KR102201251B1 - Floating and storage power plant, and arrangement structure of exhaausted gas duct its - Google Patents

Abstract

The present invention relates to a floating storage-type gas combined cycle power plant and an exhaust gas duct arrangement structure of the floating-storage gas combined cycle power plant, and a gas power generation device capable of becoming a fire in a floating storage gas combined cycle power generation system is a deck of a floating structure. Insulate it at the bottom, and place the waste heat recovery device, steam turbine power generation device, and power transformer on the upper deck of the floating structure, but in the exhaust gas duct through the short distance arrangement of the gas power generation device and the waste heat recovery device. It is possible to reduce the heat loss of exhaust gas caused by, and the gas power generation device is installed in the hull under the deck, so there is no need for a separate gas power generation device room, and by separating the gas power generation device and the electric power conversion device from each other, Since the explosion-proof structure of the power converter is not required, the equipment cost can be lowered.

Description

Floating storage power plant and the exhaust gas duct arrangement structure of the floating storage power plant {FLOATING AND STORAGE POWER PLANT, AND ARRANGEMENT STRUCTURE OF EXHAAUSTED GAS DUCT ITS}

The present invention relates to a floating storage power generation plant capable of storing liquefied gas in a fuel tank of a floating structure and generating electric power using the liquefied gas, and more particularly, to an optimum of a gas power generation device and a waste heat recovery device. It relates to a floating storage power plant capable of reducing heat loss of exhaust gas through the arrangement of and an exhaust gas duct arrangement structure of the floating storage power plant.

In recent years, interest in power generation using natural gas has increased due to the demand for eco-friendly power generation.

There is a growing interest in gas power generation in emerging and developing countries where power supply is not smooth. Due to the nature of gas power generation, development is limited because power generation is possible only when a gas infrastructure such as a gas storage is provided on land.

The onshore thermal power plant has a problem that the initial installation cost of equipment is increased because the volume is too large, and there is a problem that the consumption of buildings, piping, and materials increases as the equipment and systems are independently located in a separate building.

In addition, in a conventional onshore thermal power plant, there is a problem that there is always a risk as equipment installation, tank arrangement, and tests are performed at the site, and a long construction period is required.

In particular, in the case of Southeast Asian countries consisting of several islands, it was difficult to generate large-capacity gas.

That is, there is a drawback of securing a place and requiring construction costs due to the construction of an onshore thermal power plant, and it is difficult to supply power within a short time because it takes a lot of time to construct an onshore thermal power plant.

In order to solve this problem, a floating offshore gas storage regasification facility line called FSRU (Floating Storage Re-gasfication Unit) has emerged, and gas is supplied to power plants on land using this offshore gas storage regasification facility line. Was done.

However, such power generation on land using FSRU causes a double burden of having to install FSRU at sea and build a power plant on land.

That is, there is a drawback of securing a place and requiring construction cost according to the construction of not only FSRU but also onshore power plants.

Therefore, in addition to the above-described method, a new and advanced type of floating and storage gas complex power plant that can generate electricity using the liquefied natural gas and waste heat from the gas turbine/engine while storing liquefied natural gas at sea. Plant, FSPP) is in desperate need.

Patent Publication No. 2013-0075261

The present invention is to isolate a gas power generation device, which is a firearm equipment, in a floating storage gas power generation system under the deck of a floating structure, and a waste heat recovery device, a steam turbine power generation device, and a power converter to the deck of the floating structure. ) A floating storage gas complex power plant and its floating storage power generation plant that can reduce exhaust gas heat loss from the gas power generation system by optimally arranging the exhaust gas duct by installing a waste heat recovery device on the upper part of the gas power generation device for a short distance. I would like to propose the arrangement structure of the exhaust gas duct of the plant.

In addition, in the present invention, since the gas generator is installed in the hull under the deck, it is not necessary to install a separate gas generator room, and by separating the gas generator and the electric power converter Since an explosion-proof structure is not required, a floating storage gas complex power plant that can lower equipment cost and an exhaust gas duct arrangement structure of the floating storage power plant is proposed.

In order to achieve the above object, the present invention is a floating structure in which a fuel tank is installed; A gas generator installed under the deck of the floating structure to generate electricity using the fuel gas of the fuel tank; A waste heat recovery device installed on the deck to generate steam using waste heat from the exhaust gas generated from the gas generator and disposed above the gas generator; And a steam turbine generator for generating electric power by using steam supplied from the waste heat recovery device.

The fuel tank and the gas generator are divided into partition walls under the deck of the floating structure.

The waste heat recovery device is arranged at the shortest distance directly above the gas generator to prevent heat loss to the exhaust gas duct of the gas generator.

The steam turbine generator is disposed above the fuel tank.

A power transformer is disposed above the deck to separate it from the gas generator.

Meanwhile, according to the present invention, a waste heat recovery device is installed on the deck so that the gas generator generates electricity using the fuel gas stored in the floating structure and generates steam using the waste heat of the exhaust gas generated from the gas generator. And, as a floating storage type power generation plant in which a steam turbine power generation device is installed on the deck to generate power from the steam supplied from the waste heat recovery device, a waste heat recovery device is disposed above the gas power generation device to optimally arrange an exhaust gas duct. Thus, there is provided an exhaust gas duct arrangement structure of a floating storage power plant that prevents heat loss to the exhaust gas duct of the gas power generation device.

A power converter is disposed above the deck to separate it from the gas generator.

The gas power generation device and the waste heat recovery device are disposed adjacent to each other, and the gas power generation device is installed in a hull of the floating structure.

As described above, the present invention isolates the gas power generation device, which is a firearm device, in the floating storage power generation system under the deck of the floating structure, and floats the waste heat recovery device, the steam turbine power generation device, and the power transformer. Arranged on the deck of the structure, but by arranging the waste heat recovery device above the gas power generation device, it is possible to effectively reduce the heat loss of exhaust gas due to the exhaust gas duct of the gas power generation device.

In addition, in the present invention, since the gas power generation device is installed on the hull under the deck, it is not necessary to install a separate gas power generation device room, and by separating the gas power generation device and the electric power conversion device from each other, the power conversion device It does not require the explosion-proof structure, so the equipment price can be lowered.

1 is a side view showing a floating storage power plant according to a preferred embodiment of the present invention
2 is a plan view showing a floating storage power plant according to a preferred embodiment of the present invention

Hereinafter, a floating storage type power plant according to a preferred embodiment of the present invention and an exhaust gas duct arrangement structure of the floating storage type power plant will be described in detail with reference to the accompanying drawings.

1 is a side view showing a floating storage power plant according to a preferred embodiment of the present invention, Figure 2 is a plan view showing a floating storage power plant according to a preferred embodiment of the present invention.

1 and 2, the floating storage power generation plant according to a preferred embodiment of the present invention stores liquefied gas (LNG) in the fuel tank 110 of the floating structure 10, and uses the liquefied gas to power It can produce (electricity).

A gas generator 120 is installed under the deck 11 of the floating structure 10 to vaporize the liquefied gas in the fuel tank 110 and generate electricity using the vaporized fuel gas.

Here, the gas generator 120 is defined as a concept including both a gas turbine and an engine. The gas generator 120 may use a gas turbine and an engine together, or may use a gas turbine and an engine, respectively. Examples of the engine include MDT's 2-stroke low-speed high-pressure gas injection engine (MEGI), Vacilla's medium-speed 4-stroke DFDE engine, and Vacilla's 2-stroke low-speed low-pressure gas injection engine.

A waste heat recovery device 130 is disposed on the deck 11 to generate steam using waste heat of the exhaust gas generated from the gas power generation device 120, and the waste heat recovery device 130 is the gas power generation device. It is placed at the shortest distance from (120). That is, the waste heat recovery device 130 is disposed above the gas generator 120, more preferably directly above the gas generator 120.

Directly above the fuel tank 110, the steam turbine generator 140 for generating electricity using steam supplied from the waste heat recovery device 130 is disposed.

Power conversion devices 151 and 152 are disposed above the deck 11 to separate from the gas generator 120 which is a fire facility. The power converter 151 is for a gas power generation device and the power converter 152 is used for the steam turbine power generation device.

In the exhaust gas duct arrangement structure of a floating storage power plant according to a preferred embodiment of the present invention, a waste heat recovery device 130 is disposed at the shortest distance from the gas power generation device 120 to provide the exhaust gas duct of the gas power generation device 120 ( 121) to prevent heat loss.

A steam turbine generator 140 that generates electric power using steam supplied from the waste heat recovery device 130 is installed on the deck 11. The steam turbine power generation device 140 and the waste heat recovery device 130 are disposed adjacent to each other.

Below the deck 11 of the floating structure 10, the fuel tank 110 and the gas generator 120 are divided into partition walls W to prevent an explosion hazard.

Since the gas generator 120 is installed in the hull of the floating structure 10, it is not necessary to install a separate gas generator room. Here, the gas generator 120 is defined as a concept including a gas turbine and a generator, and the steam turbine generator is a concept including a steam turbine and a generator.

A brief description of the operation of the floating storage power plant according to a preferred embodiment of the present invention configured as described above is as follows.

The gas generator 120 generates electricity by using fuel gas. The exhaust gas of the gas generator 120 is supplied to the waste heat recovery device 130 without heat loss through the exhaust gas duct 121, and the waste heat recovery device 130 generates steam using waste heat, and Steam is supplied to the steam turbine generator 140.

The steam turbine generator 140 generates electricity by using steam. The steam generated in the steam turbine generator 140 is condensed into water by a condenser (not shown), and the water condensed in the steam turbine generator 140 is recovered to the waste heat recovery device 130.

As described above, the present invention isolates the gas power generation device, which is a firearm device, in the floating storage power generation system under the deck of the floating structure, and floats the waste heat recovery device, the steam turbine power generation device, and the power transformer. Arranged on the deck of the structure, but through the short distance arrangement of the gas generator and the waste heat recovery device, it is possible to effectively reduce the heat loss of the exhaust gas due to the exhaust gas duct.

In addition, in the present invention, since the gas power generation device is installed on the hull under the deck, it is not necessary to install a separate gas power generation device room, and by separating the gas power generation device and the electric power conversion device from each other, the power conversion device It does not require the explosion-proof structure, so the equipment price can be lowered.

In addition, although the present invention has been described through limited embodiments and drawings, the present invention is not limited thereto, and the technical spirit of the present invention and the claims described below by those of ordinary skill in the art to which the present invention pertains. Various modifications and variations are possible within the uniform range of the range.

10: Floating power plant
11: deck
110: fuel tank
120: gas generator
121: exhaust gas duct of the gas generator
130: waste heat recovery device
140: steam turbine generator
151,152: power inverter
W: bulkhead

Claims (13)

A floating structure in which a fuel tank is installed inside;
A gas generator installed under the deck of the floating structure to generate electricity using the fuel gas of the fuel tank;
A waste heat recovery device installed on the deck to generate steam using waste heat from the exhaust gas generated from the gas generator;
A steam turbine generator for generating electric power using steam supplied from the waste heat recovery device; And
Includes; an exhaust gas duct connected to supply exhaust gas from the gas generator to the waste heat recovery device,
The waste heat recovery device and the gas power generation device are isolated with the deck interposed therebetween, and the waste heat recovery device is installed above the deck directly above the gas power generation device, so that the length of the exhaust gas duct becomes the minimum length. Floating storage power plant. delete The method according to claim 1,
A floating storage type power plant, characterized in that the fuel tank and the gas generator are divided into partition walls under the deck of the floating structure. delete The method according to claim 1,
A floating storage power plant, characterized in that the steam turbine generator is disposed directly above the fuel tank. The method according to claim 1,
A floating storage power plant, characterized in that a power conversion device is disposed on the deck above the gas generator. The method according to claim 1,
The gas generator is a floating storage power plant, characterized in that it comprises both a gas turbine and an engine. The method of claim 7,
The gas generator is a floating storage type power plant, characterized in that either a configuration using a gas turbine and an engine together, or a configuration using each of the gas turbine and engine. The method of claim 7 or 8,
The engine is a floating storage power generation plant, characterized in that any one of MDT's 2-stroke low-speed high-pressure gas injection engine (MEGI), Bachilla's medium-speed 4-stroke DFDE engine, and Bachilla's 2-stroke low-pressure gas injection engine. delete delete delete delete

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