DE2726425A1 - Wave power generator with immersed open-bottom chambers - has rise and fall pistons actuating displacement pumps driving water turbine - Google Patents

Abstract

The installation for generating power from wave motion, particularly in the sea, comprises a number of chambers (10) with open bottom, immersed in the water, such that the water level in the chambers rises and falls. The chambers are combined into one unit, and each contain a piston (11) which follows the rise and fall of the water. The pistons may actuate positive displacement rods (15) in cylinders (13, 14). The cylinders may have inlet and outlet valves (18, 19) connected to common inlet and outlet lines (16, 17). The outlets may be connected to a common pressure vessel. The inlet and outlet lines may form a closed circuit containing a turbine.

Description

Device for generating energy from water waves, in particular

others in marine areas The invention relates to a device for Energy generation from water waves, in particular in marine areas, consisting of a multitude of integrated, immersed and on the underside of open workspaces, in which the moving water and downward movement.

A wave power plant has already become known from DT-OS 25 12 946, which is made up of a large number of hollow-cylindrical tubes that are assembled into a honeycomb structure Consists of working cells with their long axis perpendicular to the water surface flea in dip the water. The rising or falling water of the waves is thereby Used in the Kamiersystem of the work cells as an air pump, whereby the water the replaced pistons working in the working chambers. The one squeezed out of the work chambers air is fed to a wind turbine, which in turn is a generator for the generation of electric current.

In this known energy generation system, they are out of the tubes existing working chambers connected to a self-supporting and buoyant island.

The invention is based on a hydropower plant of the aforementioned type the end. It is primarily based on the task of creating a particularly powerful and to create economic establishment of this kind, with which to become a beneficial one Utilization of the energy stored in the water waves even with only moderate wave heights can achieve.

The invention consists in that in the working chambers movable Working pistons are arranged, which are preferably designed as float pistons are.

According to the invention, a lifting movement is thus produced by the wave movement causes the working piston, which in turn is used to generate energy. This can be accomplished in a particularly advantageous manner that the Stroke movement of the working piston to convey a hydraulic operating medium (preferably water) is used, which in turn drives a turbine.

In a particularly expedient embodiment of such a device are the working pistons with displacement bodies working in displacement bodies Mistake. At the same time, according to the invention, there is the possibility of using the working pistons to be designed in the manner of differential pistons, so that an advantageous pressure intensification can be achieved in the ratio of the effective piston areas.

It is best to have the working pistons on their two opposite sides To provide piston sides with working in pressure cylinders displacement piston, their Piston area is considerably smaller than that of the working piston. The displacer or the displacement pistons are advantageously without contact in the displacement spaces out, so that no wall friction and accordingly no wear can occur.

In the device according to the invention, the various Displacement spaces via pressure and suction valves to common pressure and suction lines connect. The pressure lines can be led to a collecting pressure vessel, which stores the pumped pressurized water and from which the pressurized water for the energy generation is extracted e.g. by means of a free jet turbine. It recommends In addition, to make the arrangement so that the pressure and suction lines with the turbine switched on in the system and the collecting pressure vessel have a closed Form the water cycle 0 The actual working medium (pressurized water) can therefore be used in a closed circuit, so that corrosion damage from seawater be avoided.

Further features of the invention are listed below on The diameter the working chamber accommodating the working pistons is dimensioned considerably smaller as the mean wavelength; it is preferably between about 0.5 m and 2 m. In contrast, the displacement pistons connected to the working pistons receive considerable amounts smaller diameters, which are expediently 5 to 15 cm. The whole facility comprises a plurality of working cells, which are expediently one with buoyancy chambers provided ship-shaped body are combined. It is best to have several of these Hulls, preferably at least three hulls, arranged in parallel to be connected by bridge structures to form a unit, each individual Ship hulls, for example, can contain 300 to 1000 work cells. The individual bodies are preserved expediently a minimum length of 100 to 150 m.

In the drawing is a preferred embodiment of the invention shown. It shows: FIG. 1 an energy generation device according to the invention in side view; FIG. 2 shows the device according to FIG. 1 schematically in plan view; FIG. FIG. 3 is a view in the direction of arrow III in FIG. 2; FIG. 4 shows a partial cross-section by the individual floating body designated by IV in FIG. 3; Fig. 5 shows a single one Work cell of the device according to the invention in side view, partly in section; 6 shows a collecting pressure vessel in addition to a free jet turbine.

The energy recovery device shown comprises a plurality of working cells, a single cell of which is shown in FIG. The work cells consist accordingly of hollow cylindrical working caps 10 with lifting movement therein Working pistons 11, which are designed as floatable pistons, e.g. as hollow plastic pistons, are trained. The working pistons 11 have wear-resistant piston seals on their periphery 12 on.

The vertical, immersed in the water and at the bottom and top open working chambers 10 carry on the top and bottom, respectively a displacement cylinder 13 or 14, the diameter of which is considerably smaller than the diameter of the working chamber 10. The displacement cylinders 13 and 14 form Displacement spaces into which the piston rods 15 of the working piston 11 form Immerse the displacement piston. The displacement piston 15 have a diameter that is significantly smaller than the diameter of the working piston 11. In addition, the The diameter of the displacement piston 15 is smaller than the inner diameter of the cylindrical Displacement cylinders 13 and 14, so that the displacement piston 15 does not come into contact with the wall in the displacement spaces of the displacement cylinders are movable in stroke. To the spaces of displacement the displacement cylinders 13 and 14 are each a pressure line 16 with a pressure valve 18 and a suction line 17 with a suction valve 19 are connected.

It can be seen that during the stroke movement of the working piston 11, the associated displacement piston 15 corresponding stroke movements in their cylinders Execute 13 and 14, in the one stroke direction that in the displacement spaces the operating medium (water) located in the cylinders 13, 14 via the pressure valves 18 pressed into the pressure lines 16 and the operating medium in the opposite stroke Via the suction lines 17 and the suction valves 19 into the displacement spaces of the Cylinder 13, 14 is sucked. Since the displacement piston 15 is a considerably smaller one have effective piston area than the working piston 11, there is a differential piston effect with a pressure transmission ratio corresponding to the area ratio of the pistons.

The overall apparatus includes a plurality of those described above Work cells. As shown in FIGS. 1 to 3, the device has here three ship-shaped bodies A, B and C, which are arranged in parallel over bridge structures 20 and 21 connected to form a buoyant hull like a trimaran are. The middle bridge structure 21 carries the power plant structure 22, the one Collector pressure vessel 23 and a free jet turbine 24 together with the necessary additional equipment and a generator (not shown) for generating electricity (Fig. 6).

Each ship-shaped body A, B and C has in the one shown Embodiment six working cells with working chambers 10 in the transverse direction (Fig. 3 and 4), with buoyancy spaces 25 being arranged between the work cells. In the longitudinal direction of the hull, for example, there are 100 work cells behind each other in 3 of the row arranged so that 3tc hulls A, B and C comprises a total of 600 work cells. The cylinder tubes of the work cells are directly connected to one another on their outer surfaces connected so that they form a self-supporting honeycomb or cell structure. the Gaps between the single-cell cylinders can also be used as lift spaces be formed. All displacement spaces of the displacement cylinders 13 and 14 are via the aforementioned pressure and suction lines 16, 17 to the common Sasteldruckbehältor 23 connected so that the operating medium (water) in Pump operation into this container 23, from which the turbine 24 is fed.

It is assumed that each hull A, B and C of the sohwimsiahigen Three-body system (trimaran) comprises 600 work cells, with 10 working cells Every work cell has a cross-section of 1.5 m2 and the Total length of the working cell, i.e. the working chamber and the two displacement cylinders 13 and 14, 3.50 m.

The working pistons 11 are designed as hollow plastic bodies and have a volume of 0.75 m3. The circumferential seal 12 of the pistons 11 is designed in such a way that even if this seal fails, a reduced one will still be available Power is delivered to the piston rods working as a displacement piston 15. The theoretical power of a working piston is 0.1 kg / cm2 and accordingly at the chosen example 1500 kg. With a diameter of the displacement piston 15 of 8 cm and an effective piston area of this displacement piston of 50 cm2 theoretical work performance of 30 kg / cm2 or 30 bar. The liter output of the displacement piston 15 at 1 m wave height and a wave period of five seconds results in 2 liters of water per second with a theoretical pressure of 30 bar. Since with the Working piston is used to move up and down, the result is a continuous one Liter output with 600 work cells of a single body A, B and C of 1200 1 / sec with a pressure of 30 bar. With an efficiency of 0.8 this results in the entire three-body system has an output of 8475 kW / h.

As mentioned, the pressurized water of the individual work cells is over the pressure lines 16 are fed to the collecting pressure vessel 23 and from there to the free jet turbine 24 forwarded. The pressurized water can help prevent corrosion damage from seawater be conducted in a closed circuit. That the free jet turbine 24 is loaded In this case, the end of the pressurized water is returned to the displacement cylinders via the suction pipes 17 13 and 14 supplied.

The three ship-shaped bodies A, B and C are at a distance of e.g. 10 m through the bridge-shaped construction 20, 21 to a fixed unit tied together. The length of the individual floating bodies A, B and C is expediently approximately 100 to 150 m between the tubes of the working chambers 10 and the middle buoyancy body 25 (Fig. 4) located cavities are to avoid corrosion and to Reinforcement of the static properties of the honeycomb body expediently with Foamed plastic.

The entire system is therefore buoyant and unsinkable.

It is possible to use the system with its own propulsion system, e.g. Electric propellers, equip. This drive can also be used to to align the system to the direction of the wave and in extreme cases yours Relieve anchorage.

There is the possibility of using the energy generation device according to the invention also to be equipped with several turbine-generator sets, e.g. each ship-shaped Body A, B, C can be assigned to such a machine set. The collective pressure vessel can contain air or another gas, which when the operating medium is pumped in (Water) is compressed and thus forms a pressure accumulator, which during operation the Feeds water under pressure to the turbine. It is understood that the displacement cylinder 13 and 14 at their ends facing the working chamber 10 opposite the displacement piston 15 are sealed so that the water displaced from the displacement spaces over the pressure valves and the pressure lines are pumped. The entire buoyant The system is designed so that the working chambers even when the water is not moving 10 still immerse their lower ends in the water.

Claims (13)

Title: Device for generating energy from water waves, in particular in marine areas A s p r ict: 1. Device for generating energy from water waves, especially in marine areas, consisting of a large number of working chambers that are immersed in the water and open at the bottom, in which the moving water moves up and down, characterized in that, that in the working chambers (10) liftable working pistons (11) are arranged. 2. Device according to claim 1, characterized in that the working piston (11) are designed as float pistons. 3. Device according to claim 1 or 2, characterized in that the working piston (11) with displacement bodies working in displacement spaces (15) are provided. 4. Device according to one of claims 1 to 3, characterized in that that the working pistons (11) are designed in the manner of differential pistons. 5. Device according to claims 3 and 4, indicates daciu'cii, that the working piston (11) on their two opposite piston sides with in Displacement cylinders (1s, 14) working displacement pistons (15) are provided, whose piston area is considerably smaller than that of the working piston. 6. Device according to one of claims 3 to 5, characterized in that that the displacement body or the displacement piston (15) without contact in the displacement spaces are liftable. 7. Device according to one of claims 3 to 6, characterized in that that the displacement chambers via pressure and suction valves (18, 19) to common pressure and suction lines (16, 17) are connected. 8. Device according to one of claims 1 to 7, characterized in that that the diameter of the working chambers (10) is considerably smaller than the average Wavelength and preferably about 0.5 m to 2 m. 9. Device according to claim 7, characterized in that the pressure lines (16) are connected to a collecting pressure vessel (23). 10. Device according to one of claims 7 to 9, characterized in that that the pressure and suction lines (16, 17) with a turbine (24) have a closed Form a cycle. 11. Device according to one of claims 1 to 10, characterized in that that a plurality of the working chambers (10) having working cells to one with buoyancy chambers provided ship-shaped body (A, 3, C) is summarized. 12. Device according to claim 11, characterized in that several such hulls (A, B, C), preferably at least three hulls, connected in parallel by bridge structures (20, 21) to form a unit are. 13. Device according to one of claims 1 to 12, characterized in that that it is equipped with its own propulsion system.