KR20120000325A - Floating combined cycle power plant using current, solar and wind - Google Patents

Abstract

The present invention relates to a floating combined cycle method using the current, solar and wind at the same time.
The depletion of fossil energy is progressing, and in particular, while it is possible to reduce pollutants such as carbon dioxide generated with the depletion of fossil fuels, the development of sustainable energy resources becomes a very important problem.
As an alternative resource of such energy resources, various resources such as solar, wind, hydro, nuclear power are used. In order to use these energy resources, each wind power generation, photovoltaic panels, etc. are used separately. However, in the case of large-scale hydro, wind, and solar power, it is difficult to obtain the required level of energy with one energy source, and the efficiency is low compared to the installation, and thus, it is not fully utilized as an alternative energy source.
In view of the fact that the present inventors have a marine island of Jeju, the present invention has developed a combined power generation apparatus having the best efficiency per unit facility by using abundant marine energy, wind power and solar light generated in the ocean.
The present invention has been made in consideration of the fact that the constant sea wind is always blown by the temperature difference between the sea water and the air for the above purpose, and at the same time installed a solar power panel. In addition, the algae power generation equipment using the energy of the constant current flows in parallel. Simultaneous use of these three energy resources maximized the energy efficiency obtained from the unit.

Description

Hybrid generating system using the ocean stream, solar power and wind power together}

The present invention relates to a power generator using a combination of ocean currents, wind power and solar light while floating in the ocean.

Various technologies using tidal, wave, or wind power generated in the ocean are being developed. For example, in the case of Patent No. 10-2003-38066, as shown in FIG. 1, in a power generation apparatus using natural energy provided by an marine environment as an energy source, a cylindrical vertical support column 10 having a lower end fixed to a seabed ground; A power transmission cylinder 20 installed to surround the vertical support column 10 and rotating around the vertical support column 10 and having a connection gear 25 mounted on an upper end thereof; It is rotatably installed on the upper end of the vertical support pillar 20, the horizontal wind input shaft 43, the wind gear box 47 to interlock and interlock with the wind input shaft 43, interlocking with the connecting gear 25. A multi-generator unit 40 including a helical gear box 41 and a multi-generator 45 for generating electricity with the rotational force controlled by the wind gear box 47 and the helical gear box 41; One or more helical blades 30 fixed to sub-surface portions of the power transmission cylinder 20 so that the power transmission cylinder 20 is located at its center; a propeller blade 50 installed on the wind power input shaft 43; It provides a helical-type marine combined cycle power generation apparatus with a composite generator comprising a.

In the above configuration, the helical blade is installed below the surface of the water, and the lower part is fixed to the sea bottom. This configuration is excellent in using sea wind and tidal power at the same time, but it requires considerable installation effort and cost because it has to go through separate means and device for fixing on the sea floor and installation process, so it is not efficient. . In particular, it is difficult to maintain the fixed state for a long time after the installation of the sea floor, thus remaining in the theoretical aspect.

The present invention is to provide a combined power generation apparatus that can be installed in any place without the need for a separate fixing to the sea.

The present invention is to provide a composite power generation unit having the maximum efficiency per unit installation device using all the sea breeze, sea current, sunlight generated from the sea.

The present invention has developed a combined power generation unit equipped with a wind power generator using the current of the tidal current and the solar and sea water and air and the sea wind generated between the land and the sea.

The present invention has been developed a composite power generation apparatus that allows the power generation while floating on the sea surface rather than the bottom fixing method.

Claim 1 of the present invention is a device that can use the wind, solar, tidal power at the same time to obtain the maximum energy efficiency per unit facility.

Claim 2 of the present invention is configured to obtain the maximum wind power while rotating freely at sea level.

Claim 3 of the present invention was to increase the tidal power to obtain the maximum power generation efficiency even a slight tidal power.

1 is a conceptual view of installation of a conventional power generation apparatus using a conventional current and wind power,
2 is a perspective view showing the overall configuration of the present invention;
3 is a perspective view showing another overall configuration of the present invention,
Figure 4 is an enlarged perspective view of a part of the wind power generation unit of the present invention.

The present invention relates to a floating combined cycle power plant using ocean current, solar light and wind power at the same time.

The present invention relates to a floating combined cycle power plant using ocean current, solar light and wind power that can be arbitrarily installed in a required position without being fixed to the sea bottom.

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

The overall configuration of the present invention is shown in Figure 2 housing portion (H) to protect the buoyancy and the internal control device,

Photovoltaic power generation unit (S) is inclined toward the sun on the upper surface of the housing,

Wind power generation unit (W) disposed in parallel with the solar power generation unit on the upper surface of the housing,

It consists of an tidal power generation unit (T) which is arranged to be submerged in the sea water in the lower portion of the housing.

In the present invention, the housing portion is the front portion (1) directly contacting the current is configured sharply, the rear portion is configured to the body portion (2) so as to receive less resistance of sea water, such as circular or elliptical form. The inside is hollowed out to create its own buoyancy to be floating in sea water.

Although not shown in the lower part of the housing, it is possible to fix it at a predetermined position by installing a fixing ring that can be connected to the anchor body fixed to the sea bottom.

In the present invention, a storage battery, a regulator, an optical sensor, and a central computing device are disposed inside the housing part, and the outside of the housing exerts a buoyancy function with waterproofing to prevent invasion by seawater.

The regulator inside the housing regulates the power generated by tidal power or solar power to make it possible to charge the battery. The central computing unit is installed according to the state of sunset and sunrise by the light sensor installed in the outside or the built-in program. Control the power supply and cut off operation to the light emitting part. In case of excessive charging or discharging, the battery is protected by charging or discharging to protect the battery.

In the present invention, the photovoltaic unit installs the inclined frame 10 to coincide with the solar incident angle. In the drawings of the present invention, two solar power generation units are provided, but in order to coincide with the orbit of the solar light, the solar power generation unit is preferably in the shape of a pointed cone. As another example, a flat panel photovoltaic panel may be divided into four zones. In the most preferred form, the solar panel is configured to automatically track the sun's orbital change and its position from sunrise to sunset.

In the present invention, the inclined frame is arranged in front, rear, left and right as much as possible to install the solar panels 11 so as to be vertically disposed in the sunlight is the optimal installation method.

In the solar panel installed in the present invention, two front and rear panel panels are arranged, but the panel is installed in four directions, front, rear, left and right, or a hemispherical panel can be arranged to achieve optimal solar power generation. In addition, it is also possible to install the control panel under the panel so that the power generation panel is a flat panel, and the solar light is always vertically incident by the built-in program.

In the present invention, the wind turbine is disposed with the impeller 51 at the front and the power turbine unit 52 generated by the impeller is disposed on the same axis as the impeller, the rear is provided with a separate rudder 53. In addition, a sliding device 56 is installed between the lower portion of the power generation turbine part and the installation part 55 for connection between the housing so that the entire power generation turbine part can be freely rotated in a plane. With this configuration, the impeller can be actively rotated even if the direction of the sea wind that the impeller receives is changed from time to time, and the housing is arranged vertically with the sea wind at all times even if the housing changes with the change of tidal current to maximize wind power generation efficiency. It was.

In the present invention, the tidal power generation unit is to be installed underwater in the form of a funnel via the tidal sensitive steering unit 21 in the lower portion of the housing,

The import port part 22 has a large diameter, and the water outlet 23 has a narrow configuration in the form of a rocket. Then, the power generation impeller 24 is installed on the side of the import port, and the power generation modules are installed to be condensed with the shaft of the impeller.

The tidal sensation steering unit has a function of adjusting the import port to be disposed perpendicular to the bird according to the direction of the bird. In addition, the import port was widened and narrowed toward the inside to maximize the rotational force of the impeller disposed inside.

As shown in the figure, the tidal power generation section has a wider import port and a narrower water outlet. This configuration is accelerated as tidal flow passes, allowing for a smoother tidal power generation efficiency.

H: housing, S: solar power, W: wind power, T: tidal power (T)
DESCRIPTION OF SYMBOLS 10 Inclined frame 11 Solar power panel 51 Impeller 52 Power generation turbine part 53 Rudder 55 Installation part 56 Sliding apparatus

Claims (3)

Housing part (H) to protect buoyancy and internal control device,
A photovoltaic power generation unit (S) having solar panels 11 installed in front, rear, left and right so as to be installed at the upper surface of the housing part so as to be aligned with the solar incident angle, and vertically disposed with solar light;
Wind power generation unit (W) disposed in parallel with the solar power generation unit on the upper surface of the housing,
Floating combined power generation apparatus using the current, solar and wind power at the same time consisting of a tidal power generation unit (T) disposed to be submerged in the sea water in the lower portion of the housing. The method of claim 1,
The wind power generator has an impeller 51 disposed at the front, and the power turbine unit 52 generated by the impeller is disposed on the same axis as the impeller, and a separate rudder 53 is installed at the rear. And between the lower portion of the power generation turbine and the installation portion 55 for the connection between the housing, the sliding current 56 is installed so that the entire power turbine is free to rotate in the plane at the same time to the current, solar and wind Floating combined power plant using. The method of claim 1,
The tidal power generation unit is to be installed underwater in the form of a funnel via the tidal sensitive steering unit 21 in the lower part of the housing,
The import port 22 has a large diameter, and the water outlet 23 has a narrow configuration in the form of a rocket, the power generation impeller 24 is installed on the import port side, and the power generation modules are condensed with the shaft of the impeller. Floating combined power plant using the current, solar and wind power, characterized in that the installation.

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