DE20018187U1 - Feed pump - Google Patents

Description

H. Wurpts Maschinenbau GmbH , Friesenstrasse 224, 26632 Ihlow-Riepe

Feed pump

The invention relates to a device for conveying material from the depths of a body of water, in particular material from the bottom of a body of water, into a receiving space of a floating body, in particular a ship, via a conveying line extending from the floating body into the depths of the body of water, which has a material inlet and a material outlet opening into the receiving space.

Suction dredgers, for example, are known and used to extract material from the depths of a body of water. These are used to dredge shipping routes, particularly in the area of rivers, canals or port facilities, from time to time in order to maintain a navigable depth in these areas. Such dredging work is necessary because sediment is constantly deposited in such water areas. Similar dredging or extraction work is also necessary in other water areas and for other purposes.

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A suction dredger has a suction nozzle for dredging work, the free end of which can be lowered to the bottom of the water. With the help of a relatively large pump system on board the suction dredger, the material to be extracted is sucked from the bottom of the water into the suction dredger's hold, taking water from the water with it, which means that a viscous, pasty mass ends up in the hold of the ship.

Such suction dredgers are very expensive, particularly because of the pumping system required. In addition, even with the largest suction pump systems, only limited suction pressure differences can be created, so that the suction power of such a suction dredger is also limited. For example, no suction pump can create a suction pressure difference of more than about 0.4 atm from a water depth of 9 m.

Better pressures can be achieved by using submersible pumps as pressure pumps to bring them into the depths of the water. However, this method is also very complex and expensive.

The invention is therefore based on the object of creating a less complex and, in particular, more cost-effective device for conveying material from the depths of a body of water. This object is achieved according to the invention in that a pressurized gas line is provided for introducing a gas under high pressure into the material line in the area where the material enters.

The invention is based on the knowledge that by introducing a gas under high pressure into the conveying line in the area of the conveyed material inlet, the water in the area of the conveyed material inlet, together with the conveyed material located in this area, can be transported upwards through the conveying line into the receiving space. The gas must of course be introduced into the conveying line under a pressure that is greater than the water pressure prevailing there. This effect is known, for example, from geysers in nature, where

in which air rising from the Earth's interior carries hot water and material from the Earth's interior upwards in a column of water under high pressure.

In addition, if the conveyed material outlet flows into the receiving space of the floating body below the water level, as is provided in a preferred embodiment, another effect can be exploited. The water pressure increases continuously with increasing depth of the body of water, namely by approximately 1 atm (approximately 10 kPa) for every 10 m of water column. At a body of water depth of 10 m, the pressure is therefore approximately 1 atm. The deeper the receiving space of the floating body extends into the body of water, the more water pressure the water would have if the water flowed into this receiving space, for example through a leak in the receiving space. As long as this receiving space is empty, the normal atmospheric air pressure prevails, which the receiving space extending down into the body of water, i.e. to below the water level, takes with it, while the bottom area of the receiving space is already surrounded by water with a higher water pressure. If, as is provided in this design, the conveying line with its conveyed material outlet opens into the receiving chamber at a water depth of, for example, 5 or 10 m, for example in the floor area of the receiving chamber, and its conveyed material inlet, i.e. its free end, is lowered to a greater depth in the water, for example to the bottom of the water, then due to the pressure difference between the water pressure in the depth of the water and the pressure difference at the conveyed material outlet, the water and any conveyed material in the area of the conveyed material inlet is conveyed into the receiving chamber.

The conveying line itself can, for example, be designed as a relatively rigid conveying pipe, whereby the necessary means for lowering are sufficiently known from the suction dredger sector, corresponding to the conveying lines.

The difference to a conventional suction dredger is essentially that the discharge of the material in this design does not extend beyond the

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The water does not extend above the water level and, for example, flows into a cargo hold from above over the deck edge of the ship, but rather the conveyed material line flows into the intended receiving space at a considerable water depth. The water from the water thus enters the receiving space of the floating body through the conveying line with considerable water pressure, which is also caused largely by the water itself, so that no suction pump or pressure pump systems are required and pressure differences can be used for conveying that exceed the suction pump systems. The water pressure and the gas introduced into the conveying line under high pressure therefore work together to convey the conveyed material.

The water entering the conveying line through the conveying material inlet takes the conveying material with it as a carrier medium, for example, it takes the base material of the water to be dredged with it if the conveying material inlet of the conveying line reaches down to the bottom of the water or even enters this bottom. This creates a kind of suction effect that sucks the conveying material into the conveying line and transports it upwards into the receiving space. A more or less viscous mass of conveying material then pours into this space, as is generally known from suction dredgers.

The preferred gas is air under high pressure, which is fed into the delivery line, as this is the most cost-effective solution. However, other gases can also be used in principle. A pump, as is well known, is preferably used to generate the high pressure for the gas.

In a further development of the device according to the invention, it is provided that the conveying line has a double jacket that is open to the water in the direction of the conveying material outlet, at least in the area of its conveying material inlet. Even if the conveying material inlet of the conveying line extends into the base material of the water, this ensures that the water can pass through the double jacket to the conveying material inlet of the conveying line.

and can carry the base material along with it without the conveying line being blocked by the material to be conveyed in such a way that the water generating the conveying pressure cannot enter the conveying line.

In a further embodiment, it is also provided that the outer wall of the double casing is tapered in the direction of the conveyed material inlet. This also achieves a certain jet effect for the incoming water.

The conveying according to the invention should of course not end when the receiving space is more or less full. To do this, it is necessary to empty the receiving space continuously or from time to time by releasing the conveyed material into another space in the floating body, in order to maintain approximately atmospheric air pressure in the receiving space. To this end, in a further development of the invention, at least one connecting line from the receiving space to another space in the floating body is provided, which is equipped with conveying pumps that require a much lower pumping power than suction conveying pumps for conveying material from the bottom of the water.

The invention is explained in more detail below with reference to the drawings.

Figure 1 is a schematic representation of an embodiment of a device according to the invention and

Figure 2 is an enlarged schematic representation of a conveyor line according to

the invention. .

Figure 1 shows a schematic cross-section through a floating body, for example the cross-section of a ship 1. A conveying line 3 opens into the interior of the ship's body 1, which forms a receiving space 2 for the conveyed material. The conveyed material outlet 5 of this conveying line 3 is located significantly below the

Water level 4 in the receiving space 2. The conveyed material line 3 reaches down to a greater depth of, for example, 30 to 100 m into the water and can be designed and pivoted largely like conventional conveying pipes of suction dredgers. In the area of the free end of the conveying line 3, i.e. in the area of the conveyed material inlet 6, the conveying line 3 has a section 7 designed as a double jacket, which is open to the water, so that the water can enter between the outer wall of the conveying line 3 and the inner wall of the double jacket 7 and reach the conveyed material inlet 6.

Furthermore, a pressure gas line 8 is provided, via which a gas, preferably air, is introduced by means of a pump 10 arranged on the ship 1 through a nozzle 9 into the conveying line 3 in the region of the conveyed material inlet 6.

Due to the prevailing water pressure conditions in the area of the conveyed material inlet 6, the incoming water, which can enter both from above through the double casing 7 and through the conveyed material inlet 6, provided the latter is freely accessible, conveys conveyed material through the conveying line 3 into the receiving chamber 2. The receiving chamber 2 largely only has atmospheric air pressure, while the conveyed material outlet 5 is so far below the water level 4 that there is already considerable water pressure in this area outside the floating body 1. If the receiving chamber 2 fills with conveyed material, the floating body 1 will sink even further, which will increase this conveying effect even further. This conveying effect is additionally increased by the air introduced into the conveying line 3 under high pressure, since the air automatically rises through the conveying line 3 to the conveyed material outlet. This creates a kind of drag effect, as the rising air also takes water and conveyed material from the area of the conveyed material inlet 6 upwards to the conveyed material outlet 5. In the area of the conveyed material inlet 6, a kind of suction effect is created, through which the conveyed material and water in the area of the conveyed material inlet 6 are sucked into the conveying line and upwards into

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the recording room 2.

To drain the air rising through the conveying line 3, one or more vent pipes 11 are provided in the area of the conveyed material outlet 5. In addition, one or more connecting lines 12 lead from the receiving space 2 into other spaces of the floating body 1, which follow the illustrated receiving space 2, for example in the longitudinal direction of the floating body 1. As a result, the conveyed material conveyed into the receiving space 2 is guided via the connecting line 12 into other spaces in order to keep the receiving space 2 largely empty and in this way to maintain the atmospheric air pressure in the receiving space 2.

In Figure 2, the delivery line 3 and the pressure gas line 8 are shown again enlarged.

The invention is not limited to the embodiment shown. Rather, numerous variants are conceivable with regard to the specific design of the device according to the invention. For example, the double casing 7 can have a conical shape of the outer wall in the area of the conveyed material inlet 6, tapering towards the conveyed material inlet 6, in order to achieve a certain nozzle effect in the direction of the conveyed material inlet 6. Furthermore, several compressed gas lines 8 and/or several nozzles 9, which open into the same conveying line 3 at different points, can be provided for introducing the gas. In addition, several conveying lines 3 can also be attached to a floating body 1. The conveyed material outlet 5 could also be above the water level 4.

The invention makes it possible to extract material from the depths of a body of water in a simple and cost-effective manner, whereby the energy required to operate the conveying device, essentially to introduce the gas under high pressure, is relatively low compared to the energy required to operate known suction dredgers.

Claims (8)

1. Device for conveying material from the depths of a body of water, in particular material from the bottom of a body of water, into a receiving space of a floating body, in particular a ship, via a conveying line extending from the floating body into the depths of the body of water, which has a material inlet and a material outlet opening into the receiving space, characterized in that a compressed gas line is provided for introducing a gas under high pressure into the material line in the region of the material inlet. 2. Device according to claim 1, characterized in that the compressed gas line is designed to introduce air into the conveyed material line. 3. Device according to one of the preceding claims, characterized in that a pressure pump is provided for generating the pressure for introducing the gas into the delivery line. 4. Device according to one of the preceding claims, characterized in that the conveying line has, at least in the region of the conveyed material inlet, a double jacket which is open to the water in the direction of the conveyed material outlet. 5. Device according to claim 4, characterized in that the outer wall of the double jacket is conically tapered in the direction of the conveyed material inlet. 6. Device according to one of the preceding claims, characterized in that a connecting line is provided between the receiving space and at least one further space of the floating body for discharging the conveyed material from the receiving space. 7. Device according to claim 6, characterized in that a feed pump is provided for discharging the conveyed material through the connecting line. 8. Device according to one of the preceding claims, characterized in that the conveyed material outlet is arranged in a region of the receiving space lying below the water level of the body of water.