KR20150103428A - Mobile type floating storage power generation plant and accomodation arrangement structure - Google Patents

Abstract

The present invention relates to a mobile type floating storage power generation plant gasifying a liquefied natural gas stored in a cargo hold of the liquefied natural gas, and having a thermal power generation module generating power using the fuel gas. An accommodation having a wheelhouse and an engine room, where various facilities are installed, are installed in an optimal position to secure a view during operation and improve work efficiency. Moreover, a steam turbine power generation module is disposed inside the engine room in order to be capable of optimizing a length of a hull to be minimized rather than the hull installed in an upper portion of an offshore structure, and to secure accessibility in the accommodation and optimize a steam line.

Description

[0001] MOBILE TYPE FLOATING STORAGE POWER GENERATION PLANT AND ACCOMODATION ARRANGEMENT STRUCTURE [0002]

The present invention relates to a portable floating storage power plant having a thermal power generation module capable of vaporizing liquefied natural gas stored in a liquefied natural gas storage window and generating electricity using the vaporized fuel gas, and more particularly, A portable floating storage power plant that can secure the view and improve the efficiency of the operation by arranging the Accommodation and the Machinery Space with various equipments in the optimum position and the residence of the portable floating storage power plant And the like.

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 equipment 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. That is, a separate natural gas storage facility, a gasification facility, and a power generation facility are respectively located.

In order to produce electricity through the combined thermal power plant after storing and regenerating liquefied natural gas, a space is required for people to stay at all times. In a floating storage power plant, this is called "accommodation".

In the case of a floating storage power plant in which FSRU (Floating Storage Re-gasification Unit) that moves and a combined cycle power plant are fused, the steering room for the sailing is installed in the residence so that it greatly affects the layout of the residence.

No. 10-2011-0040119 Publication No. 10-2012-0041814

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a side view showing an arrangement structure of a residence in a portable floating storage power plant. FIG.

1, a thermal power generating module 20 and a housing 30 may be installed in an upper space of the floating storage regenerating unit 10. The thermal power generating module 20 may include a floating storage regenerating unit (30) may be installed on the aft side of the floating storage regenerating apparatus (10).

A liquefied natural gas storage window 40 is disposed below the thermal power generation module 20, that is, below the main deck D, and an engine room 50, in which viewing equipment is installed, .

A propeller (60) for propulsion can be installed at the stern of the floating storage regenerator (10).

1, it is easy for the operator to move from the residence 30 to the engine room 50 because the engine room 50 is disposed at the lower portion of the residence 30. However, It is possible to assume a problem that it is difficult to secure the operating visibility in the steering chamber 31 in the housing 30 at the time of the operation because the engine 30 is installed on the stern side of the floating storage regenerating apparatus 10. [

In order to solve the problem occurring in the portable floating storage power plant of FIG. 1, a portable floating storage power plant as shown in FIG. 2 can be assumed.

2 is a side view showing another arrangement structure of a dwelling in a portable floating storage power plant.

2, a thermal power generating module 20 and a housing 30 are installed in an upper space of the floating storage regenerating unit 10. The thermal power generating module 20 and the housing 30 are installed in the upper portion of the floating storage regenerating unit 10, And a thermal power generation module 20 may be installed on the stern side of the floating storage regenerating unit 10.

A liquefied natural gas holding window 40 is disposed below the main deck D where the residence 30 is installed and an engine room in which viewing equipment is installed below the main deck D where the thermal power generation module 20 is installed (50) may be disposed. A propeller (60) for propulsion can be installed at the stern of the floating storage regenerator (10).

2, since the residence 30 is disposed on the forward side of the floating storage regasification plant 10, it is possible to detect the operating visibility in the wheelhouse 31 in the residence 30, However, since the residence 30 is located far away from the engine room 50, it is possible for the operator to incur inconveniences in work such as equipment / material supply and the like, and to lower the efficiency of the work.

Accordingly, the present invention can secure an occupant's safety in terms of visibility during operation, efficiency of operation and gas explosion by locating the residence, the engine room equipped with various equipments, and the liquefied natural gas storage window at the optimum position, A portable floating storage power plant that avoids environmental problems and minimizes the risk of site work by maximizing yard drying and commissioning yards is provided. .

In addition, the present invention can drastically reduce the consumption of building and piping materials due to dismal land layout through optimized placement of a power plant in FSRU, and can build a unique power generation model by applying the merits of ships and offshore structures to thermal power generation And a portable floating storage power plant.

According to an aspect of the present invention, there is provided a thermal power generating module and a housing in an upper space of a marine structure having a liquefied natural gas storage window, the thermal power generating module being disposed at a stern side of a marine structure The residence is provided with a portable floating storage power plant disposed on the forward side of the offshore structure.

The thermal power generation module includes a gas turbine and / or an engine generator, a heat recovery steam generator (HRSG), a steam turbine generator module, and a power converter.

The liquefied natural gas holding window may be disposed below the thermal power generation module, and a Machinery Space may be disposed below the housing.

The structure of the occupant side arrangement structure of the dock so as to ensure the visibility in the wheelhouse in the dwelling at the time of navigation and to shorten the approach distance to the engine room is the shortest.

A propeller is located at the stern of the offshore structure, and the offshore structure is defined as a concept including a floating storage regasification facility (FSRU).

The residence may be aligned with the thermal power generation module along a forefront direction (longitudinal direction of the rescue structure) of the sea resisting structure.

According to another aspect of the present invention, there is provided a portable floating storage power plant having a thermal power generation module for generating electric power using liquefied natural gas as fuel and a propeller for propulsion for navigation, A portable floating storage power plant is provided.

As described above, the present invention is a portable floating storage power plant having a thermal power generation module capable of vaporizing liquefied natural gas stored in a liquefied natural gas storage window and generating electricity using vaporized fuel gas, And the engine room equipped with various equipments can be arranged in the optimum position, thereby securing the visibility during operation and improving the efficiency of the operation.

In addition, since the liquefied natural gas storage window is disposed at the farthest distance from the residence, the present invention has the effect of minimizing the risk of personal injury due to gas explosion.

In addition, the present invention avoids problems with the product and the environment, maximizes the yard drying and commissioning performance, and minimizes the risk associated with site work.

Further, the steam turbine power generation module is disposed in the engine room, so that the length of the hull can be optimized to the shortest length as compared with a hull for installing the steam turbine power generation module on the top of the sea structure, The line can be optimized.

In addition, it will minimize the construction of the sites required for the facilities and enable the gas power infrastructure to be supplied in a short time in areas without gas infrastructure.

1 is a side view showing a layout structure of a dwelling unit in a portable floating storage power plant
2 is a side view showing another arrangement structure of a dwelling in a portable floating storage power plant
3 is a side view of a movable floating storage power plant according to a preferred embodiment of the present invention,
4 is a side view showing a structure in which the steam turbine power generation module 113 is disposed in the engine room 160
5 is a view showing a thermal power generation module in a portable floating storage power plant according to a preferred embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a movable floating storage power plant according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

3 is a side view showing a structure of a movable floating storage power plant according to a preferred embodiment of the present invention and a layout structure of the floating floating storage power plant.

3, a portable floating storage power plant 100 according to a preferred embodiment of the present invention includes a thermal power generation module 110 for generating electric power using liquefied natural gas as fuel and a propeller 120 .

The thermal power generation module 110 includes a gas turbine and / or engine power generation device 111, a waste heat recovery device 112, and a steam turbine power generation device 113.

The propeller 120 may be a thruster or a propeller. The propeller 120 may be driven by electric power produced by a gas turbine and / or an engine generator 111 or other drive source described later.

A residence 130 is disposed on the forward side of the offshore structure 150. Here, the sea structure 150 is defined as a concept including a simple floating structure as well as a floating storage re-gasification unit (FSRU).

A vaporizer (not shown) of the floating storage regeneration plant vaporizes LNG supplied from the storage tank 120 using natural gas such as seawater or steam, and converts the natural gas into natural gas and supplies it to the gas turbine and / For example, on the main deck (D) of the offshore structure (150).

The portable floating storage power generation plant 100 according to the preferred embodiment of the present invention is constructed such that the upper space of the sea structure 150 having the liquefied natural gas storage window 140, A module 110 and a housing 130 are installed.

The thermal power generating module 110 is disposed at the stern side of the sea structure 150 and the housing 130 is connected to the sea structure 150. In the present embodiment, (150).

The liquefied natural gas storage window 140 is disposed below the main deck D of the offshore structure 150 in which the thermal power generation module 110 is installed.

A machinery space 160 may be disposed below the main deck D of the offshore structure 150 in which the lower portion of the residence 130 is installed.

The view side can be secured in the steering chamber 133 in the housing 130 at the time of the operation and the approach distance to the engine room 160 is shortened by the shortest distance.

The residence 130 may be aligned with the thermal power generation module 110 along the aft aft direction of the offshore structure 150.

The housing 130 includes a plurality of layers from a lowermost main deck 131 to a top deck 134 at the uppermost level and a wheelhouse 133 is positioned below the top deck 134 And a plurality of decks 132 may be positioned between the wheelhouse 133 and the main deck 111.

4 is a side view showing a structure in which the steam turbine power generation module 113 is disposed in the engine room 160. The steam turbine power generation module 113 of the thermal power generation module 110 may be disposed in the engine room 160 have.

Generally, a cooling water facility, an utilities facility, a lubrication facility, and the like are installed in the engine room 160. In the present invention, a cooling water facility, an utilities facility, a lubrication equipment, And the steam turbine power generation module 113 is optimally disposed in the secured space so that the length of the ship can be optimized to the shortest length as compared with a ship that installs the steam turbine power generation module 113 on the sea structure 150, 130), and it is possible to optimize the steam line.

5 is a view showing a thermal power generation module in a portable floating storage power plant according to a preferred embodiment of the present invention.

5, the thermal power generation module 110 includes a gas turbine and / or an engine generator 111, a waste heat recovery device (HRSG) 112, a steam turbine power generation module, a power converter, .

Means that the gas turbine and / or engine generator 111 can be composed of a gas turbine + a gas engine, a gas turbine, and a gas engine, among which the combined-cycle power generation of a gas turbine + Do.

The gas engine can use MDT's 2 Stroke low-speed high-pressure gas injection engine (MEGI), Bachilla's medium-speed 4-stroke DFDE engine, and Bachila's 2 Stroke low-speed gas injection engine.

The gas turbine and / or engine generator 111 vaporizes liquefied natural gas in a vaporizer (not shown) and produces electricity using the vaporized gaseous fuel, and a waste heat recovery device (HRSG) And recover the waste heat of the gas turbine and / or the engine generator 111 to generate steam of high temperature and high pressure.

The low-pressure and high-pressure steam of the waste heat recovery unit (HRSG) 112 is supplied to the steam turbine 113, and the steam turbine 113 is configured to produce electricity using such steam.

The generator G is powered by the gas turbine and / or the engine generator 111 and the steam turbine. The generator G may be constructed as a single structure, or may be constructed from the gas turbine and / or the engine generator 111 and the steam turbine And may be of a plurality of structures to obtain power. The electric power generated by the generator (G) can be supplied to a power demand site on the land via a power cable (not shown).

The steam generated in the steam turbine 113 is condensed by the condenser 114 and the condensate pump 115 supplies the condensed water to the waste heat recovery unit (HRSG) 112 again.

The condenser 114 draws and cools the sea water using a seawater pump P to cool the hot steam.

Here, the gas turbine and / or engine generator 111 may use a gas turbine and an engine together, or may use a gas turbine and an engine, respectively. Examples of gas engines include MDT's 2 Stroke low-speed high-pressure gas injection engine (MEGI), Bachilla's medium-speed 4-stroke DFDE engine, and Bachila's 2 Stroke low-speed gas injection engine.

A water treatment / cooling unit (not shown) may be installed in the offshore structure 150 to physically or chemically treat and purify wastewater generated during power generation, and to provide cooling water for cooling the power generation related facilities.

The operation and effect of the portable floating storage power plant constructed as described above will be described below.

The portable floating storage power generation plant 100 of the present invention has a liquefied natural gas storage window 140 and a propeller 170 unlike an existing floating power generation plant.

That is, the portable floating storage power plant of the present invention stays in any one of the sea, vaporizes the liquefied natural gas stored in the liquefied natural gas storage window 140, generates electricity using the vaporized fuel gas, To move to another place.

In the portable floating storage power plant 100 of the present invention, the thermal power generation module 110 is disposed at the stern side of the sea structure 150 and the habitat 130 is disposed at the fore side of the sea structure 150 So that it is possible to secure a view during operation in the wheelhouse 133 of the residence 130.

In addition, since the machinery space 160 is disposed under the residence 130, the access distance from the residence 130 to the engine room 160 can be shortened, thereby improving work efficiency.

In addition, since the liquefied natural gas storage window 140 is disposed at the farthest distance from the residence 130, there is an effect that the risk of personal injury due to gas explosion can be minimized.

In addition, the steam turbine power generation module is installed in the engine room, it is possible to optimize the length of the hull shorter than the hull which installs the steam turbine power generation module on the top of the sea structure, .

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 an even range.

100: Portable floating storage power plant
110: Thermal power module
111: Gas turbine and / or engine generator
112: waste heat recovery device
113: Steam turbine
114: condenser
115: Condensate pump
120: propeller
130: Residential District
133: Wheel room
140: Liquefied natural gas storage
150: Offshore structures
160: Engine room
P: Sea water pump

Claims (11)

A thermal power generation module and a residence are installed in an upper space of a marine structure provided with a liquefied natural gas holding window. The thermal power generation module is disposed at a stern side of the marine structure, the residence is disposed at a forward side of the marine structure, Wherein the propeller is disposed at the stern of the sea structure. The method according to claim 1,
The thermal power generation module includes a gas turbine and / or an engine power generation device, a waste heat recovery device, a steam turbine power generation module, and a power converter. The method of claim 2,
Wherein the liquefied natural gas storage window is disposed below the thermal power generation module, and a Machinery Space is disposed under the residence. The method of claim 3,
And the steam turbine power generation module is disposed in the engine room. The method according to claim 1,
And a structure in which the visibility can be secured in the wheelhouse in the residence and the approach distance from the engine room is shortened by the arrangement structure on the bow side of the residence. The method according to claim 1,
Wherein the residence is aligned with the thermal power generation module along a forefront direction of the marine structure. The method according to claim 1,
Wherein the marine structure includes a floating storage regeneration facility. A portable floating storage power plant having a thermal power generation module for generating electric power using liquefied natural gas as fuel and a propulsion unit and a living quadrant for propulsion for navigation in a navigation system, A portable floating storage power plant. The method of claim 8,
Wherein the liquefied natural gas storage window is disposed under the thermal power generation module, and the engine room is disposed under the residence. The method of claim 9,
And a structure in which the visibility can be secured in the wheelhouse in the residence and the approach distance from the engine room is shortened by the arrangement structure on the bow side of the residence. A residential shed is provided at the upper part of a deck of a marine structure having a liquefied natural gas holding window, and the residence is disposed at a forward side of the rescue structure and is provided with a movable floating storage power plant Residential District Layout Structure.

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