NO814143L - ENERGY GENERATION SYSTEM. - Google Patents

Description

The present invention relates to energy generation systems for use in producing usable output energy, provided by the energy in wave movements in water, particularly in the sea or ocean.

Many forms of equipment and apparatus as well as plans for extracting energy from wave motion have been proposed to produce energy, such as electrical energy, in a more readily available form. The amount of work that has been done in research to extract wave energy has increased significantly in recent years due to the worldwide oil crisis that has existed since 1973/1974.

The present invention relates to a further proposal from the extraction of wave energy and, according to our opinion, it exhibits quite significant advantages, as it deviates in several respects from the proposals which have hitherto provided the greatest advantages.

Generally speaking, the known arrangements for extracting wave energy are based on devices carried on the surface of the water by floats or rafts. Such devices include e.g. primary drive means that tilt or turn back and forth under the influence of wave forces. Energy conversion devices, which are also arranged on rafts, serve to convert wave movements, e.g. to pressure fluid or electrical output power, which is. more easily applicable in practice. During the preparation of plans for work arrangements for such systems, it has been made clear that the devices in use will be subjected to particularly high loads in conditions of storms. As a result of this, the known proposals must necessarily be designed more robustly than they would otherwise be, in order to be able to withstand the loads that occur in stormy weather conditions. As a result of the requirement to make the structures more robust, this of course results in particularly high - and until now prohibitively high - capital investments. Cost analyzes of the various systems that have been proposed show that the costs for wave power equipment tend to

be much higher - based on costs per unit of electricity that can be produced - than with alternative and more well-established systems, such as from nuclear power reactors. There is consequently a need to provide an efficient and at the same time relatively inexpensive wave power generator, and this is one of the purposes of the present invention.

With the present invention, the wave power problem is approached in a special way and ensures that certain operative parts of the equipment are submerged. The part of the equipment which is affected by the waves to produce the primary motion from which the energy can be extracted is generally a floating structure,

and this only needs to move up and down under the influence of the waves.

In its basic form, the present invention consists

of a float structure arranged to move up and down in the water under the influence of the waves in the water and is attached by means of a wire, line, rope or the like running downwards to a submerged energy converter device which is driven by said up and down movement and which can produce output energy in different forms.

The aforementioned energy converter device is preferably equipped with a piston and cylinder device, where the piston is operatively connected to the lower end of the wire, line, rope or the like. The piston and sewing sub-unit is arranged to suck in water during the upward movement of the float part and at the same time pump the water from the cylinder into a drain pipe, which is arranged to direct the water in a jet towards a pelton wheel which is in drive connection with an electric generator. The generator and pelton wheel are placed in an air chamber in a submerged housing. The effluent from the pelton wheel falls into a well from which the water is sucked in by the piston and sewing Subunit.

The piston and cylinder unit is preferably designed for

to be extended vertically during use and is connected to the housing resting against the seabed, via a high-pressure, flexible pipe joint through which the water is drawn by the piston and sewing sub-assembly and through a pipe through which the water is pumped to the pelton wheel. The water is pumped in a closed run and is in practice an emulsion of 95% water and 5% lubricant. However, any lubricant can be used

suitable liquid, such as oil. The piston in the piston and cylinder unit can be connected to the carrying rope, the carrying rope running through a gland sleeve at the top of the cylinder. A sleeve of rubber or other flexible material can enclose the rope between said gland sleeve and the float part to seal it against the surrounding water. Said sleeve can be elastic, so that it also serves as an organ for exerting tensile forces against the underside of the float body to force it in a downward direction.

A leakage path can be arranged to ensure that any leakage of emulsion through the gland sleeve is returned to the pump so that no loss of emulsion occurs.

The flexible pipe joint will allow the piston and cylinder assembly to be tilted relative to the housing to which it is attached. This is advantageous in that the float body should also be

able to move laterally when affected by the waves.

Said housing may be fixed to the seabed and the air (or gas) chamber which accommodates the pelton wheel and the electric generator may be accessible in the usual way through a suitable hatch. The chamber can preferably be filled with an inert gas such as helium or nitrogen.

According to the invention, an apparatus is also provided for use when converting wave energy into a more easily usable form of energy, comprising a float construction that moves upwards. and downwards in the sea under the influence of the waves in the water against the action of elastically stretchable, biased members which are adjusted or arranged to be adjusted so that when the device is in a certain position in the water, the float body is biased in a downward direction to thereby allow the displacement of the float body will be greater than it would have been when the float body was free-floating, the apparatus including a submerged energy converter device which is operatively connected to the float structure which is to be driven by said upward and downward movement to thereby produce output energy in different forms.

According to the invention, devices have also been provided for use in transforming wave energy into a more easily usable form of energy. The apparatus comprises a float structure which is intended to be moved upwards or downwards in the water under the influence of the waves in the water and "an energy converter device with a piston and cylinder device which is operatively connected to the float structure to be driven as a pump by the float structure by that this is moved up and down. A rotating drive device is powered by pressure fluid which is supplied from the pump while an accumulator is charged by the pump and is designed to supply pressure medium and contribute to the operation of the rotating drive device.

The described arrangement has a number of advantages, of which

a not insignificant advantage consists in the fact that costs have been kept to a minimum. Furthermore, the only part of the equipment that will be exposed to the loads during storm conditions is the float body (or bodies) itself and if the limit for the float body's upward movement constitutes a limitation or if the return pressure against which the float body acts is too high, the float body will not is lifted and in all cases the device in use will be set so that the waves will try to pass over the float structure. On this basis, the float body is to some extent self-protected.

The float body can be of any suitable design which provides the necessary buoyancy, but it is preferred that it is in the form of a large disc-shaped horseshoe-shaped part or consists entirely or mainly of buoyancy material, such as polystyrene foam. There may be additional elastic connecting ropes connecting the underside of the float body to the submerged apparatus to keep the float body in a path of motion in use and to force the float body downward. In addition, the float body can have a keel device, so that it can be positioned automatically in the best possible way in relation to the incoming wave front.

If a number of float bodies are used in a specific area, these can e.g. be linked together by means of chains, ropes or the like which are arranged at the surface of the water to thereby bring the floating bodies into fixed positions in relation to each other.

In what follows, the invention will be described with reference to the accompanying drawings, in which: Fig. 1 shows a schematic perspective view of the apparatus according to a first embodiment according to the invention. Fig. 2 shows a vertical section of the apparatus according to fig. 1, shown on a larger scale. Fig. 3 shows a schematic perspective view of the apparatus according to another embodiment according to the invention.

Fig. 4 shows a vertical view of the apparatus as shown in fig.

3, shown on a larger scale.

Fig. 4a shows a hydraulic connection diagram showing the connection between the components of the apparatus according to fig. 4.

Fig. 5 schematically shows how the device according to fig. 3

and 4 are exposed at sea.

Fig. 6 shows a graphic illustration of the pressure as well as curves over the displacements, with typical curves that can be obtained with the apparatus according to fig. 1-4.

With reference to the drawings fig. 1 and 2, the device comprises a float body 10 which can have the form of a flat cushion with a horseshoe shape in plan view and the cushion is connected by means of lines or wires 12 to a piston and cylinder device 14 which is connected to a housing 15 on the seabed. The housing 15 has a relatively large weight in order to form an anchorage for the rest of the device and is also fixed to the seabed as shown at 17 and also connected to the device via a sprue 19.

The piston and cylinder device 14 comprises a long cylinder 16 which is placed in an upright position. Its lower end is connected to the housing 15 by means of high-pressure, flexible pipe joints 18. Inside the cylinder 16 is placed a piston 22 which cooperates with a counterweight 23 to form a one-way valve which will be described below. The piston 22 consists of a hollow sleeve through which the wire 12 is passed as shown and the lower end of the cylinder 16 is connected to a suction tube 27. On top of the piston is placed a PTFE slide and guide gasket land 28 which accommodates the wire 12 and the land 28 is also shown designed with an outlet 30 which leads to a return pipe 32 for leakage from the land and the outlet leads to the lower inner end of the cylinder 16. The upper inner end of the cylinder 16 leads to a drain pipe 34 which runs through the joint 18 and a gas-filled chamber 36 to a pelton wheel 38 which is also occupied in the chamber 36. The bore in the land 28 can be lined with a snap-in plastic casing and the bore on the sleeve can be equipped with grooves or grooves, so that the sleeve can be lubricated by fluid leaking through the land below operation. It must be emphasized that the land 28 has considerable longitudinal extent for effective sliding control of the wire 12.

The device is equipped with an elastic sleeve 40 which runs from the underside of the part 10 to the outlet 30 from the land. The elastic sleeve 40 mainly consists of a spring with a constant speed of movement. It serves to bring the float body back to a central position after the passage of the wave and constitutes a particularly simple device for keeping the float body in place in the desired position. The sleeve also serves as a means to keep the liquid pumped by the piston 22 separate from the surrounding seawater. The device may additionally* have elastic straps which are arranged to exert a tensile force against the underside of the float body. The straps can be anchored to the seabed or to the housing 15 or to another fixed point as required. It is also possible to replace the straps with tension springs, which should be made of a material that can resist corrosion from seawater.

When the device is in use, the float body 10 lifts as shown by arrow 38, as tension is exerted in the elastic sleeve 40 and the straps, as it is subjected to a buoyant force from a wave, and under this influence the counterweight 23 forms contact with the underside of the piston 22, whereby liquid above the piston 22 is pumped through the drain pipe 34 at high pressure. At the same time, replenishing liquid is drawn into the lower part of the cylinder 16 through the suction tube 26. Liquid that leaks past the land 28 is returned via the return line to the suction side of the piston 22.

The high-pressure liquid delivered through the pipe 34 strikes the pelton wheel 38 which is thereby put into operation, while the effluent from the pelton wheel falls into a well 41 which communicates with the suction pipe 26, to ensure drainage of liquid from the same and the liquid level is shown at 42 It appears that the liquid is carried in a closed path and is separated from the surrounding seawater, which thereby does not need to be used as a drive medium for the pelton wheel 38. In practice, an emulsion of 95% water and 5% lubricant is used for this purpose.

The Pelton wheel 38 is connected to operate an electric generator 43 and electric power is extracted from the generator via an electric cable 45 to a suitable location together with the output from other similar devices that can be used in arbitrary other installations.

The housing 15 delimits a gas-filled chamber 36, as a regular U-shaped gas separator 39 is provided. One branch of the gas separator has an emergency outlet cover 44, the top of the second branch of the gas separator 39 being closed with a removable cover 47 which is equipped with a shackle 49 for connection to the unit of generator and pelton wheel, so that this unit can be lifted outwards from the gas separator after the unit has been disconnected from its drive position as shown, lowered onto a carriage 50 and shifted to a position just below the shackle 49.

By placing the unit of pelton wheel and generator in a gas room, maintenance and repairs can of course be carried out in the unit at the actual place of use.

As the wave passes, the float body 10 falls as shown by an arrow 46, while the counterweight 23 falls away from the piston 22, which can thereby be freely displaced downwards in the cylinder 16 under the influence of gravity. Tensile forces. in the sleeve 40 causes the float body to fall and during such a fall the liquid in the lower half of the cylinder passes through the piston 22 and into the upper half of the cylinder and is thereby ready to be pumped into the tube 34 at a higher pressure when the float -the body 10 is again lifted by a wave. When moving the float body 10 up and down, the flexible rope, wire or similar, such as e.g. may consist of "Parafil" (registered trade mark) wire, slide effectively in the land 28 and the grooves or grooves in this ensure effective lubrication of the land by means of the pumped liquid.

The piston's 22 stroke under normal wave conditions (eg

in practice constitutes 80% of the time) will be in the order of 3 to 4 meters, but the piston and cylinder device 16, 22

is designed so that the piston 22 can in practice move, e.g. up to 30 meters along the cylinder 16, thereby taking into account special weather conditions with storms. If the pressure in the pipe 34, under storm conditions, becomes so high that the piston 22 cannot pump liquid against such a high pressure, the float body 10 will simply be prevented from moving upwards and in storm conditions waves will pass over the top of the float body and on this basis the system is self-protective, which of course has a big advantage.

Normally, a number of devices will be used as shown in fig. 1, and which in an interconnected state will provide a common, aggregated performance.

With reference to fig. 3, 4 and 5. another embodiment according to the invention is shown. Fig. 3 is a corresponding drawing to fig. 1 and the drawing shows a float construction 100, a piston and cylinder device 102 and an anchored bottom part 104. The piston and cylinder device 102 and the float construction 100 are interconnected by means of elastic straps 300 and an elastic sleeve 400 which similar to the sleeve 40 as shown in fig. 1 and 2.

Referring in particular to fig. 4, a universal coupling 200 is shown which connects the float construction 100

with the upper end of the sleeve 400. The flexible wire, line or similar 500, which corresponds to the wire 12 in the embodiment in fig. 2,

is connected to a piston counterweight 180 which is enclosed by a sleeve 170. These structural parts have the same function as the parts 22 and 23 according to fig. 2. It must be emphasized that it is preferable to produce the counterweight. 180 with greater mass than the sleeve 170, so that when the counterweight 180 falls under the influence of gravity, it will fall in front of the free-falling sleeve 170 and will thereby allow these two parts to form a one-way valve as already described.

A one-way vent 600 is shown at the lower end of the sleeve 400, and the land 700 receives and guides the wire 500 in the same manner as described with reference to FIG. 2.

A high-pressure fluid drain passage leads from the top of the piston and cylinder assembly 102 through a one-way valve 800, and the said passage leads further to a pressure accumulator 900 which is equipped with a piston 101, and the fluid intake to and discharge from the accumulator is controlled by a valve 110. The high-pressure drain pipe also branches into a helium-filled chamber containing an assembly of a pelton wheel 150 and an electric generator 120. The high-pressure liquid is in practice directed towards a jet control valve on the pelton wheel assembly to control the emission of liquid from the high-pressure - the drain passage against the pelton wheel blades for operation of the pelton wheel. The liquid level in the helium chamber is controlled by a float-dry control valve 160 and a helium bottle 130 is connected to the float-dry control valve to ensure the supply of helium to the chamber

when the liquid level in the chamber reaches a certain size.

The bottom of the helium chamber is hydraulically connected to a flexible storage bag 190 which is held in an upright position by means of a float 210. This bag serves as a reservoir for liquid that is part of the device's hydraulic circuit.

The piston and cylinder device, the helium chamber and the accumulator 900 as well as the flexible bag 190 form in practice a unit which is connected by means of a rubber universal coupling 220 to the bottom part 140 (which is placed on the seabed).

Fig. 5 shows how the device can be launched. The apparatus is towed out by means of a tugboat 225, while the piston and cylinder device, the helium chamber, the accumulator and the bag 190 rest on the float structure 100 as shown in fig. 5, and the equipment is towed into place at a desired place of use on the sea. When the equipment is lowered through the float structure 100 and the elastic straps 300

is connected to the underside of the float structure 100, thereby producing a biased force when the float structure is loaded against natural buoyancy forces in the water, it is ensured that the load is adjusted so that the float structure 100 during use will show a greater buoyancy than its natural free float buoyancy. Preferably, the buoyancy force is adjusted so that the float structure 100 is positioned to lie just below the water surface during operation, thereby allowing the float structure 100 to be subjected to the most suitable lifting forces in order to achieve the most suitable effect according to the wave theory, which is based on

that the waves are formed by water particles that perform circular path movements and that the diameters of the circular paths decrease logarithmically in a direction downwards in the sea from the sea surface.

The operation of the apparatus according to fig. 4 is best described with reference to the hydraulic connection diagram shown in fig. 4a. When the device is positioned with the straps 300 under the desired tension, the float structure 100 will immediately begin to oscillate under the influence of the waves in the sea and this oscillation will cause the pumping of liquid in the circuit from the piston and cylinder unit 102 through the one-way valve 800. Depending of the conditions at the place of use and the requirements, the drain from the piston 102 will be supplied either to the accumulator 900 or towards the pelton wheel 150 or in combination. If it is the pelton wheel that is driven, power transmission will take place from the generator 120. In the initial stages, the piston 102 will draw the liquid supply from the flexible bag 190.

As the accumulator receives liquid from the pump movement of the piston 102, the accumulator will be charged and the float 101 will thereby rise. As a result of the fact that the accumulator is otherwise sealed, the internal pressure will increase. The device will eventually adopt a state in which with each pump stroke from the piston

102, a jet of liquid will be directed towards the blades of the pelton wheel for operation of the pelton wheel 150, at the same time as liquid is supplied to the accumulator 900. During the return stroke, the accumulator will deliver liquid under pressure from the accumulator in the form of a jet which is directed towards the pelton wheel 150, so that one obtains a continuous operation of the same. As the liquid hits the blades of the pelton wheel and

releases its pressure, the liquid falls to the bottom of the helium chamber and is then pulled upwards from this by means of the piston 10 2 and thereby the work cycle is repeated. If an excess of pressure occurs in the supply line, a safety valve will open and will allow pressurized liquid to escape into the helium chamber without

having been pressed against the blades of the pelton wheel. It has been found that if the pressure in the system increases, e.g. if the energy in the waves is exaggerated: large, the float construction 100 will tend to be drawn deeper downwards in the sea, whereby the stroke of the piston 102 will be correspondingly shorter. In this way, the system will become self-protective, as the float structure will tend to be pulled downwards in the event that excessively large waves occur. It must be mentioned that the flexible tension rope 12 according to fig. 1, respectively the tension rope 500 according to fig. 4, have-

a relatively even and smooth surface and can consist of so-called sheathed wire, smooth wire or so-called wound rope, and in practice it is the weight of the piston that pulls the rope back through the land at the top of the cylinder.

The design of the piston in the embodiment according to fig. 4, represents a special novelty, based on the fact that an unbalancing of the masses between the sleeve 170 and the piston solder 180 has been carried out, transferred to the area that is wiped off by the movement of the piston. If the sleeve itself exerts a higher pressure as a result of

its greater mass in relation to the piston solder, the piston solder will tend to be forced upwards through the holes in the sleeve during downward movement and in practice there will be a blockage to the downward movement of the combined piston. Both the sleeve and the piston solder should therefore be suitably mutually balanced to ensure a maximum fluid flow when the sleeve and piston are separated during the free fall of the sleeve and piston solder.

By ensuring in each case that a significant part of the apparatus is arranged in a submerged position, this part of the apparatus does not need to be specially designed with regard to conditions with occurring storms or similarly difficult conditions, and by connecting the float body to this part of the apparatus by means of rope, line, chain or the like, the floating body in stormy conditions can simply move along with the wave forces to which the floating body is exposed.

It will be clear that the above description describes two examples of the device shown in the position of use, as the device's operation is best understood when the device is in use, but it will be clear that the invention also applies to each of the device's components, as these are produced on land and transported outward to the place of use on the sea, such as e.g. may lie 20 km or more offshore.

Undoubtedly, the expert in the field can find other constructional and design modifications and it is intended that such modifications fall within the scope of the present invention.

While brief reference must be made to fig. 6, curve A shows a typical curve for displacements in relation to time, illustrating the movement of a typical floating body in normally moving seas. It will be seen that all the amplitude results are not equal. The curves B show pressure in relation to time and illustrate the pressure energy available at the respective stroke in the float part.

Claims (17)

1. Apparatus for use in transforming wave energy into a more easily usable form of energy, characterized by that a floating body, which is arranged to move up and down in the sea under the influence of waves in the sea against the influence of elastically stretchable biasing devices which are clamped or arranged to be clamped so that when the device is in place in the sea, the float body is tensilely loaded in a downward direction, thereby increasing the buoyancy force of the float body in relation to the buoyancy force for the floating body in its free-floating state and, that the device includes a submerged energy converter device which is in drive connection with the float body to be driven by said movement upwards and downwards in the sea and to produce an output energy in another form of energy. 2. Apparatus in accordance with claim 1, characterized by that the biasing devices consist of elastically stretchable straps whose upper ends are anchored to the float body and whose lower ends are anchored in positions remote from the upward and downward movement of the float body. 3. Apparatus in accordance with claim 1 or 2, characterized by that the float body is attached by means of a rope, line or similar that runs downwards to the submerged energy converter device. 4. Apparatus in accordance with claim 3, characterized by that the energy converter device comprises a piston and cylinder device where the piston is attached to the lower end of the rope, line or similar, that the piston and cylinder device is arranged to suck in liquid during the upward movement of the float body and at the same time pump liquid from the cylinder into a drain pipe which is arranged to direct a jet of liquid towards a pelton wheel which is in drive connection with an electric generator, as the generator and the pelton wheel are placed in an air chamber in the submerged house. 5. Apparatus in accordance with claim 4, characterized by that the drain from the pelton wheel is arranged to fall down in an accumulation device at the bottom of the housing, from which the liquid can be sucked up by the piston and cylinder device. 6. Apparatus in accordance with claim 4 or 5, characterized by that the piston and cylinder device is arranged to run in a vertical direction during use and is attached by means of a high-pressure flexible pipe joint to said housing which rests against the seabed. 7. Apparatus in accordance with claim 6, characterized by that the piston and cylinder device is arranged to draw liquid through the flexible pipe joint and is arranged to deliver high-pressure fluid to the pelton wheel through a pipe housing via the aforementioned joint. 8. Apparatus in accordance with one of claims 4-7, characterized by that the piston in the piston and cylinder device is operatively connected to the float body by means of rope, line or the like which runs through a land sleeve at the top of the cylinder. 9. Apparatus in accordance with claim 8, characterized by that a rubber or similar flexible sleeve encloses the rope, line or similar between the shore sleeve and the float the body for sealing the same against the surrounding seawater. 10. Apparatus in accordance with claim 9, characterized by that the sleeve is elastic, so that it can also serve as a device for exerting a tensile force against the underside of the float body to force it downwards into the sea. 11. Apparatus in accordance with claim 10 and claim 5, characterized by a passage for leakage medium from the interior of the sleeve back to said accumulation device, to ensure that liquid that leaks out via the land sleeve is returned to the accumulation device. 12. Apparatus in accordance with one of the preceding claims, characterized by that the float body is equipped with a keel to account for incoming waves. 13. Apparatus in accordance with claim 1 or 2, characterized by that the energy converter device, comprising a piston and cylinder device operatively connected to the float body to be driven as a pump by the upward and downward movement of the float body, includes a rotary drive means of a type driven by pressurized fluid supplied from the pump and an accumulator charged by the pump and arranged to at discharge ning to contribute to the operation of said rotary drive. 14. Apparatus in accordance with claim 13, characterized by a flexible, sealed reservoir for liquid pumped by the pump, where the reservoir is connected to the pump so that the pump draws liquid from said reservoir during operation of the pump. 15. Apparatus in accordance with claim 13 or 14, characterized by that the accumulator and the pump are combined in one unit which by means of a universal coupling is connected to a structure that stands on or is anchored to the seabed. 16. Apparatus in accordance with one of claims 13-15, characterized by a pressure relief valve which is connected to the pump for to limit the maximum drain pressure from the pump. 17. Apparatus in accordance with one of the preceding claims, characterized by that the underside of the float body runs convexly downwards.