KR101048332B1 - Natural gas constant pressure equipment and its operation method - Google Patents

Abstract

The present invention relates to a natural gas constant pressure facility and its operation method, wherein the first open / close valve (4f) is installed in a connecting pipe (4e) of the slam shut valve (1) pilot 4 to the rear pipe of the constant pressure. The second opening / closing valve 4g is provided in the branch pipe 4g formed in the pipe line 4e.

Therefore, the first and second open / close valves 4f and 4g are operated in a closed and open state, respectively, and a hand pump 9 is connected to the branch pipe 4g, so that pilot pressure can be directly controlled. By raising, slam shut valve testing and setting can be done very easily and quickly, and unnecessary natural gas consumption can be prevented.

Static pressure facility, static pressure device, safety shutoff valve, slam shut valve

Description

Natural gas pressure regulating equipment and operating methods of it}

The present invention relates to a static pressure facility of a supply control station for supplying natural gas to a city gas company, and a method of operating the same. In particular, the inspection of the slam shut valve can be easily performed in a short time, and the breaking speed of the monitor can be improved. The present invention relates to a natural gas constant pressure system and a method of operating the same.

Natural gas imported through LNG carriers is stored in storage tanks through unloading equipment, vaporized in vaporization equipment, and supplied to supply control stations. From this, it is supplied to power plants and city gas companies. It is supplied under reduced pressure.

As schematically shown in FIG. 1, the static pressure facility includes a slam shutt valve (SSV) 1 and two constant pressure regulators 2 and 3 in series. The dual front pressure regulator is referred to as the monitor 2 and the rear pressure regulator as the worker 3.

The slam shut valve (1) is automatic when the constant pressure after the constant pressure riser (the pressure after the constant pressure refers to the pressure of the rear end pipe (5) connected to the outlet of the walker 3) more than the set pressure. This prevents the pressure of the pipe 5, that is, the supply pipe to the city gas company, from rising to a dangerous level.

That is, as shown in Figure 2, the slam shut valve (1) is provided with a pilot (pliot) 4, the pressure after the constant pressure delivered to the pilot (4) by adjusting the adjustment bolt (4a) When the operating pressure of the slam shut valve 1 can be adjusted by adjusting the degree of compression of the spring 4b, the pressure after the constant pressure is passed through the pilot 4 to the operating mechanism of the slam shut valve 1. The valve 1c is blocked by the restraining force by the restoring force of the spring 1b while being delivered to 1a and actuating it.

On the other hand, in order to inspect the abnormality of the slam shut valve (1) or to set the operating pressure in the prior art, the shut-off valve provided in the pipe (5) at the rear end of the constant pressure regulator, the monitor (2) and the worker (3) ), The slam shut valve (1) was tested normally by artificially raising the pressure after the constant pressure, and the operating pressure was reset.

In addition, since the flow of natural gas through the constant pressure facility must be continued, the purge shutoff valve installed in the rear end pipe of the constant pressure was opened to discharge the gas into the atmosphere during the test. Cannot be supplied to the source of supply.)

Therefore, conventionally, the monitor 2 and the worker 3 had to be operated to test the slam shut valve 1, and after the test was completed, the monitor 2 and the worker 3 and the slam shut valve 1 were completed. In order to set them back to their normal state, they need to be reworked, which is not only cumbersome but also takes a long time (over 30 minutes).

Moreover, there has been a problem because it is made of the state unnecessarily large amount of gas being consumed in the gas via the purge valve 7 for discharging the test continues. (Quarter being 1 year to about 186Nm ³ times test consumption)

On the other hand, the monitor (2) and the worker (3) is a constant pressure of the same structure, by connecting the two constant pressure in series can prevent the operation of the gas supply is stopped by the monitor (2) even if the worker 3 is broken. It is supposed to be.

In addition, the monitor 2 is to be closed when the pressure after the constant pressure increases above the set pressure, at which time the shut-off operation is forcibly discharged by forcibly discharging the gas inside the monitor 2 (the gas present in the space on one side of the diaphragm inside the monitor). It is intended to be faster.

That is, as shown in FIG. 3, the monitor 2 is installed such that the cylindrical valve body 2a is interlocked with the diaphragm 2b, and the chambers 2c and 2d are formed around the diaphragm 2b. Among them, the primary chamber 2c is connected to the rear end pipe 5 of the constant pressure regulator, and the secondary chamber (2d; Monitor Motorization Chamber) is connected to the rear end pipe 5 of the constant pressure via an accelerator (8). It is.

Therefore, when the pressure in the rear end of the constant pressure pipe 5 rises, a rising pressure is transmitted to the primary chamber 2c to push the diaphragm 2b in the closing direction of the valve 2a '. As a result, the valve 8a of the accelerator 8 is opened, and the pressure of the secondary chamber 2d is discharged through the accelerator 8 toward the rear end of the constant pressure pipe 5 so that the operation of the diaphragm 2b is accelerated to monitor the The blocking operation of 2) was to be made more quickly.

At this time, a branch pipe 8d is formed in the connecting pipe 8c of the upper chamber 8b of the accelerator 8 and the rear end pipe 5 of the constant pressure regulator, and an end of the branch pipe 8d and the branch pipe 8d are formed. Opening and closing valves 8e and 8f are installed at the points after the forming portion (in the direction from the accelerator to the rear end of the constant pressure pipe) to check whether the vents are vented when the accelerator 8 is set.

The opening / closing valve 8e of the branch pipe 8d is normally kept closed, and the opening and closing valve 8f of the connecting pipe 8c is normally kept open, and as described above, the accelerator 8 ) The setting is used to check whether the vent is open or closed.

However, in the monitor blocking method as described above, since the gas of the secondary chamber 2d in the monitor 2 is discharged inside the pipe discharged through the accelerator 8 to the pipe 5 after the constant pressure, the secondary chamber Although (2d) is pressurized by the diaphragm (2b) and is relatively high pressure compared to the constant pressure rear end pipe (5), the constant pressure rear end pipe (5) has already risen above the city gas supply pressure (0.083 MPa) or more (1.02 Mpa) Since this was formed, the gas discharge of the secondary chamber 2d was not made very quickly.

Therefore, there is a problem that the safety of the supply and the control of the supply pressure are deteriorated because the shut-off operation of the monitor 2 is not made quickly.

Therefore, the present invention was devised to solve the above problems, and when the slam shut valve test, the slam shut valve is not necessary to artificially increase the pressure in the rear pipe of the constant pressure by locking the valve of the pipe after the constant pressure and operating the monitor and the walker. The purpose of the valve testing and setting process is very simple and quick, and the purpose is to provide a natural gas constant pressure facility and its operation method to prevent unnecessary gas consumption during the operation.

In addition, the present invention is a method of operating a natural gas constant pressure facility to be more quickly discharged gas in the secondary chamber of the monitor when the monitor is shut off, so that the monitor blocking speed is improved to improve the safety of the equipment and the precision of gas supply pressure control There is another purpose in providing this.

Natural gas constant pressure equipment according to the present invention for achieving the above object,

A slam shut valve, a monitor and a worker connected in series;

An upper diaphragm supported by an adjustment bolt and a spring, and a lower diaphragm integrally interlocked with the upper diaphragm, and a lower chamber of the upper diaphragm and an operation mechanism of a slam shut valve are connected, and a lower chamber of the upper diaphragm and the lower diaphragm. The upper chamber of the diaphragm is in communication with each other, the lower chamber of the upper diaphragm and the lower chamber of the lower diaphragm are connected to the rear end pipe of the pressure regulator via a connecting conduit, and the upper part of the connecting conduit connected to the lower chamber of the upper diaphragm to the upper diaphragm. A pilot having a valve for opening and closing the diaphragm end;

A first opening / closing valve installed at a portion of the lower diaphragm side of the connection pipe connected to the lower diaphragm lower chamber;

A branch pipe formed between the first open / close valve and the pilot;

A second open / close valve installed in the branch pipe;

It includes.

In addition, the first opening and closing valve is installed in the connecting pipe of the lower diaphragm lower chamber is normally maintained in the open state, the second opening and closing valve is installed in the branch pipe is characterized in that it is normally maintained in a closed state.

On the other hand, natural gas constant pressure equipment operating method according to the present invention,

A first open / close valve shut-off step of operating the first open / close valve in a closed state from a natural gas constant pressure facility having the above configuration;

A hand pump connecting step of connecting a hand pump to an end of the branch pipe;

A second opening / closing valve opening step of operating the second opening / closing valve from a closed state to an open state;

A pilot pressurizing step of pressing the lower diaphragm lower chamber by operating the hand pump;

Determining whether the slam shut valve is abnormal or not according to whether the slam shut valve is shut off when the pressure of the lower diaphragm lower chamber reaches a set pressure;

It includes.

In addition, after the slam shut valve abnormality determination step,

Slam shut valve operating pressure setting step of adjusting the compression degree of the spring by adjusting the adjusting bolt to open the valve of the upper diaphragm at the target pressure value while forming a target pressure in the lower diaphragm lower chamber by operating the hand pump. ;

It characterized in that it further comprises.

In addition, the method for operating a natural gas constant pressure facility according to the present invention,

A slam shut valve, a monitor and a worker connected in series; And an accelerator of the monitor, wherein a primary chamber and a secondary chamber, each of which is divided into a diaphragm, are formed in the monitor, and the primary chamber is connected to a rear end pipe of the pressure regulator, and the secondary chamber is connected to the accelerator. The accelerator is connected to the rear end pipe, and the accelerator is formed with a branch pipe in the connecting pipe of the upper chamber and the rear of the constant pressure pipe, and the opening and closing valve is installed in the connecting pipe and the branch pipe, respectively, wherein the opening and closing valve of the connecting pipe from the accelerator In the natural gas constant pressure equipment installed after the branch pipe formation point toward the pipe after the constant pressure,

By operating the on-off valve of the branch pipe in the open state, by operating the on-off valve of the connecting pipe in a closed state, the gas of the monitor secondary chamber is discharged to the atmosphere through the on-off valve of the branch pipe. .

According to the present invention as described above, it is not necessary to artificially increase the pressure in the rear end of the constant pressure pipe by operating the monitor and the worker by locking the valve of the rear end of the constant pressure pipe during the slam shut valve test, and simply using the hand pump to increase the pilot pressure. By directly raising, the slam shut valve test and setting operation can be performed very simply and quickly, and unnecessary gas consumption is not generated during the operation.

In addition, when the monitor is shut off, the gas in the secondary chamber of the monitor is quickly discharged to the atmosphere, thereby improving the shut-off speed of the monitor, thereby improving the safety of the static pressure facility and controlling the natural gas supply pressure more precisely. .

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

4 is a diagram showing the configuration of a natural gas constant pressure facility according to the present invention, corresponding to FIG. The same reference numerals are given to the same parts as in the prior art.

The static pressure facility is composed of a slam shutt valve (SSV) 1, a monitor 2, and a worker 3 in series. Installed.)

The slam shut valve 1 has a valve 1c supported by a spring 1b, and the valve 1c is fixed by an actuating mechanism 1a to maintain an open state in which the spring 1b is compressed. do.

In addition, the slam shut valve (1) has a pilot (4) connected to the pipe 5 after the constant pressure. When the pressure after the constant pressure rises above the set pressure, the operating pressure is transmitted to the actuating mechanism 1a through the pilot 4, and the actuating mechanism 1a is operated to release the fixed state, thereby moving the valve 1c. To block the flow path.

The pilot 4 includes an upper diaphragm 4c and a lower diaphragm 4d that are integrally interlocked, and a lower space of each diaphragm is connected to the rear end pipe 5 of the pressure regulator via a connecting pipe 4e.
That is, one end of the connecting pipe line 4e is connected to the rear end pipe 5 of the pressure regulator, the other end is branched into two parts, one of which is connected to the lower space of the upper diaphragm 4c, and the other side of the connecting pipe 4e. Is connected to the lower space of the lower diaphragm 4d.

The upper diaphragm 4c is provided with a valve 4c 'to open and block an end portion of the upper diaphragm 4c of the connecting pipe line 4e connected to the rear end pipe 5 of the pressure regulator.

The lower chamber of the upper diaphragm 4c is connected to the actuating mechanism 1a and is in communication with the lower chamber of the lower diaphragm 4d.

A first opening / closing valve 4f is installed at a portion of the lower diaphragm 4d side of the connecting pipe 4e connected to the lower chamber of the lower diaphragm 4d.

Further, a branch pipe 4g is connected between the pilot 4 and the first opening / closing valve 4f at a portion of the lower diaphragm 4d side of the connecting pipe line 4e, and a branch pipe 4g is connected to the branch pipe 4g. Two open / close valves (4h) are provided.

Among them, the first opening / closing valve 4f provided on the lower diaphragm 4d side of the connecting pipe line 4e is normally maintained in an open state, and the second opening / closing valve provided in the branch pipe 4g ( 4h) is normally kept closed.

Needle valves may be used as the first and second open / close valves 4f and 4h.

In addition, a hand pump 9 is connected to the end of the branch pipe 4g.

The hand pump 9 may be connected at all times, but it is preferable to use the hand pump only when the slam shut valve 1 is tested and set.

The slam shut valve (1) test and setting method using the natural gas constant pressure equipment according to the present invention as described above are as follows.

First, the first open / close valve 4f in the normally open state is switched to the closed state (first open / close valve blocking step S1).

Next, the hand pump 9 is connected to the end of the branch pipe 4g. (Hand pump connection step S2)

Subsequently, the second open / close valve 4h of the branch pipe 4g, which is normally closed, is switched to the open state (second open / close valve opening step S3).

When the hand pump 9 is connected as described above and the second open / close valve 4h is opened, the hand pump 9 is operated to pressurize air to the lower chamber of the lower diaphragm 4d to increase the pressure. (Pilot pressure step (S4))

When the pressure of the lower chamber of the lower diaphragm 4d of the pilot 4 rises above the set pressure by the progress of the pilot pressurizing step S4, the upper diaphragm 4d which is integrated with the lower diaphragm 4d rises ( As 4c) is raised, the valve 4c 'of the upper diaphragm 4c opens the end portion of the upper diaphragm 4c of the connecting conduit 4e so that the pressure after the constant pressure is transmitted to the operating mechanism 1a.

At this time, the back pressure of the constant pressure was not raised above the set pressure, and in the normal state, the reaction force of the pilot 4 spring 4b could not be overcome and thus could not be transmitted to the actuation mechanism 1a. Therefore, the actuation mechanism 1a could not be operated. However, according to the present invention, the upper diaphragm 4c is forcibly raised in conjunction with the lower diaphragm 4d by the air pressing force by the hand pump 9, thereby opening the valve 4c 'and the pressure after the constant pressure regulator is operated. It can be delivered to (1a), which is a pressure of sufficient magnitude to actuate the actuator (1a).

Therefore, when the operating mechanism 1a is actuated, the fixed state of the valve 1c is released and the valve 1c is moved by the restoring force of the spring 1b to block the internal conduit of the slam shut valve 1. .

As a result, it is possible to confirm that the state of the slam shut valve 1 is in a normal state.

On the other hand, in order to adjust the operating conditions of the slam shut valve (1), that is, the pressure value after the constant pressure for operating the slam shut valve (1), by using the hand pump (9) as the target value in the lower chamber of the lower diaphragm (4d) The pressure of the spring 4b may be adjusted by adjusting the adjusting bolt 4a to open the valve 4c 'at the target value while forming the pressure.

Such a test and setting operation of the slam shut valve (1) can be carried out within 10 minutes.

As described above, according to the present invention, it is necessary to perform constant pressure operation such as the monitor 2 and the worker 3 in checking the abnormality of the slam shut valve 1 and adjusting the operating pressure (required for accurate setting). Since there is no operation is very easy and the time required is also significantly shortened to within 10 minutes from the conventional 30 minutes or more.

In addition, since it is not necessary to discharge the gas through the purge valve 7 in a state in which the shutoff valve of the constant pressure rear end pipe 5 is shut off as in the related art, it is possible to prevent exhaustion of gas generated during the slam shut valve test and setting. You can do it.

On the other hand, the facility operating method for increasing the breaking speed of the monitor 2 when the troubleshooter trouble occurs as follows.

As described with reference to FIG. 3, the valve body 2a of the monitor 2 is installed in the diaphragm 2b, and the internal space of the monitor 2 is formed by the diaphragm 2b as the primary chamber 1c. ) And the secondary chamber (2d), the primary chamber (2c) is directly connected to the constant pressure rear end pipe (5), the secondary chamber (2d) through the accelerator (8) 5) is connected.

In addition, the accelerator 8 of the monitor 2 is formed with a branch pipe (8d) in the connecting pipe (8c) of the upper chamber (8b) and the rear end pipe (5) of the constant pressure regulator, the connecting pipe (8c) and the branch pipe On and off valves 8e and 8f are respectively provided at 8d for checking whether the vent is set when the accelerator 8 is set.

Among them, the opening / closing valve 8f of the connecting pipe line 8c is provided after the branch pipe 8d formation point from the accelerator 8 toward the constant pressure rear end pipe 5.

In addition, the open / close valve 8e of the branch pipe 8d is normally kept closed, and the open / close valve 8f of the connecting pipe line 8c is kept open.

The present invention is characterized by switching the usual state of the on / off valve 8e of the branch pipe 8d and the on / off valve 8f of the connecting pipe 8c to the opposite state.

That is, the opening / closing valve 8e of the branch pipe 8d is operated from the closed state to the open state, and the opening / closing valve 8f of the connecting pipe line 8c is operated from the open state to the closed state.

In the above state, when the pressure of the constant pressure rear end pipe 5 rises above the set value, the pressure acts only on the lower chamber 8g of the accelerator 8, and the opening / closing valve 8f of the connecting pipe 8c is shut off. Since it is in a state where it is, it does not act on the upper chamber 8b.

Accordingly, as the lower diaphragm rises, the valve 8a installed in the upper diaphragm interlocked with the upper diaphragm rises and the inlet of the connecting line 8c is opened, so that the gas of the secondary chamber 2d of the monitor 2 is released from the accelerator 8. It is discharged into the atmosphere through its open / close valve 8e through the upper chamber 8b, the connecting pipe 8c and the branch pipe 8d.

Atmospheric pressure is significantly lower than the pressure of the constant pressure rear end pipe 5, so that the gas in the monitor 2 secondary chamber 2d is removed much more quickly than in the prior art.

5 shows a comparison of the conventional internal pipe discharge method (a) and the air discharge method (b) according to the present invention so as to be more easily understood.

The following is comparative data measuring the time when the monitor is shut off after artificially raising the pressure applied to the accelerator (rear pressure after the constant pressure).

Number of tests Internal pipe discharge (conventional) Atmospheric emission (invention) One 24 sec 19 seconds 2 33 seconds 16 seconds 3 31 seconds 12 seconds 4 26 seconds 14 sec 5 25 sec 11 seconds Average 28 seconds 15 seconds

(The time required for each test number is different because it is impossible to repeat the same test condition when reproducing the pressure rise after the constant pressure by the worker remote setter manual operation. Because)

In the above table it can be seen that the monitor cut-off time is significantly reduced in the case of the present invention than the conventional case.

In this way, the gas of the monitor 2 secondary chamber 2d is discharged to the atmosphere instead of being discharged into the pipe, whereby the monitor cutoff time is greatly reduced, so that the pressure after the constant pressure riser can be prevented from rising quickly.

Therefore, the safety of the constant pressure equipment and the precision of the gas supply pressure control are further improved.

1 is a schematic configuration diagram of a natural gas constant pressure facility,

2 is a cross-sectional view and a connection state diagram of a slam shut valve and a pilot thereof;

3 is a cross-sectional view of the monitor and its accelerator and a connection state diagram;

4 is a cross-sectional view of the slam shut valve and its pilot according to the present invention, and a connection diagram of FIG.

Figure 5 (a) is a schematic diagram of the discharge method of the gas inside the monitor according to the prior art,

        (b) is a schematic diagram of the discharge system of the internal gas of the monitor according to the present invention.

* Description of the symbols for the main parts of the drawings *

1: Slam shut valve 2: Monitor

3: Walker 4: Pilot

5: Constant pressure rear end pipe 6: Shut-off valve

7: Purge Valve 8: Accelerator

9: hand pump

Claims (5)

A slam shut valve, a monitor and a worker connected in series; An upper diaphragm supported by an adjustment bolt and a spring, and a lower diaphragm integrally interlocked with the upper diaphragm, and a lower chamber of the upper diaphragm and an operation mechanism of a slam shut valve are connected, and a lower chamber of the upper diaphragm and the lower diaphragm. The upper chamber of the diaphragm is in communication with each other, the lower chamber of the upper diaphragm and the lower chamber of the lower diaphragm are connected to the rear end pipe of the pressure regulator via a connecting conduit, and the upper part of the connecting conduit connected to the lower chamber of the upper diaphragm to the upper diaphragm. A pilot having a valve for opening and closing the diaphragm end; A first opening / closing valve installed at a portion of the lower diaphragm side of the connection pipe connected to the lower diaphragm lower chamber; A branch pipe formed between the first open / close valve and the pilot; A second open / close valve installed in the branch pipe; Natural gas constant pressure equipment comprising a. The natural gas constant pressure according to claim 1, wherein the first opening / closing valve installed in the connection channel of the lower diaphragm lower chamber is normally kept open, and the second opening / closing valve installed in the branch pipe is normally kept closed. equipment. A first open / close valve shutoff step of operating the first open / close valve in a closed state from a natural gas constant pressure installation according to claim 1; A hand pump connecting step of connecting a hand pump to an end of the branch pipe; A second opening / closing valve opening step of operating the second opening / closing valve from a closed state to an open state; A pilot pressurizing step of pressing the lower diaphragm lower chamber by operating the hand pump; Determining whether the slam shut valve is abnormal or not according to whether the slam shut valve is shut off when the pressure of the lower diaphragm lower chamber reaches a set pressure; Natural gas constant pressure equipment operating method comprising a. The method according to claim 3, After the slam shut valve abnormality determination step, Slam shut valve operating pressure setting step of adjusting the compression degree of the spring by adjusting the adjusting bolt to open the valve of the upper diaphragm at the target pressure value while forming a target pressure in the lower diaphragm lower chamber by operating the hand pump. ; Natural gas constant pressure equipment operating method comprising a further. delete

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