KR20150026688A - Floating and Storage Gas Power Plant and Reclaimed Type Construction Method - Google Patents

Abstract

The present invention relates to a floating storing gas power plant. According to the present invention, a reclamation type construction method of the floating storing gas power plant comprises: a cargo system storing a liquefied natural gas into a floating structure, and loading and off-loading the liquefied natural gas; a fuel gas supply system installed in the floating structure in order to supply the vaporized liquefied natural gas of the cargo system as a fuel gas; and a gas turbine/engine power system having a gas power generation unit operated by the fuel gas supplied from the fuel gas supply system, and having a first generator which generates power by the gas power generation unit. A lower portion of the floating structure is fixated by being reclaimed in the ground.

Description

[0001] Floating and Storage Gas Power Plant and Reclaimed Type Construction Method [

The present invention relates to a floating storage gas power plant and a method for the landfill construction of the gas power plant. More particularly, the present invention relates to a floating storage gas power plant for storing liquefied natural gas in a cargo of a floating structure in the sea, The present invention relates to a floating storage gas power plant capable of producing a gas power plant and a gas power plant by burying a lower portion of the gas power plant on the ground to firmly fix the gas power plant and a landfill construction method for the gas power plant.

In recent years, there has been an increasing interest in electric power generation 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 infrastructures such as gas reservoirs must be equipped on land.

There is a problem that the initial installation cost of the facility is increased because the capacity of the thermal power plant on the land is too large, and the consumption of building, piping, and materials increases as the facility and the system are independently located in separate buildings.

In addition, in the conventional thermal power plant, there is always a risk that a facility installation, a tank layout, and a test are performed at a site, and a long construction period is required.

Especially, in the case of Southeast Asian countries composed of several islands, it was difficult to generate large capacity gas.

In other words, there is a disadvantage that it requires a space for construction of a thermal power plant on the land and a construction cost, and it takes a lot of time to construct a thermal power plant on the land, so it is difficult to perform the power supply in a short time.

In order to solve this problem, a floatation storage gasification unit (FSRU) floating gas storage tank has been introduced, and the gas is supplied to a land power plant by using the offshore gas storage tank line .

However, land-based development using such FSRUs creates a dual burden of installing FSRUs at sea and constructing power plants on land.

In other words, it has disadvantages not only in securing FSRU but also in securing a place for construction of a power station and costing construction cost.

Therefore, in addition to the above-mentioned method, a new and advanced type of floating and storage gas power plant capable of storing liquefied natural gas at sea and producing electric power using waste heat of the liquefied natural gas and gas turbine / FSPP) is urgently required.

The present invention can store liquefied natural gas in a floating structure on the sea, produce electric power using the liquefied natural gas, and improve the workability and cost by embedding the lower part of the gas power plant at a predetermined depth on the ground. The present invention has been made in view of the above problems, and it is an object of the present invention to provide a storage type gas power generation plant and a method for embedding the gas power generation plant.

To achieve the above object, a floating storage gas power plant of the present invention comprises a cargo system for storing liquefied natural gas in a floating structure, loading and offloading liquefied natural gas; A fuel gas supply system installed in the floating structure for vaporizing and supplying the liquefied natural gas of the cargo system with the fuel gas; A gas turbine / engine power generation system including a gas power generation unit that operates with the fuel gas supplied from the fuel gas supply system, and a first generator that generates power by the gas power generation unit; A waste heat recovery steam generator for generating steam by using waste heat of the exhaust gas generated from the gas power generation unit; And a steam turbine power generation system including a steam turbine operated by steam supplied from the waste heat recovery steam generator and a second generator generating power by the steam turbine, And is fixed.

In the meantime, the landfill construction method of the floating storage gas power plant of the present invention places the lower part of the floating structure on the ground and fixes it.

The floating structure reduces the scan tilting, thereby achieving a structural weight reduction.

As described above, the present invention can produce electric power using liquefied natural gas while having a liquefied natural gas cargo in a floating structure on the sea. By embedding the lower part of the gas power plant on the ground, .

1 is a conceptual diagram showing the overall configuration of a floating storage gas power plant according to a preferred embodiment of the present invention;
2 is a perspective view of a floating storage gas power plant according to a preferred embodiment of the present invention.
3 is a rear view of a floating storage gas power plant according to a preferred embodiment of the present invention.
4 is a view for explaining the landfill construction of the floating storage gas generating plant of the present invention

Hereinafter, a floating storage gas power plant according to a preferred embodiment of the present invention and a buried construction method of the gas power plant will be described in detail with reference to the accompanying drawings.

FIG. 1 is a conceptual view showing the entire configuration of a floating storage gas power generation plant according to a preferred embodiment of the present invention, FIG. 2 is a perspective view showing a floating storage gas power generation plant according to a preferred embodiment of the present invention, FIG. 4 is a view for explaining the landfill construction of the floating storage gas plant of the present invention. FIG.

1 to 4, a floating storage gas power plant according to a preferred embodiment of the present invention stores liquefied natural gas (LNG) in cargoes 1100 and 1200 of a floating structure 10, Can be used to produce power (electric power).

A floating storage gas power plant according to a preferred embodiment of the present invention includes a cargo system 1000 for storing liquefied natural gas (LNG) in a floating structure 10, loading and offloading liquefied natural gas; A fuel gas supply system 2000 installed in the floating structure 10 to vaporize and supply liquefied natural gas of the cargo system 1000 with a fuel gas; A gas power generating unit 3100 that operates with the fuel gas supplied from the fuel gas supplying system 2000 and a first generator 3200 that generates electric power by the gas power generating unit 3100, / Engine power generation system 3000; A waste heat recovery steam generator 4000 for generating steam by using waste heat of the exhaust gas generated from the gas power generation unit 3100; A steam turbine 5100 operated by steam supplied from the waste heat recovery steam generator 4000 and a second generator 5200 generating electricity by the steam turbine 5100, And a power generation system 5000.

Here, for convenience of explanation, the gas turbine / engine power generation system 3000, the waste heat recovery steam generator 4000, and the steam turbine power generation system 5000 are all defined as a power generation unit. Here, the gas power generating unit includes a gas turbine / engine, and is defined as a concept including a gas turbine and a gas engine.

The power generation unit further includes a condenser (C) for cooling and condensing the steam supplied from the waste heat recovery steam generator (4000) into water in the steam turbine (5100).

Further, the gas turbine / engine power generation system 3000 is defined as a concept including a gas turbine and a gas engine.

The condenser C is connected to a seawater supply system 6100 described later. The sea water supply system 6100 serves to cool the condenser C by using seawater.

In addition, the floating structure 10 is defined as a concept including both a structure floating on the sea, and a structure fixed on the sea floor by a fixing means.

The floating storage gas power generation plant according to the preferred embodiment of the present invention can supply the produced electricity to the marine demanding customer 20 and / or the land demanding place 30, and can supply surplus electricity to the required places of the floating storage gas power generation plant itself .

The fuel gas supply system 2000 is configured to supply fuel gas to at least one of the gas turbine / engine power generation system 3000 and the outside of the floating structure 10, And a fuel gas supply line L for supplying fuel gas.

The cargo system (1000) includes a plurality of cargoes (1100, 1200) installed inside the floating structure (10) for storage of liquefied natural gas; And a cargo handling system 1300 for controlling loading and offloading of the cargoes 1100, 1200. Here, the cargo may be composed of two or more, but the description will be limited to the first cargo 1100 and the second cargo 1200 for convenience of explanation.

And a loading arm 1000a installed on the starboard side of the floating structure 10. The loading arm 1000a is preferably installed at the middle of the floating structure 10, And is configured to be coupled with a manifold of LNGC (LNG carrier) upon loading.

The cargo system 1000 further includes a flare unit 1400 for burning off the waste gas of the BOG. The waste gas of the BOG may be discharged to the atmosphere, but is incinerated through the flare unit 1400 in accordance with the marine regulations in consideration of the environmental protection aspect.

The cargo handling system 1300 includes a liquefied natural gas loading line 1310 for selectively storing liquefied natural gas in the plurality of cargoes 1100, 1200; A main line (1320) for sending liquefied natural gas from the other cargo not loaded among the plurality of cargoes (1100, 1200) to the fuel gas supply system (2000); A BOG offloading line 1330 connected to the fuel gas supply system 2000 to re-liquefy the BOG; And a BOG compressor 1350 for compressing the BOG of the BOG offloading line 1330 and sending it to the recondensing device 2100 of the fuel gas supply system 2000.

The gas power generation unit 3100 generates electricity from the first generator 3200 by driving using the fuel gas.

The waste heat of the exhaust gas of the gas power generation unit 3100 is supplied to the waste heat recovery steam generator 4000. The waste heat recovery steam generator 4000 generates steam by using waste heat and supplies the steam to the steam turbine 5100, .

The steam turbine 5100 generates electricity from the second generator 5200 by driving using steam.

The steam generated in the steam turbine 5100 is condensed by the condenser C and the seawater supply system 6100 supplies seawater to cool the high temperature steam generated during the operation of the waste heat recovery steam generator 4000 Cool it by pulling it.

The steam generated in the steam turbine 5100 is converted into water by the cooling process and is then recovered to the waste heat recovery steam generator 4000.

The BOG generated upon loading is compressed by the BOG compressor 1350 and then offloaded to the fuel gas supply system 2000 along the BOG offloading line 1330.

In order to replenish the steam lost in the waste heat recovery steam generator 4000, the water supply system 6300 supplies purified water from the waste water tank (replenishing water tank) 12 and the demi water tank 13 to the waste heat recovery steam generator 4000).

As shown in Fig. 4, the lower portion of the floating structure 10, on which the gas power plant is mounted, is embedded in the ground 5 and fixed.

A method of fixing a floating storage gas power plant capable of storing liquefied natural gas (LNG) in a cargo of the floating structure 10 and producing electric power using the liquefied natural gas is as follows. Can be dug to a certain depth, and the lower portion of the floating structure 10 can be embedded therein to be firmly fixed.

As described above, according to the present invention, a liquefied natural gas cargo is provided in a marine floating structure and electric power can be produced using liquefied natural gas. By embedding the lower part of the gas generating plant on the ground, can do.

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 exemplary embodiments. Various modifications and variations are possible within the scope of equivalents.

5: Ground
10: Floating structure
1000: Cargo system
1100: 1st cargo
1200: 2nd cargo
1300: Cargo handling system
1310: Liquefied natural gas loading line
2000: Fuel gas supply system
2000a: fuel gas supply line
3000: Gas turbine / engine power generation system
3100: Gas power generating unit
3200: first generator
4000: Waste Heat Recovery Steam Generator
5000: Steam turbine power generation system
5100: Steam turbine
5200: Second generator
6000: Utility System

Claims (3)

A cargo system for storing liquefied natural gas in a floating structure, loading and offloading liquefied natural gas;
A fuel gas supply system installed in the floating structure for vaporizing and supplying the liquefied natural gas of the cargo system with the fuel gas;
A gas turbine / engine power generation system including a gas power generation unit that operates with the fuel gas supplied from the fuel gas supply system, and a first generator that generates power by the gas power generation unit;
A waste heat recovery steam generator for generating steam by using waste heat of the exhaust gas generated from the gas power generation unit; And
A steam turbine power generation system including a steam turbine operated by steam supplied from the waste heat recovery steam generator and a second generator generating electricity by the steam turbine,
And a lower portion of the floating structure is embedded in the ground to be fixed. A method of constructing a floating storage gas power plant capable of storing liquefied natural gas (LNG) in a cargo of a floating structure and producing electric power using the liquefied natural gas,
Wherein the bottom of the floating structure is embedded in the ground and fixed. The method of claim 2,
Wherein the floating structure has a reduced scan tilting, thereby achieving structural and weight saving.

Images