KR102063165B1 - Method for Hydro Test Using Pig - Google Patents

Abstract

The present invention relates to a hydraulic test method for performing an internal hydraulic test of various kinds of pipes installed in a predetermined distance using a pig which is capable of reducing a construction period and expenses of piping construction. According to the present invention, the hydraulic test method comprises the following steps of: (a) inserting a hydraulic test-only pig into a launching pipe and closing a door; (b) operating a pump to discharge air existing in a pipe through a fifth valve while the pig moves along the pipe; (c) stopping the operation of the pump when the pig reaches a reception pipe, discharging the air existing in the pipe, and completely filling the pipe with water; (d) performing a hydraulic test of the pipe; (e) injecting air into the reception pipe through an air supply pipe to discharge the water filled in the pipe through a second valve while the pig existing in the reception pipe is returned; (f) discharging the air compressed in the pipe; and (g) opening the door of the launching pipe to collect the pig to finish the hydraulic test.

Description

Pipeline Hydrostatic Testing Method Using Pigtails {Method for Hydro Test Using Pig}

The present invention relates to a method for testing the hydraulic pressure of the pipe in order to check in advance the leak of the pipe, and more particularly, to a method for performing an internal hydraulic test to the various pipes installed at a predetermined distance using the pig.

In general, the pipe is an oil pipe, a gas pipe or a water pipe for transporting a fluid such as oil, gas, or water at a predetermined distance, or a pipe or other facility installed for the purpose of water supply and drainage or such a facility. Pipes such as oil pipes, gas pipes, or water pipes should be inspected for leakage by periodically performing water pressure or airtight tests after installation or as aging proceeds.

In order to extend the life of the piping equipment and clean the fluid transferred through the pipe by removing scales and foreign substances, etc. fixed in the pipe, the pipe is inserted by performing a pigging operation. Clean. In some cases, debris can be removed by transporting chemically treated sponges together with pigs.

Pigging is the process of removing foreign substances or inspecting the inside of pipes by using a tool called a pig. Pigs are named from the squeaks that they make while being inserted into the pipeline and transported. Pigs are fired at the pressure of the fluid from the launcher and are collected at the receiver by moving the entire length of the pipe. This pigging is ideal for long distance pipes and for cleaning underground buried pipes where no vents or drains can be installed. In addition, it is advantageous to remove solid foreign matter that is difficult to clean by a chemical method. Pigging has been mainly used for cleaning large diameter pipes, but nowadays it is widely used in small diameter pipes for efficiency and cost reduction. Pigging is a physical cleaning method applied to the cleaning of buried pipe, ultra high pressure pipe, gas pipe, aviation oil pipe. Moreover, pigging is a mechanical cleaning method that does not pollute the environment. Before pigging, air or nitrogen can be blown in to make it easy to check whether clogging between pipes and pipes.

Conventionally, a pipe or a drain valve for exhaust should be additionally installed in a pipe for a hydraulic test on a pipe using a pig, thus adding time and cost for construction and a problem of environmental pollution.

In the prior art related to the present invention, Patent Document 1 is a main pipe through which the fluid and the pig is passed and installed horizontally with respect to the ground; Directly connected to both ends of the main pipe, respectively, and comprises a pig firing pipe formed with the same main diameter and the nominal diameter, the pig firing pipe, the connection pipe horizontally connected to the main pipe; An input pipe extending from the connection pipe to provide an input pipe line for the pig, and an external pressure water supply pipe for pumping water into the input pipe line; Disclosed is a pressure type flow piping system including a first drain pipe and a second drain pipe respectively installed on one side and the other side of a connection pipe with respect to the input pipe.

Republic of Korea Patent Publication No. 10-0906681 (2009.07.07.Notification)

In order to solve the above problem, an object of the present invention is to perform a hydraulic pressure test of a pipe using a pig without additional installation of a separate exhaust valve or drain valve.

In order to achieve the above object, the present invention comprises the steps of: (a) opening the door of the launch tube installed at one end of the pipe to be tested for water pressure and inserting a hydraulic test-only pig into the launch tube and closing the door; (b) Operate the pump to supply water from the water tank through the water pipe, to open the fifth valve installed in the receiving pipe, and to open the first valve installed in the launch pipe, to remove the air present in the pipe while the pigs move along the pipe. Discharging through the five valves; (c) When the pig is transported along the pipe and arrives at the receiving pipe installed at the other end of the pipe, the pump is stopped and the first and fifth valves are closed, so that all air is discharged from the pipe and water is completely filled. Making it possible; (d) opening the third valve connected to the first valve and the hydraulic tester, operating the pump to increase the set test pressure, stopping the operation of the pump, and closing the first valve to perform a hydraulic test of the pipe; step; (e) When the water pressure test of the pipe is completed, the third valve is closed, the second valve installed in the launch tube is opened, the sixth valve installed in the receiving pipe is opened, and the air compressor is operated to operate the receiving pipe through the air supply pipe. Injecting air into the pipe so that the pigs in the receiving pipe are conveyed along the pipe so that the water filled in the pipe is discharged through the second valve; (f) When the pig is conveyed along the pipe and arrives at the launch tube installed at one end of the pipe, the air compressor is stopped, the sixth valve is closed, and the fifth valve is opened to exhaust the compressed air inside the pipe. step; (g) When the compressed air is exhausted inside the pipe is characterized in that the pipe hydraulic pressure test method using a pigtail to open the door of the launch tube to recover the pig and complete the hydraulic test.

In addition, in the present invention, the hydraulic pressure-only pig may be configured in a structure that is transported in both directions.

In addition, in the present invention, in the step (b), it is possible to adjust the opening speed of the first valve installed in the launch tube so that water supplied through the water pipe does not rapidly enter the launch tube.

In addition, in the present invention, (h) the water supply through the steps (b) to (g) after inserting and closing the washing pig or washing sponge of the structure to be transported in both directions by opening the door of the launch tube. It may further comprise the step of washing the inside of the pipe while performing the supply of air.

In addition, in the present invention, the cleaning sponge may be treated with the cleaning chemicals.

According to the present invention, the air pocket inside the pipe can be removed during the hydraulic test of the long-distance oil pipe, the gas pipe, or the transport pipe containing various fluids, and there is no need to install an exhaust valve. It can also remove the water filled in the pipe during the process, so there is no need to install a separate drain valve, which can shorten the air and save the cost, and prevent the environmental pollution that may occur due to the hydraulic test of the pipe. There is an advantage to this.

1 is an exemplary view for implementing a pipe hydraulic pressure test method using a pig according to the present invention.
Figure 2 is a flow chart showing a pre- and post-process for the pipe hydraulic test using a pig in accordance with the present invention.
3 is a flowchart illustrating a pipe hydraulic pressure test method using a pig according to the present invention.

Hereinafter, with reference to the accompanying drawings an embodiment of a pipe hydraulic pressure test method using a pig according to the present invention will be described in detail.

In FIG. 1, a launch tube 10 capable of inserting and removing a pig 30 is installed at one end of a pipe 5 for a hydraulic test, and the pig 30 arrives at the other end of the pipe 5. The receiving pipe 20 which can be conveyed is provided. The pipe 5 may be provided under conditions such that there is no change in diameter or interference while the pig 30 is transported and conveyed. Depending on the diameter of the pipe 5, the type or size of the pig 30 to be inserted may vary.

The launch tube 10 is provided with a first valve 11 for opening and closing the inflow of water, a second valve 12 for opening and closing to discharge the water filled in the pipe (5), the hydraulic tester 14 is connected And a third valve 13 for opening and closing the transmission of hydraulic pressure. In addition, the launch tube 10 is provided with a door 15 for inserting and removing the pig 30.

The receiving pipe 20 is provided with a fourth valve 21 and a fifth valve 22 for opening and closing to discharge the compressed air filled in the pipe, and the receiving pipe (6) through the air supply pipe (6) in the air compressor (7) A sixth valve 23 is opened and closed to supply compressed air to the air 20.

In addition, the pump 3 is connected to the first valve 11 of the launch tube 10 through the water supply pipe 4, the water supply pipe 4 is connected to the water tank 2 for supplying water. And the water tank 2 is filled with water supplied from the outside or water is supplied from the water tank (1).

In addition, an operator who fills the water tank 2 with water, an operator who controls the operation of the pump 3, an operator who opens and closes the first valve 11 to the third valve 13 in the launch tube 10, a receiving pipe ( The operator who opens and closes the fourth valve 21 to the sixth valve 23 and the operator who operates the air compressor 7 in 20), respectively, for the hydraulic pressure test of the pipe 5 using a communication device connected by wire or wireless. The call is connected. The number of workers may be added or subtracted according to the length of the installed pipe 5, the length of the water supply pipe 4, the position of the air compressor 7 and the like.

Pipe pressure test method using the pig according to the present invention made as described above will be described.

First, in FIG. 2, a preliminary preparation operation is performed to perform a hydraulic test of the pipe 5 (S100). As a preparatory work, obtain a drawing with pipes installed, inspect the site, and determine equipment and tools for hydraulic test of the pipes. In addition to ordering the equipment or tools, safety training of workers is conducted, and the equipment and tools for the hydraulic test of the pipe are prepared.

Next, fill the pipe (5) and performs the initial washing (S200). In addition, after filling the water pipe 5 and pressurized to perform a hydraulic test (S300). Then, the water filled in the pipe 5 is drained, and the pig 30 is recovered using air (S400). Then, the washing operation is performed using the pipe washing pig, if necessary (S500).

In Figure 3, the detailed operation of the pressure and hydraulic pressure test of the step (S300). The door of the launch tube 10 installed at one end of the pipe 5 to test the hydraulic pressure is opened (S1). The launch tube 10 is installed at one end of the pipe 5 and the receiving pipe 20 is installed at the other end. If the launch tube 10 and the receiving tube 20 are not installed at both ends of the pipe 5 for the hydraulic test of the pipe 5, the installation of the launch tube 10 and the receiving tube 20 should be preceded. will be.

After opening the door 15 installed at the inlet of the launching tube 10, the water pressure test-only pig 30 is inserted into the launching tube 10, and then the door is closed (S2). Then, the pump 3 is operated so that water is supplied from the water tank 2 through the water pipe 4 (S3). In addition, the fifth valve 22 provided in the receiving pipe 20 is opened (S4), and the first valve 11 installed in the launch tube 10 is opened (S5). At this time, it is preferable that the water supplied through the water pipe 4 is not rapidly introduced into the launch pipe by adjusting the speed so that the first valve 11 connected to the water pipe 4 is slowly opened. Therefore, the pig 30 is transferred to the receiving tube 20 at a constant speed along the pipe 5 by the pressure of the water introduced into the launch tube 10 (S6). Furthermore, as the pig 30 transports the pipe 5 inside, the air present in the pipe 5 is exhausted through the fifth valve 22 (S7).

When the pig 30 is transferred along the pipe 5 and the receiving pipe 20 also arrives, the operation of the pump 3 is stopped (S8). Thereafter, the first valve 11 and the fifth valve 22 are closed (S9). At this time, the air existing in the pipe 5 is discharged through the fifth valve 22 and filled with water (S10).

When water is buffered in the pipe 5, the third valve 13 to which the first valve 11 and the hydraulic test machine 14 are connected is opened (S11). Then, the pump 3 is operated to increase the pressure up to the set test pressure (S12). The test pressure will be determined according to various characteristics or conditions such as the length or thickness of the pipe 5 and the degree of aging. When the test pressure of the pipe 5 is reached by the hydraulic tester 14, the pump 3 is stopped and the first valve 11 is closed to perform a hydraulic test of the pipe (S13).

When the water pressure test of the pipe 5 is completed, the third valve 13 is closed to prevent water pressure from being transmitted to the water pressure tester 14, and the second valve 12 installed in the launch tube 10 is opened to open the pipe ( After the water pressure formed in 5) is released, the sixth valve 23 installed in the receiving pipe 20 is opened (S14). Then, the air compressor 7 is operated to inject air of a predetermined pressure into the receiving pipe 20 through the air supply pipe 6 (S15). When air is supplied to the receiving pipe 20, the pig 30 in the receiving pipe 20 is conveyed to the launching tube 10 along the piping 5 (S16). The pig 30 discharges the water filled in the pipe 5 while being conveyed along the pipe 5 through the second valve 12 (S17). Here, the hydraulic test-only pig 30 is a bidirectional structure that is transferred from the launch tube 10 to the receiving tube 20 by hydraulic pressure, and is transferred from the receiving tube 20 to the launch tube 10 by pneumatic pressure.

When the pig 30 is conveyed along the pipe 5 and arrives at the launch tube 10 provided at one end of the pipe 5, the operation of the air compressor 7 is stopped (S18). Then, the sixth valve 23 is closed to block the air supplied from the air compressor 7 to the receiving pipe 20 and the pipe 5 through the air supply pipe 6, and then the fifth valve 22 is opened. To exhaust the compressed air inside the pipe 5 (S19).

Furthermore, when the air compressed in the pipe 5 is exhausted through the fifth valve 22 (S20), the door 15 of the launch tube 10 is opened to recover the pig 30 (S21). The hydraulic test of 5) is completed (S22).

On the other hand, when the pressure and hydraulic pressure test of the step (S300) is completed, the washing operation is performed using a pipe washing pig, if necessary (S500). That is, the door of the launch tube 10 is opened to insert the cleaning pig or the cleaning sponge pig of the structure that is transferred in both directions and close the door. In the pressure and pressure test of S300, only the process of testing the water pressure inside the pipe by opening the third valve 13 is omitted, and water is supplied using the pump 3 to wash or to wash sponge. After washing the inside of the pipe by using the supply of air will be able to recover the cleaning pig or sponge pig. Furthermore, the cleaning sponge pig may be made to wash the inside of the pipe while the cleaning chemical is processed.

In the present invention, the embodiment is not limited to the present invention as an example, and the technical scope of the present invention is any configuration having substantially the same configuration as the technical idea described in the claims of the present invention and achieves the same effect. It is obvious that it is included in.

DESCRIPTION OF SYMBOLS 1: Water tank 2: Water tank 3: Pump 4: Water pipe 5: Piping 6: Air supply pipe 7: Air compressor 10: Launch pipe 11: 1st valve 12: 2nd valve 13: 3rd valve 14: Hydraulic test machine 15: Door 20 Receiving pipe 21 Fourth valve 22 Fifth valve 23 Sixth valve 30 Pig

Claims (5)

(a) opening a door of a launch tube installed at one end of a pipe to be tested for water pressure, inserting a pig for a hydraulic test into the launch tube, and closing the door;
(b) Operate the pump to supply water from the water tank through the water pipe, to open the fifth valve installed in the receiving pipe, and to open the first valve installed in the launch pipe, to remove the air present in the pipe while the pigs move along the pipe. Discharging through the five valves;
(c) When the pig is transported along the pipe and arrives at the receiving pipe installed at the other end of the pipe, the pump is stopped and the first and fifth valves are closed, so that all air is discharged from the pipe and water is completely filled. Making it possible;
(d) opening the third valve connected to the first valve and the hydraulic tester, operating the pump to increase the set test pressure, stopping the operation of the pump, and closing the first valve to perform a hydraulic test of the pipe; step;
(e) When the water pressure test of the pipe is completed, the third valve is closed, the second valve installed in the launch tube is opened, the sixth valve installed in the receiving pipe is opened, and the air compressor is operated to operate the receiving pipe through the air supply pipe. Injecting air into the pipe so that the pig in the receiving pipe is conveyed along the pipe so that the water filled in the pipe is discharged through the second valve;
(f) When the pig is conveyed along the pipe and arrives at the launch tube installed at one end of the pipe, the air compressor is stopped, the sixth valve is closed, and the fifth valve is opened to exhaust the compressed air inside the pipe. step;
(g) When the compressed air is exhausted in the pipe is exhausted by opening the door of the launch tube to recover the pigtail, the hydraulic pressure test method using a pig.
According to claim 1, The hydraulic test dedicated pig is made of a structure that is transferred in both directions, the pipe hydraulic pressure test method using the pig.
The method of claim 1, wherein, in the step (b), the opening speed of the first valve installed in the launch tube is adjusted so that water supplied through the water supply pipe does not rapidly enter the launch tube.
The method of claim 1,
(h) Inserting and closing the cleaning or cleaning sponge piglet having a structure that is opened in both directions by opening the door of the launching tube and closing the pump, the pump is operated to supply water from the water tank through the water pipe and to be installed in the receiving pipe. Opening the valve and opening the first valve installed in the launch tube so that the cleaning pig or the cleaning sponge pig is transported along the pipe to discharge the air present in the pipe through the fifth valve, and the cleaning pig or When the cleaning sponge pigs move along the pipe and arrive at the receiving pipe installed at the other end of the pipe, the pump is stopped and the first valve and the fifth valve are closed, so that all the air is discharged from the pipe and water is completely filled. And opening the second valve installed in the launch tube, opening the sixth valve installed in the receiving pipe, and then operating the air compressor. Injecting air into the receiving pipe through the pipe to allow the cleaning pig or the cleaning sponge pig in the receiving pipe to be transported along the pipe so that the water filled in the pipe is discharged through the second valve; and the cleaning pig or washing When the sponge sponge is conveyed along the pipe and arrives at the launch tube installed at one end of the pipe, the air compressor is stopped, the sixth valve is closed, and the fifth valve is opened to exhaust the compressed air inside the pipe. And washing the inside of the pipe, wherein the inside of the pipe includes a process of recovering the cleaning pig or the cleaning sponge by opening the door of the launch tube when the compressed air is exhausted inside the pipe.
The method of claim 4, wherein the cleaning sponge pigs are treated with cleaning chemicals.

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