JP2575808B2 - Plant security test method and apparatus - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION [Industrial Application Field] The present invention relates to a plant security test method and apparatus,
In particular, the present invention relates to a plant security test method and apparatus suitable for performing security tests on various types of equipment of a plant during plant operation.

[Conventional technology]

Conventionally, when performing a safety test on various equipment of a plant, for example, a safety test of a main steam stop valve of a steam turbine, as described in Japanese Utility Model Publication No. 56-149003, an operator stayed at a remote place. The safety test of the steam valve is performed as it is, and the test result is fed back and recorded for analysis at a later date. Further, as described in Japanese Utility Model Laid-Open No. 57-40608, a test for closing a large number of steam valves used in a steam turbine or the like is automatically and sequentially performed by one operation of starting the test.

[Problems to be solved by the invention]

According to the above-described conventional technology, a security test can be performed only by an operator performing a test start command operation on a device to be tested, but the operator determines whether or not the plant operation state is suitable for the security test. Must judge,
A security test may be performed due to an incorrect operation or incorrect confirmation by an operator, which may adversely affect the operation state of the plant. For this reason, operators must fully understand the operation status of the plant before conducting a security test, and when conducting a security test on a plant consisting of a large number of devices, such as a combined cycle, The amount of work for checking the state is enormous, and the operator has a great mental burden associated with this work.

An object of the present invention is to provide a plant security test method and apparatus capable of automatically performing a security test only when the operation state of the plant is in a state suitable for the security test.

[Means for solving the problem]

In order to achieve the above object, the present invention sets a test time for a test target device in a plant device group, measures a time when the test target device is in a test executable state, and determines the test time from the measured time. Specify the test time of the security test for the target device, before the security test for the test target device, from the plant operating state information whether the operating state of the plant is in a state suitable for performing the security test for the test target device Judgment, a plant security test method of performing the security test only when the determination that the operation state of the plant is in a state suitable for performing the security test and waiting for the arrival of the security test time is performed. It has been adopted. Further, a method is adopted in which the plant is operated in a control mode that suppresses fluctuations in the operating state of the plant during the security test, and after the security test ends, the operation returns to the control mode before the start of the security test. Further, when the operation state of the plant is not in a state suitable for performing the security test, a method of displaying the factor is adopted. Further, a method of judging the test result of the security test after the end of the security test and displaying the judgment result is adopted. When the result of the security test is negative, the estimated cause is displayed.

Further, the present invention provides a setting unit for setting a test time for a test target device in a group of devices in a plant, a measuring unit for measuring a time when a state of the test target device becomes a test executable state, and a measuring unit for measuring A test time designating means for designating a test time of a security test for a device to be tested from a time, a process information inputting means for inputting process information relating to an operation state of a plant, and a security condition for the device to be tested based on the process information. A test condition determining means for determining whether or not the state is suitable for performing the test; and a test condition determining means for determining whether the test timing is specified by the test condition determining means when the determination result of the test condition determining means is good. A safety test device for a plant having command means for commanding the execution of a security test. . Further, the present invention constitutes a plant security test apparatus in which a judgment means for judging a test result of the security test and a display means for displaying the judgment result of the judgment means are provided in the test apparatus.

(Operation) The operation time of the security test is monitored only when the operation state of the plant is monitored and the test time for the equipment to be tested is determined, and the operation state of the plant becomes suitable for performing the security test based on the operation state information of the plant. Wait for the arrival of the security test. Thus, the security test can be automatically performed only when the operation state of the plant is in a state suitable for the security test. During the security test, the plant is operated in a control mode that does not adversely affect the operation state of the plant, and after the security test, the operation returns to the control mode before the start of the security test. When the operation state of the plant is not in a state suitable for performing the security test, the factor is displayed. Further, after the security test is completed, the test result of the security test is determined, and this determination result is displayed. If the result of the security test is negative, the estimated cause is displayed.

〔Example〕

Hereinafter, an embodiment of the present invention will be described with reference to FIG.

In FIG. 1, an input device 10, a security test automation device
12, the process information processing device 24, the plant control device 30, and the display device 32 are provided as devices for performing security tests on various plant equipment of the plant to which the combined cycle is applied.
2. The process information processing device 24 and the plant control device 30 are connected to the plant equipment group 26, respectively. As shown in FIG. 2, the plant equipment group 26 includes an air compressor 26A,
It consists of a gas turbine 26B, a generator 26C, a steam turbine 26D, a condensate pump 26E, a circulating water pump 26F, a condenser backwash valve 26G, a high-pressure steam control valve 26H, a low-pressure steam control valve 26I, and the like. An output of a sensor (not shown) for detecting the state of the plant is supplied to the process information processing device 24 as process information indicating the operation state of the plant. That is, the process information processing device 24 is configured as process information input means.

The input device 10 is configured as setting means for setting a test time for a test target device in the plant device group 26, and specifies information for specifying the test target device by an operator's operation, test items, and information on the test time. Is entered. These pieces of information are input to the security test automation device 12.

The security test automation device 12 includes a security test execution timing processing unit 14, a test permission condition determination processing unit 16, a plant control mode switching command processing unit 18, a test start / end command processing unit.
20, a test result determination processing unit 22. The test result condition determination processing unit 16 and the test result determination processing unit 22 are connected to the display position 32, respectively. The security test execution timing processing unit 14 has a timer function, and can perform the test of the state of the device to be tested based on information from the input device 10 and information from the process information processing device 24 (previous test completion status information). It is configured to measure the time when the state becomes the state, and to specify the test time of the security test for the test target device from the measured time. That is,
The processing unit 14 constitutes measuring means and test time specifying means. Then, a signal designating the test time is input to the test permission condition determination processing unit 16. Test permission condition judgment processing unit
16 has functions such as timer, AND gate, OR gate,
It is configured as a test condition determining unit that receives process information from the process information processing device 24 and determines from the process information whether the operation state of the plant is in a state suitable for performing a test on a test target device. When determining the test conditions, the test information is compared with the test permission condition or criterion of each test item and the process information,
It is determined whether the operation state of the plant is in a state in which a security test can be performed. When the determination result is good, the determination result is output to the test start / end instruction processing unit 20, and the processing unit 20 outputs a security test execution instruction to the designated test equipment target. That is, the test start / end command processing unit 20 has an OR gate function, and when a test time is designated, the security test is performed for the designated test target device on condition that the judgment result of the test condition is good. It is configured as command means for instructing execution. When the determination result of the test condition is good, the determination result is transmitted to the plant control mode switching command processing unit.
18 and the processing unit 18 outputs a control mode switching command to the plant control device 30. That is, a command for switching the control mode is output so as not to cause a change in the operation state of the plant by performing the security test.
The plant control device 30 can control the operation of various devices of the plant device group 26 based on a command from the processing unit 18.

On the other hand, when the determination result of the test condition is negative, it is determined that the operation state of the plant is not in a state suitable for performing the security test, and the factor is displayed on a screen of the display device 32 as a display unit.

When the security test is performed, various process conditions are input from the plant equipment group 26 to the test result determination processing unit 22 via the process information processing device 24, and the quality of the security test is determined. This determination is made by comparing the test result determination reference value with the process information. Then, the determination result is output to the display device 32, and the quality of the test result is displayed on the screen of the display device 32. When the determination result is output from the processing unit 22 as the determination unit, a test start / end command processing unit 20 outputs a termination command to the designated test target device and the plant control mode switching command processing unit 18. Thus, the security test for the specified test target device is completed. Further, a command for returning to the operation in the control mode before the start of the security test is output from the processing unit 18 to the plant control device 30, and the plant is operated in the control mode before the start of the security test.

When the security test is performed by a manual operation of the operator, the security test is performed on the device to be tested by operating the test switch 28.

As described above, in the present embodiment, the security test can be automatically performed only when the operation state of the plant is in a state suitable for the security test, so that the security can be performed without adversely affecting the operation state of the plant. The test can be performed and the burden on the operator can be reduced.

Next, a specific example having the above-described functions will be described using a security test item of a combined cycle plant as an example.

 FIG. 3 shows an example of an open / close test of the high-pressure main steam stop valve.

In this embodiment, since the state of the device under test is in the test executable state, the high-pressure main steam stop valve is fully open for 24 hours, so that the high-pressure main steam stop valve is fully opened. fully opened state is set to output the signal from the timer T ₁ when continued for 24 hours. this is,
The safety test for the high pressure main steam stop valve is performed once a day.
Because it is a round, a security test may be performed 24 hours after the previous test was performed. Therefore, and as to output a signal for designating the test time from the timer T ₁ when the high-pressure main steam valve is turned 24 hours fully open. In addition, since the high pressure main steam stop valve is often closed once within 24 hours, the test timing for the high pressure main steam stop valve should be
If the time is set to 24 hours, the security test for the high-pressure main steam stop valve can be omitted. That is,
The purpose of the safety test on the high pressure main steam stop valve is to confirm that the valve is not sticky and can be closed on trip to properly shut off steam. Therefore, unnecessary test operations can be omitted by setting the test time as described above.

When conducting security tests on the high pressure main steam stop valve,
Before starting the security test, it is determined whether or not the operation state of the plant satisfies the test condition. When making this determination, the state in which the load of the plant, for example, the load of the generator is 50% or more, continues for 10 minutes or more, the low-pressure main steam stop valve is fully opened, the high-pressure steam control valve is fully opened, the low-pressure steam control valve is fully opened,
It is determined whether or not the vacuum normal AND condition of the condenser is satisfied. Then, when the AND condition is satisfied and the main steam stop valve is fully opened for 24 hours, a security test is performed on the high-pressure main steam valve. When the push button is operated to the automatic side, the test solenoid valve is excited by the execution command, and the high-pressure main steam stop valve is closed. When the push button is not operated to the automatic side, an operation message of “Perform an open / close test of the high-pressure main steam stop valve” is displayed on the screen of the display device 32. When the operator operates the manual push button based on this operation message, the test solenoid valve is excited, and the high-pressure main steam stop valve is closed.

The operation message can also be given by voice. Outputting the operation message is effective when the operator forgets to operate the automatic switch.

After the high-pressure main steam stop valve is closed, the test solenoid valve is de-energized, the high-pressure main steam valve returns to the fully open state, and the security test ends.

When the security test is completed, the quality of the security test result is determined. This determination is made based on the following three items.

(1) The required test time is within the specified value. (2) The valve opening change rate during the short time during the test is the specified value. (3) Almost the same as the normal valve opening / closing pattern (time versus valve opening). When all the conditions are satisfied, the test result is displayed as good, and otherwise, the test result is displayed as bad.

If the test result is determined to be negative, a valve stem detection system abnormality such as a valve stem, a test solenoid valve abnormality, a test control oil system abnormality, or a differential transformer is displayed as the presumed cause.

In addition, a more accurate determination result can be obtained by setting the required time using the main steam pressure as a parameter in advance for the required time of the test and the specified value (normal value) of the valve opening change rate. By preparing a plurality of patterns using the main steam pressure parameter as the valve opening / closing pattern, a more accurate determination result can be obtained.

In FIG. 3, symbols T ₁ and T ₂ are timers, and A ₁ , A ₂ , A
₃ , A ₄ , A ₅ , A ₆ , A ₇ are AND logic, O 1, O 2 are OR logic, N ₁ , N ₂ , N
₃ and N ₄ indicate NOT logic.

The security test result is displayed on the display device 32, and the test result is stored in the storage device, and can be output as a security test execution result report as shown in FIG. 4 if necessary. is there.

The security test is performed during load operation, but if the plant is controlled by the AFC signal from the central power dispatching center, the load control will be more stable by setting the load control to ALR mode (power plant side main control mode). The security test can be performed in the state.

When a security test is performed on the high-pressure steam control valve, as shown in FIG. 5, the security test can be automatically performed similarly to the high-pressure main steam prevention valve by setting the execution time to one month.

When performing a security test on the ST trip solenoid valves 1 and 2, as shown in FIG. 6, the implementation timing of the solenoid valve 1 is set to one week, and the implementation timing of the solenoid valve 2 is set to one week + α. As a determination condition for executing the test, the steam turbine is not in the stop phase. ST (steam turbine) trips are usually done once a week,
It may be performed one week after the last test. That is, the ST trip solenoid valve is necessarily de-energized by stopping the unit within one week.
This is a security test for the trick solenoid valve, and the security test can be omitted. However, since the ST trip solenoid valve outputs a trip signal in a non-excited state, two solenoid valves are provided from the viewpoint of malfunction prevention, and an interlock is set to an AND condition to generate a turbine trip signal. I have to. Therefore, the test of the ST trip solenoid valve must be performed one by one. That is, when both ST trip solenoid valves are simultaneously de-energized, the unit is stopped. Therefore, the execution timing of both ST trip solenoid valves has a slight difference α. This difference α
Must be longer than the time required for the ST trip solenoid valve test.

When performing a security test on the ST preceding abnormal governor circuit, as shown in FIG. 7, the implementation time for each circuit A, B, C is set to one week, and the security test is performed. The determination is made on the condition that the phase is not the start phase and the phase is not the stop phase, that is, that the steam turbine is operating.

In addition, when performing a security test on the ST emergency oil pump, as shown in FIG. 8, the time when the state in which the oil pump stopped was continued for one week was set as the execution time, and as a determination item of the test condition, It detects that it is not the start phase and not the stop phase. When the oil pump is started according to the execution command, the oil is drained from the drain side of the test valve of the oil pump, the oil pressure is reduced, and the oil pump is started. When the oil pump is stopped, the test valve is set to the normal side and the oil pump is stopped on condition that the discharge pressure of the oil pump has become equal to or higher than a specified value for a certain period of time.

Next, when performing a regular operation on the condenser backwash valve 26G, as shown in FIG. 9, the same operation as the security test can be performed.

When performing regular operation on the condenser backwash valve 26J, the time when the backwash valve normal wash position is continued for 24 hours is the execution time, the seawater system master is not in progress, and the CWP (circulating water pump) is operating. The regular operation is performed with the condition that the condenser vacuum is normal as a judgment item of the test condition.

When automatically performing the regular operation for the condenser backwash valve 26G, the backwash operation of the condenser backwash valve 26G is automatically performed, and after 30 minutes on condition that the condenser backwash position is reached. Return the backwash valve to the normal wash position. Then, the quality of the execution result is displayed based on whether the backwash valve is in the backwash state or the normal wash state. When the execution result is negative, a failure in the electric system of the backwash valve stick and the backwash valve motor is displayed as the estimated cause.

Further, when the regular operation is automatically performed in the present embodiment, the vacuum degree of the condenser is reduced at the time of the backwash, and in some cases, a plant trip may occur. It can be performed with a stable load.

As mentioned above, specific examples have been described. However, regarding the timing of performing security tests and regular operations, it is naturally considered that there is a desire to perform the tests during the day rather than at night and a desire to efficiently perform each test as efficiently as possible. It is necessary to have flexibility. Therefore, in order to fulfill these demands, a security test database that collectively manages data for security tests is provided in the security test automation device 12, and the last execution time of each test item (including the operation of the person in charge of the test) and the execution time This can be achieved by providing certain rules as described below between the data such as the next scheduled execution time and the above-mentioned request.

(1) When you want to conduct a test in the daytime.

In the case of a security test once a day, for example,
From 18:00 to 24:00, -6 from this time
If the scheduled time is a time zone of 0:00 to 6:00, the time zone shifted by +6 hours from this time zone is reset as the execution time. This method can be easily realized by making the set value of the timer variable.

(2) When you want to perform each test item as much as possible.

In the case of a once-a-day security test (including once every two days or even once in a longer period, including those that fall on the test day), for example, scheduled for a certain six-hour period For the test items of, the test schedule execution time is compressed, and the execution time is reset again so that the test time can be executed collectively in the same time zone. In addition, when the operation is performed once every two days or once more, the execution time can be reset according to the same rule.

As described above, in each of the above embodiments, the security test can be automatically performed only when the operation state of the plant is in a state suitable for the security test (regular operation). Without giving it, the security test can be automatically performed, and the burden on the operator can be reduced. In addition to displaying the test results after the test and automatically controlling the control mode during operation of the plant, the burden on the operator during the security test can be greatly reduced as shown in Fig. 10. In addition, it is possible to prevent a test failure due to erroneous confirmation or erroneous operation of an operator or an adverse effect on a plant. In particular, in a plant such as a combined cycle constituted by a large number of devices, the effect is significant.

Incidentally, Table 1 shows an example of the number of test items and the test interval of the combined cycle.

A combined cycle plant is generally composed of several shafts (rotating shafts of a generator), and the number of security test items is considered to be approximately the number of shafts of the above test items even if there are common facilities. In view of this, the effect of the present invention is very large.

〔The invention's effect〕

As described above, according to the present invention, the security test can be automatically performed only when the operation state of the plant is in a state suitable for the security test, without adversely affecting the operation state of the plant. The security test can be automatically performed, and the burden on the operator required for the security test can be reduced. Further, when the operation state of the plant is not in a state suitable for performing the security test, the cause is displayed, so that the process when the security test cannot be performed can be performed immediately. Further, when the result of the security test is negative, the estimated cause is displayed, so that the process when the security test fails can be performed immediately. In addition, since the test result of the security test is displayed, the quality of the test result can be grasped.

[Brief description of the drawings]

FIG. 1 is a block diagram showing an embodiment of the present invention, FIG. 2 is a block diagram of a plant, FIG. 3 is an explanatory diagram for explaining an operation of a safety test of a high-pressure main steam stop valve, and FIG. Diagram for explaining the content of the security test execution result report, FIG. 5 is an explanatory diagram for explaining the content of the security test of the high-pressure steam control valve, and FIG. 6 illustrates the content of the security test for the ST trip solenoid valve. FIG. 7 is an explanatory diagram for explaining the contents of a security test for the preceding abnormal governor circuit, and FIG. 8 is an explanatory diagram for explaining the contents of a security test for the ST emergency oil pump. FIG. 9 is an explanatory view for explaining the contents of a regular operation for the condenser backwash valve, and FIG. 10 is an explanatory view for explaining the effect of the present invention. 10 ... input device, 12 ... security test automation device, 14 ... security test execution timing processing unit, 15 ... test permission condition judgment processing unit, 15 ... test permission condition judgment processing unit, 18 ... plant control mode Switching command processing unit, 20: Test start / end command processing unit, 22: Test result judgment processing unit, 24: Process information processing device, 26: Plant equipment group, 30: Plant control device, 32: Display device.

──────────────────────────────────────────────────続 き Continued on the front page (51) Int.Cl. ⁶ Identification code Agency reference number FI Technical display location F01K 23/10 F01K 23/10 A G01D 21/00 G01D 21/00 Q G05B 23/02 0360-3H G05B 23/02 C (72) Inventor Masaru Sugihara 3-1-1 Sachimachi, Hitachi City, Ibaraki Prefecture Inside Hitachi, Ltd. Hitachi Works (56) References Shokai Sho 57-40608 (JP, U) Shosho Shokai 56-149003 (JP, U) JP-A 60-7904 (JP, U) JP-A 59-5703 (JP, U) JP 6-65842 (JP, B2)

Claims (7)

(57) [Claims] A test time is set for a test target device in a group of devices in a plant, a time when the test target device is in a test executable state is measured, and a security test test for the test target device is performed based on the measured time. Specify the time, before the security test on the test target equipment, determine from the plant operating state information whether the operating state of the plant is in a state suitable for performing the security test on the test target equipment, the operating state of the plant A security test method for a plant, in which the security test is performed only when a determination result indicating that the security test is in a state suitable for the security test is obtained and the security test time is reached. 2. The plant according to claim 1, wherein the plant is operated in a control mode for suppressing fluctuations in the operating state of the plant during the security test, and after the security test is completed, the plant returns to the operation in the control mode before the start of the security test. Security test method. 3. The plant safety test method according to claim 1, wherein when the operation state of the plant is not in a state suitable for performing the security test, the factor is displayed. 4. The plant security test method according to claim 1, wherein a result of the security test is determined after the security test is completed, and the determined result is displayed. 5. When the result of the security test is negative,
5. The method according to claim 4, wherein the estimated cause is displayed. 6. A setting means for setting a test time for a test target device in a device group of a plant, a measuring device for measuring a time when a state of the test target device is in a test executable state, and a measuring time of the measuring device. Test time designating means for designating a test time of a security test for a device to be tested from; process information inputting means for inputting process information relating to an operating state of a plant; Test condition determining means for determining whether or not the state is suitable for performing the test, and security to the device under test on condition that the test condition determining means determines that the test result is good when the test time is specified by the test time specifying means. And a command means for commanding the execution of a test. 7. The plant safety test apparatus according to claim 6, further comprising: a judging means for judging a test result of the security test, and a display means for displaying the judgment result of the judging means.