KR20210120662A - Purging system of liquefied gas - Google Patents

Abstract

A purging system for liquefied gas that replaces a pipe of a storage tank for accommodating liquefied gas with purging gas is introduced. According to the present invention, the purging system for liquefied gas may comprise: a gas pipe for providing a low point located at the lowest height among gas flow paths through which liquefied gas is transported; a purging pipe for guiding a purging flow path branching from the low point to the storage tank; a first valve provided in the purging pipe to open and close the purging flow path; a purging gas supply for supplying purging gas to the gas pipe so that the liquefied gas collected at the low point is guided to the purging flow path; and a controller which controls the purging gas supply and the first valve.

Description

Liquefied gas purging system {PURGING SYSTEM OF LIQUEFIED GAS}

The present invention relates to a purging system for liquefied gas.

In general, natural gas is transported in a gaseous state through land or sea gas pipelines, or liquefied in the state of liquefied natural gas (LNG) or liquefied petroleum gas (LPG), followed by an LNG carrier or They are stored on LPG carriers and transported to remote consumers. Liquefied natural gas is obtained by cooling natural gas to a cryogenic temperature (about -163°C), and since its volume is reduced to about 1/600 of that of natural gas in gaseous state, it is very suitable for long-distance transportation by sea.

In offshore structures such as LNG carriers, LNG RVs, LNG FPSOs, and LNG FSRUs that transport or store liquefied gas such as liquefied natural gas (LNG) at sea, a storage tank for storing liquefied gas such as LNG in a cryogenic state is installed do. When LNG is left in the LNG line of the filled storage tank, the remaining LNG must be replaced with an inert gas in an LNG fueled vessel to ensure safety. For example, purging is attempted using an inert gas, N ₂ gas (N _{2 compressor).}

However, in simulation analysis, _{when purging the LNG line with N 2} gas is attempted, the purging of the LNG in the LNG line is immediately completed. This is because, as there is an upper space in the pipe of the LNG line, N ₂ passes over the surface of the LNG, so that N ₂ cannot push the LNG and send it to the storage tank.

Accordingly, there is a need for a technology for effectively removing the remaining LNG in the pipeline of the LNG line.

Patent Literature: Domestic Patent Publication No. 10-2010-0112829 (published on October 20, 2010)

Embodiments of the present invention are to provide a purging system of liquefied gas that can effectively purify the remaining LNG in the LNG pipe.

The purging system for liquefied gas according to an aspect of the present invention is a purging system for liquefied gas for replacing a pipe of a storage tank for accommodating liquefied gas with purging gas, at the lowest height among the gas passageways through which the liquefied gas is transported. gas piping providing a low point located; a purging pipe for guiding a purging passage branched from the low point to the storage tank; a first valve provided in the purging pipe to open and close the purging flow path; a purging gas supply supplying a purging gas to the gas pipe so that the liquefied gas collected at the low point is guided to the purging passage; and a controller controlling the purging gas supply and the first valve.

In this case, the purging system may include a second valve installed at one end of the gas pipe connected to the storage tank and selectively opening and closing a gas flow path at one end of the gas pipe; and a third valve installed at the other end of the gas pipe and selectively opening and closing the gas flow path at the other end of the gas pipe.

In addition, the purging system may further include a detection sensor for measuring the internal pressure of the gas pipe.

In addition, in order to move the liquefied gas converged to the low point to the storage tank through the purging pipe, the controller closes the second valve and the third valve. When the internal pressure is higher than the preset reference pressure, the first valve may be opened and the purging gas may be supplied to the gas pipe through the purging gas supply.

In addition, the purging pipe may be connected downwardly to a low point of the gas pipe.

Embodiments of the present invention have the advantage that the LNG remaining in the gas pipe can be effectively purged in the LNG line by pressurizing the LNG collected at the low point of the gas pipe with a purging gas (inert gas) and transferring it to the storage tank.

1 is a block diagram illustrating a purging system for liquefied gas according to an embodiment of the present invention.
FIG. 2 is an enlarged view illustrating an enlarged portion "A" of FIG. 1 .
FIG. 3 is a cross-sectional view illustrating a line “AA” of FIG. 2 by cutting it.
FIG. 4 is a cross-sectional view showing the line "BB" of FIG. 2 by cutting it.
5 is a block diagram showing a purging system for liquefied gas according to another embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings, the configuration and operation according to the embodiment of the present invention will be described in detail. DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The following description is one of several aspects of the present invention that is claimable, and the following description may form a part of the detailed description of the present invention. However, in describing the present invention, detailed descriptions of known configurations or functions may be omitted for clarity of the present invention.

The present invention is capable of making various changes and may include various embodiments, and specific embodiments are illustrated in the drawings and described in the detailed description. However, this is not intended to limit the present invention to a specific embodiment, it should be understood to include all modifications, equivalents and substitutes included in the spirit and scope of the present invention.

In addition, terms including an ordinal number such as 1st, 2nd, etc. may be used to describe various components, but the components are not limited by these terms. These terms are used only for the purpose of distinguishing one component from another. When it is said that a component is 'connected' or 'connected' to another component, it is understood that it may be directly connected or connected to the other component, but other components may exist in between. it should be The terms used in the present application are only used to describe specific embodiments, and are not intended to limit the present invention. The singular expression includes the plural expression unless the context clearly dictates otherwise.

1 is a block diagram showing a purging system for liquefied gas according to an embodiment of the present invention, FIG. 2 is an enlarged view showing an enlarged part "A" of FIG. 1, and FIG. 3 is "AA" of FIG. It is a cross-sectional view showing the line part cut off, and FIG. 4 is a cross-sectional view showing the line "BB" of FIG.

1 to 4 , the purging system of liquefied gas according to an embodiment of the present invention includes a gas pipe 110 , a purging pipe 120 , a purging gas supply 400 , and a first valve 310 . ), a second valve 320 , a third valve 330 , and a controller 500 .

Specifically, the gas pipe 110 may include a transport pipe for liquefied natural gas (LNG: hereinafter liquefied gas) connecting the supply/demand point of the liquefied gas and the storage tank (T) of the ship. The gas pipe 110 may guide the liquefied gas supplied from the supplier to the storage tank T of the ship, or guide the liquefied gas in the storage tank T to the demand.

The gas pipe 110 may provide a low point P. The low point P may be understood as a point located at the lowest height among the gas passages in the gas pipe 110 to which the liquefied gas is transferred. At the low point P, the liquefied gas remaining in the gas flow path may be collected and converged by its own weight. For example, the low point P may be a lowermost point of a gas flow path bent in a “V” or “U” shape. The purging pipe 120 may be connected to this low point P.

The purging pipe 120 may include a bypass pipe branching from the low point P of the gas pipe 110 to the storage tank T. The purging pipe 120 may be provided with a purging flow path for guiding the liquefied gas collected at the low point (P) to the storage tank (T). In addition, the purging pipe 120 may be equipped with a first valve 310 for opening and closing the purging passage.

The first valve 310 may selectively open and close the purging flow path of the purging pipe 120 according to an operation signal of the controller 500 . For example, when receiving an open operation signal from the controller 500, the first valve 310 may open the purging flow path, and when receiving a close operation signal from the controller 500, the first valve 310 is The purging flow path can be closed.

The purging gas supply 400 supplies a purging gas (for example, an inert gas (N ₂ )) to the gas pipe 110, so that the liquefied gas collected at the low point P is pressurized by the purging pipe 120. ) can be moved to the purging flow path. The purging gas supply 400 may be connected to the gas pipe 110 through the supply pipe 130 .

The second valve 320 may be installed at one end of the gas pipe 110 connected to the storage tank T. The second valve 320 may selectively open and close the gas passage at one end of the gas pipe 110 . For example, the second valve 320 may open and close the gas flow path at one end of the gas pipe 110 according to an operation signal of the controller 500 .

The third valve 330 may be installed at the other end of the gas pipe 110 . The third valve 330 selectively opens and closes the gas flow path at the other end of the gas pipe 110 , thereby controlling the flow of the liquefied gas transferred from the source/demand of the liquefied gas. For example, the third valve 330 may open and close the gas flow path at the other end of the gas pipe 110 under the control of the controller 500 .

The controller 500 purges the liquefied gas converged to the low point P by controlling the operations of the purging gas supply 400 , the first valve 310 , the second valve 320 , and the third valve 330 . It can be moved to the storage tank (T) through the pipe (120).

For example, the controller 500 may apply an operation signal for closing the second valve 320 and the third valve 330 to the second valve 320 and the third valve 330 . When the second valve 320 and the third valve 330 are closed, the controller 500 may apply an operation signal for supplying the purging gas to the gas pipe 110 to the purging gas supply 400 . Thereafter, the controller 500 may apply an operation signal for opening the first valve 310 to the first valve 310 .

As such, when the purging gas is supplied to the low point P of the gas pipe 110 in a state in which the second valve 320 and the third valve 330 are closed, the LNG collected at the low point P is purged. By pressurizing the gas, it may be transferred to the storage tank T through the first valve 310 and the purging pipe 120 . As a result, the LNG remaining in the gas pipe 110 may be removed from the gas pipe 110 .

5 is a block diagram illustrating a purging system for liquefied gas according to another embodiment of the present invention.

As shown in FIG. 5 , the purging system 10 of liquefied gas according to another embodiment of the present invention includes a gas pipe 110 , a purging pipe 120 , a first valve 310 , and a purging gas supply 400 . ), a second valve 320 , a third valve 330 , a detection sensor 600 , and a controller 500 .

The detection sensor 600 may include a pressure sensor capable of measuring the internal pressure of the gas pipe 110 . Information on the internal pressure of the gas pipe 110 measured through the detection sensor 600 may be applied to the controller 500 .

The controller 500 controls the operation of the detection sensor 600 , the purging gas supply 400 , the first valve 310 , the second valve 320 , and the third valve 330 , thereby reaching the low point P. The converged liquefied gas may be moved to the storage tank T through the purging pipe 120 .

For example, when the internal pressure of the gas pipe 110 applied from the detection sensor 600 is higher than a preset reference pressure, the controller 500 may have an operation signal for closing the second valve 320 and the third valve 330 . may be applied to the second valve 320 and the third valve 330 . When the second valve 320 and the third valve 330 are closed, the controller 500 may apply an operation signal for supplying the purging gas to the gas pipe 110 to the purging gas supply 400 . Thereafter, the controller 500 may apply an operation signal for opening the first valve 310 to the first valve 310 .

As such, when the internal pressure of the gas pipe 110 is higher than the preset reference pressure, the second valve 320 and the third valve 330 are closed, and the purging gas is the low point P of the gas pipe 110 . ), the LNG collected at the low point P may be transferred to the storage tank T through the first valve 310 and the purging pipe 120 by the pressure of the purging gas. As a result, the LNG remaining in the gas pipe 110 may be removed from the gas pipe 110 .

As described above, the present invention has an excellent advantage in that the LNG collected at the low point of the gas pipe can be transferred to the storage tank using the purging gas, so that the LNG remaining in the gas pipe can be effectively purged in the LNG line.

Although the embodiments of the present invention have been described above with reference to the accompanying drawings, those of ordinary skill in the art to which the present invention pertains can realize that the present invention can be embodied in other specific forms without changing its technical spirit or essential features. you will be able to understand For example, those skilled in the art may change the material, size, etc. of each component according to the field of application, or combine or substitute the embodiments in a form not clearly disclosed in the embodiment of the present invention, but this is also the present invention that does not exceed the scope of Therefore, the embodiments described above should not be understood as illustrative and limiting in all respects, and it should be said that these modified embodiments are included in the technical spirit described in the claims of the present invention.

110: gas pipe 120: purging pipe
310: first valve 320: second valve
330: third valve 400: purging gas supply
500: controller 600: detection sensor

Claims (5)

In the purging system of the liquefied gas for replacing the piping of the storage tank containing the liquefied gas with the purging gas,
a gas pipe providing a low point located at the lowest height among the gas flow paths through which liquefied gas is transported;
a purging pipe for guiding a purging passage branched from the low point to the storage tank;
a first valve provided in the purging pipe to open and close the purging passage;
a purging gas supply supplying a purging gas to the gas pipe so that the liquefied gas collected at the low point is guided to the purging passage; and
A purging system for liquefied gas, comprising a controller for controlling the purging gas supply and the first valve. The method of claim 1,
a second valve installed at one end of the gas pipe connected to the storage tank and selectively opening and closing a gas flow path at one end of the gas pipe; and
The purging system of liquefied gas, which is installed at the other end of the gas pipe and further comprises a third valve selectively opening and closing the gas flow path at the other end of the gas pipe. 3. The method of claim 2,
Further comprising a detection sensor for measuring the internal pressure of the gas pipe, purging system of the liquefied gas. 4. The method of claim 3,
the controller is
In order to move the liquefied gas converged to the low point to the storage tank through the purging pipe, the internal pressure measured through the detection sensor is preset in a state in which the second valve and the third valve are closed. When the pressure is higher than the reference pressure, the first valve is opened, and the purging gas is supplied to the gas pipe through the purging gas supply. The method of claim 1,
The purging pipe is
A purging system for liquefied gas, which is connected downwardly to the low point of the gas pipe.

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