FR2979955A1 - DEVICE FOR PRODUCING WAVE ENERGY ON EMERGING STRUCTURE - Google Patents

Abstract

The invention relates to a device for producing energy from wave motion, comprising a structure (1) emerging, which is fixed by at least one pillar (3) to the seabed, and a float (2) cooperating with a system (60) for converting the vertical displacement of the float into usable energy on the structure (1). According to the invention, the system (60) comprises a member (61) above the water, movable along a prescribed actuation stroke and connected to the float (2) by a mechanical compensation device (4) suitable for take: - at least a first position, in which the float (2) is fixed to the member (61) to move the member (61), - at least a second position, in which the float (2) is disengaged and movable vertically with respect to the member (61) to compensate for tidal movement by the device (4), and a device (100) for actuating the device (4).

Description

The invention relates to a device for producing energy from the movement of waves. A field of use of the invention is a wave energy device, capable of producing energy, for example electrical energy, from the movement of waves acting on at least one float. Different types of energy generating devices from wave motion are known, for example from WO 2009/148531, WO 2008/148943, US-A-2005/0099010 and WO 2006/100436. One of the problems with devices using wave motion is tidal range, that is, the difference in water level between a low tide and the high tide that follows it (or difference in height of water between low tide and the high tide that follows it). This tidal range is often several meters. As an indication, on the French Atlantic coast, the tidal range is about 6 meters, whereas the height between the trough and the wave ridge is of at most about 4 meters on average. The tidal range can therefore exceed the useful course of a float moved by the waves. The invention aims in particular to compensate for the tidal range. WO 2009/148531 generally describes a wave energy conversion system between a floating float and a body attached to the seabed. A device for generating energy from wave motion, having an emergent structure, which is fixed by at least one pillar to the seabed, and at least one float, which is guided relative to the pillar and is adapted to be 2 5 moved to the surface of the water relative to the pillar following a vertical displacement due to the movement of the waves, the float cooperating with a system for converting the vertical displacement of the float into usable energy on the structure, is known from the document WO 2008 / 148943. This device comprises guide means on the pillar, which comprise at least two opposite raceways on the pillar and at least two wheels or two rollers rotatably mounted about axes of rotation integral with the float, these two wheels or these two rollers. rolling on the two opposite raceways. The float comprises means allowing the wheels or rollers to exert an antagonistic pressure on the raceways so as to enable said wheels or said rollers to ensure both the guidance of the float on the guide device and the rotation of the wheels or rollers during movements of the float. Conversion means comprises means for converting the rotational movement of the wheels or rollers into usable energy by electric generators driven in rotation by the rollers or wheels. This device according to the document WO 2008/148943 may comprise an electronic control device (not shown in this document) making it possible to control in particular the float in order to adapt the amplitude of its stroke as a function of the tidal range and the movements of the swell. , the amplitude of the stroke of the float must be at least equal to the sum of the tidal range, the amplitude of the swell and a safety difference, and also to control the actuation and stopping of the sliding of floats with respect to guiding devices. However, this document WO 2008/148943 does not indicate any means by which the tidal effect would be compensated, but on the contrary includes the amplitude of the tidal range in the float stroke, which has the disadvantage of having to provide a very high degree of stability. high stroke height for the wheels and drive rollers of the electric generators, as this race is variable because of the tidal range. US-A-2005/0099010 discloses a wave energy converting device having a base attached to the seabed, a vertical axis attached to this base, an inductive coil positioned in the axis, a sheath having an aperture traversed by the axis, and a float attached to the magnetic sleeve, such that a wave causes the float to move, causing the magnetic sheath to move relative to the coil and to generate electrical energy in the coil. One embodiment provides a wave energy conversion system, which is immersed in having a plurality of such conversion devices having their floats vertically movable on multiple axes fixed on a submerged platform, which platform is movable in height. on fixed posts, anchored on the seabed. In this embodiment, studs, to which other floats are attached, are fixed on the platform, these other 5 floats having a buoyancy sufficient to respond to changes in water depth by raising or lowering the platform relative to the fixed posts, on a height mechanically limited by a high stop and a low stop of the platform on these fixed posts. The weight of the platform, uprights, and conversion devices is sufficient to maintain the platform steady, adjusting it to changes in tides rather than waves. This system known from document US-A-2005/0099010 has the disadvantage of not being adaptable to an emergent structure, as well as having a particular structure to be placed on the seabed. In addition, because all floats rise and fall with the waves, this system described in US-A-2005/0099010 has the further disadvantage of not being controllable. WO 2006/100436 discloses a wave energy converting device comprising a base portion anchored to the seabed, a flap portion pivotally connected to the base portion being fully immersed, and means for extracting energy from movement of the shutter portion, comprising a piston actuated by the shutter portion, movement of the piston in a cylinder exerting pressure in a hydraulic circuit to drive a hydraulic motor, which drives a rotating flywheel , which is converted into electricity by an induction motor / generator. WO 2006/100436 indicates that, to compensate for tide levels, the axis of rotation of the flap portion can be raised and lowered relative to the base portion. Preferably, the flap portion may be mounted on a support shaft held between two support portions to allow the flap portion and the support shaft to rise and fall in response to changes in tidal level. In another embodiment, the flap portion may be mounted on a support shaft that is mounted on actuators or other means that may include control means for moving the flap portion up and down according to the tidal conditions. The device known from this document WO 2006/100436 also has the disadvantage of requiring a large number of immersed parts, including parts of the energy extraction means, by positioning them directly on the seabed, which does not makes it not adaptable to an emerging structure. In addition, the control means possibly to move the shutter portion height are also immersed, which makes them difficult and expensive to implement, subjecting them to the permanent action of seawater.

The aim of the invention is to obtain a device for producing energy from the movement of waves, which alleviates the drawbacks of the state of the art by making it possible to compensate for the tidal range and by being usable from an existing offshore platform to recover it. energy. For this purpose, a first object of the invention is a device for producing energy from wave motion, comprising an emergent structure, which is fixed by at least one pillar to the seabed, and at least one float, which is guided with respect to the structure and / or the pillar and is adapted to be moved on the surface of the water with respect to the structure following a vertical displacement due to the movement of the waves, the float cooperating with a displacement conversion system vertical float of the energy float usable on the structure, characterized in that the conversion system comprises at least one member, which is located above the surface of the water, which is movable in a prescribed operating stroke and which is connected to the float by means of a mechanical compensation device capable of taking: at least a first position, in which the float is fixed to the member by the mechanical device of compensation for moving the member along its prescribed actuation stroke to convert by the conversion system the vertical displacement of the float into usable energy on the structure, and - at least a second position, in which the float is disengaged and movable vertically by relative to the member to compensate the tidal range by the mechanical compensation device, the energy production device comprising an actuating device for putting the mechanical compensation device in the first position, to put the mechanical compensation device in the second position, to move the mechanical compensation device from the first position to the second position and to move the mechanical compensation device from the second position to the first position.

According to one embodiment of the invention, the member comprises at least a first rod of a jack, the first rod being movable according to the prescribed stroke of actuation in a jack of the jack fixed to the structure and / or the pillar , the first rod being connected to the float by means of the mechanical compensation device.

According to one embodiment of the invention, the prescribed operating stroke is substantially vertical. According to one embodiment of the invention, the mechanical compensation device is of the sliding type comprising a first part fixed to the member, a second rod fixed to the float and a locking member for blocking the second rod relative to at the first part in the first position, - to allow the second rod to move relative to the first part in the second position, - to move from the first position to the second position and to pass the second position to the first position . According to one embodiment of the invention, the float is guided on the pillar. According to one embodiment of the invention, the mechanical compensation device and the actuating device are accessible above the surface of the water.

According to one embodiment of the invention, the device comprises a means for measuring the location in height of the float in the first position. According to one embodiment of the invention, the mechanical compensation device has a second race of compensation of the float 5 with respect to the member in the second position, this second race of compensation of tide in the second position being disengaged and distinct from the prescribed stroke of actuation of the member relative to the structure in the first position. The invention will be better understood on reading the description which will follow, given solely by way of nonlimiting example with reference to the appended drawings, in which: FIG. 1 is a diagrammatic view in vertical section of a embodiment of the energy production device having a tidal compensation device according to the invention; FIG. 2 is a diagrammatic view in vertical section of the device according to FIG. 1, operating at high tide; FIG. a schematic view in vertical section of the device according to Figure 1, operating at low tide. In the figures, the energy production device according to the invention comprises an emergent structure 1, which can be for example an existing off-shore platform. This emerged structure is located at sea and comprises for example one or more pillar (s) 3 fixed (s) to the seabed. The pillar (s) 3 extend in a vertical direction having an emergent zone, which is the one whose upper end 301 is attached to the emergent structure 1, as well as a submerged zone 32, which is that having a lower end 321 anchored to the seabed F. A float 2 or more generally a floating assembly 2, is provided to be guided relative to the structure 1 and / or relative to the pillar 3, in a vertical guide. The float 2 is able to remain substantially at the surface of the water and to follow the oscillating movement of the waves to ascend and descend along the pillar 3 and / or any other amount of vertical guidance fixed or immobilized relative to the emergent structure 1, this emerging structure 1 being fixed relative to the seabed F, including height. Below, the element 2 designates the float but also any floating assembly. The float 2 has a density enabling it to remain at the surface S of the water E containing, where appropriate, one or more chamber (s) filled with a gas, such as for example air. The float 2 comprises, for example, a vertical through-passage 22 for the passage of the pillar 3 therein, the float 2 thus comprising in this case a portion 21 surrounding the pillar 3 and delimiting the through hole 22. The float 2 has a portion The bottom contact 23 with the water E, which is therefore most often immersed, as well as an upper surface 24 that can be emerged or partially and temporarily submerged. The waves W thus raise and lower the float 2 along the pillar 3 Thus, the arrival of the summit W1 of a wave raises the float 2, while the arrival of the hollow W2 of a wave causes the float to descend 2. The float 2 or floating assembly 2 cooperates with a system 60 for converting the vertical displacement of the float 2 or the floating assembly 2 into usable energy on the structure 1. The energy production device is also called a wave energy device. . According to the invention, the conversion system 60 comprises at least one member 61 emerging, which is movable in a prescribed actuation stroke and which is connected to the float 2 via a mechanical compensation device 4. This member 61 comprises for example at least one rod 61 of a jack 6, this rod 61 being displaceable according to the prescribed stroke of actuation in a barrel or body 62 of the jack 6 fixed to the structure 1, the rod 61 being connected to the float 2 through the mechanical device 4 compensation. The barrel 62 of the jack 6 2 5 could also be fixed to the pillar 3. According to the invention, the compensation device 4 is able to take at least a first position, in which the float 2 is fixed to the member 61 by the compensation device 4 and at least a second position, in which the float 2 is disengaged with respect to the member 61 through the compensation device 4.

The first position is the position of use of the float 2 to recover the wave energy by the conversion system 60. In this first position of the compensating device 4, the member 61 is moved along its prescribed actuation stroke to convert the vertical displacement of the float, due to the waves, into usable energy on the structure 1 by the conversion system 60. this first position, the vertical displacement of the float 2, due to the waves, therefore moves the member 61 according to its prescribed actuation stroke, namely in the example indicated above moves the rod 61 following a vertical movement in the barrel 62 of the cylinder.

The conversion system 60 comprises for example a converter 7 cooperating with the jack 6 and more generally with the member 61, this converter 7 converting the displacement of the member 61 according to its prescribed actuation stroke, namely in the example described above, the vertical displacement of the rod 61 of the jack with respect to its shank 62, in energy used or stored on the structure 1, by any appropriate means, which may be for example a hydraulic or pneumatic circuit or more generally a circuit using a fluid whose pressure is modified by this movement of the member 61, the member 61 being fixed for example to a piston 610 movable in the barrel 62 of the jack for compressing and expanding this fluid in its circuit. The converter 7 can also transform the vertical displacement of the rod 61 of the jack relative to its shank 62 in electrical energy. The converted electrical energy can be transmitted to a production network electricity, located on the structure 1 and / or leaving the outside of the structure 1, for example on the ground. The converter may be an example located on structure 1 or platform but could also be located elsewhere. There may be a converter 7 for a plurality of members 6 and / or a plurality of floats 2 and / or several wave energy devices. There can also be in the converter 7 another means of obtaining a fluid energy from the vertical displacement of the rod 61 of the jack relative to its barrel 62. In the second position of the compensation device 4, the float 2 is 30 vertically movable relative to the member 61 to compensate the tidal through the device 4 compensation. In this second position, the float 2 can be moved vertically by the waves independently of the member 61, so that the vertical displacement of the float 2 no longer causes the displacement of the member 61. Therefore, in this second position, the height of the float 2 relative to the structure 1 can be adjusted according to the variation of water level due to tidal. Thus, it can be seen in FIG. 2 that at high tide, the float 2 is fixed to the member 61 in the first position while being closer to the structure 1 than at low tide in FIG. actuation is provided to put the compensation device 4 in the first position, to put the compensation device 4 in the second position, and to move the compensation device 4 from the second position to the first position. Thus, once in the second position, the compensation device 4 has made it possible to adjust the vertical position of the float 2 along the pillar 3 as a function of the height of water due to the tide, the device 4 is again passed through. compensation in the first position to lock the float 2 relative to the member 61 and to join them in vertical displacement, to move the member 61 according to the prescribed stroke of actuation due to the vertical displacement of the float 2 due to the waves. According to the embodiment shown in the figures, the compensation device 4 is of the slide type, comprising a first portion 51 fixed to the member 61 and a second rod 25 fixed to the float 2. A locking member 5 is provided for : - block the second rod 25 relative to the first part 51 in the first position, - allow the second rod 25 to move relative to the first part 51 in the second position, - move from the first position to the first position second position and - move from second position to first position. Thus, the second position is a float release position 2 with respect to the member 61.

Thus, the invention provides a device for eliminating the effect of tidal drag on the stroke of an energy conversion system 60 placed between a floating assembly 2 and a fixed assembly 1. The floating assembly 2 slides along the pillar 3 anchored on the seabed. The movement of the float 2 is transmitted for example by at least one jack 6 whose effect of tidal movement is eliminated by the compensating device 4 capable of blocking and releasing the rod 25 connected to the float 2. operation in energy conversion, that is to say in the first position, the connection between the member 61 and the floating assembly 2 is blocked by the compensation device 4, at least vertically. By releasing the float 2 briefly at a determined time step in the second position, the floating assembly 2 adapts to the sea level. By again blocking the connection between the float 2 and the member 61 at the height desired in the first position, the effect of tidal on the member 61 or cylinder 6 is neutralized. The locking member or device 5 can be of any type. It must be at least capable of releasing and unblocking in both directions the vertical translation of the rod 25. Of course, the rod 25 may be replaced by any mechanical connecting element. The blocking member 5 can be made for example by one of the following devices: clamping (that is to say locking) by wedges, blocking of a stem supported by jaws, blocking by a device braking, for example on a hauling system. The blocking member 5 comprises, for example, a box 50 connecting the first portion 51 to the second rod 25, for example with the casing 50 traversed vertically by the second rod 25 and the casing 50 attached laterally to the first rod 61 by the intermediate of the first portion 51, with a locking element and unlocking the rod 25 in the housing 50. The member 61, the cylinder 6 and the mechanical compensation device 4 are emerged and located at a greater height The rod 25 is at a greater height than the float 2 and is for example fixed on the upper surface 24 of the float 2. The mechanical device 4 for tidal compensation has a second compensation stroke. tidal float 2 relative to the member 61 in the second position. The rod 25 has a second tide compensation stroke with respect to the rod 61 in the second position. Therefore, the second tide compensation stroke in the second position is distinct and disengaged from the first actuating stroke of the aforementioned member 61 relative to the structure 1 in the first position. This prevents the movable member 61 is dimensioned in length by the race, on the one hand due to the displacement caused by the waves, and on the other hand due to displacement caused by the tide. Indeed, in this case, it would lead, depending on the implantation sites, to cylinder rods having an order of magnitude of 5 meters (for the first actuation stroke) to which is added a race having an order of magnitude from 5 to 10 meters (second tidal compensation race), which makes a total run of 10 to 15 meters, which is considerable. The device according to the invention thus makes it possible to limit the stroke of the jack 6 to the only displacements due to the waves (first stroke) and also makes it possible to disconnect the float 2 with respect to the jack 6 to immerse the float 2 in the event of a storm, and to allow easy reconnection. The control of the actuating device 100 transmitting the release or locking instruction of the rod 25 can be of any type, for example electrical, pneumatic or hydraulic, depending on the type of locking device. By way of example, the three blocking device examples indicated above are hydraulically controlled. In one embodiment, the actuating device 100 comprises a portion provided on the tidal compensating device 4, which is connected by any suitable means, for example by electric wire, wireless radio wave or the like, to the magnetic tapping device 4. another part provided on the structure 1 and for sending to the device 100 for actuating instructions for passing the device 4 in the one and the other of the first and second positions. The frequency of passage in the second position, namely to release the rod 25, depends essentially on the tidal current present at the place where the structure 1 is installed. The passage of the mechanical tidal compensation device 4 in this second position can be programmed in advance according to the location of the structure 1 and according to for example the tide times known in advance. This programming can be done once on the device 100 of actuation. The greater the tidal range, the more the mechanical device 4 tide compensation will be frequently placed in the second position.

In one embodiment, there is provided a means for knowing the position of the float 2 when locking in the first position. This step can not be programmed in advance, since the movements of the float 2, depending on the swell, are irregular. It is therefore planned in this case to insert a means of direct or indirect measurement of the location in height of the float in the first position. For example, this means of direct or indirect measurement is provided between the float 2 and the earth, but of course, this measuring means can be provided elsewhere. Knowing the height of water at a given time, there can be provided a means to verify that the tidal compensation device 10 is in the first position. The tidal compensating device 4 requires a small amount of feed energy since it has a utilization frequency much lower than the oscillation frequency of the swell. In one embodiment, so as to make possible the immersion of the float 2 especially during extreme atmospheric conditions, such as for example storms, the device 4 allows the total withdrawal of the rod 25. In this case, 2 0 la rod 25 must be able to be reinserted in the device 5. In one embodiment, the barrel 62 of the jack 6 is fixed in vertical translation in both directions with respect to the pillar 3 and to the structure 1, which also facilitates its access for maintenance. In one embodiment, the locking device 5 is connected directly or via at least one transition piece to the rod 61 of the jack 6, so as to transmit to the jack 6 the movement of the float 2. The tidal compensation device 4 allows, according to the command, the release and the locking of the float 2 at least in the two vertical translation directions. The rod 25 is connected to the float 2 so that at least the vertical translation of the rod 25 relative to the float 2 is blocked in both directions.

In the embodiment shown, the system 60 of conversion as described above is provided with several members 61 and elements 6 as described above around the pillar 3. Each member 61 is for example connected by the elements 4, 5, 50, 51, 25, 100 described above, float or floating assembly 2, having the first position and the second position, with the elements 25, which are fixed at points distinct from the float 2 or the floating assembly 2 or which are attached to separate floats 2. In one embodiment, the device is provided on several pillars 3 of the same structure 1, each pillar 3 being provided with the elements indicated above.

In one embodiment, the locking members 5 can be connected to each other by at least one transition piece, so as to limit the buckling of the rods 25. The locking members 5 can only be connected to one another. when there is only one float because the rods 25 must have exactly the same movement so as to be able to block them by the locking members 5. Inserting several pillars on a structure makes it possible in particular to increase the number of floats at the foot of a single structure. But it is also possible to have several pillars 3, a single structure 1 and a single float 2: the float 2 would be in this case without the hole 22 and the guide devices between the float 2 and the pillars 3 would be located for example on the perimeter of the float 2. There is in this case only once the elements 4, 5, 50, 51, 25, 100.

Claims (8)

REVENDICATIONS1. Apparatus for producing energy from wave motion, having an emergent structure (1), which is fixed by at least one pillar (3) to the seabed, and at least one float (2), which is guided relative to to the structure (1) and / or to the pillar (3) and is able to be displaced on the surface of the water with respect to the structure (1) according to a vertical displacement due to the movement of the waves, the float (2) cooperating with a system (60) for converting the vertical displacement of the float into usable energy on the structure (1), characterized in that the conversion system (60) comprises at least one member (61), which is located above of the surface of the water, which is displaceable in a prescribed operating stroke and which is connected to the float (2) via a mechanical compensation device (4) able to take: - at least a first position, in which the float (2) is fixed to the member (61) by the mechanical device (4) compensating for moving the member (61) along its prescribed actuating stroke to convert by the conversion system (60) the vertical displacement of the float (2) into usable energy on the structure, and 2 0 - to at least a second position, in which the float (2) is disengaged and movable vertically relative to the member (61) to compensate for the tidal flow by the mechanical compensation device (4), the energy production device comprising a device Actuating device (4) to put the compensation mechanical device (4) in the first position, to put the mechanical compensating device (4) in the second position, to move the mechanical compensation device (4) to the first position in the second position and to move the mechanical compensation device (4) from the second position to the first position. 2. Device according to claim 1, characterized in that the member (61) 30 comprises at least a first rod (61) of a jack (6), the first rod (61) being movable according to the prescribed stroke of actuation in a barrel (62) of the jack (6) fixed to the structure (1) and / or to the pillar (3), the first rod (61) being connected to the float (2) via the mechanical device ( 4) compensation. 3. Device according to any one of the preceding claims, characterized in that the prescribed stroke of actuation is substantially vertical. 4. Device according to any one of the preceding claims, characterized in that the mechanical device (4) for compensation is of the sliding type having a first portion (51) fixed to the member (61), a second rod (25). attached to the float (2) and a locking member (5) for - locking the second rod (25) with respect to the first part (51) in the first position, - allowing the displacement of the second rod (25) by report to the first part (51) in the second position, - move from the first position to the second position and - move the second position to the first position. 15 5. Device according to any one of the preceding claims, characterized in that the float (2) is guided on the pillar (3). 6. Device according to any one of the preceding claims, characterized in that the mechanical device (4) compensation and the device (100) for actuation are accessible above the surface of the water. 2 0 7. Device according to any one of the preceding claims, characterized in that it comprises a means for measuring the height of the float (2) in the first position. 8. Device according to any one of the preceding claims, characterized in that the compensating mechanical device (4) has a second tidal compensation stroke of the float (2) with respect to the member (61) in the second position, this second tide compensation race in the second position being disengaged and distinct from the prescribed stroke of actuation of the member (61) relative to the structure (1) in the first position. 30