KR20160037294A - Winterization System of Liquefied Natural Gas Carrier - Google Patents

Abstract

The present invention relates to a winterization system for a liquefied natural gas (LNG) carrier characterized by including: heating equipment installed in the LNG carrier and generating heat; a vent mast unit emitting liquefied gas generated by the liquefaction of some of LNG stored in a cargo tank to the air; and a fluid circulating line forming a passage to supply a fluid heated by waste heat of the heating equipment to the vent mast. The winterization system for the LNG carrier according to the present invention is capable of preventing a vent cowl, which is exposed to extreme cold, from being frozen or iced by heating the fluid with the waste heat generated in the heating equipment of the LNG carrier and supplying the heated fluid to the vent cowl of the vent mast through the fluid circulating line. Accordingly, the winterization system for the LNG carrier is capable of smoothly emitting the liquefied gas generated in the cargo tank to the air and increasing an energy saving effect by usefully utilizing the waste heat.

Description

Winterization System of Liquefied Natural Gas Carrier "

The present invention relates to a cooling system of a liquefied natural gas carrier.

In general, Liquefied Natural Gas is a clean fuel and its reserves are known to be richer than petroleum, and its use is rapidly increasing as mining and transportation technology develops. This liquefied natural gas is generally stored in a liquid state at a temperature of -162 ° C or below under a pressure of 1 atm. The volume of liquefied methane is about one sixth of that of the normal state of the gaseous methane , And the specific gravity is 0.42, which is about one-half of the specific gravity of crude oil.

The liquefied natural gas is mainly transported by the ship in a large quantity, and the vessel to be used at this time is a liquefied natural gas carrier (LNGC).

These LNG carriers are equipped with cargo tanks that are fully insulated to store liquefied natural gas at cryogenic temperatures. However, in reality, it is not possible to fully insulate the liquefied natural gas and some of the stored liquefied natural gas is vaporized (BOG) is generated. When the amount of the vaporized gas is increased, the pressure in the cargo tank rises and there is a risk of explosion. Therefore, the normally generated vaporized gas is supplied to the LNG vent mast and N ₂ vent mast to the atmosphere.

In recent years, as the area of polar glaciers, which are rich in natural resources, has declined, the development of polar routes has enabled the drilling of natural resources in the polar regions, and LNG carrier vessels are frequently navigated in polar regions .

In this way, as the LNG carriers navigate the polar route, the vent mast installed in the trunk deck is exposed to the extreme, and the vent cowl Vent Cowl) is freezing or icing, there is a risk that the pressure rise in the cargo tank causes danger.

Korean Patent Registration No. 10-0808777 (registered on Feb. 22, 2008) Korean Patent Registration No. 10-0832603 (registered on May 20, 2008) Korean Patent Publication No. 10-2013-0045318 (published on May 03, 2013)

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems of the prior art, and it is an object of the present invention to provide a vending machine which prevents freezing or icing on a vent cow of a vent mast when an LNG carrier leaves the general route, To provide a cooling system for an LNG carrier.

According to an aspect of the present invention, there is provided a cooling system for an LNG carrier, comprising: a heating device installed in an LNG carrier and generating heat; A vent mast portion for discharging vaporized gas generated by vaporization of a part of the LNG stored in the cargo tank into the atmosphere; And a fluid circulation line for providing a path for supplying fluid heated by the waste heat of the heating device to the vent mast portion.

Specifically, the heating device may be at least one of a generator, an engine, and a boiler.

Specifically, the fluid may be in a gas or liquid state.

Specifically, the vent mast portion is composed of at least one LNG vent mast and N ₂ vent mast installed in the trunk deck, the LNG vent mast includes an LNG vent cow, and the N ₂ vent mast is N ₂ And a vent cowl.

Specifically, the fluid circulation line is connected to the LNG vent cowl, which is one end of the vent mast part, from one end of the heating device, and supplies the fluid to the LNG vent cow, ; A return line connected to the other end of the heating device from the N ₂ vent cow at the other end of the vent mast portion and providing a path for returning the fluid cooled in the N ₂ vent cow to the heating device; And a heat exchanger connected between the feed line and the return line and configured to surround the LNG vent cow and the N ₂ vent cow so as to heat the LNG vent cow and / And a heating line for heating the N ₂ bent cowl.

Specifically, the apparatus may further include a pressure unit provided on the fluid circulation line connecting between the heating device and the vent mast unit, and pressing the heated fluid from the heating device.

Specifically, the pressing portion may be a compressor or a pump.

A flow control valve provided on the fluid circulation line for regulating a flow rate of the fluid; A temperature sensor installed in the vent mast for detecting an external temperature; And a controller for adjusting the opening of the flow control valve according to a sensing signal output from the temperature sensing sensor.

More specifically, the safety valve may further include a safety valve provided on the fluid circulation line and discharging the fluid when the fluid pressure in the fluid circulation line rises above a predetermined pressure.

The LNG carrier line warming system according to the present invention is characterized in that when the LNG carrier leaves the general route and travels to the polar route, the fluid is heated by the waste heat generated from the heating device of the LNG carrier and is circulated through the fluid circulation line to the vent cowl It is possible to prevent icing from being formed or icing on the vent cow exposed to the ultimate limit so that the vaporized gas generated in the cargo tank can be smoothly discharged into the atmosphere and the waste heat can be utilized effectively, .

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a configuration diagram of a cold weather system of an LNG carrier according to an embodiment of the present invention; FIG.
2 is a side view of an LNG carrier for explaining a cold weather system of an LNG carrier according to an embodiment of the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS The objects, particular advantages and novel features of the present invention will become more apparent from the following detailed description taken in conjunction with the accompanying drawings, in which: FIG. It should be noted that, in the present specification, the reference numerals are added to the constituent elements of the drawings, and the same constituent elements have the same numerical numbers as much as possible even if they are displayed on different drawings. In the following description, well-known functions or constructions are not described in detail since they would obscure the invention in unnecessary detail.

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

2 is a side view of an LNG carrier according to an embodiment of the present invention for explaining a cold weather system of an LNG carrier. FIG. 2 is a side view of an LNG carrier according to an embodiment of the present invention.

1 and 2, the cooling system 10 of the LNG carrier 1 according to an embodiment of the present invention includes a heating device 100, a vent mast unit 200, a fluid circulation line 300 ).

The heating device 100 may be at least one of a generator, an engine, a boiler, and the like, which is installed in the LNG carrier 1 and generates heat. The heating device 100 heats the fluid using waste heat, Can be supplied to the vent mast unit 200 to be described later through the circulation line 300.

In the above, the heated fluid may be in a gas or liquid state.

The vent mast unit 200 may perform a function of discharging a vaporized gas generated by vaporization of a part of the LNG stored in the cargo tank 2 into the atmosphere and may include at least one LNG vent installed in the trunk deck 3 A mast 210 and an N ₂ vent mast 220.

Each of the LNG vent mast 210 and the N ₂ vent mast 220 includes an LNG vent cowl 212 and an N ₂ vent cow 222 provided at an outlet for discharging vaporized gas generated in the cargo tank 2 to the atmosphere, . ≪ / RTI >

LNG vent cowl 212 and the N ₂ vent cowl 222, LNG tanker (1) when the sail the polar passage, are exposed to the extreme to prevent freezing the formation or icing, the heated fluid flows And a fluid circulation line 300, which will be described later.

A fluid circulation line 300, LNG vent cowl 212 and N ₂ may be the vent cowl 222 provide a path for providing heated fluid from the heat generating device 100, a supply line 310 and return line (320), and a heating line (330).

The supply line 310 may be connected from one end of the heating device 100 to an LNG vent cowl 212 which is one end of the vent mast portion 200. The LNG vent cowl 212 ) Can be provided. In this case, when the heated fluid is drawn to the outside while the heated fluid flows through the supply line 310, the heat efficiency in the heating line 330 to be described later may be lowered. Therefore, .

The return line 320 may be connected from the N ₂ vent cow 222 at the other end of the vent mast unit 200 to the other end of the heating device 100. The fluid cooled by the N ₂ vent cowl 222 may be connected to the heating device A path for returning to the main body 100 can be provided.

A heating line 330, supply line 310, and is configured to return line 320 and be connected between, surrounding the LNG vent cowl 212 and the N ₂ vent cowl 222, supply line 310 The heat of the heated fluid supplied through the LNG vent cow 212 and the N ₂ vent cow 222 can be heated to prevent freezing or icing on the LNG vent cow 212 and N ₂ vent cowl 222. At this time, the heat line 330 is formed of a high thermal conductivity material in order to efficiently transfer the heat of the heating fluid supplied through the supply line 310 to the LNG vent cowl 212 and the N ₂ vent cowl 222 .

Has been described as above, the heated fluid is to be supplied to the first LNG cowl vent 212 can be supplied to the first N ₂ vent cowl 222. The

The fluid is heated by the waste heat generated in the heating device 100 of the LNG carrier 1 and the fluid is circulated through the fluid circulation line 300 to the vent cowls 212 and 222 of the vent masts 210 and 220, It is possible to prevent icing from being formed or icing even if the vent cowls 212 and 222 are exposed to the extreme limit.

The present embodiment can be provided on the supply line 310 of the fluid circulation line 300 connecting one end of the heating device 100 and one end of the vent mast part 200, And a pressurizing unit 400 capable of pressurizing the heated fluid to smoothly supply the pressurized fluid to the vent mast unit 200. At this time, the pressing portion 400 may be a compressor or a pump.

The present embodiment further includes a flow control valve 500 provided on the fluid circulation line 300 for controlling the flow rate of the fluid and a temperature sensor 600 installed in the vent mast unit 200 for detecting the temperature of the outside A flow control valve 500 and a temperature sensing sensor 600 to form a series of electrical and signal connection relationships to calculate a sensed signal output from the temperature sensing sensor 600 to calculate an external temperature, And a controller 700 for adjusting the opening degree of the flow control valve 500 according to the calculated temperature value.

The flow control valve 500 is connected to one end of the heating device 100 and one end of the vent mast 200 so that the flow rate of the heated fluid supplied to the vent mast part 200 can be accurately controlled. And the supply line 310 of the fluid circulation line 300 is provided.

Temperature sensor 600 is, for LNG vent cowl 212 and the N ₂ vent cowl to serve to detect the external temperature to prevent the 222 is formed or icing icing on, LNG vent cowl ( 212 and the N ₂ vent cowl 222 or at least one of them.

The calculated temperature value is an actual temperature of the area where the LNG carrier 1 is traveling and is a temperature value at which freezing or icing is not formed in the LNG vent cow 212 and the N ₂ vent cow 222 a bar, wherein, the flow control valve 500 by the controller 700 will be calculated as will maintain the shut-off state, the polar routes in the freezing to the LNG vent cowl 212 and the N ₂ vent cowl 222 formed The temperature of the flow control valve 500 will be adjusted by the controller 700 according to the temperature value at this time.

Accordingly, the present embodiment allows the waste heat generated from the heating device 100 to be used elsewhere when the LNG carrier 1 is navigated to the general route, and the LNG vent cowl 212 and the N ₂ vent cowl 222, so that the waste heat can be utilized effectively.

In addition, the present embodiment may include a safety valve 800 provided on the fluid circulation line 300.

The safety valve 800 is set to a safe pressure and allows the fluid to be vented if the fluid pressure in the fluid circulation line 300 rises above the set pressure.

1, the safety valve 800 is disposed on the return line 320 of the fluid circulation line 300 connecting the other end of the vent mast unit 200 and the other end of the heating device 100 And it may be provided at another portion as it is required to stabilize the fluid pressure in the fluid circulation line 300. [

Thus, in the present embodiment, when the LNG carrier 1 departs from the general route and travels to the polar route, the fluid is heated by waste heat generated in the heating device 100 of the LNG carrier 1, It is possible to prevent icing from being formed or icing on the vent cowls 212 and 222 exposed to the ultimate limit by supplying the vent holes 210 and 220 of the vent masts 210 and 220 to the vent masts 212 and 222, It is possible to smoothly discharge the vaporized gas generated in the combustion chamber to the atmosphere, and to utilize the waste heat effectively, thereby increasing the energy saving effect.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the same is by way of illustration and example only and is not to be construed as limiting the present invention. It is obvious that the modification and the modification are possible.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

1: LNG carrier 2: Cargo tank
3: trunk deck 10: cold weather system
100: Heating device 200: Vent mast part
210: LNG vent mast 212: LNG bent cowl
220: N ₂ Bent Mast 222: N ₂ Bent Cow
300: fluid circulation line 310: supply line
320: return line 330: heating line
400: Pressurizing part 500: Flow control valve
600: Temperature sensor 700: Controller
800: Safety valve

Claims (9)

Heat generating equipment installed in the LNG carrier and generating heat;
A vent mast portion for discharging vaporized gas generated by vaporization of a part of the LNG stored in the cargo tank into the atmosphere; And
And a fluid circulation line for providing a path for providing the fluid heated by the waste heat of the heating device to the vent mast section. The heating apparatus according to claim 1,
A generator, an engine, and a boiler. 2. The method of claim 1,
Gas or liquid state of the LNG carrier. The ventilating apparatus according to claim 1,
At least one LNG vent mast and an N ₂ vent mast installed in the trunk deck,
The LNG vent mast includes an LNG vent cowl,
Wherein the N ₂ vent mast comprises an N ₂ vent cowl. The fluid circulation system according to claim 4,
A supply line connected from one end of the heating device to the LNG vent cowl at one end of the vent mast part and providing a path for supplying the heated fluid from the heating device to the LNG vent cowl;
A return line connected to the other end of the heating device from the N ₂ vent cow at the other end of the vent mast portion and providing a path for returning the fluid cooled in the N ₂ vent cow to the heating device; And
Wherein the LNG vent cow and the N ₂ vent cow are connected between the supply line and the return line and surround the LNG vent cow and the N ₂ vent cow, And a heating line for heating the N ₂ vent cowl. The method according to claim 1,
Further comprising a pressurizing portion provided on the fluid circulating line connecting the heating device and the vent mast portion to press the heated fluid from the heating device. 7. The apparatus according to claim 6,
Wherein the compressor is a compressor or a pump. The method according to claim 1,
A flow regulating valve provided on the fluid circulation line for regulating the flow rate of the fluid;
A temperature sensor installed in the vent mast for detecting an external temperature; And
Further comprising a controller for controlling the opening of the flow control valve according to a sensing signal output from the temperature sensor. The method according to claim 1,
Further comprising a safety valve provided on the fluid circulation line and discharging the fluid when the fluid pressure in the fluid circulation line rises above a predetermined pressure.

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