KR20170112445A - Regasification System of liquefied Gas - Google Patents

Abstract

The present invention relates to a liquefied gas regeneration system, comprising a drum for storing a liquefied gas delivered from a liquefied gas storage tank, the liquefied gas regeneration system comprising: a drum for storing liquefied gas delivered from the liquefied gas storage tank; A pump for transferring the liquefied gas stored in the drum; A vaporizer for heating the liquefied gas; A liquefied gas supply line for connecting the drum, the pump, and the vaporizer, and delivering the liquefied gas to a customer; And a gas injector for supplying an inert gas for removing liquefied gas inside the pump, wherein the drum is installed higher than the pump or the vaporizer, and the gas injector injects the inert gas into the pump And the liquefied gas in the pump is drained to the drum by the pressure of the inert gas.

Description

{Regasification System of liquefied gas}

The present invention relates to a liquefied gas regeneration system.

Recently, as environmental regulations are strengthened, the use of liquefied natural gas (Liquefied Natural Gas), which is close to eco-friendly fuel among various fuels, is increasing. Liquefied natural gas is typically transported through an LNG carrier, where the liquefied natural gas can be stored in a tank of LNG carriers in a liquid state at temperatures below -162 ° C at 1 atm. Liquefied natural gas can be transported in a liquid state because the volume of the natural gas is reduced to one-sixth of that of the gas state.

However, liquefied natural gas is generally consumed in a gaseous state rather than in a liquid state, so that liquefied natural gas stored and transported in a liquid phase needs to be regenerated, and a regenerating system is used.

At this time, the regeneration facility may be mounted on a ship such as LNG carrier, FLNG, FSRU, or the like, and the regeneration facility realizes regeneration by heating liquefied natural gas using a heat source such as seawater.

However, since the liquefied natural gas is in a cryogenic temperature close to -160 degrees, if the temperature difference between the heat source and the heat source becomes large, the durability and the like of the heat exchanger for heating the liquefied natural gas may occur. In addition, when liquefied natural gas is heated using seawater, corrosion of the heat exchanger may occur.

Recently, many researches and developments have been made in order to simplify the regeneration facilities while stabilizing the various components in the process of regenerating the liquefied natural gas stored in the liquid phase.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the problems of the prior art as described above, and it is an object of the present invention to provide an apparatus and a method for injecting an inert gas into a pump, And to provide a liquefied gas regeneration system capable of removing the liquefied gas inside the pump and changing the pump to a maintenance state.

A liquefied gas regeneration system according to an aspect of the present invention is a liquefied gas regeneration system installed at a place where a ship having a liquefied gas storage tank is loaded or unloaded, drum; A pump for transferring the liquefied gas stored in the drum; A vaporizer for heating the liquefied gas; A liquefied gas supply line for connecting the drum, the pump, and the vaporizer, and delivering the liquefied gas to a customer; And a gas injector for supplying an inert gas for removing liquefied gas inside the pump, wherein the drum is installed higher than the pump or the vaporizer, and the gas injector injects the inert gas into the pump And the liquefied gas in the pump is drained to the drum by the pressure of the inert gas.

Specifically, it may further include a gas injection line connected from the gas injector to the drum via the pump.

Specifically, the gas injection line may be connected from the gas injector to the upper portion of the pump, and then from the lower portion of the pump to the drum.

Specifically, the gas injection line may be connected from the bottom of the pump to the top of the drum.

Specifically, the gas injection line may be provided independently of the liquefied gas supply line.

Specifically, a plurality of the pumps and the vaporizer are arranged in parallel, and the liquefied gas supply line is branched from the drum, connected to the plurality of pumps and the plurality of vaporizers, and then joined to the demander .

Specifically, the gas injector may inject the inert gas into the pump at 6 to 8 bar.

In the liquefied gas regeneration system according to the present invention, when the drain of the pump is difficult due to the drum being installed at a high altitude on a jetty or land, the inert gas is forcibly injected into the pump and the liquefied gas inside the pump The maintenance of the pump can be realized.

1 is a side view of a liquefied gas regeneration system in accordance with an embodiment of the present invention.
2 is a conceptual diagram of a liquefied gas regeneration system according to an embodiment of the present invention.

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

Hereinafter, the liquefied gas may be LPG, LNG, or ethane, and may be, for example, LNG (Liquefied Natural Gas), and the evaporation gas may refer to BOG (Boil Off Gas) such as natural vaporized LNG.

FIG. 1 is a side view of a liquefied gas regeneration system according to an embodiment of the present invention, and FIG. 2 is a conceptual diagram of a liquefied gas regeneration system according to an embodiment of the present invention.

1, a liquefied gas regeneration system 1 according to an embodiment of the present invention includes a liquefied gas storage tank 10 having a jetty 3 provided at a place where a vessel 2 having a liquefied gas storage tank 10 is unloaded, ) Or on land. Hereinafter, the liquefied gas regeneration system 1 is described as being installed in the jettison 3 for convenience, but the present invention is not limited thereto. Before describing the detailed configurations of the liquefied gas regeneration system 1 of the present invention, the place where the present invention is installed will be described first.

The ship 2 (liquefied gas carrier or FSU, etc.) having the liquefied gas storage tank 10 is moved to the unloading area for unloading the liquefied gas stored in the liquefied gas storage tank 10 and is moored on the unloading area. However, if the water depth of the unloading paper is not sufficiently deep, it may not be possible to moor the watercraft 2 adjacent to the land of the unloading paper.

In this case, the jetty 3 is used. Jetty 3 is a structure that protrudes from the land to the sea and is supported on the seafloor using pillars (not shown), so as to secure a sufficient depth of water at the point where the vessel 2 is anchored.

That is, in the case where the jettison 3 is provided in the unloading area, the ship 2 is not required to be anchored at a position adjacent to the shore (the depth is shallow) In which case the liquefied gas may be delivered to the shore from the vessel 2 via the structures provided in the jettie 3.

Of course, the jetties 3 are not limited to being installed on the unloading site but may be installed on the shipping site. In addition, the landing site may function as a shipping site, so that the installation site of the jetty 3 may be a coastal area requiring transport of liquefied gas between the ship 2 and the land. In this case, the liquefied gas can be transferred from the ship 2 to the land and / or from the land to the ship 2 via the structures provided in the jetty 3.

Hereinafter, detailed configurations of the liquefied gas regeneration system 1 of the present invention will be described in detail.

The liquefied gas regeneration system 1 of the present invention includes a drum 20, a pump 21, a vaporizer 22, and a gas injector 30.

The drum 20 stores the liquefied gas delivered from the liquefied gas storage tank 10. The liquefied gas supply line 23 may be connected from the liquefied gas storage tank 10 of the vessel 2 to the drum 20 provided in the jetty 3 and the drum 20 may be connected to the expanded Shape, and the like.

The drum 20 can prevent sudden change of the flow of the liquefied gas and realize stable and continuous supply of the liquefied gas. At this time, the drum 20 is provided to adjust the internal pressure so as to change the discharge pressure of the liquefied gas. Adjustment of the internal pressure of the drum 20 may be performed by returning the vaporized liquefied gas and / or supplying inert gas.

At least one drum 20 may be provided in the jettie 3, but a plurality of pumps 21 and a plurality of vaporizers 22 may correspond to one drum 20. For this purpose, the drum 20 may have a sufficient size.

The pump 21 transfers the liquefied gas stored in the drum 20. The liquefied gas supply line 23 connected from the liquefied gas storage tank 10 of the ship 2 to the drum 20 of the jetty 3 is connected to the demand source such as city gas via the pump 21, (40).

The liquefied gas supply line 23 connected to the customer 40 from the drum 20 and provided with the pump 21 and the like can be fixedly installed and the liquefied gas stored in the liquefied gas storage tank The liquefied gas supply line 23 connected to the liquefied gas supply line 10 is detachably provided and can be connected to the ship 2 anchored to the jetty 3 as required.

The pump 21 may be of a centrifugal type or reciprocating type, and the pump 21 may have a constant internal space into which the liquefied gas required to be compressed flows. A gas injection line 31 may be connected to the upper portion of the pump 21 from the gas injector 30 and a gas injection line 31 may be connected from the lower portion of the pump 21 to the drum 20 .

A plurality of pumps 21 are provided. When three pumps are provided, for example, two pumps 21 are kept in motion and one pump is provided in a standby mode. However, when any one of the pumps 21 in operation is in trouble, one pump 21 provided in the standby starts to operate, and the pump 21 in which the problem has occurred enters into the inspection.

In order to check the pump 21, it is necessary to remove all of the liquefied gas which may be explosive in the internal space of the pump 21. Since the pump 21 provided in the jettison 3 may be installed lower than the drum 20, the drainage of the liquefied gas from the pump 21 to the ship 2 via the drum 20 may be difficult.

Therefore, according to the present invention, an inert gas such as nitrogen can be forcedly injected into the inner space of the pump 21 to drain the liquefied gas remaining in the pump 21. At this time, the inert gas is generated and / or supplied by the gas injector 30, flows into the upper portion of the pump 21 along the gas injection line 31, .

The liquefied gas pushed by the inert gas is discharged along the gas injection line 31 connected to the lower portion of the pump 21 and the gas injection line 31 is connected to the drum 20 from the lower portion of the pump 21 The liquefied gas drained from the bar and pump 21 can be delivered to the drum 20.

Through this process, the pump 21, which has a problem and needs maintenance, can be drained of the liquefied gas and can be in a safe state. That is, the present invention is characterized in that when the drum 20 is installed higher than the pump 21 or the vaporizer 22 in the jetty 3, the liquefied gas in the pump 21 flows toward the ship 2 via the drum 20 The inert gas is injected into the pump 21 to forcibly drain the liquefied gas to the drum 20 so that the pump 21 can be safely inspected.

The vaporizer 22 heats the liquefied gas. At this time, the vaporizer 22 can heat the liquefied gas by using seawater or using steam, glycol water or the like.

A method of heating the liquefied gas by the vaporizer 22 may be a direct heating method using a heat source (steam generated from seawater or a boiler) or a heat source heated by an auxiliary heat source And the heating method of the vaporizer 22 is not particularly limited.

A plurality of vaporizers 22 may be provided, and the vaporizers 22 may be provided in the same number as the pump 21. At this time, one carburetor 22 is connected to one pump 21, and a plurality of pumps 21 and carburetor 22 can be arranged in parallel.

For example, when three pumps 21 and three carburettors 22 are connected to one drum 20, the liquefied gas supply line 23 is branched from the drum 20 to supply a plurality of pumps 21 and a plurality of And connected to the customer 40 after the vaporizer 22 is connected.

The gas injector (30) injects an inert gas into the pump (21). As described above, the pump 21, which has a problem among the plurality of pumps 21 and needs to be inspected, must discharge the remaining liquefied gas. The gas injector 30 injects the inert gas for removing the liquefied gas in the pump 21 into the pump 21 so that the liquefied gas inside the pump 21 is supplied to the drum 20 by the pressure of the inert gas, As shown in FIG.

For this purpose, a gas injection line 31 may be provided from the gas injector 30 to the pump 21. The gas injection line 31 is connected from the gas injector 30 to the upper portion of the pump 21. The gas injection line 31 is connected to the drum 20 via the pump 21, And then to the drum 20 at the bottom of the pump 21.

Therefore, the inert gas generated and / or supplied by the gas injector 30 flows into the upper portion of the pump 21, and the liquefied gas remaining in the pump 21 can be pushed to the lower portion of the pump 21. The reason why the inert gas is introduced into the upper portion of the pump 21 is because the liquefied gas in the pump 21 is in a liquid phase and may remain in the lower portion of the internal space of the pump 21.

The liquefied gas remaining in the pump 21 is discharged to the drum 20 through the gas injection line 31 connected to the lower portion of the pump 21 when the pressure of the space inside the pump 21 is increased by the inert gas . At this time, the liquefied gas and the inert gas can be sprayed from the upper portion of the drum 20 as the gas injection line 31 is connected to the upper portion of the drum 20 from the lower portion of the pump 21.

The supply of the residual liquefied gas discharged from the pump 21 to the upper portion of the drum 20 is performed by supplying the liquefied gas from the drum 20 to the customer 40 by the other pump 21 even when the inert gas is injected. It is because it is done. That is, the remaining liquefied gas pushed out by the inert gas is supplied to the upper portion of the drum 20, merged with the liquefied gas delivered from the liquefied gas storage tank 10 of the ship 2, Can be transmitted to the customer 40 via the vaporizer 22.

At this time, the inert gas may be mixed with the liquefied gas and transferred to the drum 20. Since the boiling point of the inert gas may be lower than that of the liquefied gas, the liquefied gas flowing into the drum 20 along the gas injection line 31 may be a liquid While the inert gas may be vapor. Therefore, the inflow of the inert gas into the liquefied gas supply line 23 connected from the drum 20 to the pump 21 can be disallowed or minimized. Of course, the liquefied gas supply line 23 may be connected to the pump 21 at the lower part of the drum 20 for this purpose.

The gas injector 30 is capable of injecting an inert gas into the pump 21. For example, the gas injector 30 may inject an inert gas into the pump 21, preferably at 6 to 8 bar. This is based on the required pressure of the customer 40 where the pump 21 compresses the liquefied gas, but the injection pressure of the inert gas may be lower than the required pressure of the customer 40.

The gas injection line 31 connected from the gas injector 30 to the drum 20 through the pump 21 may be provided independently of the liquefied gas supply line 23. [ That is, the gas injection line 31 allows the inert gas to flow from the gas injector 30 to the upper portion of the pump 21 so that the liquefied gas is pushed from the lower portion of the pump 21 to the drum 20, The reason why the line 31 is provided independently of the liquefied gas supply line 23 is that at least a part of the pump 21 may be kept operating when the inert gas is injected.

The liquefied gas supply line 23 can be branched from the drum 20 and connected to the plurality of pumps 21 as described above if the gas injection line 31 is at least partially connected to the liquefied gas supply line 23 The inert gas introduced into the pump 21 through the gas injection line 31 flows backward to the customer 40 and the quality of the liquefied gas is lowered. May be branched from the liquefied gas supply line (23) or not joined to the liquefied gas supply line (23).

As described above, according to the present invention, in the state where the liquefied gas regeneration system 1 such as the drum 20 and the pump 21 is provided in the jetty 3, the inside of the pump 21 The inert gas is forcibly injected into the pump 21 in consideration of the fact that drainage using gravity or the like is impossible due to the installation height of the drum 20 when all of the liquefied gas is to be taken out from the pump 21, The remaining liquefied gas can be drained by the liquefier 20.

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 embodiments, but, on the contrary, It will be apparent to those skilled in the art that various combinations and modifications may be made without departing from the scope of the present invention. Therefore, it should be understood that the technical contents related to the modifications and applications that can be easily derived from the embodiments of the present invention are included in the present invention.

1: liquefied gas regasification system 2: ship
10: Liquefied gas storage tank 3: Jetty
20: Drum 21: Pump
22: vaporizer 23: liquefied gas supply line
30: gas injector 31: gas injection line
40: Consumer

Claims (7)

A liquefied gas regeneration system in which a vessel having a liquefied gas storage tank is installed at a place where it is loaded or unloaded,
A drum for storing the liquefied gas delivered from the liquefied gas storage tank;
A pump for transferring the liquefied gas stored in the drum;
A vaporizer for heating the liquefied gas;
A liquefied gas supply line for connecting the drum, the pump, and the vaporizer, and delivering the liquefied gas to a customer; And
And a gas injector for supplying an inert gas for removing liquefied gas inside the pump,
Wherein the drum is installed higher than the pump or the vaporizer,
Wherein the gas injector injects the inert gas into the pump so that the liquefied gas inside the pump is drained to the drum by the pressure of the inert gas. The method according to claim 1,
Further comprising a gas injection line connected from the gas injector to the drum via the pump. 3. The fuel cell system according to claim 2,
And connected to the drum from the bottom of the pump after being connected to the top of the pump from the gas injector. The gas injection device according to claim 3,
Wherein the pump is connected from the bottom of the pump to the top of the drum. 3. The fuel cell system according to claim 2,
Wherein the liquefied gas regeneration system is provided independently of the liquefied gas supply line. The method according to claim 1,
Wherein the pump and the vaporizer are arranged in parallel,
Wherein the liquefied gas supply line is branched from the drum, connected to the plurality of pumps and the plurality of vaporizers, joined together, and connected to the customer. The gas injection device according to claim 1,
Wherein said inert gas is injected into said pump at 6 to 8 bar.

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