KR101599386B1 - Planarization and floating storage power plant having deck structure - Google Patents

Abstract

The present invention can mount thousands of tons of power generation modules by installing a flat mounting plate on the upper side of the deck of the floating structure, thereby widening the application range on the deck and being used for various purposes. In the floating liquefied gas storage power plant, The power module can be stably loaded while utilizing the device as it is.

Description

[0001] The present invention relates to a floating storage power plant having a deck planarizing structure,

The present invention relates to a floating storage power plant having a deck planarizing structure, and more particularly, by mounting a mounting plate on the upper side of the deck to realize the flattening of the deck, And a deck flattening structure capable of securely and firmly mounting the power generation module on the mounting plate.

In recent years, there has been an increasing interest in electric production using natural gas as a demand for environmentally friendly development.

In emerging economies where power supply is not smooth, interest in gas power generation is increasing. Due to the nature of gas power generation, gas infrastructure such as gas storage on land must be equipped to produce electricity.

In the case of existing onshore development, a combined cycle power plant is formed on the land, and various equipments and equipment necessary for power generation are placed on the land. As a result, all installation, layout, and testing are performed at the site and the risks are constantly present, and all the systems are independently located in separate buildings, resulting in high consumption of buildings, piping, and materials.

Recently, a technique for drying BMPP (Barge Mounted Power Plant) that produces electricity by mounting a land-based power generation facility on a barge has been proposed.

In order to solve the above disadvantages, recently, the LNG tank is equipped with a liquefied gas storage tank and received LNG from LNG Shuttle, LNG Bunkering, LNG Terminal, etc. A new concept of floating storage power plant is being developed, which is developed as Steam Turbine through Gas Turbine and HRSG.

Korean Patent Publication No. 2014-0015231 Korean Patent Publication No. 2013-0075261

1 is a side view showing a floating storage power generation plant.

1, a floating storage power generation plant 1 having a liquefied gas storage tank (LNG tank) 3 of one row arrangement is constructed such that a power generation module M is installed on an upper part of a floating storage structure 2 Can be assumed.

In the LNG carrier and the LNG RV and the LNG FRSU, a deck of a cargo hold (a so-called trunk deck D) protrudes upward and a cargo handling device or the like is installed on the trunk deck D It can be assumed.

Examples of the cargo handling device 10 include a liquid dome, a gas dome, a cargo handling pipeline, and an independent vent mast.

The LNG FPSO or FLNG having the two-row liquefied gas storage tank (LNG tank) has a floating storage power generation plant 1 having a deck as flat as the oil carrier and a liquefied gas storage tank 3 arranged in one row Structurally flat decks are difficult to form.

If there is no such flat deck, interference between the cargo handling device 10 and the power generation module M may occur. Therefore, the power generation module M, that is, the gas turbine and the waste heat recovery device HRSG, Steam Turbine and so on.

Accordingly, in order to solve the above-mentioned problems, the present invention provides a mounting plate on the upper side of the deck to realize the flattening of the deck, thereby improving the arrangement of the equipment arranged on the deck and securely and securely mounting the power generating module on the mounting plate The goal is to make it possible.

In the present invention, a cargo handling pipeline and a liquid dome (gas dome) exposed on a deck are disposed below the mounting plate, and the individual vent mast is converted into a common vent line And it is an object of the present invention to sufficiently secure a height for maintenance of a pump tower and a liquefied gas storage tank in a liquefied gas storage tank.

According to an aspect of the present invention, there is provided a floating storage power plant including a mounting plate disposed at an upper portion of a floating structure at a predetermined distance from a deck, There is provided a floating storage power generation plant in which a handling device is disposed and a power generation module for generating electricity is installed on the upper side of the mounting plate.

Wherein the support plate is supported by a support unit, the support unit includes a plurality of side supports installed on both sides (a port side and a starboard side) on a main deck formed on an upper portion of the floating structure, And a plurality of center supports installed on the deck. The center supports may be arranged in at least one row.

According to another aspect of the present invention, a liquefied gas storage tank is installed in a floating structure, a trunk deck is formed in a central portion of an upper surface of the floating structure, And a power generation plant module for generating electricity is disposed on the upper portion of the mounting plate.

A Caro Handling Pipe Line, a Liquid Dome, and a Gas Dome exposed on the trunk deck are disposed below the mounting plate.

The vent mast for discharging or incinerating the vapor generated in the liquefied gas storage tank may be installed on the floating structure by a common vent line so as not to interfere with the mounting plate.

The liquefied gas storage tank vessel of one row arrangement is intended to protect the external exposure of the liquefied gas storage tank because the trapezoidal deck is not very robust so that the loadable equipment and system are limited. Is supported by a support unit, which enables thousands of tons of power modules to be stacked on the deck, making it possible to use for various purposes.

In addition, in the floating liquefied gas storage power generation plant, the power generation module can be stably loaded while utilizing the existing cargo handling device.

1 is a side view showing a floating storage power generation plant
2 is a cross-sectional view illustrating a deck planarization structure and a floating storage power generation plant of a floating structure according to a first embodiment of the present invention;
3 is a side view showing a deck flattening structure and a floating storage power generation plant of a floating structure according to a first embodiment of the present invention
FIG. 4 is a cross-sectional view showing a deck planarization structure and a floating storage power generation plant of a floating structure according to a second embodiment of the present invention
5 is a perspective view illustrating a deck planarization structure and a floating storage power generation plant of a floating structure according to a second embodiment of the present invention;
6 is a side view showing a deck planarization structure and a floating storage power generation plant of a floating structure according to a second embodiment of the present invention
7 is a perspective view of a deck planarization structure and a floating storage power generation plant of a floating structure according to a third embodiment of the present invention;
8 is a perspective view showing a deck planarization structure and a floating storage power generation plant of a floating structure according to a fourth embodiment of the present invention;

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a deck planarization structure of a floating structure and a floating storage power plant having the planarization structure according to preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

The present invention includes a new concept floating liquefied gas storage power plant, which has transferred a combined power plant constructed onshore to a marine plant, and a planar space where the power plants on the land should be located must be essentially secured. However, if a deck is projected in a trapezoidal shape like a ship having a liquefied gas storage tank of one row arrangement, it is not possible to put thousands of tonnes of power generation modules on a narrow area even though the structural strength of the trapezoidal deck is different (LNG), gas dome, Cargo Handling Pipe Line, etc., which are to be placed on trapezoidal decks in existing LNG carriers due to these power generation modules. Independent vent masts can not be deployed due to interference.

In order to solve this problem, in the present invention, a side support structure is installed on both sides of the floating structure, a center support structure is installed in the center of the floating structure, And a power module having a weight of several thousand tons on the mounting plate can be securely mounted without interference.

In the present invention, a mounting plate is installed on the upper side of a deck of a sea structure having a single-row liquefied gas storage tank therein. The LNG FSRU, the LNG-RV, the LNG Bunkering Vessel is applicable.

In the present invention, the mounting plate is composed of a single body, but a plurality of mounting plates can be provided for load distribution, and the height of each mounting plate is appropriately changed according to the condition of the water It is possible.

Hereinafter, a floating liquefied gas storage power plant 100 provided with a mounting plate 130 above the floating structure 110 will be described in more detail with reference to FIGS. 2 and 3. FIG.

FIG. 2 is a cross-sectional view of a deck planarization structure and a floating storage power plant of a floating structure according to a first embodiment of the present invention, FIG. 3 is a plan view of a deck planarization structure of a floating structure according to the first embodiment of the present invention, It is a side view showing the plant.

2 and 3, a plurality of liquefied gas storage tanks 120 are installed in the floating structure 110. The liquefied gas storage tanks 120 are installed in the floating structure 110,

As is known, LNG is obtained by cooling natural gas to a cryogenic temperature, for example, approximately -163 DEG C, and is suitable for long distance transportation through the sea because its volume is reduced to about 1/600 compared with natural gas.

The liquefied gas storage tank 120 is classified into an independent tank type and a membrane type depending on whether a heat insulating material for storing the LNG at a cryogenic temperature directly acts on the load of the cargo, The tank type storage tank is divided into the MOSS type and the IHI-SPB type, and the membrane type storage tank is divided into the GT NO 96 type and the TGZ Mark III type.

Although the membrane type storage tank is described as an example in the present invention, it is also applicable to an independent tank type storage tank.

On the deck D of the floating structure 110, for example, the cargo handling apparatus 10 may be installed. The cargo handling apparatus includes any one of a pipe manifold, a cargo line, a liquid dome, a vapor dome, and a vent line. Each of the cargo handling apparatuses 10 is shown in the form of a box in the drawing, but is configured to be connected to each other by a plurality of pipelines.

It is necessary to provide a flat space in order to install the power generation module M on the floating structure 110. The present invention can be applied to a mounting plate 130 are installed. Since the mounting plate 130 must support the power module M having a high load of several thousand tons, a high strength material such as a steel plate or a concrete steel structure can be used.

A reinforcing member (not shown) for reinforcing the mounting plate 130 may be installed on the lower portion of the mounting plate 130. The reinforcing member may serve to prevent the mounting plate 130 from being deformed or cracked due to the load generated by the power generation module M.

The support unit 140 is installed on the main deck D formed on the upper portion of the floating structure 110 on both sides (left and right sides) And a plurality of center supports 132 installed on the main deck D in the center of the upper portion of the floating structure 110.

A cargo handling device 10 exposed on the deck D is disposed below the mounting plate 130 and a power generation module M for generating electricity is installed on the mounting plate 130 .

4 is a cross-sectional view of a deck planarization structure and a floating storage power plant according to a second embodiment of the present invention, FIG. 5 is a plan view of a deck planarization structure of a floating structure according to a second embodiment of the present invention, 6 is a side view showing a deck flattening structure and a floating storage power generation plant of a floating structure according to a second embodiment of the present invention.

4 to 6, a floating storage power generation plant 200 according to a second embodiment of the present invention includes a plurality of liquefied gas storage tanks 220 installed in a floating structure 210. The membrane type storage tank is divided into a GT NO 96 type and a TGZ Mark III type. In the present invention, a membrane type storage tank will be described as an example.
An upper middle portion of the liquefied gas storage tank 220 protrudes upward so that a trunk deck D is formed at a central portion of an upper surface of the floating structure 210 and a main deck D1 is formed on both sides of the trunk deck D2 .

For example, the cargo handling apparatus 10 may be installed on the trunk deck D2 of the floating structure 210. [ The cargo handling apparatus 10 includes at least one of a pipe manifold, a cargo line, a liquid dome, a vapor dome, and a vent line. The space of the planar surface must be ensured in order to place the power generation module M on the floating structure 210. The present invention is characterized in that the floating structure 210 is installed at a predetermined distance from the trunk deck D2, (230).

For maintenance of the cargo handling apparatus 10, the mounting plate 230 is set at a minimum distance of 7 meters from the trunk deck D2 and is arranged at a height of 7 meters to 9 meters in consideration of the structural stability of the hull .

The support unit 240 is supported on the main deck D1 formed on the upper part of the floating structure 210 on both sides (the port side and the starboard side) And a plurality of center supports 242 mounted on a trunk deck D2 formed in the center of the upper portion of the floating structure 210. The side supports 241, The center supports 242 may be disposed between the cargo handling apparatuses 10 in one row.

The side supports 241 and the center supports 242 are disposed at regular intervals in the longitudinal direction of the hull and are set to an appropriate number in consideration of the loads of the power generation modules M mounted on the mounting plates 230. [

A cargo handling device 10 is disposed on the trunk deck D2 below the mounting plate 230 and a power generation module M for generating electricity is installed on the mounting plate 230. [

In the deck planarizing structure according to the present invention, a caro handling pipeline, a liquid dome, a gas dome, and the like exposed on the trunk deck D2 are installed on the mounting plate 230).

6, a vent mast 20 for discharging or incinerating the vapor generated in the liquefied gas storage tank 220 is connected to a common vent line (not shown) so as not to interfere with the mounting plate 230, Vent Line 30 may be installed above the floating structure 210.

The common vent line 30 is connected to each of the liquefied gas storage tanks 220 to collect the gas into one place and send it to the vent mast 20 for discharge or incineration.

The vent mast 20 may be installed at a fore or aft side of the marine structure 210 and may be disposed relatively higher than the mounting plate 230.

7 is a perspective view showing a deck flattening structure and a floating storage power generation plant of a floating structure according to a third embodiment of the present invention. A support unit 340 for supporting the mounting plate 330 includes a plurality of side supports 331 and a center support 332. The center supports 332 may be disposed on both sides of the cargo handling apparatus 10 in two rows.

The side supports 331 are disposed at regular intervals in the longitudinal direction of the hull and can be set to an appropriate number and materials in consideration of the load of the power generation module M mounted on the mounting plate 330. [

8 is a perspective view showing a deck flattening structure and a floating storage power plant of a floating structure according to a fourth embodiment of the present invention. A support unit 440 for supporting the mounting plate 430 includes a plurality of side supports 431 and a center support 432. The center supports 432 can be arranged in two rows and in between the cargo handling apparatuses 10 and on both sides.

The side supports 431 are arranged at regular intervals in the longitudinal direction of the hull and can be set to an appropriate number and materials in consideration of the load of the power generation module M mounted on the mounting plate 430. [

As described above, since the single row arrangement LNG tank vessel is intended to protect the external exposure of the liquefied gas storage tank from the trapezoidal deck, the equipment and system that can be loaded are limited because the strength is not very strong. A flat mounting plate is supported by a support unit, which enables the loading of thousands of tons of power generation modules, making it possible to use for various purposes.

In addition, in the floating liquefied gas storage power generation plant, the existing cargo handling device can be utilized as it is, and the power generation module can be stably loaded without interference between the power generation module and the cargo handling device.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, Various modifications and variations are possible within the scope of the present invention. For example, although the mounting plate of the plate member has been described in the present invention, the mounting plate may be deformed by a lattice-shaped mounting plate, and the shape of the support may be variously modified.

10: Cargo handling device
20: Bent mast
30: Common vent line
100: Floating storage power plant
110: Floating structure
120: Liquefied gas storage tank
130: Mounting plate
140: Support unit
131: Side support
132: Center support
200: Floating storage power plant
210: floating structure
220: Liquefied gas storage tank
230: Mounting plate
231: Side support
232: Center Support
240: Support unit
D: Deck
D1: Main deck
D2: Trunk deck
M: Power generation module

Claims (14)

delete delete delete delete delete delete delete A liquefied gas storage tank is installed inside the floating structure, an upper middle portion of the liquefied gas storage tank protrudes upward, a trunk deck is formed in a central portion of the upper surface of the floating structure, and main decks are formed on both sides of the trunk deck A cargo handling device is disposed above the trunk deck,
A mounting plate is installed above the trunk deck, the mounting plate is supported by a support unit, a power generation module for generating electricity is disposed on the mounting plate,
The support unit includes a plurality of side supports installed on both sides (port and starboard) on the main deck formed on the upper portion of the floating structure, and a plurality of center supports mounted on the trunk deck,
Wherein the mounting plate prevents interference between the power generation module and the cargo handling device,
A vent mast for discharging or incinerating the vapor generated in the liquefied gas storage tank is disposed above the floating structure so as not to interfere with the mounting plate and relatively higher than the mounting plate, Vent line is connected to each of the liquefied gas storage tanks to collect the gas into one place and send it to the vent mast for discharge or incineration. delete The method of claim 8,
Wherein the center supports are arranged in at least one row. delete The method of claim 8,
Wherein the cargo handling device comprises at least one of a pipe manifold, a cargo line, a liquid dome, a vapor dome, and a vent line. The method of claim 8,
Wherein the mounting plate is disposed at a height of 7 to 8 meters from the trunk deck for maintenance of the pump tower inside the liquefied gas storage tank and the liquefied gas storage tank. The method of claim 8,
Wherein at least one of a Caro Handling Pipe Line, a Liquid Dome, and a Gas Dome exposed on the trunk deck is disposed below the mounting plate. Storage power plant.

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