KR20150117108A - Tidal current electrical generating device and method - Google Patents

Abstract

The present invention relates to a tidal current electrical generating device capable of moving a ship capable of receiving electric power through a generator by a rotary water turbine in accordance to an occurrence of a tidal current by conveniently inserting the rotary water turbine onto the floor of the ship after moving the ship to an area such as a river or the sea or the like, where a tidal current occurs. The present invention discloses the tidal current electrical generating device comprising: a water turbine unit installed to be capable of being inserted onto the floor of the ship to generate kinetic energy by the tidal current; and an operation controlling means connected to the water turbine unit to have the generator to generate electric energy in accordance to the kinetic energy of the water turbine unit, wherein the water turbine unit continuously transmits kinetic energy by the tidal current to the generator.

Description

Technical Field [0001] The present invention relates to a tidal current generating device and a tidal current generating device,

More particularly, the present invention relates to a tidal-current generating device for a ship capable of moving a ship, and more particularly, to a tidal-current generating area in a river or sea, The present invention relates to a tidal-current generator capable of receiving a power and capable of detachably attaching a tidal-power generation device due to movement and anchoring of a ship, and a tidal-current generating method using the same.

In general, much research and efforts are being made to develop a device that can use clean alternative energy that does not pollute the environment.

In particular, clean alternative energy includes solar energy, wind energy, algae energy, tidal energy, geothermal energy, and biochemical energy.

Among the above clean alternative energy, tidal current energy has a lot of places where rapid currents are generated in a great number of places around the world and there is a high-speed bird area of 10 knots in the southern coast of Korea, so that it is widely used for driving a large- .

Conventional tidal power generators, which have been used to drive large-capacity generators as described above, are provided in various forms.

That is, a vertical type cylindrical aberration is provided at a lower portion of the stationary structure, and a generator installed at the upper portion of the stationary structure and connected to the vertical cylindrical aberration.

However, since the vertical cylindrical aberration is immersed in the water, the algae power generator having the vertical cylindrical aberration configured as described above is difficult to obtain the algae energy at a designated place when the phenomenon of the algae is weak.

In addition, a plurality of horizontal aberrations are installed in a plurality of columns or a plurality of stages in a stationary structure according to positional characteristics such as a difference in flow velocity, depth, algae width and tidal range in an area where algae are generated, However, there is also a problem in that the generation amount can not be reduced or the power generation amount can not be kept constant because the variation in the water level due to the difference in the tidal range does not greatly affect the rotational force generated by the aberration.

Therefore, ship type tidal power generators have been proposed recently.

These vessels are equipped with an automatic position control system using a swinging propulsion device and use them to stand the working position while enduring the changes in environmental loads such as wave, wind, and tidal force. The revolving type propulsion system is installed at the lower part of the hull so as to be able to rotate, and generates propulsive force in the forward, backward, left or right direction to keep the position of the hull constant.

However, conventionally, in order to maintain the position of the ship constantly, the propulsion system must be continuously operated. Therefore, energy is consumed for this purpose, and unnecessary energy consumed in this way can be reduced, the position of the hull can be stably maintained, Attempts have been made to recover energy using a changing environmental load.

In addition, most of the power generation devices such as the revolving type propulsion device installed on the ship are installed in the fixed structure and are immersed in the water. Therefore, there is a strong resistance to the movement of the ship due to the movement of the ship, And it is necessary to re-install the device in the water. Therefore, various troubles have arisen.

KR Patent Publication No. 10-2012-0008886 (Feb. 02, 2012)

Accordingly, it is an object of the present invention to provide a trolley-moving algae generator capable of easily generating an algae power generator on a ship after a ship is moved to a tidal region, thereby generating power through the generator by means of algae energy.

Another object of the present invention is to provide a tidal power generation apparatus by moving a ship according to location characteristics such as a flow velocity, a depth of a tidal zone, .

Another object of the present invention is to provide a trolley-moving algae generator capable of detachably attaching an algae power generation device according to ship movement and anchoring to recover the algae power generation device at the time of ship movement, thereby reducing resistance due to vessel movement .

It is another object of the present invention to provide a tidal power generation apparatus using a river or sea current, which is simple in structure and easy to install.

It is still another object of the present invention to provide a tidal power generator capable of controlling the rotational speed of the tidal power generator in accordance with the difference between the flow rate of the tidal current and the tidal range.

It is still another object of the present invention to provide a trolley-moving algae generator capable of continuously supplying algae energy with electric power by installing algae generators in a plurality of vessels.

It is still another object of the present invention to provide a tidal power generation device that is quick and easy to replace and move, thereby providing a tidal power generation device that is very easy to maintain.

In addition, it is possible to easily install a tidal power generator on a ship after moving the ship to a region where the tidal current is generated in the river or sea, to receive power from the generator by the tidal energy, And to provide a method of moving a ship capable of moving the ship.

In order to achieve the above-mentioned object, the present invention provides an aberration sensor, comprising: an aberration part provided on a bottom of a ship and rotated by an algae; And a generator connected to the aberration portion to generate electric power by rotation of the aberration portion, wherein the aberration portion further includes an operation control means for continuously transmitting the rotational force of the alga to the generator, Discloses a tidal generation device.

Further, in order to achieve the above-mentioned object, the aberration portion of the present invention is characterized in that the aberration portion is moved to a region where a river or a sea current is generated, and then the aberration portion is inserted into the bottom of the vessel, And the generator can continuously generate electric power. Thus, it is possible to provide a tidal-movement alga generator.

Further, in order to achieve the above-mentioned object, the present invention can be arranged such that the aberration portion is inserted between the bottom of the ship and the bottom surface of the hull.

In order to achieve the above-mentioned object, the present invention is characterized in that the ship is installed such that the bottom of the ship and the bottom surface of the ship are spaced apart from each other by a predetermined distance, And the aberration portion is inserted through the main body of the water film.

In order to achieve the above-mentioned object, the present invention is characterized in that, in order to achieve the above-mentioned object, the diameter of the lower through hole is smaller than the upper end through hole of the water film circular tube, and the aberration part 100 inserted into the water film circular tube The aberration part is inserted into the water tank circular cylinder by a crane in the algae generation area and is lifted by a crane when the algae generation area is released and is detachably attached to the water tank main body so as to be detachable from the main tank .

In order to achieve the above-mentioned object, the present invention also provides an aberration correcting apparatus comprising: Aberration rotation axis connecting the rotation aberration axis; A pair of bevel gears installed vertically / horizontally crossing each other at an upper end of the aberration rotation axis; And an operation shaft coupled to one side of the bevel gear to transmit rotational force of the shaft to the generator.

Further, in order to achieve the above-mentioned object, the present invention is characterized in that the operation control means of the aberration portion further comprises a rotation transmission means installed to be capable of engaging with the operation shaft and controlling the rotational force of the rotation aberration, can do.

In order to achieve the above-mentioned object, the present invention is also directed to a transmission device, wherein the rotational transmission means includes a box-shaped gear box installed inside the transmission gears for variable speed drive; And a shift lever installed on the gear box for operating a user for gear shifting.

In order to achieve the above-mentioned object, the present invention is characterized in that the rotational speed change means includes neutral (N) in a stop mode, first gear (D1) in a low speed mode and second And a stepped gear (D2).

In order to achieve the above-mentioned object, the present invention provides an aberration measuring apparatus, comprising: an upper flange having an aberration portion fixed to a bottom surface of a hull at an upper side thereof and having an aberration rotary shaft through which a rotational aberration axis is connected; A lower finishing plate which is tightly closed to the bottom of the ship from the lower side and through which the aberration rotary shaft connecting the rotary aberration is inserted; And a reinforcing rib for supporting and supporting the gap between the upper flange and the lower finishing plate.

Further, in order to achieve the above-mentioned object, the present invention is further characterized in that the lower finishing plate of the aberration portion is further provided with a water-tight rubber plate which is closely fixed to the lower surface thereof and prevents water from leaking between the lower finishing plate and the bottom of the ship .

In order to achieve the above-mentioned object, the present invention is characterized in that the upper flange is formed in a ring shape on one side of the upper surface, and includes a crane connecting ring for lifting the aberration portion from the bottom surface of the hull; And a hole for passing through the upper surface of the upper flange and through which the anchor bolt fixedly installed on the bottom surface of the hull passes.

According to another aspect of the present invention, there is provided a method for controlling a ship, Anchoring the vessel in the algae generating area; Inserting an aberration portion having a rotational aberration rotated by a bird on the bottom of the vessel; Rotating aberration of the aberration part by an algae; And generating electric power in a generator driven by the rotational force of the rotational aberration.

According to another aspect of the present invention, in order to achieve the above object, the step of inserting the aberration portion is provided such that the aberration portion can be mounted between the bottom of the ship and the bottom of the hull by the crane, And the aberration portion is detachably attached to the bottom of the hull by lifting the bottom of the hull when the hull is separated from the bottom of the hull by the crane.

In the present invention, after a ship is moved to a bird-generating area, a tidal power generator can be installed on the ship to easily generate power through the generator by the tidal energy.

Further, according to the present invention, the ship can be moved according to the location characteristics such as the flow velocity, the depth of water, the bird width, and the tidal range of the area where the algae are generated, so that the algae power generator can be installed to receive the generated energy according to the algae energy.

In addition, the present invention provides an algae power generation device according to a ship moving and anchoring so that the algae power generation device can be detachably installed, thereby recovering the algae power generation device immediately when the ship is moved, thereby reducing resistance due to ship movement.

Further, the present invention can provide a tidal power generation apparatus using a river or sea current, which is simple in structure and easy to install.

In addition, the present invention can control the rotational speed of the tidal power generator according to the difference between the flow rate of the tidal current and the tidal range.

In addition, the present invention has an effect that a tidal power generation device is installed in a plurality of vessels to continuously receive algae energy by electric power.

Further, the present invention provides a bird-power generation device that is quick and easy to replace and move, which is very easy to maintain.

In addition, the present invention can achieve efficient algae power generation by means of algae generation method free from rapid power supply by algae, and rapid replacement and movement.

In addition, since the marine algae can be easily moved to the sea area in a maritime area, it is possible to generate electricity anytime and anywhere, so that the electricity can be produced at a low cost and the algae generator can be easily provided according to the change of the environment.

FIGS. 1 to 11 illustrate an embodiment of a tidal-laden tidal-current generator according to the present invention,
FIG. 1 is an exemplary view showing a ship in which a ship-moving algae generating apparatus according to the present invention is installed. FIG.
FIG. 2 is a plan view showing a ship equipped with a ship-moving algae generator according to the present invention, FIG.
The present invention relates to a tidal-current alga generator,
FIG. 4 is an overall perspective view showing an aberration part according to the present invention,
Fig. 5 is an exploded perspective view of Fig. 4,
Fig. 6 is a front view of Fig. 4,
Fig. 7 is a plan view of Fig. 4,
Fig. 8 is a bottom view of Fig. 4,
FIG. 9 is a view showing the state of use of the auricula according to the present invention,
FIG. 9A is a state before installation of an aberration part according to the tide-moving tide generating device according to the present invention,
FIG. 9B is a view showing a process of installing an aberration part according to the present invention,
FIG. 9c is a state in which the ship moving tidal power generation apparatus according to the invention is installed.

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

It will be understood by those of ordinary skill in the art that the present invention may be embodied in many different forms and should not be construed as being limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, .

1 to 10 illustrate an embodiment of a tidal-laden algae generator according to the present invention.

Referring to FIGS. 1 to 4, the present invention provides a tidal-current generator capable of moving a ship, comprising: an aberration part 100 rotating according to a tidal current; And a generator (200) connected to the aberration part (100) and generating electric power by rotational force according to the algae.

The aberration part 100 may further include operation control means for continuously transmitting rotational force corresponding to the alga to the generator 200.

The aberration part 100 is installed on the bottom of the ship 10 so as to be able to penetrate the bottom of the ship 10 and transmits rotational force corresponding to the algae to the generator 200. After the ship is moved to a region where a river or sea is generated, 10 so as to continuously supply the algae energy obtained by the rotation of the aberration along the algae to the generator 200 to produce electric power by rotation .

It is preferable that the aberration part 100 is installed to penetrate between the bottom 10a of the ship 10 and the bottom 11a of the ship 11. The length of the aberration part 100 may vary from the bottom 10a of the ship 10 to the bottom 11a of the ship 11 depending on the height of the ship bottom and the bottom surface of the ship.

The bottom 10a of the ship 10 and the bottom 11a of the ship 11 are spaced apart from each other by a predetermined distance and the distance between the bottom 10a of the ship 10 and the bottom 11a of the ship 11, And a watertight cylindrical body 12 having an inner perforated portion formed therebetween is connected to the gap, and the aberration portion 100 is inserted through the watertight cylindrical body 12.

The water film cylinder 12 has a lower through hole 12b formed to have a smaller diameter than the penetrating upper end through hole 12a of the water tank main body 12, Can be prevented from falling under the ship and the water can be prevented from penetrating into the inside of the ship with the finished side wall.

Also, a plurality of anchor bolts 13 may be fixed to the bottom surface 11a of the hull 11. This is because the upper end of the aberration part 100 inserted into the bottom 10A of the ship 10 is fastened by the anchor bolts 13 and the fixing bolts B1 so that the aberrations (100) can be stably fixed.

In other words, the anchor bolt 13 is guided by an anchor bolt 13 passing through the hole 106 of the aberration part 100 so that the aberration part 100 descending by the crane can be vertically lowered And it is possible to prevent the aberration part 100 from tilting to one side as the case may be.

3 to 8, the operation control means of the aberration section 100 includes a rotational aberration 110 that rotates according to the tide; Aberration rotation axis 120 connecting the rotation aberration 110 with an axis; A pair of bevel gears 130 and 130A installed vertically / horizontally crossing each other at the upper end of the aberration rotation shaft 120; And an operation shaft 140 coupled to one side of the bevel gear 130A to transmit rotational force of the shaft to the generator 200. [

In addition, the rotational aberration 110 is formed to have a rotational vane 111 that rotates according to the intensity of the alga, and at least two or more of the rotational vanes 111 are preferably formed.

Here, the rotational aberration 110 may be formed in various forms (fan or propeller), and the size thereof may vary depending on the design.

The aberration rotation axis 120 is a center axis for rotating the rotation aberration 110. The upper and lower ends of the aberration rotation axis 120 are coupled to a shaft bearing 121 and rotated axially.

The pair of bevel gears 130 and 130A is a bevel gear type that is mutually cross-coupled with a vertical direction and transmits rotation, and is not necessarily limited to this form.

The operation shaft 140 is a shaft for transmitting the rotational force of the rotational aberration 110 to the generator 200 and can be coupled to the drive shaft 201 of the generator 200 by a joint gear 141 .

The operation control means of the aberration unit 100 may further include a rotational speed change unit that is coupled to the operation shaft 140 and controls the rotational force of the rotational aberration 110.

The rotary transmission includes a box-shaped gear box 150 installed inside the transmission gears for variable-speed drive; And a shift lever 160 installed in the gear box 150 and operated by a user for gear shifting.

Preferably, the rotary transmission means may be provided with a low-speed first gear D1 and a high-speed second gear D2 starting from a neutral neutral N operated by the shift lever 160 .

Here, the gear box is a general transmission gear structure, and a detailed description thereof will be omitted.

The aberration part 100 is fixed to the bottom surface 11a of the hull 11 at the upper side and has an upper flange 101 (see FIG. 1) through which the aberration rotary shaft 120, The aberration part 100 is tightly closed to the bottom 10a of the vessel 10 from the lower side and is connected to the lower finishing plate 100 through which the aberration rotation axis 120 connecting the rotation aberration 110 is inserted 102 are formed.

The upper flange 101 and the lower finishing plate 102 are formed between mutually spaced portions to reinforce the upper flange 101 and the lower finishing plate 102 through which the aberration rotation axis 120 passes, The ribs 103 can be further formed.

Here, the reinforcing ribs 103 are in the form of at least two metal plates, and the upper and lower ends thereof may be welded to the upper flange 101 and the lower finishing plate 102, respectively.

The lower finishing plate 102 may further comprise a water-tight rubber plate 104 which is tightly fixed to the lower surface of the lower finishing plate 102 to prevent water from leaking between the lower finishing plate 102 and the bottom 10a of the ship 10 have.

 The upper flange 101 is formed in a ring shape on one side of the upper surface so that a crane connecting ring 105 for lifting the aberration part 100 from the bottom surface 11a of the hull 11 is provided, 101 may be further formed with a hole 106 through which the anchor bolt 13 fixedly installed on the bottom surface 11a of the hull 11 passes.

The aberration part 100 is separated from the generator 200 by the crane coupling ring 105 and then the aberration part 100 is assembled again at a place where the other generator 200 is installed.

The power generator 200 generates power by receiving the rotational aberration 110 of the aberration part 100 by the rotational force of the algae and is provided with a joint gear 141) and the drive shaft (201).

Meanwhile, the present invention can provide a method of generating algae using a tidal-mobile tidal-power generator.

The method for generating algae using the ship-moving algae generator according to the present invention includes the steps of: moving a ship 10 to a bird-generation area; Mooring the vessel (10) in a bird-generation area; Inserting an aberration part (100) having a rotational aberration (110) rotating by a bird on a bottom (10a) of the ship (10); A step in which the rotational aberration 110 of the aberration part 100 is rotated and driven by the algae; And generating electric power in the generator (200) driven by the rotational force of the rotational aberration (110).

The step of inserting the aberration part 100 may be detachably installed between the bottom 10a of the ship and the bottom 11a of the ship 11. [

Hereinafter, the operation and effect of the tidal-current generator capable of moving the ship according to the present invention will be described.

FIG. 9 is an explanatory view showing installation of an aberration part according to the present invention. FIG. 9a is a state before installation of an aberration part according to the present invention, FIG. 9c is a state in which the ship-movable tidal power generation apparatus according to the invention is installed; FIG.

In the embodiment of the present invention, the vessel is preferably provided as a vessel 10 provided with a watertight cylindrical body 12 between the bottom 10a of the vessel 10 and the bottom 11a of the vessel 11, The generator (200) can be provided in advance on the bottom surface (11a).

First, the ship 10 is moved according to the positional characteristics such as the flow velocity, the depth of the water, the width of the bird, and the difference in the tidal range of the area where the algae are generated.

Next, a wire is hooked on the crane connecting ring 105 of the aberration part 100 by using a device such as a crane to penetrate between the bottom surface 11a of the hull 11 and the bottom 10a of the ship 10 The insertion of the aberration part 100 according to the present invention into the upper part of the water film cylinder 12 begins.

A plurality of anchor bolts 13 provided on the bottom surface 11a of the hull 11 are passed through the aberration part 100 corresponding to the bores 106 formed in the upper flange 101 of the aberration part 100, Can be pushed into the inside of the water film cylinder (12) and inserted.

The anchor bolt 13 is then fixed with a fixing bolt B1 to fix the upper flange 101 of the aberration part 100 on the bottom surface 11a of the hull 11 so as not to move.

This completes the installation while the rotational aberration 110 of the aberration part 100 connected to the generator 200 is exposed through the bottom 10a of the ship 10.

Next, the rotation aberration 110 installed on the lower part of the aberration section 100 starts to rotate as the tide flows.

A pair of bevel gears 130 and 130A provided on the aberration part 100 by rotation of the aberration rotation axis 120 are rotated by the aberration rotation axis 120 axially coupled to the rotation aberration 110, .

The driving shaft 140 coupled to the bevel gear 130A is driven and the driving shaft 201 of the generator 200 engaged with the operating shaft 140 by the joint gear 141 is rotated, The power can be generated by the rotational force in the power unit 200.

Meanwhile, the aberration part 100 may temporarily stop the generator 200 by gear shifting of the rotational transmission means having the gear box and the shift lever installed on the upper part, or may control the rotational speed of the rotational aberration according to the flow.

That is, when the rotational aberration 110 rapidly rotates by the flow of the algae, the rotational force of the gear box is controlled to the first gear (D1), which is the low speed mode, and the rotation of the rotational aberration If it is slow, the rotational force can be controlled by the second speed gear (D2) which is the high speed mode of the shift lever.

When the operation of the generator 200 is temporarily stopped or the aberration part 100 is moved to a position where the other generator 200 of the ship is located, the shift lever 160 of the aberration part 100 is set to neutral (N).

Here, in the neutral (N) state of the shift lever, the aberration part 100 can be directly moved into the crane through the crane coupling ring 105 of the aberration part 100. At this time, the joint gear 141 of the operating shaft 140 coupled with the driving shaft 201 of the generator 200 is directly disassembled and can be separated.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be taken by way of limitation, It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the present invention as defined by the appended claims and their equivalents.

10: Ship
11: Hull
100: aberration portion
110: Rotational aberration
120: aberration axis
130, 130A: Bevel gear
140: Operation axis
150: Gear box
160: Shift lever
200: generator

Claims (14)

An aberration part 100 installed on the bottom of the vessel 10 and rotated by algae;
And a generator (200) connected to the aberration part (100) and generating electric power by rotation of the aberration part,
The aberration part 100
Further comprising operation control means for continuously transmitting a rotational force by the alga to the generator (200)
Vessel transferable algae generator.
The method according to claim 1,
The ship 10 is installed such that the bottom 10a of the ship and the bottom 11a of the ship 11 are spaced apart from each other by a predetermined distance,
A watertight cylindrical body 12 through which the inside is passed is connected between the bottom 10a of the ship 10 and the bottom 11a of the hull 11,
And the aberration part 100 is coupled to the water film main body 12 so as to penetrate the bottom of the ship.
Vessel transferable algae generator.
3. The method of claim 2,
The diameter of the lower through hole 12b is smaller than the diameter of the upper end through hole 12a of the water main cylinder 12 so that the aberration part 100 inserted into the water main cylinder 12 falls into the vessel , ≪ / RTI >
The aberration part 100 is inserted into the water tank circular cylinder 12 by a crane in a bird-generation area, and is lifted by a crane when the bird-bird generating area is released and is detachably attached to the water- To
Vessel transferable algae generator.
The method according to claim 1,
The aberration part 100
After the vessel 10 is moved to a region where a river or a sea current is generated, the aberration portion 100 is inserted into the bottom 10a of the vessel 10 and is rotated by the rotational force of the rotational aberration 110 And the generator 200 is driven to generate continuous power.
Vessel transferable algae generator.
5. The method of claim 4,
The aberration part 100
Is installed to be inserted between the bottom (10a) of the ship (10) and the bottom surface (11a) of the ship (11)
Vessel transferable algae generator.
The method according to claim 1,
The operation control means of the aberration section 100
A rotational aberration 110 rotating in accordance with the tide;
Aberration rotation axis 120 connecting the rotation aberration 110 with an axis;
A pair of bevel gears 130 and 130A installed vertically / horizontally crossing each other at the upper end of the aberration rotation shaft 120;
And an operation shaft 140 coupled to one side of the bevel gear 130 (130A) and transmitting rotational force to the generator 200
Vessel transferable algae generator.
The method according to claim 6,
The operation control means of the aberration section 100
And a rotational speed change unit that is installed to be operable to be coupled to the operation shaft and controls the rotation of the rotational aberration.
Vessel transferable algae generator.
8. The method of claim 7,
The rotary transmission includes a box-shaped gear box 150 installed inside the transmission gears for variable-speed drive;
And a shift lever (160) installed in the gear box (150) for operating a user for gear shifting.
Vessel transferable algae generator.
9. The method of claim 8,
The rotational speed changing means is configured to switch between the neutral state N in the stop mode, the first gear D1 in the low speed mode and the second gear D2 in the high speed mode in the gear box 150 operated by the shift lever 160 Characterized in that
Vessel transferable algae generator.
The method according to claim 1,
The aberration part 100
An upper flange 101 closely fixed to a bottom surface 11a of the hull 11 at an upper side thereof and having an aberration rotary shaft 120 through which the rotary aberration 110 is axially connected;
A lower finishing plate 102 which is tightly closed to the bottom 10a of the ship 10 from the lower side and through which the aberration rotation axis 120 connecting the rotation aberration 110 is inserted;
And a reinforcing rib 103 for supporting and supporting the gap between the upper flange 101 and the lower finishing plate 102
Vessel transferable algae generator.
11. The method of claim 10,
The lower finishing plate 102 of the aberration unit 100 is fixed to the lower surface of the water finishing plate 102 to prevent water from leaking between the lower finishing plate 102 and the bottom 10a of the ship 10, Is further provided.
Vessel transferable algae generator.
11. The method of claim 10,
The upper flange 101 is formed in a ring shape on one side of the upper surface and includes a crane coupling ring 105 for lifting the aberration part 100 from the bottom surface 11a of the hull 11;
And a hole 106 through which the anchor bolt 13 fixedly installed on the bottom surface 11a of the hull 11 passes through a plurality of upper surfaces of the upper flange 101,
Vessel transferable algae generator.
Moving the ship (10) to the algae occurrence area;
Mooring the vessel (10) in a bird-generation area;
Inserting an aberration part (100) having a rotational aberration (110) rotating by a bird on a bottom (10a) of the ship (10);
Rotating the aberration (110) of the aberration part (100) by the algae;
And generating power in the generator (200) driven by the rotational force of the rotation aberration (110)
A Method of Algae Generation Using Vessel Moveable Tidal Power Generator.
14. The method of claim 13,
The step of inserting the aberration part 100
The aberration part 100 is installed so as to be mountable between the bottom 10a of the ship 10 and the bottom 11a of the ship 11 by a crane in a bird-
The aberration part 100 is detachably mounted by a crane so that the bottom 10a of the ship 10 and the bottom 11a of the ship 11 can be separated from each other while being separated from each other, Featured
A Method of Algae Generation Using Vessel Moveable Tidal Power Generator.

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