KR20120066823A - Marine lng storage and combined cycle power generating unit - Google Patents

Abstract

PURPOSE: An offshore LNG storage and combined cycle power generator is provided to make a gas storage facility and gas power facility requiring for constructing a gas power plant in areas where gas infrastructure does not exist to one facility and to reduce components required for the construction of the gas power plant by arranging the gas plant facility on the top or inside the offshore gas storage facility. CONSTITUTION: An offshore LNG storage and combined cycle power generator comprises a storage tank(120), an evaporation unit(130), a gas turbine(140), a heat recovery steam generator(150), a steam turbine(160), and a generator(170). The storage tank is arranged in a hull and stores LNG. The evaporation unit vaporizes the LNG supplied from the storage tank. The gas turbine is operated by using natural gas vaporized in the evaporation unit as fuel. The heat recovery steam generator generates steam using waste heat of exhaust gas generating from the gas turbine. The steam turbine is operated by the steam generating in the heat recovery steam generator. The generator obtains the power of the gas turbine and the steam turbine to generate electricity.

Description

Marine LNG storage and combined cycle power generating unit

The present invention relates to an offshore LNG storage and combined cycle power generation unit, which combines an offshore gas storage facility and a gas combined cycle power plant into one to be dried in the form of a ship. It's about the unit.

Recently, as the demand for environmentally friendly power generation, interest in power generation using natural gas has increased. In particular, with the emergence of a combined cycle power plant technology that recovers waste heat and drives steam turbines, demand for gas power generation is increasing due to increased efficiency of gas power generation and stabilization of falling gas prices.

On the other hand, there is a growing interest in gas power generation in emerging economies where power supply is not desired. Gas power generation has been limited in terms of development because it is possible to generate electricity only when there is a gas infrastructure such as gas storage on land. Moreover, in the case of Southeast Asian countries, which consist of several islands, it was difficult to generate a large amount of gas.

In order to solve such a problem, an offshore gas storage called FSRU (Floating Storage Re-gasfication Unit) has emerged, and the offshore gas storage has been used to supply gas to onshore power plants.

However, such land-based development using FSRUs creates a double burden of installing FSRUs at sea and building power plants on land. That is, as well as FSRU, there was a problem of securing the place and the cost of construction due to the construction of land power plants. In particular, it takes a lot of time to build a land power plant had a problem that it is difficult to perform the power supply in a short time.

The present invention is to solve the conventional problems as described above, when constructing a gas power generation facility in a country without a gas infrastructure, the offshore gas storage facility and a combined gas power plant separately built into one facility, This will allow the shipbuilding to be built in the form of ships, which will drastically reduce construction air and costs, minimize the construction of sites required for the facility, and provide gas power generation infrastructure in a short time to areas without gas infrastructure. .

According to an aspect of the present invention for achieving the above object, in the unit located at sea, provided in the hull, the storage tank for storing LNG; vaporization unit for vaporizing the LNG supplied from the storage tank; A gas turbine operated using natural gas vaporized by a fuel; a waste heat recovery boiler generating steam using waste heat of exhaust gas generated from the gas turbine; operating by steam generated by the waste heat recovery boiler. Steam turbines; And it provides an offshore LNG storage and combined cycle power generation unit comprising a generator for generating power by the power of the gas turbine and the steam turbine.

The hull is characterized in that the gas turbine, the waste heat recovery boiler, the steam turbine and the generator is installed on the top of the deck or installed inside.

The hull is characterized in that the gas turbine, the waste heat recovery boiler, the steam turbine and the generator is installed over and inside the deck.

The hull is characterized in that the water treatment / cooling unit for treating the wastewater generated by the power generation and providing a cooling water for the cooling of the power-related facilities.

According to another aspect of the present invention, in a unit floating on the sea, generated by using a gas turbine operated by vaporizing the LNG supplied from the storage tank of the hull as a fuel and the waste heat of the exhaust gas generated from the gas turbine It provides an offshore LNG storage and combined cycle power generation unit characterized in that the power is obtained by operating the generator by the power of the steam turbine operated by the steam.

According to the present invention, it is possible to supply the gas storage and gas power generation facilities required for the construction of a gas power plant in an area without a gas infrastructure as a single facility, and by placing the gas power generation facilities in the upper or inside secured in the offshore gas storage in advance It can reduce construction air and cost by drastically reducing the components necessary for the construction of power plants, minimize the construction of sites, and build them in shipyards in the form of ships to dramatically reduce the time and cost required for construction. It can reduce, minimize the site's environmental impact, and deliver gas power infrastructure in a short time to areas without gas infrastructure.

1 is a block diagram showing an offshore LNG storage and combined cycle power generation unit according to a first embodiment of the present invention, and
2 is a block diagram showing a marine LNG storage and combined cycle power generation unit according to a second embodiment of the present invention.

Hereinafter, the configuration and operation of the preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings. In addition, the following examples can be modified in various forms, and the scope of the present invention is not limited to the following examples.

1 is a block diagram showing an offshore LNG storage and combined cycle power generation unit according to a first embodiment of the present invention.

As shown in FIG. 1, the offshore LNG storage and combined cycle power generation unit 100 according to the first embodiment of the present invention is a unit located at sea to store LNG and perform power generation. Evaporation unit 130 for vaporizing the LNG stored in the storage tank 120, gas turbine 140 that operates using the natural gas vaporized by the vaporization unit 130 as a fuel, and generated from the gas turbine 140 It includes a steam turbine 160 that is operated by the steam generated by using the waste heat of the exhaust gas to operate, the electric power is operated by operating the generator 170 by the power of the gas turbine 140 and the steam turbine 160.

The hull 110 may have a variety of structures for floating on the sea, in this embodiment, the power generation equipment 190, for example, the gas turbine 140, waste heat recovery boiler 150, steam turbine 160 and generator ( 170 is installed on top of the deck (111).

The storage tank 120 is provided inside the hull 110 and is supplied with LNG from the LNG carrier 1 and stored to maintain the cryogenic state, and has a material and a structure to withstand cryogenic temperatures.

The vaporization unit 130 vaporizes the LNG supplied from the storage tank 120 by using fruits such as sea water and steam to be natural gasized to be supplied to the gas turbine 140, for example, the deck 111 of the hull 110. It can be installed on). Accordingly, the vaporization unit 130 may include a fruit generating unit and a fruit supply unit to supply the fruit to the supply path of the LNG to vaporize the LNG by heat exchange with the fruit.

The gas turbine 140 operates by using the natural gas vaporized by the vaporization unit 130 as a fuel. For example, the gas turbine 140 operates by injecting and burning fuel in a state of compressed air at high pressure to obtain power to operate the generator 170. Let's do it. Meanwhile, the waste heat is recovered from the high temperature exhaust gas through the waste heat recovery boiler 150 without releasing the high temperature exhaust gas discharged from the gas turbine 140 to the atmosphere.

The waste heat recovery boiler 150 generates steam of high temperature and high pressure by using heat of exhaust gas generated from the gas turbine 140 to be supplied to the steam turbine 160.

The steam turbine 160 operates by steam generated from the waste heat recovery boiler 150 to operate the generator 170.

Generator 170 is generated by the power of the gas turbine 140 and the steam turbine 160, it may be made of a single, or may be made of a plurality to obtain power from each of the gas turbine 140 and steam turbine 160. have. The power produced by the generator 170 is supplied to the power source 2 of the land through the power cable.

The hull 110 may be equipped with a water treatment / cooling unit 180 which purifies wastewater generated by power generation physically or chemically and provides cooling water for cooling power generation-related facilities. As in the present embodiment, the hull 110 may be installed. 110 may be installed inside.

2 is a block diagram showing a marine LNG storage and combined cycle power generation unit according to a second embodiment of the present invention.

As shown in FIG. 2, the offshore LNG storage and combined cycle power generation unit 200 according to the second embodiment of the present invention has the same configuration as the offshore LNG storage and combined cycle power generation unit 100 according to the first embodiment. Branches, but a power plant 290, such as gas turbines, waste heat recovery boilers, steam turbines, and generators may be installed inside or inside the hull 210 and over the top of the deck 211. Therefore, the power generation equipment 290 may be installed in the space left by the storage tank 220 in the interior of the hull 210. At this time, the vaporization unit 230 and the water treatment / cooling unit 280 may be installed on the deck 211 of the hull (210).

The operation of the offshore LNG storage and combined cycle power generation unit according to the present invention will be described.

According to the offshore LNG storage and combined cycle power generation unit (100,200) according to the present invention, by providing the power generation facilities of the gas power plant in the offshore gas storage facility FSRPGU (Floating Strorage Re-gasfication Power Generating to perform the gas storage and power generation at sea) Unit) concept can be proposed.

In addition, the power generation facilities in the offshore LNG storage and combined cycle power generation unit (100,200) according to the present invention is compact in size compared to the power generation facilities due to other forms of onshore power plants, and thus the storage tanks in the hull (110,210) There is a lot of space left on the top or side of the 120,220, for this reason it can be easily installed on the top or inside of the hull (110,210).

In addition, according to the marine LNG storage and combined cycle power generation unit (100,200) according to the present invention, when constructing a gas power generation facility in a country without a gas infrastructure, a separate construction of the offshore gas storage facility and gas combined cycle power plant as one facility By integrating them and building them in shipyards, construction air and costs can be drastically reduced. In addition, to minimize the construction of the site (Site) required for the facility, it is possible to supply a gas power generation infrastructure in a short time to the area without the gas infrastructure.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit and scope of the invention will be.

1: LNG Carrier 2: Power Requirements
110,210: Hull 111,211: Deck
120,220: Storage tank 130,230: Vaporizer
140: gas turbine 150; Waste Heat Recovery Boiler
160: steam turbine 170: generator
180,280: Water treatment / cooling unit 190, 290: Power plant

Claims (5)

In units located at sea,
A storage tank provided in the hull and storing LNG;
A vaporization unit for vaporizing LNG supplied from the storage tank;
A gas turbine operated using natural gas vaporized by the vaporization unit as a fuel;
A waste heat recovery boiler for generating steam by using waste heat of exhaust gas generated from the gas turbine;
A steam turbine operated by steam generated by the waste heat recovery boiler; And
Generator that generates power by the power of the gas turbine and the steam turbine
Offshore LNG storage and combined cycle power unit comprising a. The method according to claim 1, wherein the hull
Marine gas storage and combined cycle power generation unit, characterized in that the gas turbine, the waste heat recovery boiler, the steam turbine and the generator is installed on the top of the deck, or installed inside. The method according to claim 1, wherein the hull
Marine gas storage and combined cycle power generation unit, characterized in that the gas turbine, the waste heat recovery boiler, the steam turbine and the generator is installed over and inside the deck. The offshore LNG storage according to any one of claims 1 to 3, wherein a water treatment / cooling unit is installed in the hull to provide the cooling water for treating the wastewater generated by the power generation and for cooling the power generation related facilities. And combined cycle power generation units. In units floating at sea,
The generator is operated by the power of a steam turbine operated by steam generated by using the gas turbine operated by vaporizing LNG supplied from the storage tank of the hull as a fuel and the waste heat of the exhaust gas generated from the gas turbine. Offshore LNG storage and combined cycle power unit characterized in that it is obtained.

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