KR20160119388A - Floating structure comprising passive tidal hydroelectrical power generator - Google Patents

Abstract

The present invention relates to a floating structure and, more specifically, relates to a floating structure comprising a passive tidal hydroelectric power generator. According to an embodiment of the present invention, the floating structure may comprise: a body floating by receiving buoy from water; a turbine installed in a portion submerged in water of the body to be rotated by the flow of the water; a power generator generating electricity with rotation of the turbine; and a direction control unit connected to the turbine to control a direction which a rotation shaft of the turbine heads for in accordance with the flow of the water.

Description

[0001] FLOATING STRUCTURE COMPRISING PASSIVE TIDAL HYDROELECTRICAL POWER GENERATOR [0002]

The present invention relates to a floating structure, and more particularly, to a floating structure including a passive hydroelectric power generator.

Offshore structures such as floating production storage offloading (FPSO) and drillship, when they reach a certain point on the sea, stay at that point and drill resources such as oil and gas. These special-purpose offshore structures perform various tasks in order to achieve the original purpose of the structure while staying on the sea for a long time. Therefore, the offshore structure requires the energy to supply the power for operation continuously, and particularly, a lot of power is used for driving the equipment and for the life of the crew.

Korean Patent Laid-Open No. 10-2011-0020118 (Published March 23, 2011)

An embodiment of the present invention aims to provide a floating structure that generates electricity by using a flow of water such as algae around a structure.

It is an object of the present invention to provide a floating structure capable of maintaining the maximum power generation efficiency even if the flow direction of water is changed.

A floating structure according to an embodiment of the present invention includes a body floating by buoyancy by water; A turbine installed in the water immersed part of the body and rotated by the flow of water; A generator for generating power using the rotation of the turbine; And a direction controller connected to the turbine to adjust a direction of a rotation axis of the turbine in accordance with a flow direction of the water.

The turbine may be installed at a lower portion of the body.

The turbine may be installed below the waterline of the side of the body.

The direction adjuster may move the turbine such that the direction of the rotation axis of the turbine coincides with the direction of the water flow on a plane perpendicular to the vertical axis.

Wherein the direction adjusting portion includes: a plate formed over a predetermined length along the vertical axis, wherein the plate is thicker from one end of the end face to the vertical axis perpendicular to the vertical axis and parallel to the rotation axis, The thickness can be reduced from the vertical axis to the other end of the cross section.

The direction adjusting portion may have a length from the other end of the end face to the vertical axis longer than a length from one end of the end face to the vertical axis.

The direction adjusting unit may be installed such that a longitudinal axis of symmetry of the cross section is parallel to the rotation axis.

The turbine may be installed at a distance from the vertical axis to the other end of the plate.

According to embodiments of the present invention, the flow of water flowing around the structure, such as algae, can be used to produce the power required for the floating structure.

According to the embodiment of the present invention, even if the flow direction of the water flowing around the floating structure changes, the power generation efficiency can be maximized.

1 is an exemplary side view of a floating structure with a power generation device according to one embodiment of the present invention.
2 is an exemplary front view of a floating structure with a power generation device according to another embodiment of the present invention.
FIGS. 3 to 5 are respectively an exemplary side view, a plan view, and a front view of a power generation apparatus according to an embodiment of the present invention.
FIGS. 6 to 8 are illustrations for explaining a process of adjusting the direction in which the direction adjuster heads the rotation axis of the turbine according to the direction of the tide according to an embodiment of the present invention.

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

1 is an exemplary side view of a floating structure 100 provided with a power generation device according to an embodiment of the present invention.

The floating structure 100 includes a power generator that generates electricity by using a flow of water around the body 110, such as algae.

The floating structure 100 remains in a fixed position and may include, but is not limited to, a drill string as shown in FIG. For example, the floating structure 100 may include not only drilling lines but also semi-submersible rigs and marine structures for drilling such as FPSO. In addition to the drilling structures according to the embodiments, As shown in FIG.

According to an embodiment of the present invention, the floating structure 100 may include a body 110, a turbine 120, a generator, and a direction controller 130.

As shown in FIG. 1, if the floating structure 100 is a drill ship, the body 110 may be a hull.

The turbine 120 is installed in a portion of the body 110 which is submerged in water and is rotated by the flow of water.

As shown in FIG. 1, the turbine 120 may be installed at a lower portion of the body 110. Since the lower part of the body 110 is always immersed in water as long as it floats in the water irrespective of the weight of the floating structure 100, the power generating device according to the embodiment of the present invention including the turbine 120 can be installed have.

However, according to another embodiment of the present invention, the turbine 120 may be installed on the side surface of the body 110.

2 is an exemplary front view of a floating structure 100 with a power generation device according to another embodiment of the present invention.

2, the power generating device including the turbine 120 may be installed not only on the lower portion of the body 110 but also on the side surface thereof. In this case, the turbine 120 is installed below the water line of the side of the body 110.

When the turbine 120 is installed on the side surface of the body 110 as shown in this embodiment, it is closer to the surface of the water than the turbine 120 installed on the lower portion of the body 110, As a result, the rotational speed of the turbine 120 installed on the side surface may be larger than that of the turbine 120 installed on the side, and the power generation efficiency of the generator 140 may be higher.

According to an embodiment, the turbine 120 may be installed on both the bottom and the sides of the body 110.

The generator 140 uses the rotation of the turbine 120 to produce power. The generator 140 may be provided on a rotating shaft of the turbine 120 to generate an induced electromotive force by rotating the permanent magnet as the turbine 120 rotates. This induced electromotive force can be supplied to the body 110 through the power cable and used for operation of the floating structure 100.

The direction adjusting unit 130 is connected to the turbine 120 and adjusts the direction of the rotation axis of the turbine 120 according to the flow direction of the water.

FIGS. 3 to 5 are respectively an exemplary side view, a plan view, and a front view of a power generation apparatus according to an embodiment of the present invention.

The direction adjusting unit 130 moves the turbine 120 such that the direction of the rotation axis R of the turbine 120 coincides with the flow direction of the water on a plane perpendicular to the vertical axis Z.

3 and 4, the direction adjusting unit 130 rotates the turbine 120 about the vertical axis Z so that the rotational axis R of the turbine 120 is parallel to the tidal current Keep it in one state.

Referring to FIG. 3, the direction adjusting unit 130 may include a plate formed over a predetermined length H along the vertical axis Z to maintain the parallel state.

The length H of the plate along the vertical axis Z is determined by the average alveolar velocity of the point where the floating structure 100 stays and the turbine 120 and the generator 140 moving in conjunction with the direction adjusting unit 130. [ The lift generated on the plate by interaction with the algae can be predetermined to such an extent that it can be connected to the plate to sufficiently rotate the rotating parts.

Further, according to the embodiment of the present invention, the plate is increased in thickness from one end of the section to the vertical axis Z on a section perpendicular to the vertical axis Z and parallel to the rotation axis R, The thickness may be reduced to the other end of the cross section.

4, the plate included in the direction adjusting unit 130 has a cross section (hatched area) cut by a plane perpendicular to the vertical axis Z and parallel to the rotation axis R, The thickness t of the plate may be configured to increase from one end A of the plate to the vertical axis Z and the thickness t of the plate may be decreased from the perpendicular axis Z to the other end B of the cross section.

4, the plate of the direction adjusting unit 130 has a length L ₁ from the other end B of the cross section to the vertical axis Z from a _first end A to a vertical axis Z (L < ₂ >).

That is, when the plate of the direction adjusting unit 130 minimizes the fluid resistance when interacting with the algae, and when the longitudinal axis of symmetry of the algae and the plate is not parallel to each other and a predetermined angle is formed, Lt; / RTI >

3 and 4, the plate of the direction adjusting unit 130 may be installed such that the longitudinal axis of symmetry of the plate is parallel to the axis of rotation R of the turbine 120. As shown in FIG. As a result, when the direction adjusting unit 130 is in a balanced state, the rotation axis R of the turbine 120 can be maintained parallel to the tidal current.

According to an embodiment of the present invention, the turbine 120 may be installed apart from the vertical axis Z in the direction of the other end B of the plate.

4, the turbine 120 is installed such that the rotational axis R thereof is parallel to the longitudinal axis of symmetry of the direction adjusting unit 130, and the turbine 120 is disposed on the other side B of the plate from the vertical axis Z. [ Can be installed.

6 to 8 are illustrations for explaining a process in which the direction adjusting unit 130 adjusts the direction of the rotation axis R of the turbine 120 according to the direction of the tide according to an embodiment of the present invention .

6, when the longitudinal direction symmetry axis of the direction adjusting unit 130 is parallel to the tide, the direction adjusting unit 130 does not rotate and maintains an equilibrium state. As a result, the turbine 120 connected to the direction adjusting unit 130 can obtain the maximum rotation speed by rotating the turbine 120 facing the algae.

7 and 8, when the longitudinal direction symmetry axis of the direction adjusting unit 130 forms a predetermined angle without being parallel to the tide, lift is generated on the plate of the direction adjusting unit 130 And the direction adjusting unit 130 receives the restoring moment and thus rotates around the vertical axis Z due to the restoring force.

The rotation of the direction adjusting unit 130 rotates until the lift becomes 0 and the restoring force disappears. Finally, the direction adjusting unit 130 returns to the equilibrium state shown in FIG.

In this way, the direction adjusting unit 130 can adjust the direction of the rotation axis of the turbine 120 according to the direction of the algae. As a result, even if the direction of the algae changes, the rotation speed of the turbine 120, The power generation efficiency of the power generator 140 can be maximized at any time.

While the present invention has been described with reference to the exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. Those skilled in the art will appreciate that various modifications may be made to the embodiments described above. The scope of the present invention is defined only by the interpretation of the appended claims.

100: Floating structure
110: Body
120: Turbine
130:
140: generator
R:
Z: vertical axis

Claims (5)

Floating body;
A turbine installed in the water immersed part of the body and rotated by the flow of water;
A generator for generating power using the rotation of the turbine; And
A direction controller connected to the turbine to adjust a direction of a rotation axis of the turbine according to a flow direction of the water;
≪ / RTI > The method according to claim 1,
The direction adjusting unit includes:
Wherein the turbine moves in such a manner that the direction of the axis of rotation of the turbine coincides with the direction of flow of the water on a plane perpendicular to the vertical axis. 3. The method of claim 2,
The direction adjusting unit includes:
Wherein the plate has a thickness that increases from one end of the section to the vertical axis and is perpendicular to the vertical axis and parallel to the rotation axis, The thickness of which is reduced to the other end of the floating structure. The method of claim 3,
The direction adjusting unit includes:
Wherein the length from the other end of the cross section to the vertical axis is longer than the length from one end of the cross section to the vertical axis. 5. The method of claim 4,
The direction adjusting unit includes:
And a longitudinal axis of symmetry of the cross section is parallel to the rotation axis.

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