ES2373724A1 - Hydropneumatic system for transforming discontinuous wave energy into continuous energy - Google Patents

Abstract

Hydropneumatic system for transforming discontinuous wave energy into continuous energy, comprising: a front with a plurality of openings (1) for collecting water from breaking waves, a plurality of converging water-collection conduits (3) related to the inlets (1), an adjustable vent valve (4) attached to the end of each converging conduit (3), followed by a one-way valve (5), both being protected by compartments upstream and downstream for maintenance thereof, at least one collector (6) that collects the fluid from each one-way valve (5), a pressure-integrating balance tank that receives the water from the collector (6), such that the horizontal forces generated by the waves are transformed into internal pressure in the hydropneumatic tank (7), and the incident discontinuous energy of the waves is transformed into uniform continuous energy.

Description

Hydropneumatic transformer system of the discontinuous energy of the waves in continuous energy.

Field of the Invention

The present invention is encompassed within the field of use of discontinuous wave energy, in coastal area or in front of a factory dike, for its transformation in continuous and manageable energy, whose main uses are the use of this energy in the coastal zone or the reduction of efforts on the dikes.

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Background of the invention

The energy utilization systems of the waves on the same coast known to date are few, and, those that exist, usually take advantage of the energy through the generation of compressed air by the movement of the waves.

Regarding the use of the invention to dissipate energy over port dikes of factory, existing models entrust movement dissipation messy water flow incident on the dike itself, without orderly return of that incident energy to the sea in an area where it cannot damage either the dike or the navigation next to it, as does the invention presented.

The ES339502 background discloses a system that It is based primarily on the creation of an air stream, that even with waves of small magnitude, they reach values of extremely high speed and therefore suitable for drive of a turbine that through the appropriate transmission mechanical, transmits a power provided to the installation of system application. This invention uses air as a fluid that drives a propeller and not the water driving a turbine like the present invention

On the other hand, the JP61011468 record discloses a power generation system from the waves on the coast and ports that generate electricity through a plant that allows a wave near the shore to enter narrow ports arranged between the slope of a concrete floor and the walls concrete device, with rotating thrusters within those ports. The performance is low and the energy difficult to to take advantage of.

EP0892889 refers to a submerged hydropneumatic wave energy converter that take advantage of the difference in hydrostatic pressure of the ridges and valleys of the waves through fixed units on the seabed that they comprise a piston coupled to a second piston with a diameter Movable minor in a hydraulic cylinder. The maintenance of Complex system is of great difficulty.

None of the aforementioned background is capable of directly derive the discontinuous energy of the waves and at the same time take advantage of that energy, and none of them use, or drift, water energy at wave break or near breakage.

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Description of the invention

The invention comprises a device hydropneumatic laminating the incident energy tips (by reflection or breakage) and that allows to absorb the temporal points in a pressurized air tank connected to the circuit hydraulic. The pressurized air tank returns continuously, although variable in its intensity with the height and frequency of the absorbed wave energy points, the average energy captured in those waves, by transmitting their pressure to the water contained in the circuit Hydropneumatic

This rolled energy can be used to generate electricity using a turbine and a device turbined water delivery at a depth level not affected by surface wave movement (use case energetic), or return to the sea at depth sufficient not to create navigation problems, (case of docks).

The invention allows:

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He coastal tidal harvesting and

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The construction of vertical dikes that derive the energy of the waves incidents avoiding damage to the resistant structure lightened

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In the coastal area with wave break, good part of the energy manifests itself in the form of kinetic energy, substantially horizontal, of the water mass of the wave. On coasts where the provision of funds does not lead to wave breakage in the area next to the reception structure, the height and inclination of the bottom by jetty, or devices mobile, solid or liquid, in the case of using the system for use of energy.

The mass of water collected is channeled from the mouthpiece through a collection duct and flow orientation of decreasing section, with section variations along its route that guarantees low load losses in the conduit.

At the end of each collection duct, the section of said conduit allows the installation of a valve or unidirectional opening clapper, preceded by a valve deaeration

The seafront of the dike has a set of openings that constitute mouths of cells decreasing section, thus forming a set of elements of flow capture and orientation. Section variations to what cell travel length are designed to ensure few losses of load in the duct, which translates into a high energy efficiency for the use of energy, and in a low effort on the structure in the use of the invention for dissipating dikes.

At the end of each collection duct, your section is suitable for the installation of a valve or clapper unidirectional opening, which prevents return to the sea side of the water received by the cell: the kinetic energy of the mass of water opens the valve against the pressure energy of the water contained in the hydropneumatic cargo tank where it flows. Once the kinetic energy of the incoming wave is consumed, the valve against internal hydropneumatic pressure energy, with what that much of the energy of the captured wave is incorporated into the hydropneumatic circuit

The transforming hydropneumatic system of dashed wave energy in continuous energy comprises:

- A front with a plurality of openings of water withdrawal from the breaking wave.

- A plurality of convergent ducts of uptake associated to the mouths. The openings may have various geometric shapes and variable dimensions, conditioned downstream of the hydraulic circuit by the dimensions of the flow control elements (valves, pipes and gates) and the permissible speed in them. The total area of the set of openings covers the total of the planned attack front of the waves. The partitions that limit the openings chosen, have in the attack front of the wave the structurally necessary width to resist the efforts that the maximum expected wave generates. The embouchure dimensions of the cells may not be uniform if the specific conditions of the project will advise, depending on of tidal stroke and expected energy density linked to the height of the wave at the different levels of the front of catchment.

- A adjustable deaeration valve connected to the end of each convergent duct followed by a one way opening valve. For maintenance needs or eventual replacement, the valves or clappers must be protected by upstream and downstream gates, and you have to provide for a conservation access as a gallery. Valve deaeration is both sensitive and quick to open or close in function of the magnitude of the forces that request it from both sides alternatively, and resistant and durable against efforts by long time repeated with the period of the train of waves they capture, and the opening of the unidirectional valve is conditioned by the maintenance of the desired pressure in the circuit Hydropneumatic

- At least one collector that collects the flows of from each unidirectional opening valve.

- An integrative balance tank of pressures composed of a closed hydropneumatic system, or alternatively by a balancing chimney, which receives water of the collector or collectors. The hydropneumatic system may be constituted by a large diameter load pipe that runs at along the dike to its tip in the sea, to a depth suitable for not disturbing the navigation (case of the dock), or so that at the level of delivery to the sea, the pressure variations hydrostatic can be considered void, linked to a tank of pressurized air arranged on it, or distribute the section of the large diameter pipe between water and air, both under pressure. The cargo pipe is wrapped in structural concrete and its axis is It has a lower level than the expected minimum tide level. The air fraction of the hydropneumatic tank, can be arranged variable mode, depending on the site conditions of the concrete use. Depending on the case, it may be constituted by the top of the horizontal pipe, by another pipe upper horizontal linked to it, or by a vertical deposit That start from the first.

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Thus configured the system, the efforts horizontal generated by the waves over the coastal area, it they transform mostly internal pressures in the tank hydropneumatic, and the incident energy of the waves, originally discontinuous, it transforms into a uniform energy.

Optionally, for the use of the system for use of the continuous energy obtained, is added to the a Francis or Bulb turbine system located at the end of the loading pipe The turbine zone is equipped with floodgates guard, access well, and other devices necessary for your maintenance.

The front of reception (facing the sea) of the system it is prolonged depending on the physical conditions of the section of coast in which it is implanted and of the expected wave energy up to achieve the desired final power in turbine. The front floor Reception can be straight or smoothly curved to fit the coast: both by the capture by openings and by the cell load circuits, there is room for wide curves radio.

The operation of the system is the next:

In a first stage of admission, the water from the breaking wave, which is mixed with air, penetrates the mouthpiece. In this admission phase, the incoming wave compresses that air that can be derived, by means of a deaeration valve, to the atmosphere. The deaeration circuit is blocked if the tank Hydropneumatic requires additional air (for example by dilution in the water in the air it contains). In the interval between waves, the empty collection duct to the sea the water that has not pierced the intake valve.

In a second stage, the kinetic energy of the body of water opens the unidirectional opening valve against the water pressure energy contained in the link pipe with the collector of the hydropneumatic circuit.

In a third stage, the charging system hydropneumatic collects as kinetic energy the kinetic energy of all the mouths catching waves. Captured energy kinetics of the incoming wave, the opening valve is closed unidirectional In this way, kinetic energy is transformed into pressure energy in the hydropneumatic tank. Each mouthpiece can provide energy at different times and in different amounts to the tank: the hydropneumatic configuration of the tank allows integrate the contribution of partial energies, and at the same time standardize the total water pressure thanks to the air tank.

In an additional and optional fourth stage, in the case of the use of the continuous energy obtained for its transformation into mechanical and / or electrical energy, you can transform the water pressure energy into mechanical energy in the turbine chamber, variable load height, found located at one end of the cargo pipe of the hydropneumatic reservoir that runs parallel to the coast. Turbine drains into the sea through a drain pipe whose mouth of output is at sufficient depth to be able to consider that the hydrostatic load at the exit corresponds to the average sea level in every moment

In a fifth stage, this mechanical energy is Transforms into electrical energy in the associated alternator.

In this way, horizontal efforts generated by the waves on the dike perpendicular to its forehead to the sea, they have mostly transformed into internal pressures in the hydropneumatic reservoir, and the incident energy, originally discontinuous, of the waves, in an energy delivered so noticeably uniform at the downstream end of the device.

The proposed device, according to the above considerations, it has been conceived using solid, simple and solid elements of its composition known in other types of energy uses, to reduce your construction and maintenance cost.

It is possible to increase the energy efficiency or the functional protection of the invention with elements or additional systems, some of which are mentioned to continuation:

As a mouthpiece protection element and hydraulic circuit: grate, grid or net of protection against floating bodies, distant upstream enough to allow Mouth and cell inspection.

As a turbine protection element: pipe of purging sands in the load pipe before entering turbine.

As control elements and eventual limitation of pressures: manometers of control and adjustable valves in Different points of the circuit.

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For the improvement of energy yields include the system:

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Media wave height control upstream of the receiving front of the device, associated with the following measures:

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Media of control and maintenance of the air chamber and its Pressure.

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Electromechanical valves or clappers adjustable to optimize depending on the energy of the Hello, the amount of energy captured.

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Media of graduation, automatically or externally controllable, of the system deaeration depending on the desired amount of air in the hydropneumatic tank

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The convenience of using the above add-ons to the device will depend on the specific situation of each installation as the device is used as a heat sink energy or power generator and source conditions primary energy (wave characteristics) in the site.

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Brief description of the drawings

Then it goes on to describe very brief a series of drawings that help to better understand the invention and that expressly relate to an embodiment of said invention presented as a non-limiting example of is.

Figure 1 shows an elevation view of the system of the invention.

Figure 2 shows a section by II-II system of figure 1.

Figure 3 shows a section by III-III of the system of Figure 1.

Figure 4 shows a detail of one of the Figure 3 galleries.

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In the aforementioned figures, identify a series of references that correspond to the elements indicated below, without implying character any limitation:

one.-

Mouthpiece.

2.-

Valve Gallery

3.-

Convergent duct.

4.-

Deaeration valve.

5.-

Unidirectional opening valve.

6.-

Manifold.

7.-

Hydropneumatic tank

8.-

Load pipe.

9.-

Turbine.

10.-

Access well

eleven.-

Air / water tank

12.-

Deaeration output.

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Detailed description of one embodiment

Figures 1-4 represent a preferred embodiment of the invention, in which the discontinuous energy transformer hydropneumatic system in continues as a power generator that includes:

- a front with a plurality of openings (1) water capture of the breaking wave,

- a convergent duct (3) for collecting water associated with each mouth (1),

- a deaeration valve (4) connected to the convergent duct end (3) followed by a valve unidirectional opening (5),

- a gallery (2) of access to the valve deaeration (4), with a deaeration output (12) and the valve unidirectional (5) for maintenance,

- a collector (6), to which a plurality of collectors that collect water flows at the outlet of the unidirectional opening valve (5),

- a balance deposit that is a deposit Hydropneumatic (7) consisting of a large load pipe (8) diameter that runs along the dike to its extremity in the sea hydraulically connected through the collectors to a tank (11), which acts as the air / water zone of the tank hydropneumatic, arranged on it,

- a bulb turbine (9) located in the lower zone of the hydropneumatic tank (7). The turbine zone is equipped with guard gates, access well (10), and other devices necessary for maintenance.

Claims (11)

1. Hydropneumatic system transforming the discontinuous energy of the waves into continuous energy characterized by comprising:

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a front with a plurality of mouths (1) for collecting water from the breaking wave

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a plurality of convergent ducts (3) for water collection associated to the mouths (1),

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a deaeration valve (4) adjustable connected to the end of each convergent duct (3), followed by an opening valve unidirectional (5), both protected by upstream gates and down for maintenance,

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to the minus a collector (6) that collects the flow from each one way opening valve (5),

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a pressure integrating balance tank that receives water of the collector (6),

in such a way that horizontal efforts generated by the waves, they are mostly transformed into internal pressures in the hydropneumatic reservoir (7), and energy wave incident, originally discontinuous, is transformed into a uniform continuous energy.

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2. Hydropneumatic system according to claim 1 characterized in that it comprises a gallery (2) for access to the deaeration valve (4) and the unidirectional valve for maintenance. 3. Hydropneumatic system according to claims 1 and 2 characterized in that the balance tank is a hydropneumatic tank (7) comprising an air / water tank (11) arranged on a hydraulically connected load pipe (8). 4. Hydropneumatic system according to claims 1 and 2 characterized in that the balance tank is an equilibrium chimney. 5. Hydropneumatic system according to previous claims characterized in that it comprises a turbine (9) located in the lower area of the hydropneumatic tank (7). 6. Hydropneumatic system according to previous claims characterized in that it comprises in each mouth (1) means of protection against floating bodies selected between grid, grid or net. 7. Hydropneumatic system according to previous claims characterized in that it comprises a sand purge pipe in the load pipe before entering the turbine. 8. Hydropneumatic system according to previous claims characterized in that it comprises control means and eventual pressure limitation. 9. Hydropneumatic system according to previous claims characterized in that it comprises wave height control means upstream of the receiving front of the device, associated with the control and maintenance measures of the air chamber of the hydropneumatic tank and its pressure and electromechanical valves or clappers adjustable. 10. Hydropneumatic system according to previous claims characterized in that it comprises means for graduating the deaeration system according to the desired amount of air in the hydropneumatic tank. 11. Hydropneumatic system according to claim 10 characterized in that the graduation means are automatic or externally controllable.