NL1004876C2 - Method for making a reservoir, and reservoir system. - Google Patents

Description

METHOD FOR MAKING A RESERVOIR,

AND RESERVOIR SYSTEM

The present invention relates to a method of making a reservoir and a system for temporarily storing and releasing liquid over a period of time, this liquid being in particular groundwater or surface water.

Rainwater that has fallen on paved surfaces such as roads and roofs is generally discharged to sewage treatment plants for cleaning, after which this cleaned water can be discharged back into the environment.

A problem with this is that, in general, this water is already clean enough to be released directly into the environment, without it having to be first cleaned at a sewage treatment plant.

Known underground systems have the problem that they generally consist of individual plates that have to be coupled together in an already excavated reservoir location, in order to build up a system on site. This is very time consuming, difficult to carry out and involves a lot of costs. Such a system is known from WO95 / 16833.

An object of the present invention is to solve one or more of these problems.

According to a first aspect, the present invention provides a method for controlling the amount of liquid in the soil, comprising the steps of: manufacturing separate liquid storage elements, each of which comprises an outer wall 30 comprising a space encloses with a predetermined volume, wherein at least one fluid inlet / outlet 1004876 2 channel is disposed between the outer wall and the fluid storage area in each element, - transporting a predetermined number of these prefabricated elements to a desired location; and - excavating a location in which the reservoir is to be installed at this location.

Since a system according to the present invention does not need to be built up in several steps, that is, the first construction of individual liquid storage elements from manufactured parts and the subsequent assembly of these parts at the reservoir location, a very efficient and provides a rapid method of making a reservoir system of a desired volume. This means that it is very easy to deposit only a predetermined number of elements in a reservoir location to provide a reservoir of the desired volume.

Preferably, a predetermined number of storage elements are coated prior to placement to optimally keep the number of elements together as a whole.

After the storage elements have been placed in a reservoir location, they can be covered with a layer of material, such as soil or sand.

Preferably, the placement of the predetermined number of storage elements from outside the excavated reservoir location is performed in a motion. This means that in-house work does not have to be performed, providing a very quick and easy way of making a system.

According to another aspect of the present invention, there is provided a system, for use in the above method, comprising a plurality of fluid storage elements, each element having a prefabricated, fully functioning shape, comprising an outer wall, a space of a predetermined volume within this outer wall and one or more fluid inlet / outlet channels 1004876 that pass from this space and through this outer wall.

Since liquid, in particular groundwater entering the system according to the present invention, is only stored and released back into the environment within a certain period of time without subjecting it to further treatment steps, the amount of water that ends up in a sewage treatment plant is reduced , which requires less processing. Thus, less energy is required when using these installations, which leads to a reduction in processing and installation costs.

Since the system consists of a predetermined number of individual storage elements, each with a pre-fabricated working form, a flexible system is provided whereby this system, once it has been placed underground, can move with ground movements, without significant damage to the system occurring so this could no longer work.

The storage elements preferably have a substantially convex shape to optimize the storage volume relative to the outer wall surface of the element and also to create a maximum void between the elements which can be filled by further elements to give a very efficient system build-up .

In order to increase stability, two or more elements can be linked together.

Preferably the system is connected to a water discharge pipe.

In this way, the system can be coupled to existing systems, whereby water that would normally be led directly to a sewage treatment plant is instead fed to the system of the present invention.

Furthermore, the system can be provided with a pre-purification unit, for instance a sand and / or a leaf collecting unit, in order to prevent unwanted material 1004876 4 from entering the system, whereby the system could possibly become clogged.

According to another aspect of the present invention, the use of the above system is provided as a channel extending substantially downward from the ground surface, for connecting a first water level to a second deeper water level.

According to yet another aspect of the present invention, the use of the above system is used to provide a flexible water channel through a box dam, dike or the like.

Because of the flexibility of the system according to the present invention, it can be used as a liquid transport system, whereby also because of the relatively light weight of the system a weight saving in a dam, for example, is obtained, as a result of which it was caused by the weight of the dam occurrence of earthquakes is reduced.

The present invention will now be further described with reference to the following specific description with reference to the figures, in which: figure 1 shows a top view of a first embodiment of a system according to the present invention; figure 2 shows a side view of the system of figure 1, coupled to one or more house water discharge pipes; Figure 3 shows a side view of a second embodiment of a system according to the present invention; figure 4 shows a top view of the system of figure 3; Figure 5 is a side view of a further embodiment of the system according to the present invention, with three pre-purification units; 1004876 Figure 6 is a partially cutaway side view of a third embodiment of the present invention; Figure 7 is a side view of a fourth embodiment of the present invention; and Figure 8 shows a preferred embodiment of a liquid storage element according to the present invention.

A system 1 (figure 1) according to the present invention comprises a large number of convex-shaped water storage elements in the form of spheres 2, which are incorporated in a covering 4, which is preferably made of water-permeable tarpaulin-like material, for instance a 100% polypropylene cloth also ensures that material that can cause blockages, such as soil and sand, is kept out of the system.

Table 1 below gives technical specifications of preferred coating material, with a coating weighing 600 g / m2 being particularly preferred.

20 1004876 6

Table 1

Standard technical data NICOFELT 5 unit

Weight g / m2 200 300 400 500 600 800 NF G 38-013 10 Thickness (2KPa) mm 3 3.5 4 4.5 5 5.8 NF G 38-12

Tensile strength kN / m 6 9.6 14.6 19 23 30 DIN 5385 712 N / 5cm. 300 480 730 950 1150 1500 15

Elongation at break% 100/80 100/80 100/80 100/80 90/70 90/70 DIN 5385712 CBR N 800 1300 2000 2600 3200 4400 2 0 DIN 54307

Dry sieve test micron 110-90 110-90 100-80 90-70 50-60 80-60 095 2 5 Water permeability m / s> 3EO-3> 3EO-3> 3EO-3> 3EO-3> 3EO-3> 2EO -3 ”K” value

The spheres 2 each have several inlet 30 / outlet channels 6, through which water can flow into these spheres and leave the spheres. Thus, each sphere 2 has its own liquid permeability capacity and water movement capacity.

Spheres 2 are preferably made of synthetic material, which is most preferably used plastic material.

1 0 0 4 8 7 6 7

Bulbs 2, or any portion of the system, may include filtering means (not shown) to ensure that the system is not clogged by sand or earth material, for example.

The system 1 is coupled to a water drainage pipe 8, which, as shown in figure 2, can form part of a rainwater drainage system of one or more houses in a district, for example.

Rainwater contained in pipe 8 is introduced into system 1, this water being taken up by the bulbs 2 via the inlet channels 6, until all bulbs 2 have reached their storage capacity.

This water then sinks into the ground from channels 6.

15 If there is an abundance of water, water is kept in the system until the water level drops again, after which the water can be released back into the environment.

Figure 3 shows a side view of a further embodiment 10 of the system which finds use as a water overflow well.

A plurality of spheres 2 are placed in a pre-dug pit in a liner 12 to extend from just above the water surface of a more, for example, down into the ground, through water impermeable strata, for example clay and a clay sand mixture, up to a water-permeable stratum.

If the water level of the lake rises above the top edge 12 of the system 10 (see also figure 30 4), this water abundance is taken up in the system and transported to the deeper water level, where the water is released.

Figure 5 shows the system 1 coupled to a water discharge pipe 13, a leaf collection unit (not shown) and two sand collection units 14, which are to keep leaves and sand out of the system, respectively.

A box dam 16 (figure 6) has a sheet pile wall 18, behind which a number of spheres 2 in a lining 19 are received 1004876 8. In this embodiment of the present invention, the spheres 2 can serve as a lightweight supply material, whereby the box dam 16 can be made less heavy. A number of spheres can also be designed with a closed outer wall, so that they provide buoyancy to the box dam 16.

A dike 20 (figure 7) is provided with a water channel system 22, which consists of a number of hollow cube-shaped liquid storage elements of a certain size. In Figure 7, cubes with two different cube sizes 24 and 26, for example, are shown. Each cube can be covered with a covering (not shown). This system 22 according to the present invention makes it possible to provide a very efficient dike 15 which is reasonably lightweight and where an efficient water channel with a high stability can be made between the two sides of the dike.

Each cube (Figure 8c) is provided with a channel 28 extending through the cube, the system 22 may be assembled such that these channels of different cubes match to provide a water pipe.

In addition to the specific embodiments of the present invention described above, it will be appreciated that the system of the present invention may also find use as, for example, a light feed material with or without buoyancy, an aeration channel in soil remediation, aeration of running water, underground water drains and as waterways, where a "bridge" is formed by the system allowing the passage of water from one place to another.

The present invention is not limited to the above described preferred embodiments, the requested rights are defined by the following claims.

1004876

Claims (16)

A method for controlling the amount of liquid in the soil, comprising the steps of: - manufacturing separate liquid storage elements, these elements each comprising an outer wall 5 enclosing a space with a predetermined volume, at least one liquid inlet / outlet channel is provided between the outer wall and the liquid storage area in each element, - transporting a predetermined number of these pre-fabricated elements to a desired location; and - excavating at this location a place in which a reservoir is to be fitted. 2. Method according to claim 1, wherein the predetermined number of storage elements is placed in the location substantially in one movement. A method according to claim 1 or 2, wherein a predetermined number of storage elements is coated before coating. Method according to any one of the preceding claims, comprising the further step of covering the reservoir with one layer of material, such as soil or sand. A method according to any one of the preceding claims, wherein placing the predetermined number of storage elements is performed from outside the excavated reservoir site. 6. System for use in a method according to any one of the preceding claims, comprising a number of liquid storage volume elements, each element having a prefabricated, fully working form, comprising: - an outer wall; 1004876 - a space of a predetermined volume within this outer wall; and - one or more fluid inlet / outlet channels passing from this fluid storage area and through this outer wall 5. System for use in a method according to any one of claims 1-5, comprising a number of liquid storage volume elements, each element consisting of two or more connectable volume units, the elements comprising: - an outer wall; - a space of a predetermined volume within this outer wall; and - one or more fluid inlet / outlet channels 15 passing from this fluid storage area and through this outer wall. System according to claim 6 or 7, wherein the storage elements have a substantially convex shape. 9. System as claimed in claims 6, 7 or 8, wherein the storage elements are mainly provided in a coating. The system of any of claims 6-9, further comprising connectors between the storage elements. System according to any one of the preceding claims, which is connected to a liquid supply line, for instance a water pipe. 12. Use of a system according to any one of claims 6-11, for temporarily storing liquid, in particular groundwater, and subsequently releasing this temporarily stored liquid at specific times. 13. Use of a system according to any one of claims 6-11 as a channel extending substantially downward from the ground surface, for connecting a first water level to a second deeper water level. 1004876 Use of a system according to any one of claims 6-11 for providing a flexible water channel through a dam, for instance a cofferdam, a dike or the like. Dam, in particular a box dam, comprising a system according to any one of claims 6-11, wherein the system is arranged between a first box dam wall and a second box dam wall. Dike comprising a system according to any one of claims 6-11. 1004876