KR101511249B1 - Safety valve performance test methods - Google Patents

Abstract

Disclosed is a method to test performance of a safety valve. According to an embodiment of the present invention, the method to test performance of the safety valve comprises: (a) a step of installing a tested safety valve in a test flange in test equipment; (b) a step of applying a power supply to the test equipment; (c) a step of testing for leakage of a sealing portion of the tested safety valve by applying pressure to the tested safety valve using a hydraulic pump after setting an allowable set pressure of the tested safety valve; (d) a step of checking the pressure difference between a reading of a digital pressure gauge installed in the test equipment and a reading of a correction analog pressure gauge applied to a test pressure range and correcting a driving pressure of the tested safety valve; (e) a step of allowing the test pressure to be released by exhausting and draining the pressure by which the tested safety valve is pressurized; and (f) a step of evaluating the quality of the tested safety valve in a manual mode after confirming leakage of the sealing portion of the tested safety valve.

Description

Safety valve performance test methods [

The present invention relates to a system for preventing over-pressure from exceeding a normal operating pressure of a system during operation of a nuclear power plant and general industrial pipelines, And to a safety test method for a safety valve that can confirm the integrity of a safety valve installed for safe recovery.

In general, nuclear power plants and general industries are required to ensure that the pressure inside the system exceeds the compressed spring force of the safety valve by the mechanical spring compression force in the system where the system normal operation pressure and the maximum permissible operating pressure are reflected in the design, Spring type safety valves are used to reduce overpressure generated in the system.

When the pressure in the system piping is returned to the normal operating pressure, the spring-type safety valve isolates the discharge passage by a mechanical spring force to perform normal system operation.

In other words, the important safety assurance system reflected in the design of the nuclear power plant is equipped with a safety valve in order to protect the equipment and the system due to the abnormal situation during the operation of the system. Such a safety valve is provided for the planned preventive maintenance period of the nuclear power plant, During the operation, the soundness is tested and evaluated periodically.

The conventional safety valve test method will be described as follows.

a) Install the safety valve to be tested on the test flange.

b) Manual pressure pump calibration Perform pressure set test of the test equipment, such as connecting the analog pressure gauge, test pressure line to the safety valve test flange and pressurizing the test subject safety valve.

c) Upon completion of the pressure set test of the test equipment, check the leakage of the seal through the outlet pipe of the safety valve under test and the satisfaction of the leakage test.

f) Test the safety valve test data to evaluate the integrity of the safety valve to be tested, and if not satisfied, perform set-pressure control or disassembly and retest.

However, in the conventional safety valve test method described above, a calibration pressure gauge applied to the pressure range of the test subject safety valve before the valve test is installed in the manual hydraulic pump, and the manual pressure pump pressure increase state, There is a disadvantage in that confirmation is required before each test start and the test time is delayed accordingly.

In addition, safety valves installed in various forms to ensure system operation characteristics and safety have different sizes and capacities, so it is necessary to prepare test preparation time for the pressure test line configuration applied to the valves. It is difficult to configure the test line for the unskilled person .

In addition, all preparations for the test are performed manually, and the operator also raises the pressure to the test pressure using a manual hydraulic pump, which causes an inaccurate pressure rise due to manual operation

That is, in order to check the safety valve setting pressure, the pressure indication value of the calibrating pressure gauge is erroneously determined when the pressure of the test pressure is manipulated by operating the manual hydraulic pump continuously while observing the pressure indicating value of the calibrating pressure gauge, Ensure the economical and safety of the power plant, such as unreasonable valve operation due to unnecessary valve operation to adjust the valve setting pressure, and objectivity of test reliability and valve performance test data due to inaccurate test, and follow-up due to failure of validity test A lot of additional working situations arise.

In addition, there is no separate standard for the test method of the skilled or unskilled testing laboratories and the composition of the pressurized test line, and there is a disadvantage that the reliability of the test execution procedure and the test data is significantly different due to the individual skill of the test laboratories.

Accordingly, the present applicant has proposed a safety valve performance test method for solving the conventional problems as described above

In one embodiment of the present invention, in a method in which a test person directly constructs a pressurizing line for a safety valve integrity test and performs a test by operating a manual hydraulic pump, the set pressure of the test subject safety valve and the leak test pressure of the seal are automatically This is to provide a performance test method of a safety valve that can perform convenient test and acquire accurate and objective test data by using test equipment capable of pressure control and maintenance.

Also, it is intended to provide a performance test method of a safety valve that prevents damage to the safety valve caused by human error occurring during the test execution which has been applied in the past, and that the unskilled person performs correct test procedure of the safety valve by performing accurate test procedure .

According to an aspect of the present invention, there is provided a method for testing a safety valve, comprising the steps of: a) installing a safety valve to be tested on a test flange of a test equipment, b) applying power to the test equipment, and c) And the pressure of the sealed portion of the test subject safety valve is inspected by applying a pressure to the test subject safety valve by using a water pressure pump, and d) the indication of the digital pressure gauge installed in the test equipment, E) calibrating the operation pressure of the test subject safety valve by checking the pressure deviation between the calibrating analogue pressure gauge readings applied to the range, e) exhausting the pressurized pressure of the test subject safety valve to discharge the test pressure, f) evaluating the integrity of the test subject safety valve in the passive mode after confirming leakage of the seal of the test subject safety valve Safety valve performance test methods may be provided.

In the embodiments of the present invention, the leak test pressure of the test subject safety valve and the set pressure leak test time are inputted to the automatic operation program and executed, and the digital pressure gauge shutoff valve within the range capable of checking the pressure of the target valve is automatically The test reliability can be secured.

It is also possible to perform a safety valve validation test by changing the manual / automatic control switch on the automatic test equipment to automatic and activating the automatic start button.

In addition, the valve can be prevented from being damaged by the test pressure complete pneumatic pressure by the automatic stop of the hydraulic pump, exhaust of the accumulator, and automatic opening of the drain valve after confirming the safety valve setting pressure.

In addition, the entire process of the test can be converted into a graph so that accurate test execution status and results can be visually confirmed. Test time and pressure values can be stored in numerical values, so that an Excel program can be used to determine whether the final health is satisfied. Through this graph, it is possible to carry out the integrity confirmation test of the safety valve accurately.

1 is a schematic view illustrating a method for testing the performance of a safety valve according to an embodiment of the present invention.
2 is a schematic view illustrating a pressure line circuit diagram of a method for testing the performance of a safety valve according to an embodiment of the present invention.

Hereinafter, a safety valve performance test method according to embodiments of the present invention will be described in detail with reference to the drawings.

The safety valve performance test method according to an embodiment of the present invention is characterized by confirming the integrity of the safety valve.

1 is a schematic view illustrating a safety valve performance test method according to an embodiment of the present invention.

Referring to FIG. 1, a safety valve performance test method according to an embodiment of the present invention

a) First, the test subject safety valve is installed on the test flange 110 of the test equipment.

Referring to FIG. 2, the test flange 110 is provided with a pressure sensor (not shown) for applying pressure to the test subject safety valve A pressure line is provided.

 The pressurizing line includes a hydraulic pump 120, an accumulator 120 for compressing the hydraulic pressure supplied through the hydraulic pump 120, or an accumulator for compressing the pneumatic pressure so as to apply a pressure to the test object safety valve mounted on the test flange 110. [ (130), and a plurality of gauges (140) for measuring and calibrating the hydraulic or pneumatic pressure supplied to the test subject safety valve.

b) After that, the driving air line is connected to the equipment for the safety valve test pressure automatic pressure water pressure pump 120, the appropriate water level of the water tank 122 installed in the equipment is checked, and the power is applied to the test equipment, .

That is, an air line is connected to supply the driving air to the test equipment, and water required for driving the hydraulic pump 120 is supplemented to the water tank 122 to maintain the proper water level, .

c) After that, the pressure for 90% of the set safety valve set pressure is input to the equipment screen of the test equipment and the hydraulic pump (120) is started to maintain the test pressure rise time, Check the status.

That is, the step of testing leakage of the sealing portion of the test subject safety valve by applying pressure to the test subject safety valve after setting the allowable set pressure of the test subject safety valve is performed.

d) After that, check the pressure deviation between the indication of the digital pressure gauge installed in the test equipment and the calibrated analog pressure gauge reading applied to the test pressure range, and adjust the deviation of the digital pressure gauge by using the calibration program function, Calibrate the pressure.

That is, the pressure of the safety valve is checked through the allowable set pressure test described above, and the deviation is corrected using a calibration program, if necessary.

e) When the set pressure calibration of the test subject safety valve is completed, the test pressure automatic pressure water pressure pump 120 of the test equipment is stopped and the accumulator 130, Open the valve so that the pressurized pressure is completely depressurized.

In order to ensure the safety of the safety valve and the test equipment during the test, the test pressure is maintained in a fully depressurized state by automatic stop of the hydraulic pump, exhaust of the accumulator (130) and automatic opening of the drain valve, .

f) On the other hand, as described above, the integrity is evaluated by solving the problems of the test equipment and the safety valve, that is, when malfunction or malfunction of the test equipment or leakage of the seal of the safety valve is confirmed.

In other words, safety valves used in nuclear power plants normally can safely recover the internal fluid that is used for normal protection of the system or equipment and certain critical systems when excess pressure exceeding the normal operation pressure during operation is generated. At the same time, To ensure safety of systems and equipment through important safety valves and accurate tests, and to preclude the possibility of operation restriction and shutdown of power plants and general industries due to inaccurate tests and human errors, the system is checked for soundness manually.

g) After that, if the test of the safety valve seal part in the manual mode is satisfied through the test as described above, the automatic test of the safety valve to be automatically tested such as the operation of the test mode installed on the test device control part to the automatic position is prepared .

h) Afterwards, the leak test pressure, set pressure and leak test time of the safety valve under test are entered into the automatic operation program and the digital pressure shut-off valve within the range of confirming the target valve pressure is automatically operated to the open position Check whether the automatic operation program is operating normally.

i) After that, if the automatic operation program is normally operated, execute the safety test for the safety valve under test by executing the automatic start button on the test equipment control panel.

j) Afterwards, the results of confirming the integrity of the safety valve with reference to the set pressure and seal leak test results (pressure-time graph, test pressure change value) according to manual mode test and automatic mode test of safety valve by test pressure boost The final edition.

Therefore, it is necessary to evaluate the safety and non-safety grade safety valves specified by the Nuclear Safety Commission and to perform the set pressure and seal leakage test performed after the safety valve malfunction or decomposition check by leakage inside the seal. The design of the safety valve is based on the design data applied to the system and the design data is entered into the program of the automated pressure control and maintenance test equipment. The accurate test procedure and performance of the safety valve are established, It is possible to prevent the possibility of accident of human error such as prevention of parts damage and test procedure and execution of test center.

In addition, the safety valve performance test method according to an embodiment of the present invention includes a test equipment emergency stop switch for emergency stopping the test equipment in case of abnormality of the test equipment or safety valve, It is possible to secure both the safety valve and the test equipment safety through the hydraulic pump emergency stop switch, abnormal situation warning lamp and warning buzzer.

In addition, the safety valve performance test method according to an embodiment of the present invention includes a power supply for checking the presence or absence of power supply, an automatic and manual changeover switch for safety valve dryness test, Ports can be installed in the equipment control unit to ensure the soundness and reliability of the test equipment.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention as defined in the appended claims. It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

110: Test flange
120: Hydraulic pump
130: Accumulator
140: Gauge

Claims (6)

a) installing the test subject safety valve on the test flange 110 of the test equipment,
b) applying power to the test equipment;
c) testing leakage of the sealing portion of the test subject safety valve by pressing the pressure of the test subject safety valve using the water pressure pump (120) after setting the allowable set pressure of the subject subject safety valve;
d) calibrating the operating pressure of the test subject safety valve by checking the pressure deviation between the indication of the digital pressure gauge installed in the test equipment and the calibration analog pressure gauge reading applied to the test pressure range,
e) exhausting the pressurized pressure of the test subject safety valve to allow the test pressure to be depressurized,
f) evaluating the integrity of the test subject safety valve in the manual mode after checking the leakage of the seal of the test subject safety valve,
g) preparing an automation test so as to confirm that the safety valve having the integrity in the manual mode of the test subject safety valve is operated normally within the test pressure range by using the automated equipment programmed with the automatic operation program,
h) confirming that the automation equipment programmed with the automatic operation program is operating normally,
i) retesting the integrity of the test subject safety valve by executing a start button of the test equipment; And
j) Final determination of the integrity test result of the safety valve to be tested with reference to the permissible set pressure and seal leak test result according to the manual mode test of the test subject safety valve and the automatic mode test using the automated equipment In addition,
The test flange 110 is provided with a pressurizing line for applying pressure to the test subject safety valve,
The pressure line
A hydraulic pump 120 for applying pressure to the test subject safety valve that is seated on the test flange,
An accumulator 130 for compressing the hydraulic pressure or air pressure supplied through the hydraulic pump,
And a plurality of gauges (140) capable of measuring and calibrating the hydraulic or pneumatic pressure supplied to the test subject safety valve.
delete delete The apparatus of claim 1,
And a test equipment emergency stop switch capable of emergency stopping the test equipment in case of an abnormal situation of the test equipment or the safety valve to be tested.
The safety valve performance test method according to claim 1, wherein the test equipment can further include a hydraulic pump emergency stop switch for allowing the hydraulic pump to be stopped emergency.
The safety valve performance test method according to claim 1, wherein the test equipment can further include an abnormal situation occurrence warning lamp and a warning sound generating buzzer.

Images