KR970002277Y1 - System for separation and transportation of different fluids through the same pipe line - Google Patents

Abstract

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Description

Heterogeneous fluid separation transport system through the same pipe (pipe)

1 is a conceptual diagram of a heterogeneous fluid separation transport system according to a preferred embodiment of the present invention.

2 is a conceptual diagram of a heterogeneous fluid separation transport system according to the prior art.

* Explanation of symbols for main parts of the drawings

1: fluid transfer pipe 2: pig

3: launch tube 4: fluid supply source

10: receiving pipe 17: the first tank

18: second tank

The present invention relates to a system for separating and transporting different types of fluid by using a pig (PIG) that moves in the fluid transport pipe through a single fluid transport pipe, in particular a pipe for guiding fluid from the fluid transport pipe to the storage tank and The present invention relates to a heterogeneous fluid separation and transportation system that can minimize mixing of heterogeneous fluids by installing a 3-way valve between the pig receiving pipes.

In general, fluid transfer tubes are used to transfer fluids over relatively long distances.

In order to transfer fluid through such a fluid transport pipe, for example, a transport system including a fluid transport pipe is installed to transport crude oil from a ship on the sea to a storage tank on land. Background of the Invention Systems for transferring different types of fluids simultaneously through fluid transfer tubes are known in the art.

That is, by firing a pig (PIG) in the fluid transfer pipe, the first fluid is injected into the front end of the pig and the second fluid is injected into the rear end of the pig, and two or more heterogeneous fluids are transferred through the same fluid transfer pipe. come. 2 shows a storage tank side system of such a heterogeneous fluid separation transport system according to the prior art.

Different types of fluid are transferred to the fluid storage tank side at the front and rear ends of the pig via the pig 33 traveling inside the fluid transfer pipe 31 from the fluid supply side (not shown).

That is, the first fluid transferred from the front end of the pig 33 flows into the first storage tank through the first valve 41, the second valve 42, and the third valve 43 that are open.

At this time, the fourth valve 44 is closed. While checking that the pig 33 passes through the pig passage indicator 37, the third valve 43 starts to close and when the pig 33 is completely closed, the fourth valve 44 is opened.

Therefore, the second fluid transferred from the rear end of the pig is stored in the second storage tank 52.

However, the closing of the third valve 43 takes about tens of seconds or more even if the pipe size is about 8 inches in diameter, and the opening and closing operation of the valve takes more than a few minutes when the pipe size is about 10 inches to 20 inches.

On the other hand, the speed of the fluid flow is usually 1 to 2 m per second by design, so the second fluid following the pig every second from the moment the pig 33 arrives at the receiver 35 has a speed of 1-2 m. By flowing into the first storage tank, a large amount of heterogeneous fluids are mixed with each other depending on the valve operation time.

Therefore, such a conventional system has a problem in that excessive mixing of heterogeneous fluids occurs due to the structure of the system when the separate storage tanks for each type of fluid are separated from the fluid transfer pipe.

An object of the present invention is to solve the problems of the prior art as described above and to provide a system for separating and transporting heterogeneous fluid through a single fluid transfer pipe that can prevent the mixing of heterogeneous fluid (異種 流 體).

The purpose of this is to separate and transport different types of fluids that are transported by injecting a first fluid at the front of the pig and a second fluid at the rear of the pig by using a pig that moves in the rapeseed transfer pipe through one fluid transfer pipe. A system, comprising: a receiving tube for storing a transmitted pig; A first pipe branched from the fluid transfer pipe at a position separated by a predetermined distance from the receiving pipe; A second drain branch branched from the first pipe; A first valve installed at a first pipe between the branch point of the first pipe and the second pipe and the fluid transfer pipe, for controlling fluid supply to the first pipe; A 3-way valve for supplying the fluid flowing from the receiving pipe to any one of the first pipe and the second pipe; And at least two fluid reservoirs, each of which is connected to the first pipe via a second valve, and through which a three-way valve receives the fluid supplied through the second pipe through a third valve. It is achieved by a system for separating and transporting different types of fluid through the fluid transfer pipe (31).

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

Figure is a conceptual diagram of a heterogeneous fluid separation transport system according to the present invention. This system is provided with one fluid transfer pipe (1). On the fluid supply side of the fluid transport tube 1, a launch tube 3 for launching a pig 2 transported along the inside of the fluid transport tube 1 is coupled.

Here, the pig 2 is generally cylindrical and has a diameter slightly larger than the inner diameter of the fluid conveying tube 1 and is made of an elastic material to be conveyed in close contact with the inner diameter of the fluid conveying tube 1. Is omitted. On the fluid supply side, the first supply pipe (5) is connected to the inside of the launch tube (3) via the first valve (6) from the fluid supply source (4), the second supply pipe (7) through the second valve (8) It is coupled to communicate with the fluid transfer pipe 1 at a position spaced apart from the launch tube (3).

A third valve 9 is interposed between the launch tube 3, the branch point of the fluid transfer pipe 1, and the second supply pipe 7.

At the fluid storage side, a receiving pipe 10 for receiving the pigs 2 transferred along the inside of the fluid transfer pipe 1 is coupled via the fourth valve 11. In front of the fourth valve 11, a first pipe 12 communicating with the fluid transfer pipe 1 is provided via the fifth valve 13.

The second pipe 14 is branched from the first pipe 12 in the first pipe 12 at the position beyond the fifth valve 13. The second pipe 14 has a 3-way valve (3-WAY) for transferring the fluid flowing from the receiving pipe 10 in either of the first pipe 12 side and the second pipe 14 side. VALVE) 15 is installed.

Here, the 3-way valve is used because the 3-way valve is a ball type or a plug type, so if the handle is rotated only 90 ^o , the flow direction can be changed quickly. to be. It is more preferable to provide a sixth valve 16 for controlling the flow of fluid between the receiving pipe 10 and the three-way valve 15.

The system of the present invention is also equipped with a plurality of tanks (17) (18) for separately receiving heterogeneous fluid.

Although only a plurality of tanks 17 and 18 are shown in this embodiment, it will be readily understood that two or more different heterogeneous fluids may be transported and stored through a single fluid transfer pipe 1 by installing a plurality of tanks. The first tank 17 may receive the fluid from the first pipe 12 through the seventh valve 19 and may receive the fluid from the second pipe 14 through the eighth valve 20. It is configured to be.

Similarly, the second tank 18 may also receive fluid from the first pipe 12 through the ninth valve 21, and may receive fluid from the second pipe 14 through the tenth valve 22. It is composed. Reference numerals 23, 24, and 25 are sensing devices for checking whether the pig 2 passes through the fluid transfer pipe 1, respectively, and M is a valve driving motor.

The operation of the heterogeneous fluid separation transport system according to the present invention configured as described above will be described in detail below.

First, a process of transferring a second fluid from a state in which a heterogeneous fluid separation transport system according to the present invention is stopped, that is, a state in which a first fluid remains inside the fluid transfer pipe 1 is described.

When the system is inactive, only the sixth valve 16 is open and all other valves are closed.

From this state, the piglet 2 is first put into the inside of the launch tube 3 for the preparation state just before the start of operation, and the fourth valve 11 and the fifth valve 13 are opened by a start button (not shown). Then, the seventh valve 19 and the tenth valve 22 are opened.

When the first valve 6 and the third valve 9 are opened and the launch tube 3 fires the pig 2, the second fluid is fed from the fluid supply source 4 through the first supply pipe 5 to the pig ( It is fed into the fluid transfer pipe 1 along 2). At this time, when it is confirmed that the pig 2 passes through the portion where the first sensing device 23 is installed, the second valve 8 is opened to supply the second fluid to the fluid transfer pipe 1 through the second supply pipe 7. do.

When the pig 2 passes through the second sensing device 24, the fifth valve 13 starts to be closed, and the closing is completed until the pig 2 passes through the swine origin of the first passage 12.

Subsequently, as soon as the pig 2 passes the third sensing device 25, the three-way valve 15, which has been opened to the first pipe 12 side, is switched to the second valve pipe 14 side. Therefore, to date, the first fluid has been introduced into the first tank 17, but the inflow into the first tank 17 is completely blocked and the passage to the second tank 18 is opened. At this time, the first fluid remaining in the system is transferred to the first tank 17 by air or discharged through a drain valve (not shown).

The second fluid which has now been transferred is introduced into the second tank 18. The seventh valve 19 and the tenth valve 22 are closed again, the ninth valve 21 is opened, the fourth valve 11 is closed, and the fifth valve 13 is opened.

Therefore, the second fluid is continuously transferred to the second tank 18 through the ninth valve 21 along the first pipe 12. When the transport of the second fluid is completed, all the valves on the launch tube side are closed, and the fifth valve 13 is also closed, and then the three-way valve 15 is also returned to the original position to open the first pipe side.

As described above, the heterogeneous fluid separation transport system according to the present invention is economical by separating and transporting heterogeneous fluids through a single fluid transport tube, and has an excellent effect of effectively preventing the mixing of heterogeneous fluids.

Claims (1)

In the system for separating and transporting different types of fluid to be transferred by injecting the first fluid to the front end of the pig and the second fluid to the rear end of the pig using a pig that moves in the fluid transfer pipe through one fluid transfer pipe, Receiving pipe for receiving the transmitted pig; A first pipe branched from the fluid transfer pipe at a position separated by a predetermined distance from the receiving pipe; A second pipe branched from the first pipe; A first valve disposed between a branch point of the first pipe and the second pipe and a first pipe between the fluid transfer pipe, and configured to control a fluid supply to the first pipe; 3-way valve for supplying the fluid flowing from the receiving pipe to any one of the first pipe and the second pipe; And at least two fluid reservoirs, each of which is connected to the first pipe via a second valve, and through which a three-way valve receives the fluid supplied through the second pipe through a third valve. A system for separating and transporting different types of fluids through fluid transfer tubes.