KR101099690B1 - Inert gas supply system and LNG Floating Production Storage Offloading having the same - Google Patents

Abstract

An inert gas supply system and a liquefied natural gas production and storage facility having the same are disclosed. An inert gas supply system installed in a LNG FPSO having a liquefied natural gas storage tank and a condensate oil tank, comprising: an inert gas generating unit; A first conduit for transferring the inert gas generated from the inert gas generator to a liquefied natural gas storage tank; And a second conduit for transferring the inert gas generated from the inert gas generator to a condensate oil tank. The inert gas supply system includes an inert discharged from one inert gas generator. By providing a single inert gas supply system configured to transfer gas to the liquefied natural gas storage tank and the condensate oil tank through the first conduit and the second conduit, respectively, the installation space and the installation cost can be effectively reduced. In addition, it is possible to adjust the amount of fuel oil for generating an inert gas by having two combustion chambers, and when one is broken or repaired, it is possible to generate an inert gas as the other one, so maintenance is easy.

Inert gas, liquefied natural gas, condensate oil

Description

Inert gas supply system and LNG Floating Production Storage Offloading having the same}

The present invention relates to an inert gas supply system. More specifically, the present invention relates to an inert gas supply system installed in a floating liquefied natural gas production and storage facility (LNG FPSO).

Generally, LNG FPSOs are placed in docks for maintenance and cleaning of LNG storage tanks approximately every five years. At this time, in order to prevent the explosion caused by the flammable substances remaining in the tank during the maintenance and cleaning of the liquefied natural gas storage tank, the flammable substances in the tank should be replaced with an inert gas.

In addition, the floating liquefied natural gas production storage facility is formed a condensate oil tank (condensate oil tank) for condensing and storing the gas of the oil (oil) components that are produced together in the process of producing liquefied natural gas. At this time, condensate oil has to replace the vapor space (vapour space) inside the tank with an inert gas because there is a risk of explosion when it comes in contact with air.

To this end, the conventional floating LNG production and storage facility (LNG FPSO) has installed a device for supplying inert gas to the liquefied natural gas storage tank and condensate oil tank, respectively.

As described above, each installation of the inert gas supply device has a lot of space constraints and the installation cost is excessively increased. In addition, the device for supplying the inert gas to the condensate oil tank is continuously used in the operation of the floating LNG storage and storage facilities, while the device for supplying the inert gas to the LNG storage tank is approximately 5 years. There is a problem in that the efficiency is reduced because it is used once.

The present invention has been made to solve the above problems, an object of the present invention is to provide a single inert gas supply system configured to supply inert gas to the liquefied natural gas storage tank and the condensate oil tank, respectively, and a floating type having the same To provide liquefied natural gas production and storage facilities.

Another object of the present invention is to control the amount of fuel oil to generate an inert gas in operation to reduce the cost, easy to maintain the inert gas supply system configured to facilitate maintenance and liquefied natural gas production and storage facilities having the same To provide.

According to an aspect of the present invention, an inert gas supply system installed in a LNG FPSO having a liquefied natural gas storage tank and a condensate oil tank, one inert gas supply system, Generator; A first conduit for transferring the inert gas generated from the inert gas generator to a liquefied natural gas storage tank; And a second conduit for transferring the inert gas generated from the inert gas generator to a condensate oil tank.

At this time, the inert gas generating unit, fuel oil (fuel oil) supply unit; A combustion chamber that receives fuel oil from the fuel oil supply unit and burns the fuel oil; An air supply unit for supplying combustion air to the combustion chamber; And a seawater supply unit supplying cooling seawater to the combustion chamber.

In this case, the combustion chamber is composed of a plurality, it is preferable that at least one or more of the plurality of combustion chambers are used according to the supply amount of the inert gas.

On the other hand, the second conduit is preferably formed so as to branch from the first conduit.

In this case, the first conduit includes a first cooler for cooling the inert gas discharged from the inert gas generator and an inert gas discharged from the inert gas generator to an upstream side of the branch branched to the second conduit. It is preferable to install a demister for removal.

At this time, the first conduit is provided with a first flow control valve for adjusting the amount of inert gas flowing into the liquefied natural gas storage tank downstream of the branching point to the second conduit, the second conduit A second flow control valve for adjusting the amount of inert gas flowing into the condensate oil tank may be installed.

At this time, the first conduit may be provided with a temperature control unit for controlling the temperature of the inert gas downstream of the first flow control valve.

On the other hand, the second conduit is preferably provided with a non-return portion downstream of the second flow control valve to prevent the back (oil gas) flow back from the condensate oil tank.

In addition, the floating liquefied natural gas production storage facility having the inert gas supply system.

According to the present invention, an installation space is provided by providing a single inert gas supply system configured to transfer the inert gas discharged from the inert gas generating unit to the liquefied natural gas storage tank and the condensate oil tank through the first conduit and the second conduit, respectively. And installation cost can be reduced effectively.

In addition, according to the present invention, by providing two combustion chambers it is possible to adjust the amount of fuel oil for generating an inert gas, and when one is broken or repaired, it is possible to generate an inert gas to the other one, so maintenance is easy.

Hereinafter, with reference to the accompanying drawings, preferred embodiments of the present invention will be described in detail.

1 is a schematic diagram of an inert gas supply system according to an embodiment of the present invention. Inert gas supply system 1 according to an embodiment of the present invention disclosed in FIG. 1 is a liquid LNG production and storage facility (LNG FPSO) having a liquefied natural gas storage tank 110 and a condensate oil tank 130. It is installed in the) is a inert gas supply system for supplying an inert gas (inert gas) to the liquefied natural gas storage tank 110 and the condensate oil tank (130).

Referring to FIG. 1, an inert gas supply system 1 according to an embodiment of the present invention stores one inert gas generator 10 and an inert gas generated from the inert gas generator 10. A first conduit 30 for transferring to the tank 110 and a second conduit 50 for transferring the inert gas generated from the inert gas generating unit 10 to a condensate oil tank. do.

The inert gas generating unit 10 is configured to generate inert gas by receiving fuel oil, and according to an embodiment of the present invention, from a fuel oil supply unit 12 and the fuel oil supply unit 12 Combustion chamber 14 for receiving fuel oil for combustion, air supply unit 16 for supplying combustion air to the combustion chamber 14, and seawater supply unit 18 for supplying cooling seawater to the combustion chamber 14 It is configured to include).

The inert gas generator 10 configured as described above produces an inert gas by mixing fuel oil with air in a combustion chamber and burning the cooled gas with sea water.

 The combustion chamber 14 may be formed in plural, and at least one or more of the plurality of combustion chambers 14 may be used according to the supply amount of the inert gas.

In this regard, referring to FIG. 1, two combustion chambers 14 according to one embodiment of the present invention are arranged in parallel with each other. As such, two combustion chambers 14 are arranged in parallel, for example, when a large amount of inert gas is to be produced (for example, when inert gas is supplied to the liquefied natural gas storage tank 110). When both are used and a small amount of inert gas is supplied (for example, when an inert gas is supplied to the condensate oil tank 130), either one may be used. In addition, if any one of the two combustion chambers 14 is broken, it is effective in terms of maintenance and repair of the equipment by using the other during repair.

Referring to FIG. 1, in the inert gas supply system 1 according to an embodiment of the present invention, the second conduit 50 is formed to branch from the first conduit 30. In this case, a first cooler 72 is installed in the first conduit 30 upstream of a branch point to the second conduit 50.

The first cooler 72 is to cool the inert gas discharged from the inert gas generator 10, and the first conduit 30 is formed to pass through the inside of the first cooler 72.

At this time, the inert gas passing through the first conduit 30 is cooled while transferring heat to the first cooler 72. At this time, the first conduit 30 passes through the interior of the first cooler 72 in a zigzag form, for example, in order to increase the cross-sectional area with the first cooler 72.

In addition, the first conduit 30 is provided with a demister 74 upstream of the branching point to the second conduit 50. The demister 74 removes moisture from the inert gas passing through the first conduit 30.

However, in one embodiment of the present invention, the demister 74 is located on the downstream side of the first cooler 72, but this is only an example and may be installed upstream of the first cooler 72 as necessary. Can be.

Referring to FIG. 1, a downstream side of a branch of the first conduit 30 to the second conduit 50 may include a first for adjusting an amount of inert gas introduced into the liquefied natural gas storage tank 110. The flow control valve 32 is installed.

In addition, the first conduit 30 is provided with a container 34 capable of storing an inert gas downstream of the first flow control valve 32. At this time, a valve (not shown) may be installed at the inert gas outlet side of the container 34.

The container 34 formed as described above may be used as a passage of the inert gas flowing into the liquefied natural gas storage tank 110 when the valve (not shown) is opened, and when the valve (not shown) is closed, It may be used as a storage container for storing and supplying to the liquefied natural gas storage tank 110 as needed.

At this time, in one embodiment of the present invention, the container 34 is composed of two and arranged in parallel with each other. In this way, two can be used, for example, if one is broken, the other can be used while repairing the broken one. Therefore, it is possible to widen the scope of operation in terms of equipment maintenance and repair.

In addition, the first conduit 30 is provided with a temperature control unit 36 capable of adjusting the temperature of the inert gas downstream of the first flow control valve 32. Referring to FIG. 1, in more detail, the temperature controller 36 includes a second cooler 37 capable of cooling the inert gas and a heater 38 for heating the inert gas.

At this time, the temperature control unit 36 may be connected to a control unit (not shown) formed to cool or heat the inert gas to a temperature required for use in the liquefied natural gas storage tank 110.

Referring to FIG. 1, the temperature control unit 36 is installed adjacent to the container 34, but this is only an example, and may be installed at another position on the first conduit 30 as necessary.

In addition, the first conduit 30 is provided with a hydraulic control valve 33 downstream from the vessel 34. Such a hydraulic control valve 33 adjusts the pressure of the inert gas flowing into the liquefied natural gas storage tank (110).

On the other hand, the second conduit 50 transfers the inert gas to the condensate oil tank 130. Referring to FIG. 1, a second flow control valve 52 is installed on an upstream side of the second conduit 50 to adjust an amount of inert gas flowing into the second conduit 50. In addition, the second conduit 50 is provided with a non-return portion 54 downstream of the second flow control valve 52.

The backflow prevention part 54 is to prevent backflow of oil vapor from the condensate oil tank 130 and is, for example, a device such as a deck water seal.

Hereinafter, an operation process of the inert gas supply system 1 according to an embodiment of the present invention will be described with reference to FIG. 1.

When the floating liquefied natural gas production storage facility equipped with the inert gas supply system 1 according to an embodiment of the present invention produces liquefied natural gas, the inert gas supply system 1 is a condensate oil tank 130. ) Supply an inert gas.

At this time, the inert gas discharged from the inert gas generator 10 is cooled through the first cooler 72 and dried by the demister 74. The cooled and dried inert gas is transferred from the first conduit 30 to the condensate oil tank 130 along the second conduit 50.

At this time, the second flow control valve 52 installed on the second conduit 50 is opened and installed downstream of the point branched to the second conduit 50 of the first conduit 30. The first flow control valve 32 is closed.

At this time, since the amount of inert gas required by the condensate oil tank 130 is not large, it is preferable to use only one of the two combustion chambers 14 constituting the inert gas generator 10.

By using one combustion chamber 14 as described above, the cost of fuel oil can be reduced by reducing the consumption of fuel oil as compared with the case where both combustion chambers 14 must be used.

On the other hand, when the floating liquefied natural gas production storage facility equipped with the inert gas supply system 1 according to an embodiment of the present invention is in the dock for the inspection and cleaning of the liquefied natural gas storage tank, the inert gas supply System 1 supplies inert gas to liquefied natural gas storage tank 110.

At this time, the inert gas discharged from the inert gas generator 10 is introduced into the liquefied natural gas storage tank 110 along the first conduit (30). At this time, the first flow control valve 32 is opened and the second flow control valve 52 is closed.

At this time, since the amount of inert gas required in the liquefied natural gas storage tank 110 is large, it is necessary to use both combustion chambers 14 constituting the inert gas generator 10.

In the above description of the inert gas supply system and the floating liquefied natural gas production and storage facilities provided with the same, but the spirit of the present invention is not limited to the embodiments presented herein, the present invention Those skilled in the art to understand the spirit of the art can easily suggest other embodiments by the addition, modification, deletion, addition, etc. of the elements within the scope of the same spirit, but this will also fall within the spirit of the present invention. .

1 is a schematic diagram of an inert gas supply system according to an embodiment of the present invention.

<Description of the symbols for the main parts of the drawings>

10: inert gas generating unit 14: combustion chamber

30: first conduit 32: first flow control valve

50: second conduit 52: second flow control valve

72: first cooler 74: demister

Claims (9)

An inert gas supply system installed in a LNG FPSO equipped with a LNG storage tank and a condensate oil tank. One inert gas generator; A first conduit for transferring the inert gas generated from the inert gas generator to a liquefied natural gas storage tank; And Inert gas supply system comprising a second conduit for transferring the inert gas generated from the inert gas generating unit to a condensate oil tank (condensate oil tank). The method of claim 1, The inert gas generating unit, Fuel oil supply; A combustion chamber that receives fuel oil from the fuel oil supply unit and burns the fuel oil; An air supply unit for supplying combustion air to the combustion chamber; And Inert gas supply system characterized in that it comprises a sea water supply unit for supplying cooling water to the combustion chamber. 3. The method of claim 2, The combustion chamber is composed of a plurality, Inert gas supply system, characterized in that at least one or more of the plurality of combustion chambers are formed in accordance with the supply amount of the inert gas. The method of claim 1, And the second conduit is formed so as to branch from the first conduit. 5. The method of claim 4, The first conduit includes a first cooler for cooling the inert gas discharged from the inert gas generator and an inert gas discharged from the inert gas generator to an upstream side of the branch branched to the second conduit. Inert gas supply system, characterized in that the demister is installed. 6. The method according to any one of claims 1 to 5, The first conduit is provided with a first flow control valve for adjusting the amount of inert gas flowing into the liquefied natural gas storage tank downstream of the branching point to the second conduit, The second conduit is provided with a second flow control valve for adjusting the amount of inert gas flowing into the condensate oil tank, characterized in that the inert gas supply system. The method of claim 6, The first conduit is inert gas supply system, characterized in that the temperature control section for adjusting the temperature of the inert gas downstream of the first flow control valve. The method of claim 6, And the second conduit is provided with a backflow preventing portion downstream of the second flow control valve to prevent oil gas from flowing back from the condensate oil tank. Floating liquefied natural gas production storage facility having an inert gas supply system according to any one of claims 1 to 5.

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