KR20150037000A - Coolant intake apparatus for littoral sea-electric power plants and littoral sea-electric power plants including the same - Google Patents

Abstract

The present invention relates to a coolant intake apparatus for a power plant and a power plant including the same and, more specifically, to a coolant intake apparatus for power plant and a power plant including the same to facilitate the installation of the facilities of a coolant intake structure necessary for a power plant without a consideration on the ground stability of an intake place and to minimize the pre-installation of the entire plant facilities (especially for a floating power plant). According to the present invention, the coolant intake apparatus for providing a coolant for a power plant comprises: a floating body floating in the sea; an intake unit connected and fixated to the floating body and positioned on the seabed to take in seawater; and a water intake supply connection unit to provide the seawater taken by the intake unit for the power plant.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a cooling water intake apparatus for a power plant, and a power plant including the same. BACKGROUND ART < RTI ID = 0.0 >

The present invention relates to a cooling water intake apparatus for a power generation plant and a power generation plant having the same. More particularly, the present invention relates to a cooling water intake structure for a power generation plant that can be safely and easily installed without considering the ground stability of the destination And more particularly, to a cooling water intake system of a floating power plant capable of minimizing pre-construction of an entire plant facility (in particular, a floating power generation plant) and a power plant having the same.

Nuclear power plants that use heat from coal, oil, or natural gas, or heat generated by nuclear cracking of uranium, make steam from steam generators, and the steam acts as a hydraulic turbine. The turbine is turned to produce electricity, the steam that has been circulated through the turbine is cooled in the condenser, condensed in water and sent to the steam generator, where the cooling water is used to recycle the steam into water.

In Korea, since there is no desalination facility to supply sufficient cooling water, most large-scale power generation facilities are inevitably constructed in the coastal area in terms of securing a large amount of cooling water to use seawater as cooling water. In addition, large-scale plant facilities are in a similar situation and can not be built in the region.

Korean Patent Registration No. 10-1197123 discloses a conventional seawater intake system of a power plant.

Such a conventional onshore power generation plant is constructed in a coastal area, and the cooling water taken in the cooling water intake part (the water collecting tank) is supplied through the sea water piping (first line). Generally, the cooling water intake portion is configured to minimize the influence from cooling water, temperature, digging, marine life, and small particles, and the configuration thereof is various and well known, so a description thereof will be omitted.

However, there is a problem that it is difficult to maintain the cooling water temperature when installing the cooling water intake portion on the land.

Therefore, considering the cooling water temperature, it is a water intake system that supplies seawater or fresh water to a power plant in a relatively deep sea. In the case of receiving cooling water, a land power plant can directly supply seawater / fresh water to a power plant There is also a way to install pipelines from the offshore power plant to the sea floor and to install the water intake on the sea floor far from the land.

However, the cooling water intake system of the conventional power generation system of the conventional power generation system must consider the ground stability of the seabed surface where the water intake portion and / or the sea water piping are installed. If the ground stability is poor, it is difficult to install, .

In order to solve such conventional problems, the present invention can be installed safely and easily without considering the ground stability of the intake destination in the cooling water intake system of the power generation plant, and it is possible to minimize the pre- In particular, it is an object of the present invention to provide a cooling water intake apparatus of a power plant and a power plant having the cooling water intake apparatus, which can secure mobility even in a floating power generation plant.

According to an aspect of the present invention, there is provided a cooling water intake apparatus for supplying cooling water to a power plant of a coastal offshore, comprising: a float floating on the sea; And a supply intake connection means for supplying the power generation plant with the seawater taken out from the water intake means.

According to another aspect of the present invention, there is provided a cooling system comprising: a floating platform having a power generation facility; and a cooling water intake device for supplying cooling water to the power generation facility of the floating platform, And a water intake connection means for supplying seawater to the power generation plant, the water intake connection means being connected to the seawater and being seated on the seabed, for taking in seawater, and for supplying the seawater taken from the water intake means to the power generation plant.

Wherein the water intake means comprises a support member extending from the float to the seabed and a water intake member fixed to one end of the support member on the sea bottom side and floated by a buoyant force of the float at a predetermined height from the seabed, .

Preferably, the supply intake connection means includes a fixed pipe fixed to a bottom surface of a predetermined section between the power generation plant and the water intake means, and a separation pipe connected to the power generation plant and the water intake / supply portion of the water intake means at both ends of the fixed pipe .

It is preferable that the fixed pipe is made of a rigid pipe, and the spacing pipe is made of a flexible hose.

As described above, according to the present invention, it is possible to provide a cooling water intake apparatus of a power generation plant and a power generation system including the same, which can be safely and easily installed without considering the ground stability of the water intake pipe or the intake destination in the cooling water intake apparatus of the power generation plant A plant is provided.

Further, according to the present invention, it is possible to minimize the pre-construction of the entire plant facility, and in particular, the floating power generation plant can easily secure mobility.

Figs. 1A and 1B are schematic views schematically showing the construction of a land-based power plant generally constructed in a coastal zone, and Fig.
2 is a schematic view showing a power generation plant having a cooling water intake apparatus according to the present invention.

The cooling water intake system according to the present invention described below can be applied to a floating power plant such as a power plant, particularly a barge mounted power plant (BMPP), which is constructed in coastal areas or coastal and marine areas.

The cooling water intake system of the power plant according to the present invention and the power generation plant including the same can be safely and easily installed without considering the ground stability of the intake pipe and the intake point in the cooling water intake system of the power generation plant, It is possible to minimize the pre-construction of the plant facility and, in particular, to ensure the mobility of the floating power plant.

BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, a cooling water intake system of a power plant according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

2 is a schematic view showing a power generation plant having a cooling water intake apparatus according to the present invention.

As shown in FIG. 2, the cooling water intake apparatus for a power plant according to the present invention is a cooling water intake apparatus for supplying cooling water to a power plant 10 of a offshore power plant, wherein a float 100 floated on the water by buoyancy ); A water intake means 200 connected to the float 100 and positioned on the seabed surface to receive seawater; And a supply intake connection means (300) for supplying the power plant with the seawater taken out from the water intake means (200).

The float 100 may be of any material and / or configuration having floating force at sea. For example, because of its exposure to the sea, it can be structurally or structurally maintained to be robust and stable from the chemical / physical effects of the external environment (seawater temperature, salinity, sea level, wind, rain, marine life and other influencing factors) Lt; / RTI >

Here, the float 100 has a floating force (buoyancy) sufficient to bear the weight of the water taking-in means 200 (that is, the water intake member and the connecting member) to be described in detail below, It is preferable that the water intake member is calculated so as to be floated near the seabed surface in consideration of the weight of these components provided in the water tank.

The water intake means 200 is composed of a support member 210 extending from the float 100 to the seabed and a support member 210 fixed to one end of the support member 210 on the seabed side, And a water intake member 220 floated above the sea floor at a predetermined height to collect seawater on the sea floor.

The support member 210 is a support structure for connecting and fixing the float 100 and the cooling water intake member 220.

The water intake member 220 is made of a conventional module capable of taking seawater near a relatively low seabed surface and capable of minimizing the influence of cooling water temperature and corrugation and marine organisms and small particles, The body or housing may be made of concrete or plastic.

The material of the housing of the water intake member 220 is preferably a plastic material, preferably a glass reinforced plastic (GRP), in view of the floatability (buoyancy) of the float 100 as described above and in terms of rigidity.

Next, the supply intake connection means 300 includes a fixed pipe 310 fixed to a bottom surface of a predetermined section between the power generation plant 10 and the water intake means 200; And a separating pipe 320 connected to both the sea chest of the power generation plant 10 and the water intake and supply part of the water intake member 210 at both ends of the fixed pipe 310.

The fixed pipe 310 is a pipe for transferring cooling water (seawater), and is formed of a general rigid pipe fixed to the sea floor.

The spacing pipe 320 is made of a flexible hose pipe to reduce the momentum effect due to sea conditions such as wave and wind.

In the cooling water intake apparatus of the present invention, the water intake means (water intake member) for taking in the cooling water is floated by the float at a certain height on the sea floor, that is, near the sea floor. Accordingly, when the ground is not stable and it is difficult or impossible to install the ground of the water intake part (water intake means), installation of the water intake part is easy and pre-construction for installation can be minimized.

Further, the cooling water intake apparatus of the present invention can flexibly cope with momentum effects due to sea conditions such as wave height and wind, because each end side connection pipe connected to the power generation plant and the water intake means is composed of a flexible pipe.

Particularly, the present invention can be applied to a floating power generation plant through this feature of the cooling water intake apparatus of the present invention, so that even when the floating installation of the floating power generation plant occurs, the installation can be more effectively carried out.

That is, the power generation plant having the cooling water intake apparatus of the present invention includes a floating platform 12 provided with a power generation facility 11, and a power supply system 11 for supplying cooling water to the power generation facility 11 of the floating platform 12. [ Wherein the cooling water intake device comprises a float (100) floated on the water by buoyancy; A water intake means 200 connected to the float 100 and positioned on the seabed surface to receive seawater; And a supply intake connection means (300) for supplying the power plant with the seawater taken out from the water intake means (200).

The details of the cooling water intake system (float, intake means, intake intake water connection means) have been described above and will not be described here.

Thus, the present invention can be optimally adopted not only for a power plant including a land-based power plant but also for a floating power plant.

The cooling water intake system of the power generation plant constructed as described above can be installed safely and easily without considering the ground stability of the intake destination and can minimize the preliminary construction for the whole plant facility. There is an advantage that mobility can be secured.

As described above, the cooling water intake system of the power plant according to the present invention and the power plant including the same have been described with reference to the drawings. However, the present invention is not limited to the embodiments and drawings described above, It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention.

10: Floating power plant
11: floating platform
12: Power generation facilities
100: float
200: water intake means
210: support member
220:
300: Feed intake connection means
310: Fixed piping
320: Discrete piping (flexible hose)

Claims (10)

A cooling water intake apparatus for supplying cooling water to a power generation plant,
Float floating on the sea;
Water intake means connected to the float to be located at the seabed and to receive seawater; And
A supply intake connection means for supplying the power generation plant with seawater taken out from the water intake means; And a cooling water supply device for supplying the cooling water to the power plant. The method according to claim 1,
The water intake means
A supporting member extending from the float to the seabed; And
And a water intake member fixed to one end side of the bottom of the support member and floated by a buoyant force of the float at a predetermined height to collect seawater on the seabed surface. The method according to claim 1,
The supply intake connection means
A fixed pipe fixed to a bottom surface of a predetermined section between the power generation plant and the water intake means; And
And a separation pipe connected to both the power generation plant and the water intake / supply portion of the water intake means at both ends of the fixed pipe. The method of claim 3,
The fixed pipe is made of a rigid pipe,
Wherein the separating pipe is made of a flexible hose. A power generation plant comprising a cooling water intake apparatus according to any one of claims 1 to 4. A floating platform having a power generation facility and a cooling water intake device for providing cooling water to the power generation facility of the floating platform,
Float floating on the sea;
Water intake means connected to the float to be located at the seabed and to receive seawater; And
And a supply intake connection means for supplying the floating platform with seawater taken from the water intake means. The method of claim 6,
The water intake means
A supporting member extending from the float to the seabed; And
And a water intake member fixed to one end of the bottom of the support member and floated by a buoyant force of the float at a predetermined height to collect seawater at the bottom of the sea. The method of claim 6,
The water intake means
And is located at a seabed of the deep sea at a distance from the floating platform. The method according to any one of claims 6 to 8,
The supply intake connection means
A fixed pipe fixed to a bottom surface of a predetermined section between the floating platform and the water intake means; And
And a separation pipe connected to both the floating platform and the water intake / supply portion of the water intake means at both ends of the fixed pipe. The method of claim 9,
The fixed pipe is made of a rigid pipe,
Wherein the spacing pipe is made of a flexible hose.

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