KR20150001504U - Barge structure of a barge mounted power generation plant - Google Patents

Abstract

A barge line of a floating power generation plant is disclosed. According to an embodiment of the present invention, a barge of a floating power generation plant disclosed in the present invention includes a barge main body floating on the sea; A foundation installed at an upper portion of the barge main body, in which a power generating unit is installed; And a strength increasing portion formed on a side surface of the barge main body about the waterline surface of the seawater so as to increase the bending strength of the center portion of the barge main body.

Description

{BARGE STRUCTURE OF A BARGE MOUNTED POWER GENERATION PLANT}

The present invention relates to a floating power generation plant, and more particularly, to a barge line of a floating power generation plant capable of stable power generation work by changing the cross-sectional shape of a central portion of the barge main body.

Typical power generation methods include hydroelectric power plants, thermal power plants, and nuclear power plants. These power generation methods require large-scale power generation facilities and sites, and in particular, Environmental problems.

On the other hand, the power reserve ratio is a figure that shows how much more electricity can be supplied than electricity currently used. If the number is high, the electricity supply can be used with sufficient electricity, but if it is low, Lt; / RTI >

Since the power can not be stored, if the value is too high, it is necessary to maintain an appropriate level because it causes an economic loss such as wasting energy and burdening the electric charge, and it is proper to maintain the electric power retention rate of about 15% .

Nevertheless, it is predicted that electricity demand will surge and power reserve ratio can not be maintained at an appropriate level, or electricity supply and demand may not be smooth, and measures to actively cope with such power crisis situation are serious have.

As part of this plan, a new concept plant for manufacturing a combined-cycle thermal power plant on a barge is to produce finished products of a combined thermal power plant at the shipyard and install it on a barge, A barge-mounted power plant (BMPP) is attracting attention as an alternative.

As such, the BMPP is shorter than the combined cycle power plant, which requires an average construction time of more than 4 years on the land, and the pure production period is about 1 year and 3 months (excluding purchasing, designing and transportation period) In addition, land acquisition and transmission line construction is not required separately, which not only makes it possible to reduce costs, but also has the advantage that it can be easily expanded.

The capacity of BMPP reaches 200MW, which is equivalent to 20% of nuclear power generation (1,000MW capacity per unit), and it can be resiliently operated according to electric power demand.

Currently, BMPP, which is installed in Venezuela, has the largest capacity of 340MW. However, it can improve the quality and delivery time compared to the construction of overseas offshore power plant, which is difficult to supply construction equipment and high-level construction manpower. After the plant is finished, it will be transported to the site of the power plant and installed and run on site.

In addition, since the plant is being manufactured, it can be flexibly operated in Southeast Asia such as Myanmar and Angola, where it is difficult to connect the national grid.

In addition, when mobility is utilized, the old power plant can be discarded due to aging, etc., and replaced with short-term power vacancies in constructing a new plant.

In addition, it is free from the opposition of local residents and the risk of terrorism as compared with the construction of the land power plant, and it can solve the gap of power supply that generally occurs when replacing the old power plant, and the construction regulations of the power plant It is expected to be used in advanced countries.

It is not searched in the patent literature relating to BMPP as prior art which is a background technique of design.

1 is a conceptual diagram showing a conventional BMPP.

Referring to FIG. 1, a conventional BMPP includes a power generator 10, which is composed of a turbine 4 and a generator 6, on a foundation 2 on a barge of a general type. And is configured to connect the turbine 4 and the generator 6 to the shaft 8. [

The steam generated by the fuel stored on the barge is used to rotate the turbine 4 using the steam so that the rotational force of the turbine 4 is transmitted to the generator 6 through the shaft 8, 6 are driven, they produce electricity.

The foundation 2 of the barge line is fitted with a file 12 which can be fixed to the sea floor so that the barge line is not affected by the surrounding environment of the sea, for example, wind and waves.

However, in the conventional BMPP, hogging and sagging due to a bending moment occur during floating operation. Therefore, it is possible to assume a problem that is critical to the operation of the power generation apparatus have.

That is, since the floating barge is operated in the sea, when the unbalanced load is applied to the wave load in the floating state, the longitudinal moment of the float generates tensile force in the upper part of the hull and compressive force in the lower part The central portion of the float can be deformed as if lifted up.

Therefore, the conventional BMPP causes phase difference between the generator 4 and the turbine 6 as the center portion of the foundation 2 is lifted up as shown in Fig. 2 according to various resolving conditions, (8) may be deformed or broken.

Further, since the shaft 8 of the power generating apparatus 10 used in the current BMPP is mostly made for land use, it can be assumed that it is difficult to apply it for marine use.

SUMMARY OF THE INVENTION Accordingly, 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 barge structure, The present invention provides a barge of a floating power generation plant capable of achieving such a barge.

In order to achieve the above object, according to one aspect of the present invention, a barge of a floating power generation plant includes a barge main body to which a power generating unit is installed and floats on the sea; And a strength increasing portion formed on a side surface of the barge main body about the waterline surface of the seawater so as to increase the bending strength of the center portion of the barge main body.

And the strength increasing portion is rounded at an angle with respect to the water surface of the seawater.

Further, the water surface of the seawater is positioned at the center of gravity of the barge main body.

And a pile formed on an upper portion of the barge main body above the water surface of the sea water.

A plurality of power generating units may be installed in the barge main body.

At this time, any one of the plurality of power generation units may be constituted by a gas generator and a turbine, the other power generation unit may be constituted by a steam generator and a turbine, or a combination thereof.

According to the embodiment of the present invention, since the bending strength increasing portion is formed on the side surface of the barge main body, deformation of the power generating device shaft is suppressed regardless of the deformation of the barge main body due to the wave load, I have.

Further, according to the embodiment of the present invention, there is no need to develop a separate shaft of the power generator for marine use, and it has an effect of widening the operational restriction range according to the marine environment.

1 is a conceptual diagram showing a conventional BMPP,
Fig. 2 is an exemplary view showing a state in which the shaft is deformed by the phase difference between the generator and the turbine, which is generated in accordance with the deformation of the foundations in Fig. 1 BMPP,
3 is a side schematic view showing the construction of a barge line of a floating power generation plant according to an embodiment of the present invention,
4 is a schematic perspective view showing a state in which a file is installed in an increased portion of the barge main body,
Fig. 5 is a side schematic view showing a rounded strength reinforcing portion as another embodiment of Fig. 3;

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description of the present invention, a detailed description of related art known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention unclear. Quot ;, it is to be understood that this does not exclude other elements unless specifically stated to the contrary, it may include other elements.

3 and 4 show the construction of a barge of a floating power generation plant according to an embodiment of the present invention.

3 and 4, a barge line of a floating power generation plant according to an embodiment of the present invention includes a foundation 20 in which a power generation unit 40 is installed at an upper portion thereof, The strength increasing portion 50 is formed so as to increase the bending strength about the water surface 32 of the seawater with respect to the side surface of the sea surface 30.

With this configuration, even if the wave load is applied to the barge main body 30, the designed floating power generation plant increases the bending strength around the water surface 32 of the sea water along the side surface of the barge main body 30, The shaft 42 of the power generation unit 40 provided on the foundation 20 of the power generating unit 40 can be held without being deformed.

The foundation 20 of the barge main body 30 which can float on the sea is provided with a turbine 44 and a generator 46 connected to a shaft 42, (40) can be mounted.

Needless to say, the foundation 20 can be formed in various shapes other than the plate-like shape.

In one embodiment of the present invention, the strength enhancing portion 50 is formed to be inclined at a predetermined angle about the water surface 32 of the seawater along the side surface of the barge main body 30, The water surface 32 of the seawater can be positioned at the center.

That is, the strength enhancing portion 50 on the water surface 32 of the seawater extends from the side surface of the barge main body 30 in accordance with the inclination based on the original barge main body 30 shown by the dotted line, The strength reinforcing portion 50 at the lower part of the water surface 32 of the seawater is further extended from the bottom of the barge main body 30 to increase the thickness of the center portion to increase the bending rigidity at the center portion.

At this time, the angle of inclination? Between the water surface 32 of the seawater and the strength enhancing portion 50 is preferably about 30 to 60 degrees. However, the angle of inclination? It can be designed as a slope.

Even if the central portion of the barge main body 30 is deformed as if lifted by the tensile force and the compressive force due to the bending moment at the time of floating operation, It is possible to suppress the deformation of the shaft 42 connecting the turbine 44 of the power generation unit 40 provided on the barge deck and the generator 46 to prevent the deformation of the turbine 44 and the generator 46, The phase difference can be prevented from occurring between the first and second electrodes 46a and 46b.

This is because the floating structure does not have a bending moment on both sides of the barge main body 30, so that even if the shape of both sides of the barge main body 30 is deformed, it is independent of the deformation of the floating structure.

4, a pile 52 is provided on a corner portion of the barge main body 30 above the side surface of the barge main body 30, that is, above the water surface 32 of the sea water, By a configuration that is inclined to the side surface, it is possible to restrict longitudinal angular motion such as rolling or pitching that occurs during floating operation.

5, the strength increasing portion 50 may be formed so as to be convexly rounded up and down about the water surface 32 of the seawater, and at this time as well, The water surface 32 of the seawater can be positioned at the center of gravity of the water.

Although not specifically shown, as another embodiment of the present invention, if the strength increasing portion 50 can be made to be inclined or deformed in a convex shape as long as the cross-sectional shape can be modified so as to increase the thickness of the central portion to increase the bending rigidity It is of course possible to form it differently from that formed by rounding.

In the embodiment of the present invention, the power generation unit 40 is shown as a single power generation unit 40 composed of the turbine 44 and the generator 46, but may alternatively be composed of a plurality of power generation units. Likewise, each of the power generating units can be installed at equal intervals around the center of gravity of the barge main body 30. For example, any one of the power generating units may be constituted of a gas generator and a turbine, A generator and a turbine, or may be constructed by appropriately combining these.

Even in this case, as the water surface 32 of the sea water is located at the center of gravity of the barge main body 30 in which a plurality of power generation units 40 are installed, the water surface 32 of the barge main body 30, The phase difference does not occur between the turbine 44 and the generator 46 of the power generation unit 40 provided on the deck of the barge main body 30 by absorbing the fluctuation equally.

The barge of the floating power plant of the present invention constructed as described above has a central portion where the central portion of the barge main body 30 is lifted by the tensile force and the compressive force due to the bending moment at the time of floating operation, A phase difference is generated between the turbine 44 of the power generation unit 40 and the generator 46 installed on the deck of the barge main body 30 by increasing the bending strength at the predetermined angle It is possible to stably perform the power generation operation even in a poor marine environment.

The above description is merely a preferred embodiment of a barge of a floating power generation plant according to the present invention. The present invention is not limited to the above-described embodiment, and therefore, Any person skilled in the art will appreciate that there is a technical spirit of this invention to the extent that various modifications can be made without departing from the scope of the invention. It will be apparent to those skilled in the art that many other modifications and applications are possible within the scope of the basic technical idea of the present invention.

30: Barge body
32: Water surface of sea water
40: power generation unit
42: Shaft
44: Turbine
46: generator
50: Strength increasing portion
52: File (pile)

Claims (8)

As a barge for a floating power plant,
Barge body suspended on the sea;
A foundation installed on an upper portion of the barge main body, wherein a plurality of power generating units are installed; And
And a strength increasing portion formed to increase the bending strength with respect to the water surface of the seawater along the side surface of the barge main body. The method according to claim 1,
Wherein the strength increasing portion is inclined at a predetermined angle around the water surface of the seawater. The method according to claim 1,
Wherein the strength increasing portion is rounded convexly about the waterline of the seawater. 3. The method according to claim 1 or 2,
And the water surface of the seawater is positioned at the center of gravity of the barge main body. 3. The method according to claim 1 or 2,
Further comprising a pile formed in the strength increasing portion of the barge main body above the water surface of the seawater. The method according to claim 1,
The barge wire of the floating power generation plant in which a plurality of power generation units are installed in the barge main body. The method according to claim 6,
A barge of a floating power generation plant in which any one of the plurality of power generation units is constituted by a gas generator and a turbine and the other power generation unit is constituted by a steam generator and a turbine or a combination thereof. As a floating power plant,
Barge body suspended on the sea;
A foundation installed on an upper portion of the barge main body, wherein a plurality of power generating units are installed; And
And a strength increasing portion formed on a side surface of the barge main body with respect to a waterline surface of the seawater so as to increase the bending strength of the central portion of the barge main body,
And the strength enhancing portion at the lower part of the water surface of the seawater is formed so that the thickness of the central portion of the barge main body becomes thicker.

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