DEVICE HARNESSING WAVE ENERGY TO PRODUCE ELECTRICAL ENERGY WITH AMPLIFICATION SYSTEM

Abstract

The invention relates to a device that uses wave energy to convert it into electrical energy via hydraulic energy. This device is installed on marine structures with vertical walls and comprises: a free floating elementing element that exploits the vertical sea level variation due to the swell, guided by a triple rail lateral movement channeling system installed on vertical walls; a support connecting the floating elementing element to a hydraulic system of cylinders allows the conversion of mechanical energy into hydraulic energy in both directions of movement, up and down; an energy amplification system to optimize the efficiency of the device; a hydraulic power plant; pressure accumulators; an oil tank and a hydro-electric turbine that allow the conversion of hydraulic energy into electric energy.

Claims

1. A device exploiting energy of a swell to produce energy exploitable at output, through a mechanical-hydraulic and optionally electrical converter chain, the device comprising: a free floating element which exploits variation of a vertical sea level due to the swell, guided by three lateral rails to guarantee vertical movement while allowing a degree of freedom in rotation of the free floating element around a horizontal axis perpendicular to a direction of the swell installed on vertical walls, the free floating element allows a ballasting to protect a system in case of storm, and a variable distribution of density by filling an inside of chambers; a support connecting the free floating element to a hydraulic system of cylinders allows conversion of mechanical energy into hydraulic energy in directions of movement upward and downward; an energy amplification system of the swell; a hydraulic power plant; and pressure accumulators, an oil tank and a hydro-electric turbine which allow conversion of the hydraulic energy into electrical energy.

2. The device exploiting the energy of the swell according to claim 1, in which the free floating element allows to directly exploit the vertical translation movements, which comprise variation of the water surface, capturing the energy of the swell in the form of potential energy during its downward movement and kinetic energy during its upward movement.

3. The device exploiting the energy of the swell according to claim 1, wherein the free floating element has a self-balancing system based on control of the filling of the inside of the chambers by controlled valves, and which allows to vary a density distribution of the free floating element, in order to adapt the density distribution of its weight to balance variable overpressures of the variation of the sea level under the free floating element due to the energy amplification system of the swell.

4. The device exploiting the energy of the swell according to claim 1, wherein the automatic ballasting system makes it possible to drown the free floating element in the event of a storm due to ballasting or to raise the free floating element after the end of the storm due to emptying or de-ballasting.

5. The device exploiting the energy of the swell according to claim 1, wherein a lateral movement channeling system, with 3 rails taking advantage of support and verticality of caisson walls, to ensure horizontality and tracking of upward and downward movement and allows a degree of freedom of rotation on an axis orthogonal to the direction of the swell amplified in the horizontal plane to avoid blocking.

6. The device exploiting the energy of the swell according to claim 1, wherein the position of an end of the support attached to the free floating element varies instantaneously according to a center of application of forces on the free floating element.

7. The device exploiting the energy of the swell according to claim 1, wherein the energy amplification system, is configured for exploiting removable bodies or an existing configuration of an infrastructure, which allow, via their geometric shape, the convergence of the incident swell from a mouth on a sea side towards the free floating element to have an amplified amplitude of the swell at the level of the free floating element.

8. The device exploiting the wave energy according to claim 1, which exploits wave amplification systems installed in the vertical walls for creating the electrical energy.

9. The device exploiting the wave energy according to claim 1, wherein the hydraulic system of cylinders transforms the wave energy, through the free floating element, into the hydraulic energy, exploiting the whole cycle, the directions of movement, ascending, through hydrostatic and hydrodynamic efforts, and descending through recovery of residual potential energy of the free floating element.

10. The device exploiting the energy of the swell according to claim 1, in which the pressure stored in the pressure accumulators, identical to that inside the cylinders, is servo-controlled as a function of the amplitude of the amplified incident swell, in order to control resisting force generated by the pressure in the cylinders, and thus the energy absorbed by the cylinders.

Description

[0023] FIG. 1 shows a top view of the device installed on a vertical protection dike with amplification.

[0024] FIG. 2 shows a side view on the sea side of the device installed on a vertical protection dike with amplification.

[0025] The device is composed of a free floating elementing element (1) allowing to directly exploit the sea variation capturing the swell energy as potential energy. The floating elementing element has a minimum average density of 0.8 with a density after ballasting up to 1.05. This floating elementing element includes: [0026] a self-balancing system (1-a) thanks to valves that control the filling of the chambers inside the floating elementing element to ensure a weight distribution that balances the variable overpressures of the variation of the sea level under the floating elementing element due to the swell amplification system (4). [0027] an automatic ballasting system (1-b) allowing to drown the floating elementing element in case of storm or to raise the floating elementing element after the end of the storm

[0028] The floating elementing element (1) is guided by a lateral movement channeling system (2), with 3 rails taking advantage of the support and verticality of the caisson walls, to ensure horizontality and tracking of the upward/downward movement. The travel of the movement channelling system is designed to sweep all cases with exploitable swell energy. The exploitation of the walls allows to extend the operating range of the device to the important amplitudes of the swell. No contact between the wall of the vertical dikes and the floating elementing element (1) is allowed thanks to the movement channeling system (2).

[0029] A rigid support (3) connecting the floating elementing element to a hydraulic system of cylinders (5) allows to convert mechanical energy into hydraulic energy in both directions of movement, up and down, the support allows to convert a vertical translation into a horizontal translation of the pistons of the cylinders (5).

[0030] An energy amplification system (4) to optimize the efficiency of the device allowing to channel the energy of the swell thanks to inflatable structures supported on vertical flat wall caissons, the floating elementing element is placed in the middle zone of energy convergence, for the vertical dikes which presents this form of amplification, whether it is oblique or triangular, the device will benefit directly from this amplification without needing the amplification system (4).

[0031] Cylinders (5) that transform the mechanical energy into hydraulic energy, exploiting the two directions of movement, upward and downward.

[0032] A hydraulic unit (6) to manage the junctions and flows between the different cylinders.

[0033] Pressure accumulators (7) with controlled flow that receive variable hydraulic energy and transmit a continuous and uniform flow at the output with a capacity of up to 20 cycles of up and down movement (10 min maximum).

[0034] An oil tank (8) to ensure the continuity of the fluid chain, high pressure oil—low pressure oil that exits the turbine (9).

[0035] A hydro-electric turbine (9) to transform the flow of hydraulic energy into electrical energy.

[0036] A management interface (10) of output current and injection in the electrical network allowing a harmonization of voltage and frequency.

[0037] The sensitive components are housed in conditions of optimal durability.

[0038] This invention is exploitable in: [0039] Port facilities: Protective dikes in caissons or vertical walls [0040] Tourist facilities exposed to the sea: Vertical protection walls [0041] Maritime developments with a vertical wall connection to the sea

[0042] Note that the shape of the vertical wall can be flat or other.

[0043] The objective is to revolutionize the role of port or maritime protection facilities, moving from hunting the swell to its exploitation to produce green energy.