KR20210139085A - Wave Force Generation Device for Ship and Offshore Structure - Google Patents

Abstract

The present invention relates to a wave power generator for ships and offshore structures. According to the present invention, the wave power generator for ships and offshore structures comprises: a hull; and a wave power generating device that is provided on both sides of the hull in the longitudinal direction and floats on the water surface. The wave power generating device includes: a body part; a receiving part formed in the body part to store the seawater overtopping; and a driving part provided in the body part to receive the seawater from the receiving part and provide buoyancy to the body part.

Description

Wave Force Generation Device for Ship and Offshore Structure

The present invention relates to a wave power generator for ships and offshore structures.

A large-scale power plant is needed due to the increase in global electricity consumption, but in areas where it is difficult to secure a site (island area, Numby (Not Under My Back Yard) phenomenon) or where electricity is urgently needed in a short period of time, a Floating Power Plant (Floating Power Plant) FPP) is emerging. However, FPP is being developed in various forms to increase its efficiency, such as considering a gas & steam turbine or a DF (dual fuel) engine.

In particular, the ship must generate and consume all the power it needs while navigating the sea. To this end, the ship is equipped with a power generation device for producing electric power used in the ship.

According to an example, such a power generation device is for generating electricity by itself to smoothly use electricity in the hull and prepare for an emergency. It is converted into electric energy by magnetic coupling of the magnetic field and directly supplied to the load or stored in a separate battery and supplied to the load if necessary.

Power used in such ships or offshore structures was generally supplied with an auxiliary engine (Aux. Engine) and a generator (Generator).

However, recently, research on using various natural energy to drive a power generation device is in progress. In particular, research is being focused on wave power generators that produce electricity from wave energy that contains enormous energy even in a small part of a small wave.

This conventional wave power generator is mounted on a ship and operated, converts the motion of the wavefront to the motion of air, and rotates the wind turbine by the motion of the air to produce electric power. there was

In addition, it was possible to use the energy of waves due to the rise and fall of the sea level by equipping the bulbous bow with a wave power generator, but these wave power generators had a problem of being limited to obtaining power from the bulbous bow.

The present invention has been created to solve the problems of the prior art as described above, and an object of the present invention is to increase the amount of power generation by operating a wave power generator using wave energy, and a wave power generator at the time of towing and the site It is to provide a wave power generator for ships and offshore structures that can be attached and detached.

A wave power generator for a ship and an offshore structure according to an aspect of the present invention is provided on both sides of the hull and the longitudinal direction of the hull, respectively, and includes a wave power device floating on the water surface, the wave power device comprising a body part and , It is formed in the body portion, and is provided in the body portion and the accommodation portion for storing the seawater to overcome, and includes a driving portion for receiving seawater from the accommodation portion to provide buoyancy to the body portion.

Specifically, the body portion, the surface corresponding to the traveling direction of the wave force is formed to be inclined to induce seawater to the receiving portion and / or the driving portion.

Specifically, it is provided between the hull and the wave power device, the wave power device in proportion to the changing draft value of the hull may include a wave power device control unit that slides to the water surface.

Specifically, it is provided between the hull and the wave power device, may include a support unit for supporting the wave power device.

Specifically, the support unit may include a truss for supporting the wave power device from the hull and a damper for alleviating the impact transmitted from any one of the hull and the wave power device.

The wave power generator for ships and offshore structures according to the present invention can improve the amount of power generated by the floating power plant, save fuel by using its own power used in the hull, and detach the wave power generator for convenience at the time of towing and site In addition, when the wave generator is installed at the site, there is an effect that can have the effect of reducing the lateral motion like a bilge keel.

1 is a view showing a wave power generator for ships and offshore structures according to a first embodiment of the present invention;
2 to 4 are diagrams showing the operation of a wave power generator according to a second embodiment of the present invention;
5 to 7 are diagrams showing the operation of the wave power generator according to the third embodiment of the present invention.

The objects, specific advantages and novel features of the present invention will become more apparent from the following detailed description and preferred embodiments taken in conjunction with the accompanying drawings. In the present specification, in adding reference numbers to the components of each drawing, it should be noted that only the same components are given the same number as possible even though they are indicated on different drawings. In addition, in describing the present invention, if it is determined that a detailed description of a related known technology may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a diagram showing a wave power generator for ships and offshore structures according to a first embodiment of the present invention, FIGS. 2 to 4 are diagrams showing the operation of a wave power generator according to a second embodiment of the present invention, FIG. 5 to 7 is a view showing the operation of the wave power generator according to the third embodiment of the present invention.

1 is a view showing a wave power generator for ships and offshore structures according to a first embodiment of the present invention.

When the wave generator 20 for the ship 1 according to the first embodiment is described with reference to FIG. 1 , it may include a hull 10 , a wave power generator 20 , and a driving unit 30 .

The hull 10 is a hull 10 of a container ship having a relatively fast moving speed, but the scope of the present invention is not limited thereto, and the hull 10 includes hulls such as tankers and bulkers, and offshore structures can do. The wave power device 20 may be installed in the hull 10 .

The wave power generation device 20 is provided on both sides around the longitudinal direction of the hull 10, it can float on the water surface. The wave power generator 20 may be provided at the bottom of the ship to convert the kinetic energy of the ship into electrical energy.

For example, the wave power generation device 20 can produce electricity by operating the driving unit 30 to be described later through seawater introduced by waves. The wave power generator 20 may include a body part 22 and a driving part 30 .

The body part 22 may be provided with a through hole 22a in which the driving part 30 is provided, a accommodating part 24 in which seawater is stored, and a slope 26 inclined in the direction of the wave force.

The body part 22 has one side connected to the hull, the other side corresponding to the seawater, and the receiving part 24 may be provided between one side and the other side. The seawater is overcome through the other side of the body portion 22, and the seawater that has overcome is stored in the receiving unit (24). The through-hole 22a of the body 22 may pass through the body 22 in a vertical cross-section from the longitudinal direction.

The receiving unit 24 may store seawater or provide seawater to the driving unit 30 . For example, the accommodating part 24 may store the seawater overcoming by the slope 26 and provide it to the driving part 30 .

The inclined surface 26 may induce seawater to the receiving portion 24 and/or the driving portion 30 as the body portion 22 is formed to have an inclined surface corresponding to the traveling direction of the wave force. The slope 26 is formed to have a predetermined angle of inclination toward the end from the receiving portion 24, the inclination angle from the longitudinal direction of the body portion 22 is formed to increase, and the seawater overcoming as the waves collide with the receiving portion 24 ) can be induced.

Accordingly, it is possible to use a falling potential energy after storing water by converting wave energy into potential energy by placing a slope on the front side of the wave power traveling direction.

The driving unit 30 may be provided on the body 22 , and may receive seawater from the receiving unit 24 to provide buoyancy to the body 22 . The driving unit 30 may be provided as a turbine operated by a fall of seawater. Here, the turbine may be provided as a turbine capable of operating with various energies, but it may be preferably provided as a water turbine turbine capable of utilizing gravitational energy as kinetic energy.

For example, the driving unit 30 may convert gravitational energy into kinetic energy and convert kinetic energy by rotation of the turbine into electrical energy while operating in the receiving unit 24 or by receiving seawater overburdening. The electricity generated in this way can be used and transmitted to each engine of the hull.

Accordingly, the wave power generator for ships and offshore structures can improve the amount of power generation of the floating power plant, and has the effect of saving fuel by using its own power used in the hull or offshore structure.

2 to 4 are diagrams showing the operation of the wave power generator according to the second embodiment of the present invention.

When the wave power generator according to the second embodiment is described with reference to FIGS. 2 to 4 , the wave power device control unit 40 is provided between the hull 10 and the wave power device 20, and the changing hull 10 ) can slide the wave power device 20 in proportion to the draft value.

The wave power device control unit 40 is connected to one side of the wave power device 20 so that the wave power device 20 can slide. Wave power device control unit 40 may be provided in a gear type or hydraulic type.

This wave power device control unit 40 may be slid so that the wave power device 20 can always float on the water surface according to the amount of change in the draft value of the hull 10 . Here, the draft value of the hull 10 may be operated by receiving it from a remote draft gauge.

At this time, the bottom surface of the hull 10 can also go down to the bottom of the water surface with the installed wave power device 20, and can move up and down variably.

For example, the hull 10 may have a draft (Draft) that varies according to loading and/or offloading of cargo. It is possible to receive and operate the wave power device control unit 40 to float the wave power device 20 on the water surface as shown in FIG. 3 .

In addition, when the draft value of the hull 10 is small, the wave power device 20 can be floated on the water surface as shown in FIG. 4 by receiving the draft value from the remote draft gauge and operating the wave power device control unit 40. .

On the other hand, the wave power device control unit 40 may operate the wave power device 20 by rotating a predetermined angle in the traveling direction of the hull 10 about the longitudinal axis.

5 to 7 are diagrams showing the operation of the wave power generator according to the third embodiment of the present invention.

When describing the wave power generator according to the third embodiment with reference to FIGS. 5 to 7 , the support unit 50 is provided between the hull 10 and the wave power device 20 to support the wave power device 20 . can

The support unit 50 is a truss 52 for supporting the wave power device 20 from the hull 10 and a damper 56 for alleviating the impact transmitted from any one of the hull 10 and the wave power device 20 . ) may be included. The support unit 50 may include a truss 52 , a hinge 54 , and a damper 56 for the connection between the draft of the hull and the relative displacement difference of the adjunct.

The truss 52 may be provided between the hull 10 and the wave power device 20 to prevent distortion of the wave power device 20 . The truss 52 may include a hinge 54 between the hull 10 and the truss 52 and between the wave power device 20 and the truss 52 .

The hinge 54 is provided between the hull 10 and the truss 52 and between the wave power generation device 20 and the truss 52, it is possible to prevent damage while rotating the truss 52 at a predetermined angle.

Here, the hinge 54 is provided to prevent the tensile force applied to the truss 52 when the bottom surface of the hull 10 is submerged under the water surface according to the change in the draft value, and the wave power generator 20 tries to float on the water surface. can In addition, the hinge 54 is provided in plurality, and may be provided between the hull 10 and the truss 52 and between the wave power device 20 and the truss 52 , respectively.

For example, the hinge 54 is provided between the hull 10 and the truss 52 and between the wave power generator 20 and the truss 52, the bottom of the hull 10 is submerged under the water according to the change in the draft value. If it is, the wave power device 20 can be floated on the water surface without being submerged under the water surface along the hull 10 as shown in FIG. 6 by rotating a predetermined angle.

The hinge 54 rotates a predetermined angle when the bottom surface of the hull 10 comes closer to the water surface according to the change in the draft value so that the wave power device 20 is completely exposed above the water surface along the hull 10 as shown in FIG. 7 . Therefore, there may be no cases where seawater supply is not available.

Accordingly, the wave power generation device 20 is always supplied with seawater to operate the turbine to generate electric power.

The damper 56 may mitigate the impact transmitted from any one of the hull 10 and the wave power device 20 . The damper 56 may be connected to the hull and the wave power structure in a truss structure. The damper 56 may dampen the relative motion of the accelerated adduct. The damper 56 may be provided as a hydraulic cylinder or the like, and may be operated according to a draft value of the hull 10 .

For example, when the bottom surface of the hull 10 goes down to the water level and the draft value increases, the damper 56 receives the draft value with the increased draft from the remote draft gauge and the damper 56 is expanded to expand the wave power device as shown in FIG. 6 . (20) can be floated on the water surface.

In addition, when the lower surface of the hull 10 approaches the water surface and the draft value becomes smaller, the damper 56 receives the draft value with the reduced draft from the remote draft gauge and the damper 40 expands to generate wave power as shown in FIG. 7 . The device 20 may be floated on the water surface.

In this way, the wave power generator for ships and offshore structures according to the present invention can improve the amount of power generation of the floating power plant, save fuel by using its own power used in the hull or offshore structure, and detach the wave generator Convenience can be improved at the time of towing and the site, and when the wave generator is installed at the site, there is an effect that can have the effect of reducing lateral motion like a bilge keel.

In addition to the embodiments described above, the present invention encompasses all embodiments generated by a combination of at least two or more of the above embodiments or a combination of at least one or more of the above embodiments and known techniques.

Although the present invention has been described in detail through specific examples, this is for the purpose of describing the present invention in detail, and the present invention is not limited thereto. It will be clear that the transformation or improvement is possible.

All simple modifications and variations of the present invention fall within the scope of the present invention, and the specific scope of protection of the present invention will be made clear by the appended claims.

10: hull 20: wave power device
30: drive unit 40: wave power device control unit
50: support unit 52: truss
54: hinge 56: damper

Claims (6)

hull; and
It is provided on both sides about the longitudinal direction of the hull, each comprising a wave power generator floating on the water surface,
The wave power generator,
body part,
It is formed in the body portion, the receiving portion for storing the seawater overpassing; and
Provided in the body portion, marine wave power generator comprising a driving portion for receiving seawater from the receiving portion to provide buoyancy to the body portion.
The method of claim 1,
The body part,
The wave power generator for ships, characterized in that the surface corresponding to the direction of travel of the wave is formed to be inclined to induce seawater to the receiving unit and/or the driving unit.
The method of claim 1,
Doedoe provided between the hull and the wave power device, the wave power generator for ships, characterized in that it comprises a wave power device control unit that slides the wave power device to the water surface in proportion to the changing draft value of the hull.
The method of claim 1,
Provided between the hull and the wave power generator, marine wave generator comprising a support unit for supporting the wave power device.
5. The method of claim 4,
The support unit is
A truss for supporting the wave power device from the offshore structure and
Wave power generator for ships, characterized in that it comprises a damper for alleviating the impact transmitted from any one of the offshore structure and the wave power device.
A wave power generator for offshore structures, characterized in that it has the wave power generator for ships according to any one of claims 1 to 5.

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