KR101178482B1 - Hybrid power generation system for floating facilities at sea - Google Patents

Abstract

The present invention relates to a floating floating marine power generation system, so that it is possible to secure the maximum power generation capacity by continuously generating clean energy generated continuously such as solar, wave power, wind power, tidal current, which can be easily obtained in the marine environment. According to a preferred embodiment of the present invention, a float floating on the sea; and a solar generator installed on the top of the float to generate electricity by using sunlight of the sun; and is installed on the side of the float A wave generator for generating electricity by using wave waves; and a wind generator installed at an upper portion of the floating body to generate electricity using wind power of the wind; and generating electricity using a tidal current flowing below the floating body. Letting algae generators; And a combined power management device electrically connected to the solar generator, the wave generator, the wind generator, and the tidal current generator, integrating the power generated by the generator to control the frequency and amplitude generated by the generator. The technical point is that.
As such, the present invention can maximize power generation capacity by continuously generating clean energy such as solar light, wave power, wind power, and tidal current in the marine environment, thereby reducing power generation costs and improving power generation efficiency. There are advantages to it.

Description

Hybrid power generation system for floating facilities at sea

The present invention relates to a marine floating combined cycle power generation system, and more particularly, to a marine floating combined cycle power generation system capable of supplying power to various offshore structures by producing environmentally friendly power using natural energy obtained in the marine environment. will be.

In general, the representative forms of power generation to generate electricity may include thermal power generation using fossil fuels and nuclear power generation using nuclear fission.

However, thermal power generation has a problem of enormous construction cost along with the problem of pollution caused by the use of energy generated by the combustion of fossil fuel. Nuclear power generation is advantageous for producing a large amount of electricity, but it requires enormous costs to invest in facilities to block radiation leakage. Is not only easy, but there is always a risk that even a minor accident can cause serious environmental damage.

In recent years, natural energy such as wind, tidal, hydro, and solar power, which can be free from pollution problems by being free from thermal power or nuclear power, is not only a clean energy without pollution, but also a permanent energy source that is not depleted. It is getting attention.

However, hydropower, a common form of power generation, does not cause pollution, but requires enormous costs for water barriers. There is a problem that can cause environmental problems.

On the other hand, since wind power and solar power are governed by the influence of weather conditions, there is a problem that power generation is impossible when there is no wind and when solar radiation is blocked.

In the form of power generation using clean energy, various types of power generation that generate electricity using the infinite amount of natural energy that can be obtained in the marine environment through the generation of power have appeared, and the range of use thereof is increasing. In fact, looking at an example of power generation using energy sources that can be obtained from the ocean, various types of power generation that generate power by using sunlight, tidal current, temperature difference, wave power, wind power, and tidal wave difference are used.

All of these types of power generation have advantages in using clean energy that is irrelevant to the pollution, but tidal power generation is not only universally applicable due to the very limited location conditions, but also costs huge construction costs and tidal flats. There is a problem that has a huge impact on the devastation and the environment of the vast area, wave power generation and seawater temperature differential generation also has a problem that is difficult to apply universally because the location conditions are quite limited.

In the marine environment, algae power generation is emerging as an alternative in terms of continuous development regardless of weather changes and the use of clean energy sources without pollution, and algae power generation is not without any constraint of forest conditions, but On the other hand, it can be widely used and has great interest in terms of actively using the kinetic energy of algae, but there is a problem in that the structure is complicated and there is a limitation on power generation capacity.

Therefore, there is an urgent need for an offshore power generation system to more efficiently use the marine clean energy source by supplementing the problems of the power generation method using the clean energy source in the marine environment.

An object of the present invention for solving the problems as described above, to maximize the power generation capacity by continuously generating clean energy, such as photovoltaic, wave power, wind power, tidal current that can be easily obtained in the marine environment continuously It is to provide a floating floating power generation system to enable the.

The marine floating composite power generation system of the present invention for achieving the above object, the floating body floating in the sea; and a solar generator which is installed on top of the floating body to generate electricity using the sunlight of the sun And a wave power generator installed at the side of the floating body to generate electricity using wave power of the wave; and a wind generator installed at the top of the floating body to generate electricity using wind power of the wind. Algae generator for generating electricity by using the algae flowing in the lower portion; And a combined power management device electrically connected to the solar generator, the wave generator, the wind generator, and the tidal current generator, integrating the power generated by the generator to control the frequency and amplitude generated by the generator. It is characterized by.

According to a preferred embodiment, the composite power management device, a power controller connected to each of the generators to control the frequency and amplitude of the power generated by the generator, and the electricity from the power controller connected to each of the power controllers And a grid connection controller connected to the filter to block reverse voltage and reverse current.

According to a preferred embodiment, the grid connection controller is connected to each of the generators, it is characterized in that a plurality is installed, or one by installing an integrated connection.

According to a preferred embodiment, the marine floating combined cycle power generation system is composed of a plurality of sectors (sector), an integrated management control station for electrically connecting the marine floating combined cycle power generation system composed of a plurality of sectors is installed, the integration The management control station is characterized in that it comprises an energy storage device for improving the power quality due to energy fluctuations of two or more systems, and a grid connection controller for blocking the reverse voltage and reverse current.

According to a preferred embodiment, the marine observatory having a flat bottom surface for tourism is formed on the upper portion of the marine floating combined cycle power generation system, and the wall surface is surrounded by a glass window at the bottom of the marine floating combined cycle power generation system to observe the seabed. Characterized in that the submarine gazebo can be formed.

According to a preferred embodiment, a plurality of pillars are formed in the lower portion of the floating body, and each of the pillars is characterized in that the net is connected to form a cage farm.

The present invention constructed and functioning as described above can maximize power generation capacity by continuously generating clean energy such as solar light, wave power, wind power, and tidal current in the marine environment, thus generating power generation costs as compared to individual power generation systems. There is an advantage to improve the power generation efficiency by reducing.

In addition, the floating floating power generation system is composed of a plurality of sectors to be structured in an island shape having a certain size, and the marine and submarine observation decks are installed on the upper and lower parts of the floating body to generate profit by using as tourism resources. There is an advantage.

In addition, the lower portion of the floating body has the advantage of installing a cage farm to enable fishing, and maximize the profit by automating the cage cage through the power continuously produced.

1 is a schematic perspective view of a marine floating combined cycle power generation system according to a preferred embodiment of the present invention.
Figure 2 is a power system diagram of the marine floating combined cycle power generation system according to a preferred embodiment of the present invention.
3 is a block diagram of a marine floating combined cycle power generation system according to a preferred embodiment of the present invention.
4 is a schematic perspective view of a marine floating combined cycle power generation system according to another preferred embodiment of the present invention.
Figure 5 is a power system diagram of the marine floating combined cycle power generation system according to another embodiment of the present invention.
6 is a block diagram of an integrated management station of the marine floating combined cycle power generation system according to an embodiment of the present invention.
7 is an enlarged schematic perspective view of an offshore floating combined cycle power generation system according to another preferred embodiment of the present invention.
8 and 9 are schematic views of a marine floating combined cycle power generation system according to another preferred embodiment of the present invention.

Hereinafter, a preferred embodiment of the present invention will be described in more detail. The features and advantages of the present invention will become more apparent from the following detailed description of the preferred embodiment.

Prior to this, terms and words used in the present specification and claims are to be interpreted in accordance with the technical idea of the present invention based on the principle that the inventor can properly define the concept of the term in order to explain his invention in the best way. It must be interpreted in terms of meaning and concept.

In addition, it will be apparent to those skilled in the art that the present invention may be practiced without specific details such as specific components in the following description. Therefore, a detailed description of the general configuration for the governor well known in the art will be omitted.

1 is a schematic perspective view of a marine floating combined cycle power generation system according to a preferred embodiment of the present invention.

Referring to Figure 1, the marine floating combined cycle power generation system 100 of the present invention is made of a power generation block of a combination of solar, wave, wind, tidal power generation. That is, the floating body 10 that can float on the sea, the solar generator 12, the wave power generator 14, the wind generator 16, the tidal current generator 18 and electrically connected to these generated in the generator It is configured to include a composite power management device 30 for controlling the power.

In this way, by using multiple power sources, even if the power of one power source is not produced according to the change in the weather environment, the other power sources can continuously generate power by performing relative power generation.

Here, the hybrid power management system integrates the power generated from each generator into a single power source and applies it as a commercial power source. The hybrid power management system shuts down the low power generation generator and charges the power when the power generation amount is higher than a certain amount. It is composed.

2 is a power system diagram of a marine floating combined cycle power generation system according to a preferred embodiment of the present invention, Figure 3 is a block diagram of a marine floating combined cycle power generation system according to a preferred embodiment of the present invention.

2 and 3, the power generated by each generator is integrated management in a hybrid power management system (hybrid power management system), the amount of power generated by solar, tidal, wind, wave power changes according to the marine environment.

In order to connect the generated power to the commercial power (Grid power bus) to be a stable power source, the composite power management device 30 for this, is connected to each generator to the frequency and amplitude of the power generated by the generator A power controller 32 for controlling, a filter 34 connected to each of the power controllers 32 to remove noise (harmonics) components of electricity from the power controllers, and a filter 34 connected to the filter 34 inversely. And a grid connection controller 36 for cutting off voltage and reverse current.

Here, the grid connection controller 36 may be installed in plural or connected to each generator, or one may be installed by integrated connection.

4 is a schematic perspective view of a marine floating combined cycle power generation system according to another preferred embodiment of the present invention, Figure 5 is a power system diagram of the marine floating combined cycle power generation system according to another preferred embodiment of the present invention.

4 and 5, the marine floating combined cycle power generation system 100 is composed of a plurality of sectors, and is integrated to electrically connect the marine floating combined cycle power generation system 100 consisting of a plurality of sectors. The management control station 300 is installed.

The complex power generation system 100 illustrated in FIG. 5 is configured in a form in which six complex power generation sectors are assembled. Thus, a plurality of complex power generation systems 100 may be combined to form one floating complex power generation complex. In addition, the floating complex power generation complex is integrated management of the power generation of each sector in one integrated management control station 300 is applied to the commercial power source.

6 is a block diagram of the integrated management station of the marine floating combined cycle power generation system according to an embodiment of the present invention.

Referring to FIG. 6, the integrated management control station 300 includes an energy storage device 320 for improving power quality due to energy variation of two or more grids, and a grid connection controller 340 for blocking reverse voltage and reverse current. It is configured to combine the power produced in each complex power generation sector with AC power source and interlock with commercial power source.

As can be seen with reference to Figure 6, when a plurality of complex power generation sector 100 is connected to the integrated management control station 300 by installing the energy storage device of the flywheel type 320, the power quality by the energy change of two or more systems It is connected to the commercial power source by improving the.

And if a reverse voltage or reverse current occurs due to an internal system problem, the grid connection controller 340 may be installed in the whole system and each individual system to cut off it, and a single system may be collected as a plurality. If installed between the energy storage and commercial power.

7 is an enlarged schematic perspective view of an offshore floating combined cycle power generation system according to another preferred embodiment of the present invention.

Referring to FIG. 7, it can be seen that the single offshore floating complex power plant shown in FIG. 4 has been extended for large capacity power generation, and if necessary, a plurality of complexes can be further combined to build a larger power system. There will be.

8 and 9 are schematic views of a marine floating combined cycle power generation system according to another preferred embodiment of the present invention.

Referring to FIG. 8, an offshore gazebo 11 having a flat bottom surface for tourism is formed at an upper portion of the offshore floating combined cycle power generation system 100, and a wall surface is surrounded by a glass window at the bottom thereof to observe the seabed. Observation deck 15 is formed, the main power plant 13 is installed in the center.

Since the present invention is a complex power generation system floating at sea, it can be used as a marine tourism resource using a gazebo, etc. To this end, the upper part of the power generation system in the form of an artificial island for accommodation and restaurants for tourists And a marina may be installed.

Referring to FIG. 9, a plurality of pillars 20 are formed at the lower portion of the floating body 10, and each of the pillars is connected to a mesh to form a cage farm 40.

In this way, the lower part of the floating body 10 is designed to install and operate the cage farm (40), the lower structure is similar to the offshore cage farm, and the buoyant frame 42 is installed outside the net form It can be configured as.

And the feed pipe 50 may be installed into the net through the lower portion of the floating body 10 so as to supply the food of the fish in the cage farm 40, if necessary to create a separate capture passage 44 The fish can be caught and the entire net is structured to narrow the net along the frame 42 to facilitate fish collection.

The cage farm 40 as described above can be operated efficiently and stably because the power supply of the system for feeding and capturing can be supplied at any time through the complex power generation system.

The foregoing has outlined rather broadly the features and technical advantages of the present invention in order that the claims that follow may be better understood. It should be appreciated by those skilled in the art that the above-described concepts and specific embodiments of the present invention can be used immediately as a basis for designing or modifying other shapes for carrying out similar objects to the present invention.

In addition, the above-described embodiment is only one embodiment according to the present invention, and various modifications and changes may be made by those skilled in the art within the scope of the technical idea of the present invention. These various modifications and changes are also within the scope of the technical idea of the present invention, and will be included in the claims of the present invention described below.

10: Float 11: Maritime Lookout
13: Power Plant 15: Submarine Observatory
12: solar generator 14: wave generator
16: wind generator 18: tidal generator
30: composite power management device 32: power controller
34: Filter 36: Grid connection controller
20: pillar 40: cage farm
42: Frame 44: Capture Passage
50: feeding pipe
100: offshore floating combined cycle power generation system 300: integrated control station
320: energy storage device 340: grid connection controller

Claims (6)

A float floating on the sea, a solar generator installed on top of the float to generate electricity using sunlight from the sun, and installed on the side of the float to generate electricity using wave power A marine floating composite including a wave generator, a wind generator installed on the top of the float to generate electricity using wind power of the wind, and a tidal current generator to generate electricity by using algae flowing under the float. In the power generation system,
It is electrically connected to the solar generator, the wave generator, the wind generator, and the tidal current generator, integrating the power generated by the generator to control the frequency and amplitude generated by the generator, is connected to each generator A power controller for controlling the frequency and amplitude of the power generated by the generator, a filter connected to each of the power controllers to remove noise components of the electricity from the power controller, and a reverse voltage and reverse current connected to the filter. It consists of a grid connection controller for blocking, including a combined power management device for integrating the power generated from each generator into a single power source and applying it as a commercial power source,
The marine floating combined cycle power generation system is composed of a plurality of sectors (sector), electrically coupled to the marine floating combined cycle power generation system consisting of a plurality of sectors, and the energy storage to improve the power quality due to energy fluctuations of two or more systems And a grid connection controller installed between the energy storage device and the commercial power source to block reverse voltage and reverse current, and integrated management control for integrated management of the generated power of each sector to be applied to the commercial power source. Controlled by cattle
Marine floating composite power generation system characterized in that. delete The method of claim 1,
The grid connection controller is connected to each of the generators are installed in plurality, or integrated floating connection system, characterized in that one is installed. delete The method of claim 1,
The marine observatory having a flat bottom surface for tourism is formed on the upper part of the marine floating combined cycle power generation system, and the bottom of the marine floating combined cycle power generation system is formed with a seabed observatory where the wall is surrounded by a glass window. Offshore floating composite power generation system, characterized in that. The method of claim 1,
A plurality of pillars are formed below the float,
Each of the pillars is connected to the net is a floating offshore combined cycle power generation system, characterized in that consisting of a cage farm.

Images