JPH09287700A - Pig system for reception pipe line - Google Patents

Abstract

PROBLEM TO BE SOLVED: To perform stable operation of a pig and a cleaning and purging work having high stability. SOLUTION: Ball valves V10 and V20 are attached on the inlet side and the outlet side of a tee T20 on the storage equipment side and a line connected to a tank through an automatic valve OV10 is connected to the side outlet side. A pressure fluid feed pipe 4 having an automatic valve OV2 and a discharge pipe 60 having an automatic valve OV30 are connected to a pig launcher. The discharge pipe and a line connected to the tank are interconnected through a branch discharge pipe 60a having an automatic valve OV40 , and a pig stopper PS is charged. A pig detector X2 is arranged at a tee T20 right in front of a pig receiver. Based on a detecting signal therefrom, the automatic valve OV2 of a pressure fluid feed pipe connected to the pig launcher and the automatic valve OV40 of the branch discharge pipe 60a are closed and the automatic valve OV30 located in the discharge pipe 60 is opened.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a pig system as a method for cleaning and purging pipes. More specifically, it relates to a pig system applied to a receiving pipeline for unloading liquid fluid from a tanker to a storage facility.

[0002]

2. Description of the Related Art As a method for cleaning and purging a pipeline, a so-called pig having a spherical elastic body or a labyrinth lip seal on the outer periphery, called a pig, is a pressure fluid made of an inert gas such as air or nitrogen gas. The so-called pig system, in which the fluid and sludge and other contaminants remaining in the pipeline, and the coagulating liquid adhering to the pipeline are extruded and removed by this pig It is known.

FIG. 3 exemplifies a conventional system, and a receiving or pipeline 50 connecting a tanker and a storage facility (tank) on land is provided with a cleaning or purging means commonly called a one-line pig system. It is a block diagram of the system incorporated. In this conventional system, as shown in the drawing, a T-shaped pipe joint 52A is provided on the receiving line 50 connecting the tanker and the storage facility to the tanker side and to the storage facility side.
And a flow through tee (hereinafter, referred to as tee) composed of 52B and 52B, respectively.
A pipeline 50a leading to a tanker is connected to the tee 52B on the storage facility side, and a pipeline 50b leading to a tank is connected to the tee 52B on the storage facility side via an automatic valve 51B. Then, a pig launcher 54L as a pumping means for the pig 53 is installed on the inlet side of the tee 52A on the tanker side via an automatic ball valve 55A, and an automatic ball valve 55B is also installed on the rear end outlet side of the tee 52B on the storage facility side. A pig receiver 54R as a means for receiving the pig 53, and a pig launcher 5
4L includes a pressure fluid supply pipe 56a having an automatic valve 57A.
Is connected, and the working pressure fluid (nitrogen gas) is supplied to the pig launcher 54L via this pressure fluid supply pipe 56a, and the pig 53 is pressure-fed to the pig receiver 54R side. That is, the fluid, sludge and other contaminants remaining in the receiving pipeline 50 in the pressure feeding process are passed through the pig 53 to the pig receiver 54R.
It is configured to be discharged to the side.

The features of this conventional pig system are as follows: (1) A pressure fluid supply pipe 56b is connected to the pig receiver 54R side in the same manner as in the pig launcher 54L, and this pressure fluid supply pipe 56b is used. The pig 53 that has been pressure-fed to the pig receiver 54R.
Pushing back to the L side, in the process of which the receiving pipeline 50 can be re-cleaned or re-purged, and the pig 53 can be cleaned or purged while being confined in the pipeline system. (2) Pressure fluid supply pipes 56a and 56b for the pig launcher 54L and the pig receiver 54R.
Are provided with automatic valves 57A and 57B, respectively, and pig detectors Xa and Xb for detecting passage of the pig 53 are provided in the middle of the receiving pipeline 50, and the pig 53 moves from the pig launcher 54L side to the pig receiver 54R side. At this time, the pig detector Xb detects the passage thereof and closes the automatic valve 57A of the pressure fluid supply pipe 56a on the pig launcher 54L side, and conversely, the pig 53 causes the pig receiver 5 to move.
When the pig detector Xa is detected when moving from the 4R side to the pig launcher 54L, the automatic valve 57B of the pressure fluid supply pipe 56b on the pig receiver 54R side is closed, so that the system can be automatically operated. It is in.

[0005]

However, in this conventional system, when trouble occurs in the pig detectors Xa and Xb and the automatic valves 51A to 51B incorporated in the pipeline directly connected to the storage facility (tank) side. ,
There is a risk that the working pressure fluid used for pumping the pig, that is, nitrogen gas, may enter the tank and damage the tank.
Safety measures in this regard were insufficient, and there was a problem in operation management as a system.

This point will be described more specifically with reference to FIG. 3. First, when the pig detector Xb detects passage of the pig 53, the automatic valves 57A and 51B are closed,
The pig 53 is stopped at the center of the tee 52B by the hydraulic pressure stored on the front surface of the pig 53 in the traveling direction. That is, a slit (not shown) provided at the center of the tee 52B.
To prevent the working pressure fluid, that is, nitrogen gas, from leaking to the storage facility (tank) side.

However, if the pig detector Xb fails and malfunctions, the automatic valves 57A and 51B will not close. As a result, nitrogen gas is introduced into the storage facility (tank) side. Even if the pig detector Xb is normally operated, if the automatic valve 51B itself malfunctions and leaks nitrogen gas, the pig 53 moves from the slit of the tee 52B due to the decrease in hydraulic pressure. Then
The nitrogen gas is leaked to the storage facility side through the slit of the tee 52B. As a result, there is a problem that it may cause damage to the tank.

The present invention solves such a problem,
It was developed for the purpose of providing a pig system that can be applied to pipelines with a pipe size and pipeline length of 1000 m or more, and has stable pig operability and high safety.

[0009]

In order to achieve the above object, the present invention provides a tanker side and a storage facility side of a receiving pipeline connecting the tanker and the storage facility with pig tees, respectively. A pig launcher as a means for pumping a pig is provided at the inlet side of the tee, and a pig receiver as a means for receiving a pig is provided at the outlet side of the tee on the storage facility side to install the pig from the pig launcher side to the receiving pipeline. In the pig system that pressure-feeds to the pig receiver side through cleaning or purging of the receiving pipeline, first attach ball valves to the inlet side and outlet side of the tee on the storage facility (tank) side, An automatic valve was attached to the outlet side.
Then, a pipe line leading to the tank was connected to the automatic valve on the side outlet side.

Next, a pressure fluid supply pipe having an automatic valve is connected to the pig launcher, a discharge pipe having an automatic valve is connected to the pig receiver, and the discharge pipe and a pipe communicating with the tank are connected to each other. , Connected with a branch discharge pipe having an automatic valve.

Further, a pig stopper for receiving the pig is freely installed in and out of the pig receiver, and a pig detector is installed on the tee just before the pig receiver. Then, based on the detection signal of the pig detector, the automatic valve of the pressure fluid supply pipe connected to the pig launcher and the automatic valve provided in the branch discharge pipe are closed, and the automatic valve provided in the discharge pipe is opened. It is characterized by being configured in.

The tee just before the pig receiver is T
A short pipe having the same diameter as the pipe diameter of the receiving pipeline was extended inside the V-shaped casing. Then, during loading and unloading, the fluid is received to the tank side through the automatic valve on the side outlet side, and when the detection signal of the pig detector is transmitted, the pig is held in the short pipe, and the pressurizing medium for picking pressure is supplied. It was configured to stop the flow into the tank.

The pig stopper has a structure in which a receiving plate having a slit or notch corresponding to the spherical surface of the pig is attached to the tip of a rod-shaped body so that the pig stopper can be inserted into and removed from the pig receiver. The diameter of the pig was a spherical body slightly larger than the diameter of the pipe of the receiving pipeline, and was set to 0.5 to 3.0% larger than the inner diameter of the pig receiver.

Since the pig system according to the present invention is configured as described above, when the pig is pumped from the pig launcher side to the pig receiver side, the pig passes through the receiving pipeline and is installed in the pig receiver. It will be captured by the stopper. During the pressure feeding process, the pig is detected by the pig detector to pass through, and the automatic valve of the pressure supply pipe that supplies nitrogen gas to the pig launcher based on the detection signal and the automatic valve provided on the branch discharge pipe on the pig receiver side are installed. Since it is closed and the automatic valve provided in the discharge pipe is opened, the supply of nitrogen gas as operating pressure fluid to the pig launcher is automatically stopped by the time the pig is captured by the pig stopper in the pig receiver. To do.

Since a manual valve is provided outside the automatic valve in the supply pipe of the operating pressure fluid to the pig launcher and the branch discharge pipe on the pig receiver side, when the pig arrives at the pig receiver, If the manual valve provided in the pressure fluid supply pipe and the manual valve provided in the branch discharge pipe are closed, there is no concern that the working pressure fluid will leak into the tank. As a result, even if there is a malfunction of the pig detector or automatic valve, the manual valve will be closed, so that nitrogen gas as the pressure fluid for operating the pig will not be supplied to the system piping, and of course it will be stored in the tank. There will be no inflow.

[0016]

DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described in detail with reference to the embodiments shown in the drawings. FIG. 1 is a flow sheet in which a pig system according to the present invention is incorporated into a receiving pipeline which connects a tanker and a tank of a storage station. In the figure, the left side is the cargo pier side where the cargo handling equipment for receiving the liquid fluid from the tanker is installed. The right side is the tank yard side with storage facilities (tanks), and Dp is the receiving pipeline connecting both. First, a pig launcher L as a pumping means for the pig Pg installed on the cargo handling pier side is composed of a cylindrical vessel having a detachable lid 1, and is on the outlet side (right side in the figure).
Is narrowed to the same diameter as the pipe diameter of the receiving pipeline Dp.

Next, a tee T ₁ was provided on the cargo handling pier side of the receiving pipeline Dp. As described above, the tee T ₁ is provided with the short pipe 3 having the same diameter as the pipe diameter of the receiving pipeline Dp extending from the outlet side toward the inlet side inside the T-shaped casing 2. It has a structure. In this embodiment, the manual ball valves V ₁ and V ₂ are attached to the inlet side and the outlet side of the tee T ₁ , and the automatic valve OV ₁ is attached to the side inlet side.

[0018] Then, the pipe, that is connected to the receiving pipeline Dp pier side, the inlet side of the tee T ₁ manual ball valve V ₁ leading to tanker automatic valve OV ₁ side inlet side of the tee T ₁ The pig launcher L is connected and installed in front of the.

Further, a pressure fluid supply pipe 4 having a pressure setting control valve PC ₁ , an automatic valve OV ₂ and a manual valve V ₃ is connected to the pig launcher L itself, and an air vent 5 and a drain 6 are further connected.
And equipped with a pressure gauge P ₁ . In this embodiment, as shown in the figure, the pressure fluid supply pipe 4 and the T ₁
And a pressure fluid supply branch pipe 4a having a manual valve V ₄ between
Is connected so that the purging process can be performed in the reverse direction from the T ₁ side to the pig launcher L side.

On the other hand, the pig receiver R, which is a means for receiving the pig Pg installed on the right tank yard side, is formed of a vessel symmetrical with the pig launcher L, and has a structure in which a removable lid 10 is provided at the rear portion. . Then, it was connected to the outlet side of a tee T ₂₀ provided near the rear end of the receiving pipeline Dp. The tee T ₂₀ has a symmetrical structure with the tee T ₁ . That is, the T-shaped tubular casing 20 has a structure in which a short pipe 30 having the same diameter as the pipe diameter of the receiving pipeline Dp is extended from the front end inlet side (the left side in the drawing) toward the rear end outlet side, and Pig Pg is the short tube 3
When it stops at the rear end of 0, the flow of the fluid to the tank side is stopped.

Manual ball valves V ₁₀ and V ₂₀ are attached to the inlet side and the outlet side of the tee T ₂₀ , respectively,
An automatic valve OV ₁₀ was installed on the side outlet side. Then, a pipeline communicating with the tank via the manual ball valve V ₁₀ on the inlet side and the automatic valve OV ₁₀ on the side outlet side, that is, the receiving pipeline D
p was connected, and the pig receiver R was connected and installed after the manual ball valve V ₂₀ on the outlet side.

Next, the pig stopper PS mounted inside the pig receiver R has a structure in which a semicircular receiving plate 11 corresponding to the spherical surface of the pig Pg is attached to the tip of the rod-shaped body 12. Although not shown in the drawing, the semicircular receiving plate 11 that constitutes the pig stopper PS is a receiving plate 11 having a slit or a discharge port formed of a notch in the outer peripheral portion, and is pushed out by the pig Pg. The residual liquid thus collected was allowed to flow into the pig receiver R through this outlet.

Further, the pig receiver R has the same pressure setting adjustment valve PC ₁₀ and automatic valve O as the pig launcher L.
V ₂₀ and a pressure fluid supply pipe 40 having a manual valve V ₃₀ are connected, and a pressure fluid supply branch pipe ₄₀ a having a manual valve V ₄₀ is provided between the pressure fluid supply pipe 40 and the tee T _20. , T ₂₀ side to the pig receiver R side, the purge fluid, that is, nitrogen gas is supplied, and the pig Pg stopped inside the pig receiver R is opened by the pig stopper PS. Further, an air vent 50, a pressure gauge P ₂ , and a discharge pipe 60 leading to the mist separator M are connected to the pig receiver R itself, and the discharge pipe 60 is provided with an automatic valve OV ₃₀ and a sight glass (monitoring window) 70. .

In this embodiment, the T₂₀Other than
Of the pig stopper PS loaded with the pig receiver R
The outer circumference of the corresponding receiver R of the receiving plate 11 and the manual
Ball valve V_TenAbout 1m before the reception pipeline Dp,
Pig Detector X _Three, X_Two, X₁Was provided.
Further, a discharge pipe 60 leading to the mist separator M
And automatic valve OV_TenWith the receiving pipeline Dp connected to
In the meantime, the manual valve V₅₀And automatic valve OV₄₀Branch discharge pipe 6 having
0a was installed.

The pig detector X ₃ is a pig P.
When the passage of g is detected, the automatic valve OV ₄₀ of the branch discharge pipe 60a is gradually closed based on the detection signal, and the pig detector X ₂ provided on the tee T ₂₀ is moved to the pig Pg.
When the passage of the automatic valve OV ₄₀ is detected,
Further, when the pig detector X ₁ detects it, the automatic valve OV ₂ of the working fluid supply pipe 4 in the pig launcher L is closed and the automatic valve OV ₃₀ of the discharge pipe 60 is opened.

The operation panel shown on the left side in FIG. 1 is an operation panel on the pier side, that is, the pig launcher L side which is the starting side of the pig Pg, and the operation panel shown on the right side is the operation panel on the pig receiver R side. , The pig detector X ₃ , X
_{This is} for operating the entire system while checking the operating status of ₂ and X ₁ .

Next, the receiving pipeline by this system
Dp cleaning or purging procedure
Description will be made based on the flow sheets of FIGS. 1 and 2. (1) First, a storage facility for liquid fluid from a tanker (tank
In the system when the payout work to
Set each automatic valve and manual valve to the state shown in Fig. 1.
You. (2) Then, drain the residual liquid in Piglancher L
It is collected via the
Check that the pressure of the launcher L is 0. At that time
Avent 5 is opened, and then the lid of Piglancher L
Open the body 1 and move the pig Pg to the pig launcher as shown by the dotted line.
-Load in L. Pig Pg is Pig Launcher L
In the back of Nonarake (in the figure, Piglancher L's
Right side, near the reducer section). (3) When the above work is completed, drain 6 and air bearing
Pressure fluid connected to Piglancher L
(Nitrogen gas) Pressure setting adjustment valve PC provided on the supply pipe 4₁To
Operate the pressure of the pig Pg in the pig launcher L
Make settings. (4) On the other hand, the push button on the operation panel of the pig receiver R side
Operation, first, the automatic valve OV leading to the tank_TenClose
Furthermore, the automatic valve OV of the branch discharge pipe 60a₄₀With closing
Also, the manual valve V₅₀Is closed by the worker. Above
The pig receiver side is ready to receive the pig.
Manual pipes corresponding to the front end side and the rear end side of the incoming pipeline Dp
Valve V_TwoAnd V_TenMake sure that the
Notify the Piglancher L side that the preparations for launching are complete. (5) Then, the operator on the Pig Launcher L side uses the operation panel.
Automatic valve OV in the pressure fluid supply pipe 4_TwoOpen and
Pressure is applied to the launcher L, and the manual valve V_ThreeOnce closed
The preparation for starting the pig on the L side of the pig launcher is complete.
To the pig receiver R side. (6) When both parties have completed the preparation work, Piglancher L
Tee connected to ₁Ball valve V on the outlet side of_Two
After confirming that the
Le valve V₁And the manual valve V once closed._ThreeOpen
Operate. Then Pig Pg is launched and Pig Launcher
Pig receiver from the L side through the receiving pipeline Dp
It will be pumped to the R side. That is, the receiving pipeline
Dp cleaning and purging with Pig Pg
Processing will be performed. (7) Pig Pg pressure-fed in the receiving pipeline Dp
Meanwhile, the residual liquid in the receiving pipeline Dp
Push out to the R side. The residual liquid extruded is piglet
Sent from the tanker R to the tank side via the branch discharge pipe 60a
Be included. And the pig Pg is the tee on the pig receiver R side.
T₂₀Just before, Pig Detector X_ThreeBy
Is detected. This Pig Detector X_ThreeDetection
The signal connects to the pig receiver R as described above.
Continued automatic valve OV of the branch discharge pipe 60a₄₀Close
You. Pig Pg is Tee₂₀When you enter, Pigde
Detector X_TwoDetects the passage, and the mist separator
-Automatic valve OV of discharge pipe 60 leading to M₃₀Open. So
Between the automatic discharge valve OV of the branch discharge pipe 60a₄₀Is completely closed
Becomes As a result, the residue pushed out to the pig receiver R
The pushing of the liquid to the tank side was stopped and the mist separation
It is discharged to the M side. (8) Pig Pg was loaded in the pig receiver R.
When the pig stopper PS position is reached, the pig detector
X₁Detects it, and the operating pressure flow to the pig launcher L.
Automatic valve OV of pressure fluid supply pipe 4 feeding body_TwoTo
Close and automatically supply pressure fluid to pig launcher L.
Stop paying completely. Fig. 2 shows the pig on the R side of the pig receiver.
Shows the open / closed state of each valve at the time of arrival. (9) Pig Pg arrives at the pig stopper PS position
The worker on the R side of the pig receiver immediately
Report the arrival of g to the worker on the Pig Launcher L side,
Manual valve V of pressure fluid supply pipe 4_ThreeTo close. Pigleti
The operator on the R side is₂₀Entrance and exit
Mouth side manual ball valve V_TenAnd V₂₀Close and branch further
Manual valve V of the discharge pipe 60a₅₀Close. Cleaning the receiving pipeline Dp by the above procedure
Or if you do purging, in case of a pig detector,
It is operated based on the detection signal of this pig detector.
Pressure flow for operation even if troubles such as automatic valve failure occur
The body, that is, nitrogen gas, never flows into the tank,
Can develop safe work.

[0028]

As described above, the pig-line system of the receiving pipeline according to the present invention has the system configuration described through the embodiments, and therefore, it is large in the following points as compared with the conventional fully automatic one-line pig system and the like. Could bring benefits. Should a malfunction such as a malfunction occur in the detector or automatic valve that plays a major role in the system, the pig is caught by the pig stopper, and the pressure fluid for operation, that is, the leak of nitrogen gas, is eliminated. In particular, the system system is equipped with manual valves at required points and combined with automatic valves, so it is possible to eliminate the possibility that operating pressure fluid will flow into the tank side and adversely affect the tank itself. The utility as a pig system came to be exhibited.

[Brief description of drawings]

FIG. 1 is a flow sheet showing the configuration of a pig system of the present invention.

FIG. 2 is a flow sheet showing an open / closed state of each valve when a pig arrives at a pig receiver side.

FIG. 3 is a flow sheet showing the configuration of a conventional fully automatic 1-line pig system.

[Explanation of symbols]

DP …… Acceptance pipeline Pg …… Pig L …… Pig launcher R …… Pig receiver T ₁ …… Flow through tee (Pig launcher side) T ₂₀ …… Flow through tee (Pig receiver side) 1 …… Lid 2 , 20 ...... Casing 3, 30 ...... Short pipe 4, 40 ...... Pressure fluid supply pipe 4a, 40a ...... Pressure fluid supply branch pipe 5, 50 ...... Air vent 6 ...... Drain 11 ...... Receiving plate 12 ...... Rod-shaped body SP …… Pig stopper 60 …… Discharge pipe 60a …… Branch discharge pipe 70 …… Sight glass (monitoring window) P ₁ , P ₂ , P ₃ …… Pressure gauge PC ₁ , PC ₁₀ …… Pressure setting adjustment valve (Field type adjuster) X ₁ , X ₂ , X ₃ Pig detector

Claims (3)

[Claims] 1. A tee of a pig is provided on each of the tanker side and the storage facility side of a receiving pipeline connecting the tanker and the storage facility, and a pig launcher as a means for pumping the pig is provided on the tee inlet side of the tanker side. Then, a pig receiver as a means for receiving the pig is installed on the outlet side of the tee on the storage facility side, and the pig is pumped from the pig launcher side to the pig receiver side through the receiving pipeline to clean or purging the receiving pipeline. In the pig system, a ball valve is attached to each of the inlet side and the outlet side of the tee on the storage facility side, and an automatic valve is attached to the side outlet side.
A pipe line leading to a tank is connected to the automatic valve on the outlet side, a pressure fluid supply pipe having an automatic valve is connected to the pig launcher, and a discharge pipe having an automatic valve is connected to the pig receiver, and this discharge is performed. A branch discharge pipe with an automatic valve is connected between the pipe and the pipe line connected to the tank, and a pig stopper for receiving the pig is freely inserted into and taken out of the pig receiver, and the pig receiver is installed. On the tee immediately before, a pig detector is installed, and the automatic valve of the pressure fluid supply pipe connected to the pig launcher and the automatic valve provided on the branch discharge pipe on the pig receiver side are closed based on the detection signal of the pig detector, A pig system for a receiving pipeline, characterized in that the automatic valve provided in the discharge pipe is configured to be opened. 2. The tee in front of the pig receiver has a structure in which a short pipe having the same diameter as the pipe diameter of the receiving pipeline is extended inside a T-shaped casing, and an automatic valve on the side outlet side during cargo handling. Receives the fluid to the tank side via
2. When the detection signal of the pig detector is transmitted, the pig is held in the short pipe to stop the inflow of the pressurized medium for pumping the pick into the tank. Receiving pipeline pig system. 3. The receiving pipeline according to claim 1, wherein the pig stopper has a structure in which a receiving plate having a slit or a notch corresponding to the spherical surface of the pig is attached to a tip end portion of a rod-shaped body. Pig system.