NL1037537C2 - FLOATING PLATFORM WITH POWER GENERATION LINKED TO WIND TURBINE AT SEA. - Google Patents

Description

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Floating platform with power generation linked to offshore wind turbine (A) Worldwide there is a huge potential of wave energy. There are currently many initiatives worldwide for converting wave energy into electrical energy.

(B) In addition, in order to achieve the climate objectives, substantial investments will be made in wind farms in the coming years, in particular on the continental plateaus at sea, far from the coast.

The state of the art for applications A and B is discussed in more detail: (1) Linear wave generators, known according to patents GB 2338839 (A) and GB 2407438 (A), and have the disadvantage that these are often isolated systems in which a expensive infrastructure for the removal of electrical energy must be installed. As a result, the efficiency of these systems is low.

15 The maintenance of these isolated systems is also expensive. Floating installations can possibly come loose under certain weather conditions and hang crooked, which also reduces the efficiency. The disadvantage is also that under (1) the wind energy is left unused.

(2) Wind turbines with fixed foundations at sea, whether or not combined into 20 wind farms are known according to the patent WO2009050547 (A2). An infrastructure has been provided for these wind farms to discharge the energy generated to the destination. However, the construction of these offshore wind farms is very expensive due to, among other things, this infrastructure and the expensive foundations. An additional disadvantage is that under (2) the wave energy is furthermore left unused. Necessary maintenance on offshore wind turbines is limited at higher wind strengths and often, due to safety, impossible due to the high waves.

(3) Floating offshore wind turbines combined with wave generators are known

30 according to the patents WO 2009/068712 (A1), US 005549445 (A), JP

20055120959 (A), US 6766643 (B2), EP 2090774 and WO 00/01945. The disadvantages described under (1) also apply to (3).

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The invention according to Claim 1 offers the solution of the disadvantages described in the prior art of (1), (2) and (3) and is characterized by connecting both applications of A and B as a device with a fixed foundation. .

The great advantage of the device is that the current can be discharged with the already projected and coupled electrical infrastructure of the wind turbine device on site and with wind turbine devices projected over a larger area at sea.

Because coupling of this electricity infrastructure takes place, the up and down movement of the random wave energy over larger areas can be used to the maximum.

A second advantage of the device is that the efficiency of the complete offshore generation plant is considerably increased. This makes it more attractive for an electricity producer to use offshore wind energy. Offshore wind energy is very expensive (a factor of three higher) in relation to a wind turbine on land due to, among other things, the expensive foundation.

A third advantage is that the high investment costs of the foundations for the offshore wind turbines become more profitable when the device is used.

A fourth advantage can be mentioned that the maintenance costs of the device can be shared among applications A and B and will therefore be lower per generated energy unit.

The fifth advantage is that the efficiency of the installation is also higher than that of a normal offshore wind turbine on windless days because the potential of wave energy, due to the slowness of water, can often still be utilized when it is virtually windless . In continental plateaus adjacent to oceans, the efficiency of the establishment is thereby even higher due to the higher wave.

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The invention will be further elucidated with reference to the annexed drawings:

FIG. 1-invention with schematically a preferred embodiment of the device (1) - total view (page 7)

FIG. 2 invention with schematically a preferred embodiment of the device 30 (1) - section (page 8)

FIG. 3-invention with schematically a preferred embodiment of the device (1) - top view (page 9) 3

The principle of the invention is characterized in a device as a floating platform, flexibly coupled to a wind turbine at sea, according to the description in the preamble of Claim 1 (see Fig. 1).

The characteristic of the device is that on the floating platform there is a round structure with a linear generator coupled to the mast of a wind turbine device which provides for a power generation. The floating platform moves with the waves and moves with respect to the wind turbine in a vertical sense, so that with this up and down movement an electricity generation takes place through magnetic induction. In the superstructure of the platform there are 10 magnetic cores on the inside of the round superstructure and enclose the mast of the wind turbine over half the mast radius of the wind turbine. Enclosed around the wind turbine mast are the magnetic coils, mounted over the entire circumference of the mast, at the height of the structure of the platform structure and with a sufficient overlap in height to utilize the rising and falling wave movements. The electricity generation takes place by using magnetic induction and is known under the principle of a linear generator (Fig. 2).

The device can be used with both new and existing offshore wind turbines, provided that the foundation structure is designed for this.

The platform basically consists of two halves to enable (a) application to existing wind turbines and (b) to be able to connect and disconnect for necessary maintenance (Fig.3). The platform also serves for the maintenance of the wind turbine. The device is thereby provided with a hoisting device, to be coupled to the mast of the wind turbine.

A blocking provision is also included for access and maintenance of the wind turbine device, as a result of which the up-and-down wave movement can be damped by reversing the polarity of the electrical induction unit. This can be done with the electricity generated by the wind turbine, and with the use of a mechanical blocking device, access to the device is then guaranteed in a safe manner.

30 In order to enable sufficient and constant electricity generation, the distance between the platform and wind turbine must not be too large, only a few centimeters. The device is therefore provided with roller guides to ensure said distance.

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The generated electrical power of the device in the proposed preferred embodiment will be in the same order of magnitude as that of a wind turbine device, depending on wind and wave power. The floating platform will thereby have the preferred dimension of approximately 25 to 30 meters in diameter with a water displacement of approximately 35 m3. However, the electrical power to be generated of this invention will not be limited to this preferred size, but will depend on the design and size.

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Claims (12)

A device (1) for generating energy, comprising an element (2) floating in seawater and a body (3) to be founded in the seabed, which element (2) is movably coupled to the body (3), which device comprises a linear generator (4) consisting of an outer jacket (4a) provided with magnetic cores and mounted on (2) and provided with an inner jacket (4b) provided with magnetic coils and attached to (3), for converting to electricity of a linear movement of the floating element (2) relative to the body (3), characterized in that the device further comprises at least one wind conversion unit (5) for converting wind energy into electricity, such that the device has both wave energy if wind energy can convert into electricity. Device according to claim 1, wherein the linear generator (4) is accommodated in the body (3) and another part around the floating element (2). A device according to claim 1, wherein in the structure of the floating element (2) one part of the linear generator (4d) is located on the inside of the structure of (1) and encloses the other part of the linear generator (4a) at some distance, this distance such that electricity can be generated efficiently with the linear generator. A device according to any one of the preceding claims, wherein the floating element (2) basically consists of two halves which can be mechanically coupled and disconnected. 5. A device according to claim 1, wherein a blocking device is included by reversing polarity of the electrical induction unit which dampens the up and down movement of the floating element (2), preferably characterized in that said damping is effected from electricity supply of the electricity generated by the body (3), preferably characterized in that if the damping has taken place 100% with the use of a mechanical blocking device, the floating element (2) is fixed relative to the body (3) . A device according to claim 1, wherein with the aid of claim 5 maintenance to the total device can be carried out in a safe and efficient manner, because boats can moor for the necessary maintenance. A device according to claim 1, wherein the electrical fittings to be used for the electricity generation of the device (1), based on the linear generator principle according to (4), can be coupled to the electrical fittings of the body (3) needed for the wind turbine. A device according to claim 1, wherein the device (1) is provided with roller guides to ensure the distance between the device (1) and (3). A device according to claim 1, wherein the device (1) is provided with a hoisting device for maintenance on (2) and (3) of the total system. An apparatus according to claim 1, wherein the apparatus (1) is capable of generating and delivering electricity to the existing or projected electricity grid of a offshore wind turbine or coupled offshore wind farms. A device according to claim 1, wherein the device (1) is founded with a fixed foundation A device (1) according to the preceding claims, wherein the device (1) can also be coupled to existing offshore wind turbine devices. 20 25 30 10 3 75 37