NL8603031A - Method for dewatering and/or draining of ground-surfaces and mud - uses centrifugal air-ventilator producing vacuum in drain pipe, and piston pump - Google Patents

Abstract

The method for dewatering and/or draining of ground uses a drainpipe (8) in which a vacuum is maintained down which the water is discharged. The vacuum is created and maintained by a centrifugal air-ventilator (3). The construction has a water-air separator (2) with, at the top, the centrifugal air-ventilator and a piston pump. The pump is connected with a pipe for discharging the withdrawn water (6) while the water-air separator is connected with a main pipe (7) on which the drainpipes are connected.

Description

338 NL 33814 Kp / hf

Method for dewatering and / or draining of soils and sludge, as well as a device for carrying it out.

The invention relates to a method for dewatering and / or drainage of soils and sludge, with the aid of drain pipes, in which a vacuum is maintained and in which the extracted water is discharged, and to a device for carrying it out.

Such a method and device are known from Dutch patent application 6614389, which was filed on October 13, 1966.

The known method and device are aimed at preparing sites for the construction of sludge-sprayed areas, whereby the sludge can originate from keeping ports at depth. The water from the sludge is removed using a system of drain pipes connected to a pump. According to this specification, the pump is capable of maintaining a vacuum in the system of pipes and discharging the water drawn in.

It is noted that, according to the known method, the suction had to be continued for 10-40 days, in order to obtain such dewatering, that the catch reaches the sludge surface and catch cracks become visible. After reaching this stage it is no longer possible to maintain a vacuum in the tubes.

Apparently, according to Dutch patent application 6614389, a further dewatering is required.

The pump used here is a liquid pump, which is only suitable for generating and maintaining a powerful vacuum under saturated conditions.

An important drawback of the known method is therefore that after treatment a high residual water content still remains in the material to be dewatered.

The object of the invention is now to provide a method and device, wherein the above-mentioned drawbacks of the known method and device are successfully overcome.

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To this end, the invention provides a method for dewatering and / or draining soils and sludge, using drain pipes, in which a vacuum is maintained and in which the extracted water is discharged, characterized in that the vacuum is generated and maintained held using an appropriate air extractor.

The present method and device now offer the possibility of draining and / or dewatering soil and sludge quickly and adequately, by creating the vacuum and maintaining it with the aid of a suitable air extractor. A special advantage of the present method is that it not only extracts the water, but also draws in air straight through the soil material and / or sludge, whereby an additional moisture-removing and drying effect is obtained, which is not the case with the known method. In addition, the air drawn in keeps the pores in the soil and sludge open, so that clogging of water drainage channels is minimized and therefore a continuous discharge of water is ensured. The result of the present method is therefore a surprisingly fast drying and a significantly lower residual water content than in the known method.

A centrifugal air fan is preferably used as the air extractor, whereby very good results are obtained. It is noted that the use of a heat carrier, for example steam, hot air, etc., can be suitable for mobilizing bound water in the soil, whereby the final residual water content of the treated soil and / or the sludge is reduced even more.

The invention furthermore comprises a device for carrying out the method according to the invention, characterized in that it is provided with a water-air separator, with a suitable suction device for air at the top and a pump connected to a pipe for draining the extracted water, while the water-air separator is connected to a main pipe, to which drain pipes are connected.

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A centrifugal air fan is particularly suitable as a suction member, while the pump is preferably a submersible pump.

A preferred embodiment of the device 5 according to the invention is represented by Figures 1 and 2, to which the invention is not limited, however.

Fig. 1 shows a schematic side view of the device according to the invention.

Fig. 2 shows a partial top view along plane II - II of FIG. 1.

In fig. 1 2 represents a water-air separator, which is provided at the top with an air extractor, in particular a centrifugal air fan 3.

At the bottom of the water-air separator 2 there is a submersible pump 4 for draining the collected water 6 via the pipe 9. Another suitable liquid pump can be used instead of a submersible pump. The side wall of the water-air separator 2 is connected to a main pipe 7, to which drain pipes 8 are connected on either side. The drain pipes 8, which are usually located at a distance of 20-200 cm below the bottom or sludge surface to be treated, must be carefully installed and preferably horizontally or with a slight slope in the discharge direction, in order to ensure that the device functions properly. 25. The device according to the invention can be regarded as a closed system for creating and maintaining a suitable vacuum.

In some cases it may be desirable for the drain pipes to be located on only one side of the main pipe 7.

Suitable drain pipes 8 are perforated polypropylene pipes or other pipes or hoses commonly used for drainage purposes, such as pipes made from rubber waste (leaky pipe) or pipes of other polymers or copolymers.

After activation of the centrifugal air fan 3 or another suitable air extractor, the air from the system is vigorously sucked in, creating and maintaining a vacuum in the system, such that both water and air are sucked into the drain pipes. Initially when the soil and / or the sludge is saturated with water, mainly water will be sucked in, but as the water content decreases, air will also be sucked in addition to water, whereby, as mentioned earlier, the sucked-in air has an additional drying effect. The amount of air sucked in will increase in the course of dewatering as the water content in the soil and / or sludge decreases, finally reaching a state where only air is drawn into the system by the centrifugal air fan . The entrained air is discharged with the aid of the centrifugal air fan 3 or another suitable suction device, while the water 6 enters the water-air separator 2 via the main line 7 and from there with the aid of a pump, preferably a submersible pump, will be removed.

The method and device according to the invention can be successfully used for in situ removal and / or drainage of soil and / or sludge. Furthermore, the method and device according to the invention are also suitable for removing water on remote site, ie from stored material.

According to the invention, the term soil is understood to mean artificially constructed soils consisting of sand, clay, peat or any other material. In the context of the invention, the term sludge is to be understood to mean sludge of mainly mineral or mainly organic composition. Sludge of mainly mineral composition can be sludge from the bottom of rivers, for example sludge that is released when dredging in ports.

35 An example of sludge of mainly organic composition is sludge from biological sewage treatment plants.

The present method and device are furthermore particularly suitable for dewatering and / or draining sports fields, in particular sports fields with a water-permeable top layer, for instance a gravel top layer, such as tennis courts, athletics tracks etc.

The invention is now illustrated by the following non-limitative examples.

Example I

Dewatering and / or drainage of tennis courts.

Outdoor tennis courts generally have a water-permeable coating, often gravel. In a country 10 such as the Netherlands, where a relatively large amount of rain showers occur, pias are formed with the result that the courses remain unplayable for a long time. The application of the present method has shown that a rapid and adequate dewatering of such tracks can be realized, so that the tracks can be played quickly after a rain shower.

In a tennis park with thirteen tennis courts, four were treated according to the present method.

After a heavy rain shower, it appeared that the untreated lanes were unplayable for a whole day of play due to the presence of puddles, while the lanes treated according to the invention were dry and playable again after about one hour.

Example II

25 Dewatering sludge.

Contaminated sludge was removed from a canal and stored in a depot. After some time, little or no water appeared to be released. The sludge was then left for several months. The sludge thus apparently dewatered was subsequently treated according to the invention. It has been found that the residual water content of the sludge could be reduced by 10% in a few days.

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Claims (5)

1. Method for dewatering and / or draining of soils and sludge, using drain pipes, in which a vacuum is maintained and in which the extracted water is discharged, characterized in that the vacuum is generated and maintained by means of a suitable air extractor. A method according to claim 1, characterized in that the suitable extractor is a centrifugal air fan. Device for carrying out the method according to claim 1 or 2, characterized in that it is provided with a water-air separator, with a suitable air extractor on the top and a pump connected to a pipe for discharging the extracted water, while the water-air separator is connected to a main pipe to which drain pipes are connected. 4. Device as claimed in claim 3, characterized in that the suitable extractor is a centrifugal bilge blower. Device according to claim 3 or 4, characterized in that the pump is a submersible pump. 860 303 1