FR3002005A1 - Halogenerator device for use on sea surface to generate electrical energy, has non-identical structures, where different movements are produced by structures under effect of waves, and pneumatic energy collecting unit between structures - Google Patents

Abstract

The device (DIS) has two floating non-identical structures (STR1, STR2) that float in a free and independent manner with regard to each other. A set of different movements is produced by the non-identical structures under the effect of waves. A pneumatic energy collecting unit (MCE) is placed between the two non-identical structures. The set of structures is superimposed with each other. The energy collecting unit is arranged with a set of deformable bodies (COR1-COR3) that is associated with a spring.

Description

The present invention relates to a houlogénérateur device floating freely on the ocean surface, 5 able to use the energy of waves and waves. Such a device is of particular interest to industrialists specializing in offshore structures and the production of electricity from marine renewable energies such as waves and waves. There are a number of devices employing wave energy sensing elements. They consist, for example, of vertical column arrangements on a floating structure, with a base immersed in the water, the movements of the surface of the water moving the overlying air column which can thereby rotate a turbine which drives an electric generator. Such devices nevertheless have a certain number of drawbacks among which: The floating structure, generally of large dimensions, exhibits considerably damped movements compared to those of the waves. The air flow is irregular and the air in contact with the turbine has a pressure slightly higher than that of the atmospheric air, the energy efficiency is therefore low, the irregular flow of air causes an irregular rotation of the blades, thus premature wear of the turbine, during strong swells, seawater can come into contact with the blades of the turbine, the structure is fragile, large and expensive compared to the energy produced, the proper operation requires a significant water depth in relation to the height average of the swell. The purpose of the present invention is therefore to overcome these various disadvantages, by proposing a floating houlogénérateur device on the surface of the sea, able to use the energy of waves and waves. According to a major characteristic of the invention, the device uses two non-identical floating structures which float freely and independently of one another and which produce different movements under the effect of the waves. The device uses a pneumatic energy capture means placed between the floating structures. According to another characteristic of the invention, the device uses two superimposed structures such as an upper box which has an ideally flat bottom surface, and a lower box which has an ideally flat upper surface. The lower and upper surfaces are wholly or partly opposite. According to another characteristic of the invention, at least one of the caissons floats on the surface of the sea. According to another characteristic of the invention, at least one of the caissons is connected to stacks preferentially located at its periphery, and which float on the surface of the sea. It is above or below the surface of the sea. According to another characteristic of the invention, the means of capturing pneumatic energy consists of deformable bodies containing air and associated with return devices, such as springs, thereby making them able to retain their shape. They are arranged between the upper surface of the lower box and the lower surface of the upper box. According to another characteristic of the invention, the deformable bodies communicate with a pressurized air tank by discharge lines provided with non-return discharge valves. They are able to recover the compression energy and to emit air during a movement of approximation of the boxes. According to another characteristic of the invention, the deformable bodies communicate with the atmospheric air by charging lines provided with nonreturn charge valves. They are able to receive air during a movement of separation of the boxes. According to another characteristic of the invention, the tank is connected to a turbine by a supply line, the turbine is coupled to a generator, the tank is able to deliver compressed air and the turbine to actuate the generator. According to another characteristic of the invention, the tank, the turbine and the generator are arranged on the upper box. According to another characteristic of the invention, the upper box is provided with anchoring chains integral with the seabed, as well as with an electric cable able to evacuate the electric current produced by the generator. According to another characteristic of the invention, the upper box has on its lower face stops 25 extending opposite the flanks of the lower box. The stops are opposed to the lateral movements of the lower box relative to the upper box. According to another characteristic of the invention, at least one of the caissons has curved flanks in the vicinity zone of the caissons. The lower surface of the upper box and the upper surface of the lower box are able to have non-parallel configurations. These characteristics make it possible to overcome point by point the various disadvantages previously enumerated. Other advantages and features will become more apparent from the following description of a non-exclusive embodiment of the device according to the invention, given by way of non-limiting example, with reference to the appended drawing in which: FIG. 1 and single is a sectional view of the device object of the invention. With reference to the figure, the invention relates to a floating HOU device on the sea surface SEA, able to use the energy of the waves and waves. Said device DIS implements two floating structures STR1, STR2, which are non-identical, floating freely and independently of one another, and producing different movements under the effect of the waves. Said floating structures STR1, STR2 are superimposed: An upper box CAI1 having a lower surface SURI plane on the one hand, A lower box CAI2 having an upper surface SUR2 plane on the other hand. Said lower surfaces SURI and upper SUR2 are opposite. In the present embodiment, said lower box CAI2 floats at said SUR surface of said sea SEA. In another embodiment not described, said upper box CAI1 could have an arched shape upwards and, being larger than said lower box CAI2, span and overhang said lower box CAI2. In the present embodiment, said upper box SUP1 is connected to PIL1, PIL2, PIL3, PIL4 cells located at its periphery, of which only two are visible in the figure, and which float at said surface SUR of said sea SEA. Said upper box CAI1 is above said surface of said sea SEA, and overhangs said lower box CAIl. Said batteries PIL1, PIL2, PIL3, PIL4 frame said lower box CAI2. In another embodiment that is not described, said stacks PIL1, PIL2, PIL3, PIL4 pass through said lower box CAI1 by cavities designed for this purpose. In another embodiment not described, said boxes CAI1, CAI2 are both connected to piles and are both above said surface SUR of said sea SEA. In another embodiment not described, said boxes CAI1, CAI2 are both connected to piles and are both below said surface SUR of said sea SEA. In another embodiment not described, said boxes CAI1, CAI2 are both connected to piles and are located above, one below said SUR surface 20 of said sea SEA. Said boxes CAIl, CAI2 are not identical. Consequently, they present different vertical movements or pounding, being more or less responsive to variations in the sea level between the ridges and troughs of the waves. In the embodiment described, said upper box CAI1 is arranged on PIL1, PIL2, PIL3, PIL4 cells located at its periphery. It is thus able to overhang said upper box CAI2, devoid of batteries. The presence of said piles PIL1, PIL2, PIL3, PIL4 not constituting a breakwater protecting said lower box CAI2 waves, it will present faster movements than those of said upper box CAI1 facing said sea SEA, his - inertia being more low. Said device DIS uses a pneumatic energy capture means MCE placed between said floating structures STR1, STR2.

Said pneumatic energy capture means MCE consists of deformable bodies COR1, COR2, COR3 which contain air and are associated with return devices, such as springs, which thus makes them able to retain their shape. These deformable bodies COR1, COR2, COR3 are arranged between the upper surface SUR2 of said lower box CAI2 and the lower surface SURI of said upper box CAI1. Said caissons CAI1, CAI2 having vertical movements, or pounding, different in speed and amplitude, it follows that said deformable bodies CORI, COR2, COR3, are permanently subject to variations in distance separating said surfaces SURI., SUR2. These deformable bodies CORI, COR2, COR3 communicate with a tank RES of pressurized air via discharge pipes COD1, COD2, COD3 equipped with check valves CLD1, CLD2, CLD3. They are able to emit air during a movement of approximation of said boxes CAI1, CAI2. This air passes through said discharge valves CLD1, CLD2, CLD3 when the air pressure on the CORI, COR2, COR3 deformable bodies exceeds the reservoir-side air pressure RES. These deformable bodies COR1, COR2, COR3 communicate with atmospheric air via charge lines COC1, COC2, COC3 equipped with nonreturn valves CLC1, CLC2, CLC3. They are able to receive air during a spacing movement of said boxes CAI1, CAI2. This air passes through said load valves CLC1, CLC2, CLC3 when the air pressure on the atmosphere side exceeds the air pressure of the COR1, COR2, COR3 deformable body side air. Said reservoir RES is connected to a turbine TUR by a supply line. Said turbine TUR is coupled to a GEN generator. Said reservoir RES is able to deliver compressed air to said turbine TUR which is then rotated. Said turbine TUR then actuates said generator GEN which produces electric current. Said reservoir RES, said turbine TUR and said generator GEN are arranged and fixed on said upper caisson CAI1. Said top casing CAI1 is provided with anchoring chains CHAI, CHA2, integral with the seabed, sufficiently long to have elasticity due to their curvature under the effect of gravity which does not obey the movements of said upper caisson CAI1 under the effect of the waves. Said upper box CAI1 is also provided with a CAB electrical cable able to evacuate the electric current produced by said GEN generator. Said upper box CAI1 has at its lower surface SURI abutments BUT1, BUT2, BUT3, BUT4, two of which are shown in the figure, extending opposite the flanks FLA1, FLA2 of said lower box CAI2. Said stops BUT1, BUT2, BUT3, BUT4 oppose the lateral movements of said lower box CAI2 relative to said upper box CAI1, while having a certain clearance so as to ensure free heave of said boxes CAIl, CAI2 relative to to the other. In a variant not shown, at least one of said boxes CAI1, CAI2 has curved flanks FLA11, FLA12, FLA21, FLA22 in the vicinity of said boxes CAIl, CAI2. This shape facilitates roll and pitch movements of said boxes CAI1, CAI2 relative to each other, which are added to the heave movements. As a result, said lower surface SURI of said upper box CAI1 and said upper surface SUR2 of said lower box CAI2 may present, during their relative movements, non-parallel configurations.

The architecture previously described allows in this variant said deformable bodies CORI, COR2, COR3 to have heterogeneous operating cycles, and thus to smooth the air flow to said reservoir RES. It is obvious that the example of embodiment 10 which has just been given is only a particular illustration and in no way limiting to the fields of application of the invention.

Claims (2)

CLAIRS device floating floating on the surface 5 SUR SEA sea, characterized in that, implementing two floating structures STR1, STR2, non-identical, floating freely and independently of one another, and producing different movements under the effect of the waves, it uses a pneumatic energy capture means MCE 10 placed between said floating structures STR1, STR2. 2 DIS device according to claim 1, characterized in that, implementing two superimposed structures such as an upper box CAI1 having a SURI lower surface 15 ideally flat, and a lower box CAI2 having an upper surface SUR2 ideally planar, said lower surfaces SURI and upper SUR2 are wholly or partially facing each other, 3 DIS device according to claim 2, characterized in that at least one of said boxes CAI1, CAI2 floats at said SUR surface of said sea SEA. 4 DIS device according to any one of claims 2 and 3, characterized in that at least one of said boxes CAI1, CAI2 being connected to PIL1, PIL2, PIL3, PIL4 cells, preferably located at its periphery, and float at said SUR surface of said sea SEA, it is above or below said SUR surface of said sea SEA. DIS device according to any one of claims 1 to 4, characterized in said ECM pneumatic energy capturing means consisting of COR1, COR2, COR3 deformable bodies containing air and associated with return devices, such as springs, thus making them able to retain their shape, said deformable bodies CORI, COR2, COR3 are freely arranged between the upper surface SUR2 of said lower box CAI2 and the lower surface SURI of said upper box CAI1. 6 DIS device according to claim 5, characterized in that said deformable bodies CORI, COR2, COR3 communicating with a tank RES of pressurized air by discharge lines COD1, COD2, COD3 provided with check valves CLD1, CLD2 , CLD3, they are able to recover the compression energy and to emit air during a movement of approximation of said caissons CAI1, CAI2. 7 DIS device according to any one of claims 5 and 6, characterized in that said deformable body CORI, COR2, COR3 communicating with the atmospheric air by charging lines COC1, COC2, 0003 provided with CLC1 anti-return valves , CLC2, CLC3, they are able to receive air during a spacing movement of said boxes CAI1, CAI2. 8 DIS device according to claim 6, characterized in that said reservoir RES being connected to a turbine TUR by a supply line, said turbine TUR being coupled to a generator GEN, said reservoir RES is able to deliver compressed air and said turbine TUR to actuate said GEN generator. 9 DIS device according to claim 8, characterized in that said reservoir RES, said turbine TUR and GEN generator are arranged on said top box CAIl.Dispositif mobile device according to any one of claims 8 to 9, characterized in that said upper box CAI1 is equipped with anchoring chains CHAI, CHA2 integral with the seabed, and a CAB electric cable able to evacuate the electric current produced by said GEN generator. 11 mobile device DIS according to any one of claims 1 to 10, characterized in that said upper box CAI1 having said lower surface SURI abutments BUT1, BUT2, BUT3, BUT4 extending towards the flanks FLA21, FLA22 of said lower box CAI2, said stops BUT1, BUT2, BUT3, BUT4 oppose the lateral movements of said lower box CA1 2 relative to said upper box CAI1. 12 mobile device DIS according to any one of claims 1 to 11, characterized in that at least one of said boxes CAI1, CAI2 having curved flanks in the vicinity of said CAI1 boxes, CAI2, said SURI lower surface of said upper box CAI1 and said upper surface SUR2 of said lower box CAI2 are able to have non-parallel configurations.