KR101906853B1 - Vessel with Energy Storage System - Google Patents

Abstract

The present invention relates to an ESS buoyancy body capable of producing and storing multi-purpose energy using renewable energy such as sunlight and wind power at sea, comprising: a buoyancy body which forms a concave oblique contour and provides buoyancy; a frame coupled along an upper edge of the buoyancy body; a plurality of solar panels mounted on the frame; a compartment module which divides the inside of the buoyancy body into a plurality of divided spaces; an ESS module installed in a battery compartment forming a part of the compartment module and storing electricity produced by the solar panel; and a cover which covers and seals the upper surface of the buoyancy body.

Description

ESS buoyancy structure with Vessel with Energy Storage System}

The present invention relates to an ESS buoyant body, and more particularly, to an ESS buoyant body capable of producing and storing multi-purpose energy using renewable energy such as sunlight and wind power at sea.

In general, there are thermal power generation, nuclear power generation, hydroelectric power generation, solar power generation, tidal power generation, wind power generation, and the like for generating electric power. The thermal power generation and nuclear power generation And the hydroelectric power is generated by rotating the turbine by the drop of the water stored in the dam.

However, the use of fossil fuels such as coal and petroleum as an energy source makes the thermal power generation cost relatively low, but there is a problem of exhaustion of fossil fuel and pollution of the environment. The use of a huge amount of heat generated when fission of radioactive materials is used as an energy source has a problem that the generation capacity is large compared to the thermal power generation but environmental pollution due to radioactivity is serious.

In addition, hydroelectric power is converted into rotational energy obtained by dropping the potential energy of water stored by the dam. Therefore, it is difficult to expect a constant power generation efficiency because the cost of power generation is low. In addition, .

In recent years, energy sources attracting attention as clean alternative energy include solar energy, tidal energy, geothermal energy, biochemical energy, and wind energy, among which solar energy and wind energy, which have low installation cost and excellent efficiency, There is a growing interest and development in power generation equipment.

Such a marine power generation apparatus is disclosed in Korean Patent No. 10-1093063 entitled " Floating marine combined power generation apparatus " (Registered Date: December 16, 2011), and a marine power generation apparatus according to the prior art has a buoyancy- A plurality of main propellers provided on the upper part of the fluid and the float and provided on the lower part of the float so as to be located in the water, And an anchor connected to the bottom of the float so as to moor with the sea surface and supported on the sea floor, wherein the airstream generator is provided with an auxiliary propeller An auxiliary body frame provided at a lower portion of the float for positioning the auxiliary body and a first auxiliary frame rotatably installed at the auxiliary body frame, A first auxiliary rotary shaft having a front shaft and a first auxiliary propeller provided at one end of the first auxiliary rotary shaft; a second auxiliary rotary shaft rotatably provided through the center of the first auxiliary rotary shaft; A second submerged rotating part having a second sub-propeller and a third sub-propeller provided at both ends of the rotating shaft, and a sub-generator generating electricity by rotation of the first submersible rotating part and the second underwater rotating part.

On the other hand, the conventional marine power generation apparatus is supported on the sea floor and is moored on the sea surface to perform wind power generation and ocean current generation. Therefore, there is an inconvenience that stable support can not be obtained at deep sea depths, There is a problem in that the selection of the location for marine power generation at sea is restricted.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above-mentioned problems, and it is an object of the present invention to provide a power generation system and a power generation system, The main aim of this project is to increase the basic productivity of the sea by spreading the nutrients contained in deep seawater into the surface layer automatically by supplying energy to the upwelling module.

In the ESS buoyant body according to the present invention, a buoyant body which forms a concave upper light contraction shape and provides buoyancy, a frame coupled along the upper edge of the buoyancy body, a plurality of solar panels mounted on the frame, An ESS module installed in a battery compartment forming a part of the compartment module and storing electricity produced by the solar panel; And a lid for covering and sealing the lid.

In addition, the compartment module has a compartment module divided into a plurality of concentric partition walls, and a core compartment, a battery compartment, and an auxiliary compartment are sequentially formed from the central part.

In addition, the auxiliary compartment and the battery compartment are divided into spaces by a plurality of auxiliary partitions.

In addition, an upright module coupled to an upright upright post is attached to the core compartment and a wind power generation module is mounted on the post, or installed so as to penetrate the lower part of the buoyant body to raise deep water. So that it can be mounted.

And a plurality of discharge ports communicating with the inlet port and extending to the outer side of the buoyancy body across the auxiliary compartment and the battery compartment, the outlet port extending perpendicularly to the core compartment and the bottom end extending to the outside of the buoyancy body, .

In addition, the post may include a sunlight reflecting module formed on the outer circumferential surface at a position higher than the cover and having a shape of a downward-directed light, and a vent formed between the solar light reflecting module and the post.

The ESS buoyant body according to the present invention is a circular type structure having solar photovoltaic panels and wind power generation modules installed therein for high efficiency of photovoltaic power generation and wind power generation as well as being able to be stored in the ESS module at the same time, It is possible to move and selectively develop in a wide range of sea according to the weather condition.

In addition, it is equipped with an upscale module that supplies deep sea water rich in nutrients to the surface layer by raising the deep sea water, and the upscale module is produced by solar power generation and wind power generation and supplied from the stored ESS module. have.

1 is a perspective view showing an ESS buoyant body according to the present invention.
2 is a view showing the interior of the ESS buoyant body according to the present invention.
3 is a cross-sectional view of an ESS buoyant body according to the present invention.

Hereinafter, the technical idea of the present invention will be described more specifically with reference to the accompanying drawings.

BRIEF DESCRIPTION OF THE DRAWINGS The accompanying drawings, which are included to provide a further understanding of the technical concept of the present invention, are incorporated in and constitute a part of the specification, and are not intended to limit the scope of the present invention.

In the following description of the present invention, however, the well-known functions or constructions will not be described in order to simplify the gist of the present invention.

FIG. 1 is a perspective view showing an ESS buoyant body according to the present invention, and FIG. 2 is a view showing the inside of an ESS buoyant body according to the present invention.

1 and 2, an ESS buoyant body according to the present invention includes a buoyancy body 100, a frame 200, a solar panel 300, a compartment module 400, an ESS module 500, 600).

First, the buoyancy body 100 absorbs the impact of a wave, and forms buoyant buoyancy. The buoyant body 100 is a circular type structure, which can be horizontally moved at sea level and rotated by an external force such as waves and algae, so that the buoyancy body 100 is not affected by solar power generation, wind power generation,

Next, the frame 200 is coupled along the upper edge of the buoyancy body 100, and a portion of the upper edge of the buoyancy body 100 is formed with an entrance for the crew to ride on. The frame 200 has a plurality of module layers, and a plurality of the solar panels 300 are mounted on each of the module layers.

A plurality of solar panels 300 are mounted on the frame 200 and a first module layer of the frame 200 is formed on an upper end of the buoyancy body 100, 12 pieces of 250W modules are installed so as to be inclined toward the edge direction of the wind turbine.

In addition, the second module layer of the frame 200 is located below the first module layer, and 12 250 W modules are installed in the direction of the sea surface to produce 3 KW electric power. The third module layer of the frame 200 is located on the backside of the frame 200 and 10 sets of 300 W modules are installed so as to view the center point direction of the buoyancy body 100 formed in a circular shape to produce 3 KW electric power.

The compartment module 400 divides the inside of the buoyancy body 100 into a plurality of divided spaces, and is formed by a plurality of concentric partition walls. The compartment module 400 includes a core compartment 410, a battery compartment 420 and an auxiliary compartment 430 sequentially formed from the central portion of the buoyancy body 100. The core compartment 410, the battery compartment 420 And the auxiliary compartment 430 are divided into spaces by the plurality of auxiliary partitions 401.

The core compartment 410 is located at the center of the buoyancy body 100 and is installed upright on the wind power generation module 700 to be described later. The buoyancy body 100 passes through the buoyancy body 100, ). The battery compartment 420 is formed on an outer surface of the core compartment 410 and a plurality of the ESS modules 500 are installed in the battery compartment 420. The auxiliary compartment 430 is formed on the outer surface of the battery compartment 420 And the ESS module 500 may be installed according to circumstances.

A plurality of ESS modules 500 are installed in the battery compartment 420 forming part of the compartment module 400 to store electricity generated by the solar panel 300 and supply electric power to the electric power system And supplies power to the upcoming spinning module 800 to be described later.

The lid 600 covers the upper surface of the buoyancy body 100 to seal the compartment module 400. The upper part of the lid 600 forms a space through which the occupant can move, Is designed to protect the ESS module (500) installed in the compartment module (400).

3 is a cross-sectional view of an ESS buoyant body according to the present invention.

3, a post 710 is installed upright in the core compartment 410. A wind power module 700 is mounted on the upper part of the post 710, (800) installed to pass through a lower portion of the main body (100) so as to raise deep water.

The wind power generation module 700 is vertically rotatable and comprises a plurality of vertically extending blades. The wind power generation module 700 rotates along a traveling direction in which the wind pressure acts to generate electric power, (500).

At this time, a solar light reflection module 711 is formed on the outer circumferential surface of the post 710 at a position higher than the cover 600 in the form of a collimated light beam, and the posts 710 are formed at the lower end of the solar light reflection module 711, A ventilation hole 712 communicating with the inside of the ventilation hole 712 is provided.

The sunlight reflection module 711 reflects sunlight to a plurality of the solar panels 300 mounted on the frame 200 coupled along the edge of the buoyancy body 100, The ventilation hole 712 is formed in the upper part of the compartment module 400 by the low temperature of the deep water in the course of taking in the deep seawater by the upwelling module 800. [ Cooling air is formed inside the compartment module 400 and the cooling air formed inside the compartment module 400 passes through the post 710 installed upright to the compartment module 400 through the ventilation opening 712 to the outside And is discharged.

At this time, the solar panel 300 is formed of a conventional semiconductor. When the temperature rises due to the influence of the continuous solar heat, the voltage lowers. When the temperature rises, the voltage rises and the higher the operating temperature, the lower the efficiency. The cooling air formed inside the compartment module 400 by the temperature is discharged through the ventilating hole 712 to lower the temperature of the solar panel 300 so that the efficiency of the solar panel 300 is increased It is effective.

The buoyancy module 800 includes an artificial wrestling pump 801 installed in the core compartment 410 and a vertically installed core compartment 410. The lower end of the buoyancy body 800 extends to the outside of the buoyancy body 100 And a plurality of discharge ports 820 communicating with the inlet port 810 and extending to the outside of the buoyancy body 100 across the battery compartment 420 and the auxiliary compartment 430 And four outlets 820 are formed at the same angle in four directions.

In addition, a drain pipe is installed at one end of the inlet 810 to extend to the deep sea to receive the deep ocean water, and the deep ocean water introduced from the drain pipe is discharged through a plurality of discharge ports 820, It is possible to prevent the buoyant body 1000 from tilting in one direction.

At this time, it is preferable that a net is formed in the inlet portion of the inlet 810 to prevent foreign substances from flowing into the buoyancy body 100.

As described above, the ESS buoyant body 1000 according to the present invention includes the buoyant body 100 formed to have a structure capable of mooring in the sea so as to mitigate the impact of waves, The power generated by simultaneously performing the power generation and the wind power generation is securely stored in the ESS module 500 and supplied to the power system and the power module 800 is driven using the power stored in the ESS module 500 Deep water with high nutrient concentration in the deep region can increase the nutrient concentration in the surface region and improve the biomass production.

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 invention as defined by the appended claims.

100: Buoyant body
200: frame
300: solar panel
400: compartment module
401: auxiliary barrier rib
410: Core compartment
420: battery compartment
430: auxiliary compartment
500: ESS module
600: cover
700: Wind power module
710: Post
711: Solar reflector module
712: Ventilation hole
800: Upright module
801: artificial wrestling pump
810: Inlet
820:
1000: ESS buoyancy body

Claims (6)

A buoyant body providing a buoyancy in the shape of a concave oblique contraction;
A frame coupled along the upper edge of the buoyancy body;
A plurality of solar panels mounted on the frame;
A compartment module for partitioning the inside of the buoyancy body into a plurality of divided spaces;
An ESS module installed in a battery compartment forming a part of the compartment module and storing electricity produced by the solar panel;
And a lid covering and sealing the upper surface of the buoyancy body,
Wherein the compartment module comprises a plurality of concentric partition walls, and a core compartment, a battery compartment, and an auxiliary compartment are sequentially formed from a central portion,
The core compartment is equipped with an upright module coupled to a post that is erected upright, and the wind power generation module is mounted on the post, or installed to penetrate the lower part of the buoyancy body to lift deep water Yes,
The post
And a ventilation hole formed between the solar light reflection module and the post, wherein the solar light reflection module is formed on the outer circumferential surface at a position higher than the cover and in a shape of a collimated light beam. delete The method according to claim 1,
Wherein the auxiliary compartment and the battery compartment are partitioned by a plurality of auxiliary partitions. delete The method according to claim 1,
The excellence module includes:
An inlet vertically installed in the core compartment and a lower end extending out of the buoyancy body;
And a plurality of discharge ports communicating with the inlet port and extending to the outside of the buoyancy body across the auxiliary compartment and the battery compartment. delete

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