KR20120032231A - Tightness test system for control valve of steam turbine and method of the same - Google Patents

Abstract

PURPOSE: Sealing test system and method of a steam turbine control valve are provided to ensure the stable operation of a steam turbine since when the sealing test of a steam turbine control valve is cancelled, speed errors are forcibly removed by resetting a desired speed and a reference speed. CONSTITUTION: A sealing test system of a steam turbine control valve comprises an operation unit(100), a setting unit(110), a determining unit(120), a sealing test unit(200), a main stem stopping valve control unit(300), a main steam control valve control unit(400), and a resetting unit(500). The operating unit controls the operation of the entire system. The setting unit sets the desired speed and reference speed of a steam turbine according to the signals of the operation unit. The determining unit compares the reference speed with the speed of the turbine to determine speed errors.

Description

Tightness test system for steam turbine control valve and method thereof {TIGHTNESS TEST SYSTEM FOR CONTROL VALVE OF STEAM TURBINE AND METHOD OF THE SAME}

The present invention relates to a gas tight test system and method of the steam turbine control valve, and more particularly, to a steam turbine control valve capable of stable continuous operation of the turbine even when the gas tight test release of the control valve for controlling the steam flowing into the steam turbine To a test system and method thereof.

In general, the turbine control valve installed at the steam turbine inlet side controls the turbine speed and generator output by finely controlling the amount of steam supplied from the boiler during normal operation of the turbine, and emergencyly closes the turbine control valve in an emergency. This serves to protect it from being reliably stopped.

1 is a conceptual diagram briefly showing the configuration of a steam turbine including a control valve.

Referring to FIG. 1, the steam turbine control valve may include a main steam stop valve 40 and a main steam stop valve for blocking steam supplied from the boiler 10 to the steam turbine 20 in an emergency or stop. It includes a main steam control valve 50, which is present between the 40 and the steam turbine 20 to finely control the amount of steam introduced.

In the normal operation of the steam turbine 20, the main steam stop valve 40 is completely opened and the opening degree of the main steam control valve 50 is adjusted to speed up the steam turbine 20 or to adjust the output of the generator. In order to stop 20, both the main steam stop valve 40 and the main steam control valve 50 are closed.

Regarding the operation of the steam turbine 20, the blocking operation of the main steam stop valve 40 and the main steam control valve 50 located at the inlet side of the steam turbine 20 is very important. Therefore, a tightness test is performed at the no-load rated speed operation state of the generator 30 in order to test how effectively the two valves block steam.

However, in the conventional airtight test of the steam turbine control valve, there is a problem that stable continuous operation of the turbine is difficult because the turbine speed increases or stops during the test release. Therefore, a solution for solving the above-described problems has been sought.

Embodiments of the present invention are to provide a tightness test system and method for a steam turbine control valve that enables a stable continuous operation of the turbine even when the tightness test of the steam turbine control valve, the release of the leak test.

According to an aspect of the present invention, in the gas tight test system of the steam turbine control valve, the operation unit for controlling the operation of the entire system; A setting unit for setting a speed target value and a speed reference value of the steam turbine according to the signal of the operation unit; Determination unit for determining the speed error by comparing the speed reference value and the turbine speed; An airtight test unit which performs an airtight test of the main steam stop valve and the main steam control valve according to the signal of the operation unit; A main steam stop valve control unit for controlling an opening degree of the main steam stop valve according to a signal of the setting unit or the airtight test unit; A main steam control valve control unit which controls an opening degree of the main steam control valve according to a signal of the determination unit or the airtight test unit; And a resetting unit for resetting the speed target value and the speed reference value when the airtight test is released from the airtight test unit. The airtight test system of the steam turbine control valve may be provided.

In addition, the determination unit turbine speed measuring unit for measuring the turbine speed; It may be characterized in that it comprises a comparison determination unit for determining the speed error by comparing the speed reference value and the turbine speed.

In addition, the airtight test unit, the main steam stop valve airtight test unit for giving a command to open and close the main steam stop valve to the main steam stop valve control unit according to the signal of the operation unit; It may be characterized in that it comprises a main steam control valve hermetic test unit for giving the command of opening and closing the main steam control valve to the main steam control valve control unit according to the signal of the operation unit.

The reset unit may select the turbine speed at the time of releasing the airtight test as the speed target value at the time of releasing the airtight test, and reset the speed reference value to the speed target value by increasing the speed ratio.

According to another aspect of the present invention, a method for testing the air tightness of a steam turbine control valve, comprising: releasing the airtightness test of the main steam stop valve or the main steam control valve; Selecting a turbine speed when the airtight test of the main steam stop valve or the main steam control valve is released as a speed target value; And increasing the speed ratio to a speed reference value and forcibly inputting the turbine speed to provide a gas-tight test method for controlling the steam turbine control valve.

Embodiments of the present invention has the effect of ensuring a stable operation of the steam turbine by forcibly removing the speed error by resetting the speed target value and the speed reference value when the airtight test of the steam turbine control valve is released.

In addition, there is an effect that the convenience of operation is improved by ensuring the rated speed operation state automatically without additional operation by the operator when the airtight test of the steam turbine control valve is released.

1 is a conceptual diagram briefly showing the configuration of a steam turbine including a control valve.
2 is a view showing the schematic configuration and signal flow of the gas tight test system of the steam turbine control valve according to an embodiment of the present invention.
3 is a logic diagram of an airtight test system of the steam turbine control valve of FIG. 2.
Figure 4 is a graph showing the transition of the relevant operating parameters during the gas tight test of the main steam stop valve in the gas tight test method of the steam turbine control valve according to an embodiment of the present invention.
5 is a graph showing the transition of the relevant operating parameters during the gas tight test of the main steam control valve in the gas tight test method of the steam turbine control valve according to an embodiment of the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. On the other hand, the boiler 10, the steam turbine 20, the generator 30, the main steam stop valve 40, the main steam control valve 50 is the same as described in the background art, and the same reference numerals.

2 is a view showing the schematic configuration and signal flow of the gas tight test system of the steam turbine control valve according to an embodiment of the present invention, Figure 3 is a logic diagram of the gas tight test system of the steam turbine control valve of FIG. Hereinafter, a description will be given with reference to FIG. 2 for convenience of description.

2 and 3, the air tightness test system of the steam turbine control valve according to an embodiment of the present invention, the operation unit 100, the setting unit 110, the determination unit 120, the airtight test unit 200, The main steam stop valve control unit 300, the main steam control valve control unit 400 and the reset unit 500.

The operation unit 100 speeds up the turbine at a rated speed, or serves to control the main steam stop valve 40 and the main steam control valve 50 for the airtight test. The operation unit 100 may include an input unit (not shown) for inputting a command to allow an operator (operator) to operate and a display unit (not shown) for displaying a state.

The setting unit 110 serves to set the speed target value and the speed reference value of the steam turbine 20 according to the signal of the operation unit 100.

The speed target value is related to the operation of the steam turbine 20. For example, when the steam turbine 20 is operated, the speed target value is displayed as 100%, and when the steam turbine 20 is stopped, The speed target value can be displayed as -10%.

The speed reference value is a value that is increased at a designated speed increase rate in accordance with the speed target value, and is a value that is compared with an actual speed value of the steam turbine 20.

Determination unit 120 compares the speed reference value and the turbine speed serves to determine the speed error. Determination unit 120 may include a turbine speed measurement unit 122 for measuring the turbine speed, and a comparison determination unit (not shown) for determining the speed error by comparing the speed reference value and the turbine speed.

The airtight test unit 200 performs the airtight test of the main steam stop valve 40 and the main steam control valve 50 in accordance with the signal of the operation unit 100. That is, when an operator issues an airtight test command from the operation unit 100, the airtight test unit 200 closes the main steam stop valve 40 through the main steam stop valve control unit 300, or the main steam control valve control unit 400. It is possible to close the main steam control valve 50 through).

On the other hand, the airtight test unit 200 is a main steam stop valve airtight test unit (not shown) to give a command to open and close the main steam stop valve 40 to the main steam stop valve control unit 400 according to the signal of the operation unit 100. And a main steam control valve hermetic test unit (not shown) which issues an opening / closing command of the main steam control valve 50 to the main steam control valve control unit 400 according to the signal of the operation unit 100.

The main steam stop valve control unit 300 serves to adjust the opening degree of the main steam stop valve 40 according to the signal of the setting unit 200 or the gas tight test unit 200.

For example, when an operator issues a command from the operation unit 100 to speed up the steam turbine 20, the setting unit 200 sets a speed target value and a speed reference value and accordingly, the main steam stop valve control unit 300. The signal for opening the main steam stop valve 40 can be sent to.

In addition, during an airtight test of the main steam stop valve 40, when an operator issues a gas tight test command from the operating unit 100, the main steam stop valve in the airtight test unit 200 according to the signal sent from the operating unit 100. The control unit 300 may transmit a signal for closing the main steam stop valve 40.

The main steam control valve controller 500 adjusts the opening degree of the main steam control valve 50 according to the signal of the determination unit 120 or the airtight test unit 200.

For example, when the operator speeds up the steam turbine 20, the speed reference value is set in the setting unit 200, the main steam stop valve 40 is opened accordingly to increase the speed of the steam turbine 20. However, a difference occurs between the speed reference value and the turbine speed, which is determined by the determination unit 120. The difference between the speed reference value and the turbine speed is hereinafter referred to as speed error. When a speed error occurs, the determination unit 120 transmits a signal to open the main steam control valve 50 to the main steam control valve control unit 400, thereby opening the main steam control valve 50. As a result, the turbine speed 20 can be increased.

In addition, during an airtight test of the main steam control valve 50, when an operator issues an airtight test command from the operating unit 100, the main steam control valve in the airtight test unit 200 according to the signal sent from the operating unit 100. The control unit 400 may send a signal to close the main steam control valve 50.

The reset unit 500 serves to reset the speed target value and the speed reference value when the airtight test unit 200 releases the airtight test.

Conventionally, there is a problem that stable continuous operation is difficult because the turbine speed increases or stops when the airtight test is released.

More specifically, when the airtight test of the conventional main steam control valve 50 is released, the speed target value is set to -10% according to the speed error at the time of the airtight test release, the steam turbine 20 is stopped, As the speed target value is maintained at 100%, a sudden opening of the main steam control valve 50 occurs, causing the turbine speed to increase rapidly.

On the other hand, when the airtight test of the conventional main steam stop valve 40 is released, the speed target value is set to -10%, and there is no problem that the turbine speed is rapidly increased, but since the steam turbine 20 stops, it is rated again. There was a problem that additional operation of the operator is required in order to operate.

In the gas tight test system of the steam turbine control valve according to the embodiment of the present invention, the reset unit 500 enables the continuous operation of the steam turbine 20 by resetting the speed target value and the speed reference value when the airtight test is released. There is a characteristic in point.

For example, when the airtight test of the main steam stop valve 40 or the main steam control valve 50 is released, the reset unit 500 selects the turbine speed at the time of the airtight test release as the speed target value. The speed reference value can be reset to the speed target value by increasing the speed ratio. In this case, since the speed error is set to zero, it is possible to prevent the steam turbine from stopping because the main steam control valve 50 is rapidly opened or the speed target value is set to -10%. After that, since the normal speed ratio is selected, the turbine speed can be increased back to the rated speed, thereby enabling stable continuous operation of the steam turbine 20.

Hereinafter, to describe the airtight test method of the steam turbine control valve according to an embodiment of the present invention.

Figure 4 is a graph showing the transition of the relevant operating parameters during the gas tight test of the main steam stop valve 40 in the gas tight test method of the steam turbine control valve according to an embodiment of the present invention, Figure 5 is an embodiment of the invention In the gas tight test method of the steam turbine control valve according to the graph showing the transition of the relevant operating parameters during the air tight test of the main steam control valve (50).

4 and 5, (a) is a speed reference value, (b) is a turbine speed, (c) is a speed error, (d) is a main steam control valve opening degree request value, and (e) a main steam stop valve opening degree request value. Indicates. On the X-axis, (A) indicates the start of the leak test and (B) indicates the release point of the leak test.

In the airtight test method of the steam turbine control valve according to an embodiment of the present invention, the step of releasing the airtight test of the main steam stop valve or the main steam control valve, the air tightness of the main steam stop valve or the main steam control valve as a speed target value. Selecting a turbine speed at test release; And forcibly inputting the turbine speed by increasing the speed ratio to a speed reference value.

Hereinafter, the airtight test method of the main steam stop valve 40 will be described.

4, when the airtight test of the main steam stop valve 40 is started (a), the main steam stop valve 40 is closed, so the turbine speed is reduced (b). On the other hand, since the speed reference value (a) is maintained at 100%, the speed error (c) gradually increases. Since the main steam stop valve 40 is completely closed (e), the rate of increase of the speed error (c) is lowered over time. On the other hand, as the speed error (c) increases, the main steam control valve opening degree request value (d) correspondingly increases.

When the airtight test of the main steam stop valve 40 is released (b), the speed error is set to zero by selecting the turbine speed at the time of release as the speed target value and forcibly inputting the turbine speed as the speed reference value. Therefore, the main steam control valve opening degree required value (d) is also lowered to 0, thereby increasing the turbine speed due to the rapid opening of the main steam control valve 50. After that, the normal speed ratio is selected so that the speed reference value increases with a predetermined slope (a).

Hereinafter, the airtight test method of the main steam control valve 50 will be described.

Referring to FIG. 5, when the airtight test of the main steam control valve 50 is started, the main steam control valve 50 is closed, so that the turbine speed is reduced (b). On the other hand, since the speed reference value (a) is maintained at 100%, the speed error (c) gradually increases. Since the main steam control valve 50 is completely closed (d), the rate of increase of the speed error (c) is lowered over time. On the other hand, the main steam stop valve 40 is kept open (e).

When the airtight test of the main steam control valve 50 is released (b), the speed error is set to zero by selecting the turbine speed at the time of release as the speed target value and forcibly inputting the turbine speed as the speed reference value. Therefore, it is possible to prevent the turbine speed increase due to the rapid opening of the main steam control valve 50. After that, the normal speed ratio is selected so that the speed reference value increases with a predetermined slope (a).

As described above, embodiments of the present invention have the effect of ensuring stable operation of the steam turbine by forcibly eliminating the speed error by resetting the speed target value and the speed reference value when the airtight test of the steam turbine control valve is released.

In addition, there is an effect that the convenience of operation is improved by ensuring the rated speed operation state automatically without additional operation by the operator when the airtight test of the steam turbine control valve is released.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, many modifications and changes may be made by those skilled in the art without departing from the spirit and scope of the invention as defined in the appended claims. The present invention can be variously modified and changed by those skilled in the art, and it is also within the scope of the present invention.

10 boiler 20 turbines
30 Generator 40 Main Steam Stop Valve
50 Main Steam Control Valve 100 Actuator
110 setting unit 120 determination unit
122 Turbine speed measurement unit 200 Leakage test unit
300 main steam stop valve control
400 main steam control valve control unit
500 Reset

Claims (5)

In the gas tight test system of the steam turbine control valve,
An operating unit for controlling the operation of the entire system;
A setting unit for setting a speed target value and a speed reference value of the steam turbine according to the signal of the operation unit;
Determination unit for determining the speed error by comparing the speed reference value and the turbine speed;
An airtight test unit which performs an airtight test of the main steam stop valve and the main steam control valve according to the signal of the operation unit;
A main steam stop valve control unit for controlling an opening degree of the main steam stop valve according to a signal of the setting unit or the airtight test unit;
A main steam control valve control unit which controls an opening degree of the main steam control valve according to a signal of the determination unit or the airtight test unit; And
And a resetting unit for resetting the speed target value and the speed reference value when the airtight test is released from the airtight test unit.
The method of claim 1,
The determination unit turbine speed measuring unit for measuring the turbine speed;
And a comparison judging unit comparing the speed reference value with the turbine speed to determine a speed error.
The method of claim 1,
The airtight test unit, the main steam stop valve airtight test unit for giving a command to open and close the main steam stop valve to the main steam stop valve control unit according to the signal of the operation unit;
And a main steam control valve hermetic test unit for giving an opening / closing command of the main steam control valve to the main steam control valve control unit according to a signal of the operation unit.
The method of claim 1,
The reset unit selects the turbine speed at the time of release of the airtight test as the speed target value when the airtight test is released, and resets the speed reference value to the speed target value by increasing the speed ratio. Leakage Test System.
In the airtight test method of the steam turbine control valve,
Releasing the tightness test of the main steam stop valve or the main steam control valve;
Selecting a turbine speed when the airtight test of the main steam stop valve or the main steam control valve is released as a speed target value; And
Forcibly testing the steam turbine control valve comprising the step of forcibly inputting the turbine speed by increasing the speed ratio to a speed reference value.

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