KR20100087854A - Apparatus and method for separating a liquified gas storage tank - Google Patents

Abstract

PURPOSE: An apparatus and a method for separating liquefied gas storage tanks is provided to separate storage tanks from one another by blocking the inside of one tank among the other tanks. CONSTITUTION: An apparatus and a method for separating liquefied gas storage tanks comprises a connection pipeline(L3), a pair of first switching member(2), a first subsidiary pipe(5), a second subsidiary pipe(6), a second opening/closing member(5a), and a third opening/closing member(6a). The connection pipeline is expanded toward each storage tank interior from the main pipeline. A pair of first switching member is installed on the connection pipeline to deliver liquid gas. The second opening/closing member is installed in the first subsidiary pipe. The third opening/closing member is installed in the second subsidiary pipe.

Description

Independent device and method of liquefied gas storage tank {APPARATUS AND METHOD FOR SEPARATING A LIQUIFIED GAS STORAGE TANK}

The present invention relates to an independent apparatus and method for a liquefied gas storage tank, and more particularly, to the inside of one of the plurality of storage tanks from the outside in a marine float having a plurality of storage tanks for storing liquefied gas such as LNG or LPG. An apparatus and method are provided for the isolation of each storage tank from other storage tanks by blocking.

In general, a liquefied gas storage tank for storing liquefied gas, such as LNG or LPG, and used for floating on the sea, the liquefied gas storage tank must be completely blocked from the outside for maintenance or inspection purposes. There is a case to do.

Offshore floats are typically provided with a plurality of liquefied gas storage tanks, which are connected to each other via a main pipeline. As described above, when it is necessary to perform maintenance or inspection on any one of a plurality of storage tanks in a marine float equipped with a plurality of storage tanks, the storage tank may be shut off from the outside for safety. At the same time, it should be isolated from other storage tanks installed in the seafloat.

On the other hand, a valve or a flange assembly is generally used to disconnect the pipe to block the transfer of fluid through the pipe.

In the case of using a valve, it is easy to shut off and reconnect, that is, open and close the pipe, but it is difficult to completely shut off the pipe, and in particular, when the flow rate is high or the pressure is high, the pipe is not reliable.

When using the flange assembly, the pipe can be completely blocked, but there is a problem that fluid can leak from the seam of the flange assembly. The flange assembly has a structure in which bolts are connected to each other by inserting bolts into fastening holes formed in the flanges with a gasket interposed between flanges formed at ends of pipes facing each other, and when the pipe is blocked, the pipes facing each other are connected. After separation, the disk is closed by joining the disc to the end of the opened pipe.

Due to the structure of the flange assembly, unlike the case where the pipe to be blocked is installed in a stationary place such as a land plant or facility, when it is installed in a marine vessel or structure to which dynamic deformation is applied from the outside, bending stress that is difficult to experience on land Since an external force of the back continues to be applied to the flange assembly, there is a risk of damage to the seam or bolting portion of the flange assembly. This increases the likelihood of fluid leakage in offshore vessels or structures even when the pipes are blocked using flange assemblies.

Therefore, in offshore floats carrying or storing cryogenic liquefied gas such as LNG, LPG, etc., the leakage of liquefied gas can have a fatal effect on the safety of crews as well as ships. The use of assemblies is avoided, and the use of welding is recommended for the connection of pipes.

As a result, in a marine floating material having a plurality of liquefied gas storage tank and used floating in the sea as described above, when the liquefied gas storage tank needs to be completely blocked from the outside for the purpose of maintenance or inspection. In addition, continuous development and improvement of storage tank independent devices and methods capable of completely blocking only the storage tank from the outside among a plurality of storage tanks is required.

The present invention for solving the above problems, the plurality of liquefied gas storage tanks of the plurality of liquefied gas storage tank connected to the connection between the main pipeline and the storage pipe to be separated by a valve provided at regular intervals these The purpose of the present invention is to provide an apparatus and a method for making the storage tank independent by blocking the pipe by making the inside of the connection pipe between the valves become an independent space and allowing an inert gas to flow in the independent space.

According to an aspect of the present invention for achieving the above object, as an independent device for independent storage tank of one of a plurality of storage tanks installed for storing liquefied gas in the sea floating, connecting a plurality of the storage tanks together A connecting pipeline branching from the main pipeline and extending into each of the storage tanks; A pair of first opening / closing means spaced apart from each other in the connection pipeline used to transfer the liquefied gas; First and second auxiliary pipes connected to independent sections formed in the connection pipeline when the pair of first opening / closing means are closed, and capable of supplying and discharging test fluid to the independent sections; Provided is an independent device for a liquefied gas storage tank comprising a.

The independent device of the liquefied gas storage tank may include second opening and closing means installed in the first auxiliary pipe for supplying the inspection fluid into the independent section, and the second opening for discharging the inspection fluid from the independent section. It is preferable to include a third opening and closing means installed in the auxiliary pipe.

The independent device of the liquefied gas storage tank preferably includes an inspection unit installed downstream of the third opening / closing means of the second auxiliary pipe to inspect whether liquefied gas is mixed in the inspection fluid discharged from the independent section. Do.

Preferably, the first opening and closing means is a valve.

Preferably, the second and third opening and closing means is any one selected from a valve and a flange assembly.

Independent device of the liquefied gas storage tank, characterized in that the test fluid is an inert gas.

Preferably, the pressure of the test fluid conveyed through the first and second auxiliary pipes is greater than the pressure of the liquefied gas conveyed through the connecting pipeline.

Preferably, the first and second auxiliary pipes are permanently installed in the connecting pipeline.

On the upstream side of the second opening and closing means of the first auxiliary pipe is provided a first valve for adjusting the opening and closing degree according to the pressure measurement value of the pressure sensor, and another downstream of the third opening and closing means of the second auxiliary pipe It is preferable to install a second valve whose opening and closing degree is adjusted according to the pressure measurement value of the pressure sensor.

Preferably, the second and third opening and closing means include a spool and a flange assembly for attaching and detaching the spool.

Preferably, a pair of third valves are provided on the upstream and downstream sides of the spools of the first and second auxiliary pipes to close the first and second auxiliary pipes primarily when the spools are removed.

The flange assembly includes a first flange portion formed at ends of the first and second auxiliary pipes, a disc closing the openings of the first and second auxiliary pipe ends when the spool is not connected, and the spool. It is preferable to include the 2nd flange part formed in the terminal of.

According to another aspect of the present invention, as an independent method for independent storage tank of one of a plurality of storage tanks installed for storing liquefied gas in the sea floating, from a main pipeline connecting the plurality of said storage tanks together The connecting pipelines branched and extending into each of the storage tanks are blocked by opening and closing means provided at regular intervals to make the interior of the connecting pipeline between these opening and closing means independent, and the test fluid is separated into the independent space. An independent method of a liquefied gas storage tank is provided, characterized in that the connection pipeline is blocked by flowing in the chamber.

The independent method of the liquefied gas storage tank may include determining whether the liquefied gas leaks by inspecting a component of the test fluid flowing through the independent space.

The pressure of the test fluid flowing through the independent space is preferably maintained higher than the pressure of the liquefied gas.

According to the present invention as described above, the connection pipe connected between the storage tank to be independent of the plurality of liquefied gas storage tanks and the main pipeline is blocked by valves provided at regular intervals, An apparatus and a method for making the storage tank independent by blocking the pipe by making the inside of the connecting pipe into an independent space and allowing an inert gas to flow into the independent space can be provided.

According to the independent device and method of the liquefied gas storage tank of the present invention, the pipe can be reliably shut off when necessary while reducing the risk of leakage during use of the pipe carrying the liquefied gas, so that the storage tank can be reliably independent from the outside. Will be.

EMBODIMENT OF THE INVENTION Hereinafter, the independent apparatus and method of the liquefied gas storage tank which concern on preferred embodiment of this invention are demonstrated in detail with reference to drawings.

1 is a conceptual diagram schematically showing an independent apparatus of a liquefied gas storage tank according to a preferred embodiment of the present invention, Figures 2 and 3 schematically show an independent apparatus of a liquefied gas storage tank according to a modification of the present invention A conceptual diagram is shown.

As shown in FIG. 1, the independent apparatus of a liquefied gas storage tank according to a preferred embodiment of the present invention includes a plurality of storage tanks 1 storing liquefied gas such as LNG and LPG, and a plurality of these. It is installed in the connecting pipeline (L3) extending between the main tank (L1) for connecting the storage tank (1) to each other. According to the present invention, it is possible to reliably separate only the storage tank to be independent of the plurality of liquefied gas storage tanks installed inside the marine float.

As used herein, the term "floating float" is a concept including both a structure and a vessel that are used to float in the sea where a flow occurs while having a storage tank for storing a liquid cargo loaded at a cryogenic state, such as LNG. This includes not only structures such as Floating, Production, Storage and Offloading (FPSO) or LNG Floating Storage and Regasification Units (FSRUs) but also LNG carriers and LNG Regasification Vessels (RVs).

The independent device provided in the connecting pipeline L3 includes a pair of first opening and closing means 2 which are spaced apart from each other at regular intervals in the connecting pipeline L3 used to transfer the liquefied gas, and a pair of these First and second pipes connected to an independent section 3 of the connecting pipe line L3 which forms an independent space during the closing operation of the first opening and closing means 2 to transfer an inert gas (for example, nitrogen) as an inspection fluid; Second auxiliary pipes 5, 6.

A second opening and closing means 5a and a first valve 5b are installed in the first auxiliary pipe 5 for supplying the inert gas into the independent section 3, and the second inlet gas is discharged from the independent section 3. Preferably, the auxiliary pipe 6 is provided with an inspection unit 7 together with the third opening and closing means 6a and the second valve 6b.

According to the invention, the pressure of the inert gas conveyed through the first and second auxiliary pipes 5, 6 is preferably set to be greater than the pressure of the liquefied gas conveyed through the connecting pipeline L3. If the pressure of the inert gas is greater than the pressure of the liquefied gas, the pressure in the independent section 3 may be greater than the pressure in the connecting pipeline L3 when the pipe is blocked, thereby more reliably preventing the leakage of the liquefied gas. .

As an inert gas, it is preferable to use nitrogen which is received through a pipe from a nitrogen production apparatus installed in an existing marine suspended matter.

Further, by setting the temperature of the inert gas higher than the vaporization temperature of the liquefied gas (about 163 ° C in the case of LNG), even if the liquefied gas such as LNG leaks, it is vaporized immediately and discharged together with the inert gas. The thermal deformation is prevented from occurring in a device such as the second auxiliary pipe 6 through which the gas is discharged.

The first and second valves 5b and 6b may be configured to adjust the degree of opening and closing on the basis of the pressure sensed by the corresponding pressure sensors 5c and 6c, respectively. After each of the pressure sensors 5c and 6c senses the pressure, if the internal pressure of the independent section 3 is too low, the internal pressure of the independent section 3 may increase by opening the second valve 6b small. Adjust so that In addition, if the internal pressure of the independent section 3 is too high, the first valve 5b is opened smaller so that the internal pressure of the independent section 3 can be lowered.

The pair of first opening and closing means 2 installed in the connecting pipeline L3 may be a valve. In particular, when the pipe blocker of the present invention is used in a vessel or a structure that floats at sea, the opening and closing means such as a flange assembly which may be leaked by deformation by external force is refrained from applying the first opening and closing means. It is more preferable to utilize a valve installed by welding as).

The first and second auxiliary pipes 5, 6 can be connected to the connecting pipeline L3 by welding, and the second and third opening and closing means installed in these first and second auxiliary pipes 5, 6. 5a, 6a, first and second valves 5b, 6b, and inspection unit 7 may also be installed by welding. As the second and third opening and closing means 5a and 6a, an open flange, a spectacle flange, or the like may be utilized as well as a valve.

The inspection unit 7 is installed in the second auxiliary pipe 6 and inspects whether liquefied gas is mixed with the inert gas discharged from the independent section 3. If the liquefied gas is detected by the inspection unit 7 or more than the reference value, it may be determined that the pipe is not blocked.

2 and 3 schematically show the independent device of the liquefied gas storage tank according to various modifications of the present invention.

According to the independent device of the first modification shown in FIG. 2, there is a difference that the valve is used as an opening / closing means as compared with the independent device shown in FIG. That is, the second and third opening and closing means in FIG. 1 may be embodied by the valves 5a and 6a of FIG. 2.

In addition, according to the independent device of the second modification shown in FIG. 3, there is a difference that it is specified that the spool and the flange assembly are used as the opening and closing means as compared with the independent device shown in FIG.

The independent device of the second variant shown in FIG. 3 is only when the first and second auxiliary pipes 5, 6 are not permanently installed in the connecting pipeline L3 and the independence of the storage tank 1 is required. Can be connected. That is, when the independence of the storage tank 1 is necessary, the first and second auxiliary pipes 5 and 6 are connected to the connection pipeline L3 through the spool 9, and the independence of the storage tank 1 is maintained. If necessary, the connection between the first and second auxiliary pipes 5, 6 and the connecting pipeline L3 is released by removing the spool 9.

On the upstream and downstream sides of the spool 9 in the first auxiliary pipe 5, a pair of third valves 4 for primarily closing the first auxiliary pipe 5 when the spool 9 is removed, respectively. And a pair of third valves 4 for firstly closing the first auxiliary pipe 5 when the spool 9 is also removed upstream and downstream of the spool 9 in the second auxiliary pipe 6. Are installed respectively.

The connection between the spool 9 and the first and second auxiliary pipes 5, 6, and the connection between the spool 9 and the connecting pipeline L3, is via a flange assembly 10 joined by bolts. Each can be done. When the spool 9 is removed, the openings of the first and second auxiliary pipes 5, 6 and the openings of the connecting pipeline L3 can be closed secondly by bolting the closing disc with bolts.

For example, as shown in FIG. 4, the flange assembly 10 includes a first flange portion 11 formed at the end of the pipe, a disc 12 closing the opening at the end of the pipe when the spool is not connected, It may include a second flange portion 13 formed at the end of the spool.

The engagement between the first flange portion 11 and the disc 12 and the engagement between the first flange portion 11 and the second flange portion 13 are made by bolts and nuts (not shown), not shown. May be interposed.

The flange assembly of FIG. 4 is merely an example, and of course, another type of flange assembly such as spectacle flange of the type 8 may be used.

As described above, in the second modification, the second and third opening and closing means 5a and 6a in FIG. 1 include the spool 9, the pair of flange assemblies 10, and the pair of third valves 4. ).

On the other hand, as shown in Figs. 2 and 3, a valve 8 as another opening and closing means may be provided on the downstream side of the inspection unit 7.

As described above, according to the independent device of the present invention, when an operator approaches the inside of the storage tank to maintain or inspect only one storage tank among the plurality of storage tanks installed in the marine float, the storage tank is stored in the remaining storage tanks. It can be completely cut off from the operator to ensure worker safety.

In addition, due to the inspection unit 7 installed in the second auxiliary pipe 6 and capable of monitoring the leakage of the liquefied gas by analyzing the components of the liquefied gas mixed with the inert gas, the liquefied gas leakage accident occurs. Even if it is possible to evacuate the worker in advance is preferable.

As described above, the independent apparatus and method of the liquefied gas storage tank according to the present invention have been described with reference to the illustrated drawings, but the present invention is not limited to the embodiments and drawings described above, and is seen within the claims. Various modifications and variations can be made by those skilled in the art to which the invention pertains.

1 is a conceptual diagram schematically showing an independent device of a liquefied gas storage tank according to a preferred embodiment of the present invention;

2 and 3 is a conceptual diagram schematically showing an independent device of the liquefied gas storage tank according to a modification of the present invention, and

4 is an exemplary view of a flange assembly used in pipe connection.

Description of the Related Art

1: storage tank 2: first opening and closing means

3: independent section 4: third valve

5: first auxiliary pipe 5a: second opening and closing means

5b: 1st valve 5c, 6c: pressure sensor

6: second auxiliary pipe 6a: third opening and closing means

6b: second valve 7: inspection unit

8: valve 9: spool

10 flange assembly 11 first flange portion

12: disc 13: second flange portion

L1: main pipeline L3: connection pipeline

Claims (14)

As an independent device for independent storage tank of one of a plurality of storage tanks installed for storing liquefied gas in the sea floating, A connection pipeline branching from a main pipeline connecting the plurality of storage tanks together and extending into each of the storage tanks; A pair of first opening / closing means spaced apart from each other in the connection pipeline used to transfer the liquefied gas; First and second auxiliary pipes connected to independent sections formed in the connection pipeline when the pair of first opening / closing means are closed, and capable of supplying and discharging test fluid to the independent sections; Independent device for a liquefied gas storage tank comprising a. The method according to claim 1, And second opening and closing means installed in the first auxiliary pipe for supplying the test fluid into the independent section, and third opening and closing means installed in the second auxiliary pipe for discharging the test fluid from the independent section. Independent device of the liquefied gas storage tank, characterized in that. The method according to claim 2, And an inspection unit installed downstream of the third opening / closing means of the second auxiliary pipe to inspect whether liquefied gas is mixed in the inspection fluid discharged from the independent section. The method according to claim 1, Independent device of the liquefied gas storage tank, characterized in that the first opening and closing means is a valve. The method according to claim 2, The second and third opening and closing means, the independent device of the liquefied gas storage tank, characterized in that any one selected from the valve and the flange assembly. The method according to claim 1, Independent device of the liquefied gas storage tank, characterized in that the test fluid is an inert gas. The method according to claim 1, Independent apparatus of the liquefied gas storage tank, characterized in that the pressure of the test fluid conveyed through the first and second auxiliary pipe is greater than the pressure of the liquefied gas conveyed through the connecting pipeline. The method according to claim 1, Independent device of the liquefied gas storage tank, characterized in that the first and second auxiliary pipe is permanently installed in the connecting pipeline. The method according to claim 2, On the upstream side of the second opening and closing means of the first auxiliary pipe is provided a first valve for adjusting the opening and closing degree according to the pressure measurement value of the pressure sensor, and another downstream of the third opening and closing means of the second auxiliary pipe Independent device of the liquefied gas storage tank, characterized in that the second valve for adjusting the opening and closing degree is installed according to the pressure measurement value of the pressure sensor. The method according to claim 2, The second and third opening and closing means, the independent device of the liquefied gas storage tank, characterized in that it comprises a spool and a flange assembly for detaching the spool. The method according to claim 10, A pair of third valves are provided on the upstream and downstream sides of the spools of the first and second auxiliary pipes to close the first and second auxiliary pipes primarily when the spools are removed. The flange assembly includes a first flange portion formed at ends of the first and second auxiliary pipes, a disc closing the openings of the first and second auxiliary pipe ends when the spool is not connected, and the spool. Independent device for a liquefied gas storage tank comprising a second flange formed at the end of the. As an independent method for independent storage tank of one of a plurality of storage tanks installed for storing liquefied gas in the sea floating, The connecting pipelines branched from the main pipelines connecting the plurality of storage tanks together and extending into the respective storage tanks are blocked by opening and closing means provided at regular intervals, thereby preventing the connection pipelines between the opening and closing means. An independent method of a liquefied gas storage tank characterized in that the interior of the interior space and the test fluid flows in the independent space to shut off the connecting pipeline. The method according to claim 12, Independent method of the liquefied gas storage tank, characterized in that for determining the leakage of liquefied gas by inspecting the components of the test fluid flowing through the independent space. The method according to claim 12, Independent method of the liquefied gas storage tank, characterized in that the pressure of the test fluid flowing in the independent space is maintained higher than the pressure of the liquefied gas.

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