KR101336315B1 - supporting structure for power plant of floating marine power plant - Google Patents

Abstract

The present invention relates to a power plant support structure of a floating offshore power plant, and more particularly, to a power plant support structure of a floating offshore power plant to prevent the floating power plant from resonating due to the excitation force of the power plant.
The present invention is a power generation facility is fixed to a concrete block, in the support structure of a power plant of a floating offshore power plant in which the concrete block is seated on the deck of the barge, the recess is formed on the deck of the barge, the concrete block in the recess It provides a power generation support structure for this floating offshore power plant.

Description

Supporting structure for power plant of floating marine power plant

The present invention relates to a power plant support structure of a floating offshore power plant, and more particularly, to a power plant support structure of a floating offshore power plant to prevent the floating power plant from resonating due to the excitation force of the power plant.

In general, power plants generate electricity by rotating turbines using energy sources such as water, oil, coal, natural gas, or geothermal heat, and the generated electricity is transmitted to cities or industrial complexes, which are large demand destinations. Here, the electricity transmitted to the city or industrial complex is a high voltage to increase the transmission efficiency, so it is converted into a voltage suitable for home use and supplied.

However, such a power plant is recognized as a hateful facility and it is difficult to secure a site due to local residents' opposition.

Even if a plant site is secured, more than a few decades of air is needed because it requires earthwork, facility construction, and secondary work, such as site preparation work and site reinforce work.

Meanwhile, democratic governments are gradually entering into international conflict areas such as Libya, Iraq, Afghanistan and Sudan, and the demand for SOC is exploding.

In particular, such emerging countries have emerged as an urgent task for the development of power plants.

In addition, due to global warming, the occurrence of natural disasters is increasing, which causes frequent power outages due to problems in power generation facilities and transmission lines.

Moreover, when the power outage occurs as described above, water supply facilities and drinking water storage facilities have problems, and thus there is often no water to drink.

However, since it takes a long time to restore such a power plant or transmission line, there is a growing need for a power plant that can temporarily supply water and electricity.

Due to this need, floating offshore power plants equipped with power generation facilities have been developed.

In the floating offshore power plant, power plants such as gas turbines and generators should be fixed to the deck of the barge. Since these power plants have a rotational movement, a vibromotive force is generated. Therefore, in order to prevent the propulsion force caused by the power generation equipment from being transmitted to the barge, the power generation equipment is fixed to the concrete block and then the concrete block is fixed to the deck of the barge.

However, if the excitation force due to the power generation equipment coincides with the natural frequency of the barge, resonance occurs, causing the floating offshore power plant to fluctuate greatly, and in case of severe damage, the barge breaks.

Therefore, the present invention has been devised to solve the above problems, floating recessed to form a recess on the deck of the barge and insert a concrete block fixed to the power plant in this recess to control the plane motion of the power plant The purpose is to provide a support structure for the generation of offshore power plants.

In addition, an object of the present invention is to provide a power generation support structure of a floating offshore power plant that can minimize the transmission of vibration force to the barge by forming a plurality of supports at the bottom of the recess to support the concrete block.

In addition, an object of the present invention is to provide a power generation support structure of a floating offshore power plant that is capable of buffering the vertical vibration of the concrete block by installing an elastic pad between the lower portion and the support of the concrete block.

In addition, an object of the present invention is to provide an installation support structure of a floating offshore power plant that is capable of absorbing the vibration in the horizontal direction by attaching an elastic plate between the concrete block and the inner wall of the recess.

In addition, an object of the present invention is to provide a power generation equipment support structure of the floating offshore power plant to prevent the sea water or foreign matter from flowing into the recess by forming a land portion protruding upward in the rim of the recess.

The present invention is a power generation facility is fixed to a concrete block, in the support structure of the power plant of a floating offshore power plant in which the concrete block is seated on the deck of the barge, the recess is formed on the deck of the barge, the concrete block in the recess It provides a power generation support structure for this floating offshore power plant.

Here, a plurality of supports are formed at the bottom of the recess, and the concrete block is preferably supported by the support.

In addition, it is preferable that an elastic pad is inserted and installed between the lower portion of the concrete block and the support.

In addition, it is preferable that the elastic plate is attached between the concrete block and the inner wall of the recess.

In addition, it is preferable that the land portion protruding upward from the rim of the recess is formed.

As described above, the support structure of the power generation equipment of the floating offshore power plant according to the present invention forms a recess in the deck of the barge and inserts a concrete block in which the power plant is fixed to the recess so that the plane movement of the power plant can be controlled.

In addition, the power generation support structure of the floating offshore power plant according to the present invention can support a concrete block by forming a plurality of supports on the bottom of the recess, thereby minimizing the transmission of vibration force to the barge.

In addition, the power generation equipment support structure of the floating offshore power plant according to the present invention can install the elastic pad between the lower portion and the support of the concrete block can cushion the vertical vibration of the concrete block.

In addition, the power generation support structure of the floating offshore power plant according to the present invention can be installed by attaching an elastic plate between the concrete block and the inner wall of the recessed portion can damp vibration in the horizontal direction.

In addition, the power generation equipment support structure of the floating offshore power plant according to the present invention forms a land portion protruding upward on the rim of the recess to prevent sea water or foreign matter from flowing into the recess.

1 is a cross-sectional view showing a power plant support structure of a floating offshore power plant according to an embodiment of the present invention.
Figure 2 is a detailed view showing the power generation support structure of the floating offshore power plant according to an embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings an embodiment of a power generation equipment support structure of a floating offshore power plant according to the present invention.

Floating offshore power plant with a power generation support structure formed in accordance with an embodiment of the present invention consists of a barge 10, the power generation facility 20 is installed on the deck 12 of the barge 10.

The barge 10 is a ship that does not have a propulsion engine is usually provided with a ballast tank 14 for the support at the bottom. In addition, the barge 10 is a deck 12 is very wide because the cargo moves in a state loaded on the deck (12). Since the barge 10 is not provided with a propulsion engine, a tug boat (not shown) may be connected to one side to be towed or moved by using a winch (not shown) installed on land.

The power generation facility 20 includes a gas turbine that generates rotational power as a facility for producing electricity, and a generator that generates electricity by the rotational power generated by the gas turbine. The gas turbine and the generator is preferably fixed to the same concrete block 30 because the centering of the center of rotation is very important.

In addition, since the generator 20 includes a rotating gas turbine and a generator, a vibration force is generated periodically to generate vibration. Therefore, the support structure of the power generation facility for transmitting the vibration force of the power generation facility 20 to the barge is very important.

The support structure of the power generation equipment is a structure in which a recess 40 is formed on the deck 12 of the barge, and the concrete block 30 to which the power generation equipment 20 is fixed is inserted into the recess. The recessed part 40 is formed to be recessed downward on the deck 12 of the barge 10 and is provided at a height such that the entirety of the concrete block 30 is not inserted to facilitate the seating of the concrete block 30. desirable. In addition, it is preferable that the land portion 42 protruding upward to prevent the inflow of seawater or foreign matter is formed at the edge of the recess 40. In addition, the gap between the concrete block 30 and the inner wall of the recess 40 is preferably provided to minimize the gap.

In addition, a plurality of supports 44 are installed at the bottom of the recess 40. The plurality of supports 44 may be installed at a position where the weight is not biased to one side when the concrete block 30 is supported. Since the concrete block 30 is supported by the support 44 as described above, the impact of the vibration force of the concrete block 30 on the barge 10 can be minimized.

In addition, an elastic pad 46 is inserted between the plurality of supports 44 and the concrete block 30. Here, the elastic pad 46 is preferably attached to the plurality of supports 44 to facilitate the seating of the concrete block 30. The elastic pad 46 is preferably fixed to the support 44 by bolts 48a. Since the elastic pad 46 is inserted between the plurality of supports 44 and the concrete block 30 as described above, the effect of vertical vibration of the concrete block 30 on the barge 10 can be minimized.

In addition, an elastic plate 48 is attached between the concrete block 30 and the inner wall of the recess 40. The elastic plate 48 to be installed here is preferably attached to the inner wall of the recess 40 to facilitate the seating of the concrete block 30. Since the elastic plate 48 is installed between the concrete block 30 and the inner wall of the recess 40 as described above, the effect of the vibration in the horizontal direction on the barge 10 can be minimized.

The scope of the present invention is not limited to the embodiments described above, but is defined by the claims, and a person skilled in the art to which the present invention belongs may make various modifications and adaptations within the scope of the claims. It is self-evident.

10: barge
20: power generation equipment
30: concrete block
40: main part
42: land part
44: Support
46: elastic pad
48: elastic plate

Claims (5)

In the power generation equipment 20 is fixed to the concrete block 30, in the power generation equipment support structure of the floating offshore power plant in which the concrete block 30 is seated on the deck of the barge 10,
The recess 40 is formed on the deck of the barge 10, the concrete block 30 is inserted into the recess 40,
A plurality of supports 44 are formed at the bottom of the recess 40, the concrete block 30 is supported by the supports 44,
An elastic pad 46 is fixed between the lower portion of the concrete block 30 and the support 44, characterized in that the power plant support structure of the floating offshore power plant.
delete delete The method according to claim 1,
An elastic plate 48 is installed between the concrete block 30 and the inner wall of the recess portion 40 is installed, characterized in that the supporting structure of the power plant of the floating offshore power plant.
The method of claim 4,
Power generation equipment support structure of a floating offshore power plant, characterized in that the land portion 42 protruding upwardly formed on the edge of the recess (40).

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