NO791803L - COMPRESSED AIR STORAGE. - Google Patents

Description

The invention relates to a compressed air reservoir where the compressed air is at least partially under the pressure of a liquid column.

Compressed air magazines where the compressed air is under pressure

ket from a water column is known.

In the known devices, an air duct runs from the top

pen of a cavern for a compressor or an air turbine,

from the bottom of the cavern, a water channel runs to a higher water stream. This arrangement has the disadvantage that natural caverns are rarely at hand, while the construction of artificial caverns requires a long time and large costs.

According to the invention, these disadvantages are avoided by the compressed air being located in at least one substantially downwards open container

there or similar that can be moved up and down under water and in

which container a displacement body or similar protrudes from below. This compressed air container or the like can optionally also be arranged in another liquid. Further features of the invention are described with the help of the drawing. Fig. 1 shows in vertical section I-1 a compressed air magazine according to the invention with a displacement body or the like which essentially consists of an enclosure filled with loose material. Fig. 2 shows the same compressed air container and displacement body in plan view. Fig. 3 shows in vertical section a displacement body or the like which is intended for a compressed air magazine according to the invention and essentially consists of a container filled with a liquid, e.g. water. In the drawing, 1 indicates air. 2 indicates a liquid, e.g. water, in which, respectively which is a compressed air container 3. 5 indicates a pipeline that extends from the interior of the container 3 to a compressor 6 or the like, respectively to a drive device 7, turbine or the like. 8 indicates a generator or the like. 20 denotes a displacement body or the like which projects into the container 3 from below. 2 3 denotes ballast which can possibly weigh down

the container 3. The container 3 is designed for significant upward and downward movement. It rests on a cushion of air 1 which is supported on or in the displacement body. 20. If air 1 is pumped into the container 3, the air cushion 1 increases and the container 3 rises. If air 1 is released from the container 3, the air cushion 1 decreases and the container 3 moves downwards.

The container's 3 upward and downward movement can proceed vertically, at an angle or in an arc. As a guide for upward and downward movement comes e.g. a slide or roll steering in consideration. However, the container 3 can also be controlled by means of swing arms, joint arms, scissor arms or the like in its upward and downward movement. The displacement body 20 is substantially fixed in its height level. However, it can optionally be moved up and down at the same time as the container 3, e.g. brought to a higher level for easy maintenance.

According to fig. 1, the container 3 is weighed down by ballast 23. As ballast, e.g. loose mass such as sand, gravel, stone, ore etc. is used.

The container 3 is preferably substantially cylindrical. However, it can also have other forms, especially when it consists of several chambers or cells, or includes stiffening walls,

-ribs, -frames etc.

In order to prevent the container 3 from tipping over, several containers 3 can be connected to each other, these containers preferably being located in substantially adjacent areas. To this end, the container 3 can also consist of several chambers, cells, etc. As can be seen from the design example shown in the drawing, at least one pipeline 5 leads from the interior of the container 3 to at least one compressor 6 or the like, respectively a drive device 7, turbine or the like. By means of the drive device 7 e.l. a generator 8, a heat pump, water pump or other devices can be operated. A device can be arranged by means of which the air 1 is preheated before it reaches the drive means of the drive device 7 or the like. A heat exchanger device can be connected to the compressor 6 or to the connected compressed air line, by means of which device the heat produced by compression of the air 1 is transferred to a heat-carrying medium located in a special system. The mouth of the line 5 can be located in the area at the top of the container .3. However, the mouth of the line 5 can also lie largely in the area at the top of the displacement body 20 or the like. Essentially, in the area near the top of the container 3, there can be arranged a flue-shaped extension into which the end of the line 5 protrudes when the container 3 is at a deep level, i.e. when it is filled with little air 1. The displacement body 20 can at least partially consist of loose mass or the like. It can essentially include at least one enclosure, possibly surrounded by at least one

grating, perforated wall or the like, within which respectively which filling material or the like is located. The displacement body 20 or the like can have at least one row of piles arranged in a circle or at least one essentially circular sheet pile wall or the like, which encloses the loose material. The displacement body 20 or the like, respectively the loose material or filling material which is in it, can be provided with at least one cover. The cover can e.g. be a plate,

skin, foil or the like.

According to the embodiment shown in the drawing, the displacement body 20 is essentially cylindrical. As a rule, it will essentially have a similar shape to the container 3. The displacement body 20 can of course be composed of several parts. However, several displacement bodies 20 may also be arranged. According to Figures 1 and 2, the displacement body '20 essentially consists of a cylindrical casing which is filled with filler material. As a filling material, e.g. excavated material is used from the bottom of the water in which the compressed air reservoir is arranged. However, filling material can also be transported to the construction site and submerged there with the help of a ship or similar.

However, the displacement body 20 can also essentially consist of at least one container, vessel or the like in which a filler is located, as shown in fig. 3. The filler can be air. Preferably, the filler is a liquid, in particular water. However, the filler can also at least partially be loose material or the like. If the displacement body 20 is relatively large, it can also consist of several containers, vessels or the like.

According to Figures 1 and 2, the displacement body 20 is reinforced by means of walls, ribs or the like. According to Figure 3, the displacement body 20 has several chambers filled with liquid.

Compressed air storage essentially takes place so that with the help of at least one compressor 6 or the like, air 1 is pumped through at least one line 5 into the container 3, whereby the latter moves upwards as the air cushion 1 becomes higher. When using the compressed air 1, it is led from the container 3 through at least one line 5 to at least one drive device 7, turbine or the like, and then released into the atmosphere. Below this, the container 3 moves downwards, as the height of the air cushion 1 decreases. The compressed air 1 can be heated before it reaches the drive means of the drive device 7. The heat generated by compression of the air 1 can be released by means of a heat exchanger to a heat-carrying medium located in a suitable vessel or pipe system. The heat from the air 1 that flows from the compressor 6 to the container 3 can be released to a<y>arm magazine mass or the like, which is flowed through by the air 1 through a channel system.

Conversely, a heat-storing mass or the like can emit heat to the compressed air 1 that flows from the container 3 to the drive device 7.

The compressed air reservoir according to the invention can be installed by arranging at least one displacement body 20 or the like on the bottom of a body of water, after which at least one container 3 is immersed in an end-facing position substantially above the displacement body 20. E.g. can be set up at the bottom of a body of water at least one enclosure, pile wall, pile wall, grid wall, hole wall or the like, at least partially filled with filling material or the like, after which the container 3 is placed substantially above the displacement body 20 or the like. However, at least one container, a vessel or the like, can be set up on the bottom of the water, which essentially forms the peripheral wall of the displacement body or similar, or which is lowered to the bottom of the water. The displacement body 20 can of course essentially consist of one piece.

The displacement body 20 can also be lowered or raised essentially together with the container 3.

Of course, the invention is not limited to the embodiment shown in the drawing. The displacement body 20 or the like can e.g. be surrounded by an annular recess in the bottom, or formed by such a device. Preferably, at least part of the side wall of the container 3 protrudes into such an annular bottom depression.

The container 3 or the ballast 2 3 can be connected to at least one air container which, during normal operation of the device according to the invention, is not filled with air 1. This additional air container or the like preferably serves to raise the container

3 respectively the ballast 23 to a higher level. Thus can

e.g. the container 3 is occasionally brought into a higher level and there, on

due to the lower atmospheric pressure in the container 3, it is easier to inspect, seal or the like. However, the container 3 can also be brought to a higher level and towed to a shipyard or the like. The container 3 is raised by pumping in air 1

in the additional air container.

The container 3 can essentially consist of several layers.

Furthermore, several containers 3 can be arranged one above the other. The container

3 may have walls, ribs, steps, cavities or the like. Also

the displacement body 20 or the like can have walls, ribs, steps, cavities or the like. The compressed air reservoir can of course be in natural or artificial water. It can e.g. be arranged in the sea, in a lake, channel, river or the like. In principle, the device functions not only with water 2 but also with other liquids.

For example, concrete, reinforced concrete, metal such as steel and aluminium, plastic, wood, asbestos or asbestos cement and the like come into consideration as manufacturing materials for the compressed air magazine according to the invention. As ballast or fill-

mass or the like, you can e.g. use sand, gravel, stone,

ore, clay, possibly various minerals. Devices or organs may be arranged to connect the container 3 with at least one further, e.g. hat-shaped air container or similar, by means of which the container 3 can be raised to the surface of the water.

The container 3 can e.g. essentially be dome-shaped. Several containers 3 can be arranged on top of each other in chain form. The container 3. can e.g. essentially be ring-shaped.

It can have annularly arranged chambers or cells. Several containers 3 can be arranged in a ring.

Claims (21)

1. Compressed air reservoir where the compressed air is at least partly under pressure from a column of water, characterized by the fact that the compressed air (1) is located in at least one substantially downward open container (3) e .1.. which can be moved up and down under water (2) and at rest ken retains a displacement body (20) etc. protruding from below. 2. Compressed air magazine according to claim 1, characterized in that the displacement body (20) etc. is essentially fixed in its height position. ' 3. Compressed air magazine according to claim 1 and/or 2, characterized in that the container (3) is weighed down with ballast (2 3). 4. Compressed air magazine according to one or more of claims 1 - 3, characterized in that the container (3) is essentially cylindrical. 5. Compressed air magazine according to one or more of the claims 1 - 4, characterized in that several containers (3) which are preferably located essentially in areas that lie next to each other, are connected to each other. 6. Compressed air magazine according to one or more of claims 1-5, characterized in that the container (3) comprises chambers, cells etc. 7. Compressed air magazine according to one or more of claims 1-6, characterized in that the container (3) can be moved up and down using guide devices. 8. Compressed air reservoir according to one or more of claims 1-7, characterized in that at least one line (5) leads from the interior of the container (3) to at least one compressor (6) and/or drive device (7), turbine etc. 9. Compressed air reservoir according to one or more of the claims 1-8, characterized in that there is substantially in the area at the top of the container (3) at least one smoke trap-shaped extension, into which the end of the line (5) protrudes, when the container (3) is in a deep height position. 10. Compressed air magazine according to one or more of claims 1-9, characterized in that the displacement body (20) at least partially consists of loose material or the like. 11. Compressed air magazine according to one or more of claims 1-10, characterized in that the displacement element (20) consists of at least one casing, barrier, etc., in which the loose mass is located. 12. Compressed air magazine according to one or more of claims 1-11, characterized in that the displacement body (20) is essentially cylindrical. 13. Compressed air magazine according to one or more of claims 1-12, characterized in that the displacement body. (20) consists of several parts, respectively that several displacement bodies (20) are arranged. 14. Compressed air magazine according to one or more of the requirements. 1 - 13, characterized in that the displacement body (20) essentially consists of at least one container, vessel or the like, in which a filler is located. 15. Compressed air magazine according to one or more of claims 1-14, characterized in that the displacement body (20) essentially consists of at least one container, vessel etc., at least partially filled with air. 16. Compressed air magazine according to one or more of claims 1-15, characterized in that the displacement body (20) essentially consists of at least one container, vessel or the like, at least partially filled with a liquid, especially water. 17. Compressed air magazine according to one or more of claims 1-16, characterized in that the displacement element (20) essentially consists of a container, vessel or the like, at least partially filled with loose material or the like. 18. Compressed air reservoir according to one or more of claims 1-17, characterized in that the displacement body (20) or essentially consists of several containers, vessels etc., which are at least partially filled with air, liquid, loose material etc. 19. Compressed air magazine according to one or more of claims 1 - 18, characterized in that the displacement body (20) has at least one row of piles etc. arranged in a circle, respectively at least one piled wall etc., which encloses the loose mass etc. 20. Compressed air reservoir according to one or more of claims 1-19, characterized in that the displacement element (20) consists of at least one grid wall, perforated wall or the like. which encloses the loose mass etc. 21. Compressed air magazine according to one or more of claims 1 - 20, characterized in that at least one part of the container's (3) side casing projects into one. annular bottom recess.