DE202015008212U1 - Device for removing and filtering liquid - Google Patents

Abstract

Floating device (1) for the removal and filtering of liquid from a reservoir, preferably for the removal and filtering of sea or river water, comprising: a. at least one floating platform (2) or a pontoon, possibly provided with buoyancy bodies, on or on the platform • means for energy production, preferably solar cells or solar elements are arranged, and • means for controlling and operating the device, in particular devices for Power supply of the device, for controlling valve and line functions and for controlling the volume flows of the liquid to be filtered, b. at least one first pressure line (3) ending at the platform, with which the liquid to be filtered is conveyed from a first depth below the platform to the surface or to the platform, c. at least one filter device (5, 6, 7, 8) connected to the platform and on the input side to the end of the first pressure line, d. at least one output side connected to the filter means second pressure line (9, 10, 11, 12), with which the filtered liquid is conveyed back to a second depth below the platform in the reservoir, wherein the pressure lines and the filter device via valves, lines and pumps so are interconnected and communicate that to be filtered liquid is conveyed from the reservoir, filtered and returned to the reservoir.

Description

The innovation relates to a floating device for the removal and filtering of liquid from a reservoir, preferably for the removal and filtering of sea or river water.

Microplastic particles pollute the oceans and rivers on a large scale. Microplastic is present as a suspension with a particle size of 5.0 mm to 0.2 microns. These particles swim to a depth of 3.0 meters, or accumulate on the seabed.

The particle size distribution is extremely low. References speak of 100,000 particles per km ² , or 10,000 particles per m ² . Furthermore, microplastics can be found in river deltas. The pollution should already affect the entire sea surface. However, there is hardly any reliable scientific knowledge about the degree of pollution, the composition of the sculpture and its origin. The technical and public discussion refers to random sampling.

The problem of increasing pollution / distribution of microplastics in the oceans and estuaries has found its way into daily politics. The impact of pollution on aquatic life as a whole is likely to be significant.

For the quantification and qualification of this pollution, therefore, a precise and long-term observation in the form of a monitoring concept is required so that suitable practical and political countermeasures can even be planned. In any case, surface waters should always be examined for 12 months. Because of the area to be examined, therefore, a standardized and seaworthy device for collecting samples is required. So far, a sampling of microplastic over a longer period can hardly perform without the expensive use of a boat or ship and its staff.

For the innovation, therefore, the object was to provide a device with which a sampling or filtering of water / liquid on large areas can be carried out largely automatically and with low maintenance and upkeep. This object is achieved by the features of the main claim. Further advantageous embodiments are disclosed in the subclaims.

In this case, the device according to the innovation comprises at least one floating platform or a pontoon, possibly provided with buoyant bodies, wherein on or on the platform means for energy production, preferably solar cells or solar elements are arranged, and means for controlling and operating the device, in particular devices to power the device, to control valve and line functions and to control the volume flows of the liquid to be filtered.

Furthermore, such a device according to the invention comprises at least one first pressure line ending at the platform, with which the liquid to be filtered is conveyed from a first depth below the platform to the surface or to the platform, at least one with the platform and the input side with the end The first pressure line connected filter device and at least one output side connected to the filter means second pressure line, with which the filtered liquid is conveyed back to a second depth below the platform in the reservoir.

In this case, the pressure lines and the filter device via valves, lines and pumps are connected to each other and communicate with each other so that to be filtered liquid is conveyed from the reservoir, filtered and returned to the reservoir.

The innovation thus consists of a self-sufficient floating, possibly ocean-going platform or pontoon, are integrated into the other modules and can automatically win in the claimed training samples to a large extent for the purpose of research-side evaluation.

The device is operated with electrical energy that can be obtained either from photovoltaic systems or even by wind turbines. In this respect, the device is self-sufficient and can search over several weeks or months certain areas of surfaces at sea or in river delta areas.

An embodiment of such a device also shows the various advantageous developments in their application.

1 shows in sketchy and perspective the device according to the invention 1 floating on the sea near a river mouth. The depth here is about 40 m.

The device 1 has a floating pontoon 2 on, are arranged on top of the pontoon solar cells not shown here. In the pontoon, and thus well protected against corrosion and an effective seawater, are - also not shown in detail - all facilities for controlling and operating the device provided, in particular devices for supplying energy to the device, for controlling valve and line functions and for controlling the volume flows of the liquid to be filtered.

The device 1 also includes one on the platform 2 ending first pressure line 3 with which the liquid to be filtered from a first depth below the pontoon 2 is transported to the surface or to the pontoon.

Also visible are four with the pontoon 2 and at its inlet or inlet side with the end 4 the first pressure line 3 connected filter devices 5 to 8th ,

The advantageous embodiment shown here has filter devices which are designed as floating hoses made of elastomeric material, in the interior of which a bag or candle filter not shown here in detail for filtering the liquid is arranged in each case.

Advantageously, each of the floating hoses is connected on the output side to second pressure lines 9 to 12 with which the filtered liquid is conveyed back to a second depth below pontoon in the river bed. These pressure lines are formed as extending into the reservoir pressure hoses made of elastomeric material.

Advantageously, all are the floating filter devices 5 to 8th so to the pontoon 2 connected, that the pontoon is stabilized by the filter devices in its floating position as possible.

In the first pressure line 3 is arranged here not shown electrically operated submersible pump.

The electrical control system in the pontoon includes, inter alia, inverters for the conversion of direct current into alternating current for the operation of several such submersible pumps, for the power supply of the measurement and control technology, and also for the control of a positioning system.

The first pressure line has several closable with automatic valves openings that are opened or closed individually. The pressure line consists of several flexible hose segments of rubber material, which can be assembled to reach the appropriate depth.

The swim hoses with the filter devices can also be extended in each case to increase the filter area.

When the device is in function and in automatic mode, the submersible pump in the first pressure line wins the seawater or the mixed water in the river delta to a depth of about ten meters and presses it via a line into a distributor located in the floating pontoon. The inflow into the pressure line can be done either near the surface, or in one to three meters of water. The first pressure line is equipped with several automatic valves located at the respective depths.

The distributor has four outlets which each lead into a filter device of a floating hose. In the floating tubes there are candle filters. These filters are not backwashable. They absorb solids according to their separation limit. Each filter is charged with the same volume flow. The filtrate exits at the end of the floating hose, or is pressed into the sea via depth-directed second pressure lines / hoses. In order to avoid a short circuit of the removal and return, the compression must be done in thirty meters of water. The pontoon with all assemblies and its filter devices float freely in the open sea, or in estuaries. The submersible pump draws its power from the photovoltaic system.

The pontoon is equipped with a signal generator to transmit its position. The candle filters are not changed to sea. The filter surface is designed so that the pontoon takes samples for several weeks without having to wait. If the differential pressure in the filters rises to a predetermined value, the complete filter containers (floating hoses), including the candle filters, are removed and replaced. These works are carried out by means of a supply ship. Sampling, d. H. The application of the platform in the sea is usually over twenty-four months.

LIST OF REFERENCE NUMBERS

1

Floating device for removing and filtering liquid

2

Pontoon / Platform

3

First pressure line

4

End of the first pressure line

5

filtering device

6

filtering device

7

filtering device

8th

filtering device

9

Second pressure line

10

Second pressure line

11

Second pressure line

12

Second pressure line

Claims (6)

Floating device ( 1 ) for the removal and filtering of liquid from a reservoir, preferably for the abstraction and filtration of sea or river water, comprising: a. at least one floating platform ( 2 ) or a pontoon, optionally provided with buoyancy bodies, on or on the platform • means for energy production, preferably solar cells or solar elements are arranged, and • means for controlling and operating the device, in particular means for supplying power to the device for controlling of valve and line functions and for controlling the volume flows of the liquid to be filtered, b. at least one first pressure line ending at the platform ( 3 ), with which the liquid to be filtered is conveyed from a first depth below the platform to the surface or to the platform, c. at least one filter device connected to the platform and on the input side to the end of the first pressure line ( 5 . 6 . 7 . 8th ), d. at least one output side connected to the filter device second pressure line ( 9 . 10 . 11 . 12 ), with which the filtered liquid is conveyed back to a second depth below the platform in the reservoir, wherein the pressure lines and the filter device via valves, lines and pumps are so interconnected and communicate that to be filtered liquid conveyed from the reservoir, filtered and is returned to the reservoir. Device according to Claim 1, in which the filter device ( 5 . 6 . 7 . 8th ) is designed as a floating body, preferably as a floating cylinder or floating hose made of elastomeric material, in the interior of which at least one bag or candle filter for filtering the liquid is arranged. Apparatus according to claim 1 or 2, wherein the pressure lines ( 3 . 9 . 10 . 11 . 12 ) are formed as extending into the reservoir pressure hoses made of elastomeric material. Device according to claim 2 or 3, in which a plurality of floating filter devices ( 5 . 6 . 7 . 8th ) are connected to the platform so that the platform is stabilized and / or supported by the filtering devices in their floating position. Device according to Claim 4, in which each of the filtering devices ( 5 . 6 . 7 . 8th ) on the input side to the platform ( 2 ) and connected to the first pressure line ( 3 ) is connected and on the output side, a separate connected second pressure line ( 9 . 10 . 11 . 12 ) having. Device according to one of claims 1 to 5, in which in the first pressure line ( 3 ) An electrically operated submersible pump is arranged and the pressure line has a plurality of inlet openings in each case different depths.

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