KR20140118269A - Recovery device for residual liquefied gas - Google Patents

Abstract

A residual liquefied gas collecting device is provided. According to an embodiment of the present invention, the residual liquefied gas collecting device comprises a liquefied gas supply line which supplies liquefied gas stored in a first liquefied gas storage tank of a liquefied gas supplying ship to a second liquefied gas storage tank of a target ship for the gas supply; a evaporation gas collecting line which collects the evaporation gas generated from the second liquefied gas storage tank to the first liquefied gas storage tank; and a connecting line which connects the liquefied gas supply line and the evaporation gas collecting line and is closed when the liquefied gas is supplied to the target ship whereas opened when eliminating liquefied gas remaining in the liquefied gas supply line.

Description

TECHNICAL FIELD [0001] The present invention relates to a remover for a liquefied gas,

The present invention relates to a remaining liquefied gas recovery apparatus.

In recent years, ships under the influence of environmental regulations are trying to reduce the emission of environmental pollutants as much as possible, and vessels that use liquefied gas such as LNG as fuel for ships are attracting attention.

In addition, a propulsion engine using petroleum as fuel was used mainly for a commercial vessel or a passenger ship such as a container carrier. However, recently, a propulsion engine using a liquefied fuel gas, which is much cheaper than oil due to a rise in oil prices Ship is on the rise.

A ship equipped with a liquefied gas propulsion engine is operated after the liquefied gas fuel tank is filled with liquefied gas for navigation. However, there are not many ports currently equipped with liquefied gas storage facilities or refueling facilities.

In addition, the present liquefied gas storage facility is for moving the liquefied gas stored in the liquefied gas carrier to the ground, and is far from the port for anchorage of merchant ships such as container ships for safety reasons.

Therefore, the merchant vessel must go to the liquefied gas storage facility far from the port to supply liquefied gas for liquefied gas refueling.

It takes a lot of time and effort to ship anchor, so that simply moving the ship away from the port for refueling of liquefied gas is a time-consuming and cost-intensive task that requires a lot of time and effort.

In addition, filling the liquefied gas with fuel by the conventional transport method is very difficult in the method, and therefore, the solution is sought in various directions.

One of them may be fueling or supplying fuel at sea as a bunkering vessel.

As disclosed in Korean Registration No. 10-0967818, the liquefied fuel gas refueling line according to the prior art is provided with a liquefied fuel gas storage tank, a fuel connected to the fuel gas storage tank for supplying fuel to the liquefied fuel gas propulsion vessel, A supply pipe, and an evaporative gas recovery pipe for recovering evaporative gas generated in the fuel tank of the liquefied fuel gas propulsion vessel.

However, since the liquefied fuel gas refueling line according to the prior art is not provided with means for treating the liquefied gas remaining in the loading line or the manifold line which is the fuel supply line after completion of the charging or refilling operation with the liquefied fuel gas propulsion vessel, The remaining liquefied gas is released into the air, resulting in waste of energy.

Korean Patent Publication No. 10-0967818

The embodiments of the present invention can efficiently recover the liquefied gas remaining in the liquefied gas supply line after completion of the operation of supplying the liquefied gas to the ship or the marine structure using the liquefied gas as fuel, And to provide a gas recovery device.

According to an aspect of the present invention, there is provided a liquefied gas supply system comprising: a liquefied gas supply line for supplying liquefied gas stored in a first liquefied gas storage tank of a liquefied gas supply vessel to a second liquefied gas storage tank of a liquefied gas supply object; An evaporative gas recovery line for recovering the evaporated gas generated in the second liquefied gas storage tank to the first liquefied gas storage tank; And a connection line that is opened when the liquefied gas remaining in the liquefied gas supply line is opened when the liquefied gas is supplied to the liquefied gas supply object, is connected to the liquefied gas supply line and the evaporated gas recovery line The remaining liquefied gas recovery device is provided.

The connection line may be positioned adjacent to the liquefied gas supply object side.

A part of each of the liquefied gas supply line and the evaporation gas recovery line may be made of a flexible elastic material.

The remaining liquefied gas recovery device may further include an evaporative gas discharge line branched from the evaporative gas recovery line and connected to the first liquefied gas storage tank.

An evaporative gas compressor for pressurizing the evaporated gas discharged from the first liquefied gas storage tank to a predetermined pressure may be installed on the evaporated gas discharge line.

The evaporated gas pressurized by the evaporative gas compressor can be supplied to the liquefied gas supply line through the connection line to remove the liquefied gas remaining in the liquefied gas supply line.

A portion of the evaporated gas pressurized by the evaporative gas compressor may be supplied to the boiler, the gas turbine, or the fuel of the gas engine in the liquefied gas supply vessel.

The remaining liquefied gas recovery device may further include a remaining liquefied gas recovery line branched from the liquefied gas supply line and connected to the first liquefied gas storage tank.

According to the embodiments of the present invention, it is possible to efficiently recover the liquefied gas remaining in the liquefied gas supply line after completion of the operation of supplying the liquefied gas to the vessel or the marine structure using liquefied gas as fuel, have.

FIG. 1 is a view showing a process of supplying a liquefied gas in a first liquefied gas storage tank to a second liquefied gas storage tank in a remaining liquefied gas recovery apparatus according to an embodiment of the present invention, Fig. 2 is a schematic view showing a process of recovering a liquefied gas into a liquefied gas storage tank;
2 is a view schematically showing a process of recovering a liquefied gas remaining in a liquefied gas supply line in a remaining liquefied gas recovery device according to an embodiment of the present invention to a first liquefied gas storage tank;

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Embodiments of a remaining liquefied gas recovery system according to the present invention will now be described in detail with reference to the accompanying drawings, wherein like reference numerals refer to like or corresponding elements throughout the several views, A description thereof will be omitted.

It is also to be understood that the terms first, second, etc. used hereinafter are merely reference numerals for distinguishing between identical or corresponding components, and the same or corresponding components are defined by terms such as first, second, no.

In addition, the term " coupled " is used not only in the case of direct physical contact between the respective constituent elements in the contact relation between the constituent elements, but also means that other constituent elements are interposed between the constituent elements, Use them as a concept to cover each contact.

FIG. 1 is a view showing a process of supplying liquefied gas in a first liquefied gas storage tank to a second liquefied gas storage tank in a remaining liquefied gas recovery apparatus according to an embodiment of the present invention, And recovering the liquefied gas to the liquefied gas storage tank.

FIG. 2 is a schematic view illustrating a process of recovering the liquefied gas remaining in the liquefied gas supply line to the first liquefied gas storage tank in the remaining liquefied gas recovery apparatus according to an embodiment of the present invention.

Referring to FIGS. 1 and 2, the remaining liquefied gas recovery apparatus 100 according to the present embodiment is an apparatus for recovering liquefied gas, which can remain in a liquefied gas supply line after performing a work of supplying and supplying liquefied gas between a ship and a ship A system for removing gas safely and efficiently may include a liquefied gas supply line 110, an evaporation gas recovery line 120, and a connection line 130.

For reference, the ship of the present invention can be used as a floating storage and offloading unit (FPSO) or as a floating storage and regasification unit (FSRU). As well as vessels propelled by liquefied gas as fuel, such as, for example, commercial vessels or passenger ships or drill ships.

The liquefied gas supply object in the present invention is a concept including a liquefied gas fuel propulsion vessel and a liquefied gas transportation line. Further, the liquefied gas in the present invention may include, for example, liquefied natural gas (LNG) or the like.

Hereinafter, in the present embodiment, the remaining liquefied gas recovery apparatus according to an embodiment of the present invention includes a natural liquefied gas fuel supply vessel (Bunkering Vessel) supplying natural liquefied gas (LNG) The case where the present invention is applied to a natural liquefied gas fuel propulsion vessel will be described as an example.

Specifically, the remaining liquefied gas recovery apparatus 100 according to the present embodiment is configured so that the liquefied gas stored in the first liquefied gas storage tank 12 of the liquefied gas supply vessel 10 is supplied to the second A liquefied gas supply line 110 for supplying the liquefied gas to the liquefied gas storage tank 22 and a boil-off gas (BOG) generated in the second liquefied gas storage tank 22 to the first liquefied gas storage tank 12, And a connection line 130 for fluidly connecting the liquefied gas supply line 110 and the evaporation gas recovery line 120 to each other.

According to this embodiment, the remaining liquefied gas recovery apparatus 100 is opened when the liquefied gas is supplied to the liquefied gas supply object 20 and is released when the liquefied gas remaining in the liquefied gas supply line 110 is removed The liquefied gas remaining in the liquefied gas supply line 110 can be efficiently recovered, thereby minimizing the loss of useful resources.

Hereinafter, each configuration of the remaining liquefied gas recovery apparatus 100 according to the present embodiment will be described in more detail with reference to FIG. 1 to FIG.

First, the liquefied gas supply line 110 interconnects the first liquefied gas storage tank 12 of the liquefied gas supply vessel 10 and the second liquefied gas storage tank 22 of the liquefied gas supply object 20 Pipeline. ≪ / RTI > The liquefied gas in the first liquefied gas storage tank 12 can be transferred through the liquefied gas supply line 110 to the second liquefied gas storage tank 22.

For this purpose, a liquefied gas supply pump 116 may be installed at the upstream end of the liquefied gas supply line 110 to provide power to the liquefied gas flow direction.

The liquefied gas supply line 110 may be made of a resilient material in a part of a flexible area as shown in the figure.

To this end, the liquefied gas supply line 110 may include a first flexible connection pipe 112 made of an elastic material and a first rigid connection pipe 114 made of a rigid material.

A part of the liquefied gas supply line 110 located in the liquefied gas supply vessel 10 is connected to the corresponding liquefied gas supply line 110 located in the liquefied gas supply object 20 through the first flexible connection pipe 112 It is possible to prevent the liquefied gas supply line 110 from being damaged even if the liquefied gas supply vessel 10 and the liquefied gas supply object 20 move relative to each other due to waves or an external environment.

For reference, the connection operation of the liquefied gas supply line 110 shown in FIGS. 1 and 2 may be performed by, for example, a crane or a loading arm provided on the ship.

The evaporated gas recovery line 120 is connected to a pipeline for interconnecting the second liquefied gas storage tank 22 of the liquefied gas supply object 20 and the first liquefied gas storage tank 12 of the liquefied gas supply vessel 10, . ≪ / RTI > The evaporated gas generated in the second liquefied gas storage tank 22 through the evaporated gas recovery line 120 can be recovered to the first liquefied gas storage tank 12.

When the liquefied gas is supplied from the liquefied gas supply vessel 10 to the liquefied gas supply object 20, in addition to the existing evaporation gas pressure accumulated in the first liquefied gas storage tank 12, The second liquefied gas storage tank 22 may be deformed or destroyed due to the pressure of the evaporation gas generated in the process of being supplied into the liquefied gas storage tank 22. To prevent this, ) To the first liquefied gas storage tank (12) through the evaporative gas recovery line (120).

The evaporation gas recovery line 120 may be disposed in parallel with the liquefied gas supply line 110 as shown in the figure. In addition, the evaporation gas recovery line 120 may be made of a resilient material in a part of its area, like the liquefied gas supply line 110. To this end, the evaporative gas recovery line 120 may include a second flexible connection pipe 122 made of an elastic material and a second rigid connection pipe 124 made of a rigid material.

By using this evaporated gas recovery line 120, the liquefied gas is supplied to the second liquefied gas storage tank 22 through the liquefied gas supply line 110 and evaporated rapidly in the second liquefied gas storage tank 22 Gas (boil-off gas: BOG) can be safely recovered to the first liquefied gas storage tank 12.

The connection line 130 is a member interconnecting the liquefied gas supply line 110 and the evaporation gas recovery line 120. The connection line 130 can be arranged as close as possible to the liquefied gas supply object 20 side, as shown in the figure. Specifically, the connection line 130 may be arranged to interconnect the first rigid connection pipe 114 and the second rigid connection pipe 124, which are made of a rigid material.

The reason why the connection line 130 is disposed as close as possible to the liquefied gas supply object 20 is that the pressurized evaporation gas is connected using the evaporation gas compressor 142 located on the evaporation gas discharge line 140 to be described later So as to remove more of the liquefied gas remaining in the liquefied gas supply line 110 when flowing back to the liquefied gas supply line 110 through the line 130.

2, the pressurized evaporated gas flows backward along the liquefied gas supply line 110 and flows into the first liquefied gas storage tank 110. As the connection line 130 is disposed as close as possible to the liquefied gas supply object 20, The amount of residual liquefied gas that can be recovered in the liquefied gas supply line 110 can be more secured when the liquefied gas is moved (that is, moved while pushing the residual liquefied gas).

According to this embodiment, when the liquefied gas is supplied to the liquefied gas supply object 20, the connection line 130 remains blocked as shown in Fig. 1, When removing the liquefied gas (that is, when separating the liquefied gas supply line 110 after the supply of the liquefied gas into the second liquefied gas storage tank 22 is completed), the connecting line 130 is connected to the It is possible to more easily recover the liquefied gas remaining in the liquefied gas supply line 110 to the first liquefied gas storage tank 12 by using the pressurized evaporated gas.

2, when the liquefied gas remaining in the liquefied gas supply line 110 is removed, the connecting line 130 remains open, but the liquefied gas supply object 20 and the liquefied gas supply Line 110 and the connection state between the liquefied gas supply object 20 and the evaporative gas recovery line 120 are all kept shut off.

The connection line 130 is opened when the liquefied gas is supplied to the liquefied gas supply object 20 and is opened when the liquefied gas remaining in the liquefied gas supply line 110 is removed, It is possible to easily remove the liquefied gas remaining in the chamber.

The remaining liquefied gas recovery apparatus 100 according to the present embodiment further includes an evaporation gas discharge line 140 branched from the evaporation gas recovery line 120 and connected to the first liquefied gas storage tank 12 .

The evaporation gas discharge line 140 may be disposed in the liquefied gas supply vessel 10 as shown in the figure. An evaporative gas compressor 142 for pressurizing the evaporated gas discharged from the first liquefied gas storage tank 12 to a predetermined pressure may be installed on the evaporated gas discharge line 140.

The evaporation gas compressor 142 is a device for increasing the pressure of the evaporated gas discharged from the first liquefied gas storage tank 12 to a predetermined level or higher. This evaporative gas compressor 142 can compress the evaporated gas discharged from the first liquefied gas storage tank 12 to a predetermined pressure through, for example, a linear reciprocating motion of the piston in the cylinder.

Various techniques may be applied to the driving method of the evaporative gas compressor 142, and a detailed description thereof will be omitted herein.

According to the present embodiment, the evaporation gas pressurized by the evaporation gas compressor 142 at a predetermined pressure is supplied to the connection line 130 in order to remove the liquefied gas remaining in the liquefied gas supply line 110, To the liquefied gas supply line 110 (i.e.

As described above, the evaporation gas discharged from the first liquefied gas storage tank 12 is pressurized to a predetermined pressure using the evaporation gas compressor 142, and then connected to the evaporation gas discharge line 140 as shown in FIG. 2 The evaporated gas is supplied to the liquefied gas supply line 110 through the evaporated gas recovery line 120 and the connection line 130 so that the pressurized evaporated gas flows backward along the liquefied gas supply line 110, It is possible to effectively remove residual liquefied gas in the liquefied gas supply line 110 while moving to the liquefied gas storage tank 12 (i.e., moving while pushing the residual liquefied gas).

In this case, when the liquefied gas is supplied to the liquefied gas supply object 20 as shown in Fig. 1, the evaporation gas discharge line 140 is disconnected from the evaporated gas recovery line 120 by the valve , When the liquefied gas remaining in the liquefied gas supply line 110 is removed using the pressurized evaporated gas as shown in FIG. 2, the evaporated gas pressurized in the evaporated gas compressor 142 is supplied to the evaporated gas recovery line 120, The first liquefied gas storage tank 12, and the first liquefied gas storage tank 12, respectively.

On the other hand, as shown in the drawing, a part of the evaporated gas pressurized by the evaporative gas compressor 142 flows through the evaporated gas discharge branch line 144 branched at the evaporated gas discharge line 140 to the liquefied gas supply vessel 10 , Such as a boiler, a gas turbine, or a gas engine, for example.

In addition, a part of the evaporated gas pressurized by the evaporative gas compressor 142 may be subjected to a liquefaction process by an evaporative gas remelting device (not shown) including a condenser and the like. Such an evaporative gas re-liquefier may, for example, be installed on the evaporative gas discharge diversion line 144.

In addition, although not shown, the evaporated gas re-liquefied by the evaporative gas remelting device may be temporarily accommodated, for example, in a liquefied gas storage tank (not shown) or may be temporarily stored in a first liquefied gas storage tank 12 and stored.

Meanwhile, the remaining liquefied gas recovery apparatus 100 according to the present embodiment may further include a remaining liquefied gas recovery line 150 branched from the liquefied gas supply line and connected to the first liquefied gas storage tank.

1, the remaining liquefied gas recovery line 150 is blocked by a valve when the liquefied gas is supplied to the liquefied gas supply object 20, and is supplied with the pressurized evaporation gas The residual liquefied gas can be opened to be received in the first liquefied gas storage tank 12 when the liquefied gas remaining in the liquefied gas supply line 110 is removed.

Meanwhile, as shown in the drawing, a vent line 160 may be installed on the evaporative gas recovery line 120. A control valve and a ventilator 162 for controlling the opening and closing of the vent line 160 may be installed on the vent line 160.

Therefore, for example, when the pressure in the first liquefied gas storage tank 12 or the second liquefied gas storage tank 22 rises excessively more than necessary, the raised pressure is discharged to the outside through the vent line 160 .

The remaining liquefied gas recovery method using the remaining liquefied gas recovery apparatus 100 according to an embodiment of the present invention having such a structure will be described with reference to FIGS. 1 and 2. FIG.

In the remaining liquefied gas recovery method according to the present embodiment, when the liquefied gas is supplied to the liquefied gas supply object 20, the connection line 130 remains blocked as shown in Fig. 1, and the liquefied gas supply line (That is, when separating the liquefied gas supply line 110 after the supply of the liquefied gas into the second liquefied gas storage tank 22 is completed), the connecting line 130 2, the liquefied gas remaining in the liquefied gas supply line 110 can be easily transferred to the first liquefied gas storage tank 12 by using the evaporated gas pressurized through the evaporated gas compressor 142 .

In this case, when the liquefied gas remaining in the liquefied gas supply line 110 is removed, the connection line 130 is kept open by the control valve or the like as shown in Fig. 2, And the liquefied gas supply line 110 and the connection state between the liquefied gas supply object 20 and the evaporation gas recovery line 120 may be kept blocked by the control valve or the like.

1, the connection line 130 is cut off when the liquefied gas is supplied to the liquefied gas supply object 20, and then the connection line 130 remains in the liquefied gas supply line 110 as shown in Fig. 2 And can be controlled to be opened when the liquefied gas is removed (recovered).

As described above, the evaporation gas discharged from the first liquefied gas storage tank 12 is pressurized to a predetermined pressure using the evaporation gas compressor 142, and then connected to the evaporation gas discharge line 140 as shown in FIG. 2 The evaporated gas is supplied to the liquefied gas supply line 110 through the evaporated gas recovery line 120 and the connection line 130 so that the pressurized evaporated gas flows backward along the liquefied gas supply line 110, It is possible to effectively remove residual liquefied gas in the liquefied gas supply line 110 while moving to the liquefied gas storage tank 12 (i.e., moving while pushing the residual liquefied gas).

In this case, when the liquefied gas is supplied to the liquefied gas supply object 20 as shown in Fig. 1, the evaporation gas discharge line 140 is disconnected from the evaporated gas recovery line 120 by the valve , When the liquefied gas remaining in the liquefied gas supply line 110 is removed using the pressurized evaporated gas as shown in FIG. 2, the evaporated gas pressurized in the evaporated gas compressor 142 is supplied to the evaporated gas recovery line 120, The first liquefied gas storage tank 12, and the first liquefied gas storage tank 12, respectively.

1, the remaining liquefied gas recovery line 150 is blocked by a valve when supplying the liquefied gas to the liquefied gas supply object 20 as shown in Fig. 1, When the liquefied gas remaining in the liquefied gas supply line 110 is removed using the gas, the remaining liquefied gas may be opened to be received in the first liquefied gas storage tank 12.

While the present invention has been described in connection with what is presently considered to be the most practical and preferred embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, 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.

10: liquefied gas supply vessel 12: first liquefied gas storage tank
20: liquefied gas supply object 22: second liquefied gas storage tank
100: Remained liquefied gas recovery device 110: Liquefied gas supply line
112: first flexible connector 114: first rigid connector
116: Liquefied gas supply pump 120: Evaporative gas recovery line
122: second flexible connector 124: second rigid connector
130: connection line 140: evaporation gas discharge line
142: Evaporative gas compressor 144: Evaporative gas discharge branch line
150: remaining liquefied gas recovery line 160: vent line
162: vent riser

Claims (8)

A liquefied gas supply line for supplying the liquefied gas stored in the first liquefied gas storage tank of the liquefied gas supply vessel to the second liquefied gas storage tank of the liquefied gas supply object;
An evaporative gas recovery line for recovering the evaporated gas generated in the second liquefied gas storage tank to the first liquefied gas storage tank;
And a connection line that is opened when the liquefied gas remaining in the liquefied gas supply line is opened when the liquefied gas is supplied to the liquefied gas supply object, is connected to the liquefied gas supply line and the evaporated gas recovery line The remaining liquefied gas recovering device. The method according to claim 1,
And the connection line is located adjacent to the liquefied gas supply object side. The method according to claim 1,
Wherein a part of each of the liquefied gas supply line and the evaporation gas recovery line is made of a flexible elastic material. 4. The method according to any one of claims 1 to 3,
And an evaporative gas discharge line branched from the evaporative gas recovery line and connected to the first liquefied gas storage tank. 5. The method of claim 4,
And an evaporative gas compressor for pressurizing the evaporated gas discharged from the first liquefied gas storage tank to a predetermined pressure is provided on the evaporated gas discharge line. 6. The method of claim 5,
And the evaporated gas pressurized by the evaporative gas compressor is supplied to the liquefied gas supply line through the connection line to remove the liquefied gas remaining in the liquefied gas supply line. 6. The method of claim 5,
Wherein a part of the evaporated gas pressurized by the evaporative gas compressor is supplied to the boiler, the gas turbine, or the fuel of the gas engine in the liquefied gas supply vessel. 4. The method according to any one of claims 1 to 3,
And a remaining liquefied gas recovery line branched from the liquefied gas supply line and connected to the first liquefied gas storage tank.

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