Soil moisture content is correlated. Such Sensor elements come in a variety of forms known. It is now essential to the invention that the water supply over the Humidification unit system via that of the sensor element delivered electrical signals (actual values) is controlled and / or regulated. Here will a target value for the electrical signal is selected and given which one is representative of one in terms of Sealing effect optimal moisture of the mineral Sealing is. Through the controlled or regulated water supply then becomes the actual value of the Moisture tracked the target value. The tracking can be continuous or discontinuous, i.e. done in discrete time intervals. The latter is more advisable for control-technical reasons, because the time constants for the moisture penetration of a mineral sealing after water supply or injection are quite large.

The invention is based on the knowledge that a mineral Sealing always meets all requirements, regardless of local conditions, when the moisture of the mineral waterproofing is measured and controlled. The advantages are an ongoing high level of functional reliability mineral sealing. In particular it is with a seal according to the invention also possible on the installation of a plastic waterproofing membrane to do without completely without any disadvantages are accepted have to.

The sensor element is advantageously a geotextile formed with a variety of sensor wires, wherein the sensor wires in at least two sensor wire groups a flat sensor wire resistance network are arranged forming, the sensor wires the one sensor wire group the sensor wires cross the other without contact and the sensor element for laterally spatially resolved resistance measurement is set up. If so then Humidification unit system can be controlled laterally in a spatially resolved manner is, the moisture content of the mineral Sealing with lateral spatial resolution control or regulate. This prevents local Over-humidification due to non-specific water supply due to local dehydration only can be done. In a special training course this In one embodiment, the sensor wires are crimped with the proviso that the crimped sensor wires around are at least 2% longer than the corresponding, however, elongated sensor wires. Such sensor elements are known, for example from the DE Patent 195 34 677.7-52, to which regarding constructive details and the metrological measures is referred. Sensor elements of this construction can for example as a nonwoven or from a textile fabric be formed. In the latter case the term curled does not refer to the actual web-like course of a sensor wire, but on the other hand increased length of the "loosely" woven sensor wire. The installation in a mineral seal takes place in the same Way, as with normal geotextiles. Please note however, that the sensor element advantageously none has waterproof coating.

In a special embodiment there are several sensor elements arranged parallel to each other. This Arrangement not only allows the measurement of moisture laterally spatially resolved, but also with a resolution in the orthogonal direction to the extension mineral sealing. This can be especially with mineral seals made of several Recommend locations.

The invention further teaches a method of operation a mineral seal according to the invention, whereby by means of the sensor element Degree of moisture within the seal continuously or is measured in time intervals and whereby by means of of the humidification system specified Amount of water released when in the waterproofing measured degree of moisture a predetermined Falls below target value. In particular, it is preferred the degree of moisture measured laterally in a spatially resolved manner and becomes the water release of the humidification system laterally spatially controlled so that the local moisture at a point where lateral a location-resolved one below a target value Moisture is measured, increases.

In one embodiment of the method according to the invention an alarm of particular importance is triggered, if there is moisture inside the seal is measured, which is above a predetermined Alarm threshold. Here it is used that the sensor element can perform a double function, namely on the one hand as an element for the delivery of a Control or regulating signal for humidity control or control and on the other hand as a monitoring element regarding malfunction of the mineral Seal. Because for the perfect functioning of one mineral sealing exists as it were a band for the moisture value. If the moisture value is below of this volume, as described above, must pass through Water supply can be adjusted. Is the moisture value however, above this band there is a water breakthrough through or into the mineral Sealing and thus a malfunction of the same. The upper limit of the band is than that Alarm threshold called. Such a malfunction, for example, due to settlement Embodiment of the invention noticed early and can also be repaired early to avoid contamination to prevent groundwater layers. In this respect, the sensor element can additionally Monitoring function according to DE patent 195 34 677.7-52 exercise, and only by appropriate adjustment or supplementing those belonging to the sensor element and controlling the humidification system Evaluation electronics. These relationships apply in particular also in connection with landfill surface seals, because by this embodiment of the Invention a precipitation / surface water entry in the mineral seal recognized early and can be repaired as quickly as possible.

Finally, the invention teaches the use of a Mineral seal according to the invention as a landfill base seal or as a landfill surface seal. In the latter case, an inventive training also advantageous, because then necessarily Plastic waterproofing membrane as protection against leachate, especially rainwater is required, the arrangement the plastic waterproofing membrane above the mineral one However, sealing to the above Problems with the moisture balance of the mineral waterproofing leads.

Fig. 1: einen Querschitt durch die Basis einer Deponie,

Fig. 2: eine schematische Projektion in der Ebene A-A des Gegenstandes der Fig. 1.

In the following, the invention will be explained with reference to figures which merely illustrate a schematic exemplary embodiment. Show it:

1: a cross-section through the base of a landfill,

FIG. 2: a schematic projection in the plane AA of the object of FIG. 1.

A mineral seal 2 can be seen in the figure and landfill body 3 (waste). The mineral Seal 2 consists of four laterally in one Layers 4 extending layers of a water-impermeable mineral building material. By comparative Consideration of Figures 1 and 2 recognizes one that extends parallel to the sealing plane Humidification unit system set up is. This is made up of lances 6 arranged in a grid formed, the outlet nozzles 7 in a position 4 of the mineral seal 2 are arranged. The lances 6 can be controlled individually via actuators, so that the humidification unit system for laterally spatially resolved Delivery of specified amounts of water is set up. You can also see from a comparative consideration of Figures 1 and 2 that two extending parallel to the sealing plane Sensor elements 8 for measuring the degree of moisture within the mineral seal 2, in the execution example in different positions 4 are. Each of the sensor elements 8 is a geotextile a plurality of sensor wires 9 are formed, wherein the sensor wires 9 in at least two sensor wire groups 10a, b a flat sensor wire resistance network are arranged forming, the sensor wires 9 the one sensor wire group 10 the sensor wires 9 of the other sensor wire group 10b cross without contact and the sensor element 8 for laterally spatially resolved resistance measurement is set up. Not shown in detail that the sensor wires 9 are crimped with the Provided that crimped sensor wires 9 at least 2% longer than corresponding ones, however are elongated sensor wires 9. It is possible depending according to the expected strain, this Dimensioning to choose 10% longer or more.

The electrical version is for reasons of clarity not shown in detail and has the following general structure. Each of the sensor wires 9 is assigned a connecting line and associated with it. These connecting lines in turn are, possibly via a multiplexer, to evaluation electronics or control and / or regulating electronics connected. To the control and / or regulating electronics again electrical control lines are connected, which to the electrically controllable outlet nozzles 7 of the lances 6 lead. On a corresponding one The control signal is the outlet nozzle 7 one or the outlet nozzles 7 of several lances open for a controllable period of time, so that a defined amount of water can leak. The humidification system is therefore in accordance a comparison of those measured by means of the sensor elements 8 Actual values of the degree of humidity with given Setpoint values of the degree of humidity can be controlled and / or regulated is.

The mineral seal 2 is operated as follows. The degree of moisture is determined by means of the sensor elements 8 within the seal 2 at time intervals, for example every 6 hours. By means of the humidification system will be a predetermined amount Water is released when the seal 2 measured degree of moisture a predetermined target value falls below, both laterally spatially resolved with regard to the measurement of moisture and water injection. This causes the local moisture on one Point where laterally resolved one below of a nominal value is measured, raised again to the target value.

In the evaluation electronics, however, is next to the target value an alarm threshold is also specified, which is above the target value. The Evaluation electronics is set up so that a Alarm is triggered when inside the seal 2 a humidity is measured which is above the Alarm threshold. The Alarm message with a laterally resolved assignment to the point at which the Alarm threshold is measured so that local Repair measures on the mineral seal 2, for example by injection of clay or clay suspensions be made possible. You can do this anyway existing lances 6 are used, so that too in so far as they can have a double function.

As already mentioned, the figures only represent represents the schematic structure. In any case must of course be ensured in the concrete execution be that with the establishment of the humidification system no pathways in the mineral seal can be created. It can recommend water outlet openings (e.g. nozzles) contrary to the schematic representation not in the mineral waterproofing itself, but in one Arrange area filter or as part of a to provide installed plastic waterproofing membrane, for example by welding in the same. All The above statements naturally apply to the Structure of a landfill surface cover analog.

Claims (10)

Mineral seal (2) consisting of at least one layer (4) of a water-impermeable mineral building material that extends laterally in a sealing plane, a humidification unit system extending parallel to the sealing plane being set up, at least one sensor element (8) extending parallel to the sealing plane is set up for measuring the degree of moisture, the moistening unit system being arranged above, inside or immediately below the seal (2) and the sensor element (8) inside the seal (2), wherein the humidification unit system can be controlled and / or regulated according to a comparison of actual values of the degree of moisture measured by means of the sensor element (8) with predetermined target values of the degree of moisture. A mineral seal (2) according to claim 1, wherein the sensor element (8) as a geotextile with a A plurality of sensor wires (9) is formed, wherein the sensor wires (9) in at least two sensor wire groups (10a, b) a flat sensor wire resistance network are arranged forming, wherein the sensor wires (9) of the one sensor wire group (10a) the sensor wires (9) of the other sensor wire group Cross (10b) without contact and where the sensor element (8) for laterally spatially resolved Resistance measurement is set up. Mineral seal (2) according to claim or 2, wherein the sensor wires (9) are crimped with the Provided that the crimped sensor wires (9) around are at least 2% longer than the corresponding, however, elongated sensor wires (9). Mineral seal (2) according to one of the claims 1 to 3, several sensor elements (8) are arranged parallel to each other. Mineral seal (2) according to one of the claims 1 to 4, the humidification system for the laterally spatially resolved delivery of predetermined amounts of water is set up. Process for operating a mineral seal (2) according to one of claims 1 to 5, whereby the degree of moisture is achieved by means of the sensor element (8) within the seal (2) continuously or is measured at time intervals and where a predetermined by means of the humidification system Amount of water released when the in the seal (2) measured moisture level a predetermined Falls below target value. The method of claim 6, wherein the degree of moisture is measured laterally in a spatially resolved manner. The method of claim 7, wherein the water delivery of the humidification system laterally spatially resolved is controlled so that the local humidity a point at which a spatially resolved one moisture measured below a target value will increase. Method according to one of claims 6 to 9, wherein an alarm is triggered when inside the seal (2) a humidity is measured which above a predetermined alarm threshold lies. Use of a mineral seal (2) after one of claims 1 to 5 as a landfill base seal or as a landfill surface seal.

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