JP2000035494A - Core monitoring device and nuclear power plant equipped with core monitoring device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a core monitoring device for the purpose of carrying out core work more safely and smoothly than before and a nuclear power plant equipped with the same core monitoring device. SOLUTION: This monitoring device is equipped with a control-rod data input part 15 for receiving signals related to control-rod data 5 from a control- rod operation monitoring device 2, a fuel data input part 14 for receiving signals related to fuel data 4 from a fuel-exchanger control device 1, and a neutron flux data input part 16 for receiving signals related to neutron flux data 6 from a nuclear instrumentation state monitoring device 3. The signals received by the respective input parts are processed by a central processing unit 11, Data necessary for core work are outputted to a core-work data output device 12, an alarm output device 18, and a core-work data display device 19, based on the signals processed by the central processing unit 11.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

The present invention relates to a core monitoring device and a nuclear power plant provided with the core monitoring device.
The present invention relates to a core monitoring device for monitoring a state of a core during a periodic inspection of a nuclear plant, and a nuclear power plant provided with the core monitoring device.

[0002]

2. Description of the Related Art In a periodic inspection of a nuclear power plant, various system equipments are inspected. As operations affecting the reactivity of a nuclear reactor, replacement of fuel assemblies or shuffling and control rod drive mechanism are performed. Disassembly and inspection, replacement of control rods, etc. are performed.

[0003] When performing core work such as fuel transfer or fuel loading using a refueling machine in a periodic inspection, neutron flux information is monitored while operating control rods to check the subcritical state of the core. Need to be secured.

[0004] Conventionally, an operator who performs a core operation using a refueling machine and an operator who performs a control rod operation in order to ensure subcriticality of the core are different in information at different locations. The work has been performed while ensuring security by providing each other's information using means such as telephones.

FIG. 15 is a block diagram showing a schematic configuration of a conventional core monitoring system of a nuclear power plant, and FIG.
It is the schematic block diagram which showed typically the core monitoring system of the conventional nuclear power plant.

As shown in FIG. 15, the conventional core monitoring system comprises an output device 7 for receiving and outputting a signal relating to fuel information 4 from the fuel exchange control device 1, a control rod operation monitoring device 2, and a nuclear instrumentation state. A process computer 8 receives and processes signals related to the control rod information 5 and the neutron flux information 6 from the monitoring device 3, and an output device 9 that outputs a processing result of the process computer 8.

Here, the "control rod information" is information including control rod coordinate position data, control rod status, selected control rod coordinates, the state of the control rod operation monitoring device 2, and the like, and a control rod drive mechanism (CRD). ) Is information based on the detection data. In addition, "fuel information" refers to a core / pool map,
The information includes the grip / release coordinates of the fuel / double blade guide, the current position of the refueling machine, the refueling procedure, and the refueling machine operation mode. Furthermore, "neutron flux information"
Is information about neutrons generated in the reactor,
This is information based on detection data from a local area monitor (LPRM) or the like.

[0008] Then, as shown in Fig. 16, an operator A performing core work works in the refueling machine control device room, while an operator B performing control rod operation works in the central operation room. carry out. The refueling control unit 1 in the refueling control unit room uses the output device 7 to provide the fuel information 4 to the operator A.

[0009] The fuel information 4 provided to the operator A in the refueling control room by the output device 7 has been transmitted to the operator B in the central operating room by means such as a telephone.

On the other hand, the control rod operation monitoring device 2 in the central operation room sends the control rod information 5 to the process computer 8 and outputs the control rod information 5 processed by the process computer 8 to the output device 9.
And provided to the operator B. The control rod operation monitoring device 2 includes a control rod position display system (RPIS) and a control rod manual operation system (RMCS). Further, the nuclear instrumentation state monitoring device 3 sends the neutron flux information 6 of the core to the process computer 8, and provides the neutron flux information 6 processed by the process computer 8 to the operator B using the output device 9.

The control rod information 5 and the neutron flux information 6 provided to the operator B in the central control room by the output device 9
Has been transmitted to the operator A in the refueling machine control unit room by means of a telephone or the like.

[0012]

As described above, conventionally, the fuel information 4, the control rod information 5, and the neutron flux information 6 necessary for the core work are not unified, and the fuel tank 4 is located in the refueling machine control unit room. The core work has been advanced by transmitting and receiving information in a human system using a telephone or the like between the operator A and the operator B in the central operation room.

While the reactor mode switch is in the refueling mode during the core work at the time of the periodic inspection, logic is provided in the control rod operation monitoring device 2 as an interlock in the refueling mode. This logic prohibits the withdrawal of two or more control rods. As described above, restrictions are imposed on the manner in which the core work is carried out, so that the proportion of the core work during the periodic inspection has increased.

As described above, in the conventional core monitoring system, it is assumed that the operations in the furnace such as the operation of the control rod, the operation of the fuel assembly, and the operation of the double blade guide follow a preset procedure. Since the work is proceeding based on human-based information exchange, the labor load on the operator is large, and there is no monitoring when the procedure is deviated by the human-based system.
Human error could occur.

In addition, since the control rod operation is restricted by the interlock of the control rod operation monitoring device 2, the ratio of the core work during the periodic inspection increases, and the periodical inspection is prolonged.

SUMMARY OF THE INVENTION The present invention has been made in view of the above-mentioned various problems, and has been made in consideration of a core monitoring apparatus and a nuclear power plant provided with the core monitoring apparatus for performing core work more safely and smoothly than before. The purpose is to provide.

[0017]

A core monitoring apparatus according to the present invention receives a control rod information input section for receiving a signal relating to control rod information from a control rod operation monitoring apparatus, and receives a signal relating to fuel information from a refueling exchange control apparatus. A fuel information input unit,
A neutron flux information input unit that receives a signal related to neutron flux information from the nuclear instrumentation state monitoring device, a central processing unit that processes signals received at the input units, and a signal that is processed by the central processing unit. A core work information display device for displaying information necessary for core work.

Preferably, the central processing unit has a core state analyzing means for analyzing a core state during reactor shutdown based on the information.

Preferably, the core condition analysis means recognizes one control rod and four fuel assemblies around the control rod as one set as one cell, and based on the control rod information and the fuel information. And a cell state determination function for determining whether all four fuel assemblies in each cell of the nuclear reactor have been taken out and the control rods in the cell have been fully drawn out on a cell-by-cell basis.

Preferably, the apparatus further includes a determination result transmitting function of transmitting a determination result of the cell state by the core state analysis means to the control rod operation monitoring device.

Preferably, the information is input to each of the input units in real time, the core state analyzing means analyzes the core state in real time based on the information, and the core work information display device is provided in real time. Output the analysis result of the core state analysis means.

Preferably, when the control rod position signal from the control rod position indicating device for indicating the position of the control rod cannot be used, a substitute value relating to the control rod position is used as the control rod information by the core state analysis means. It further has a function of giving.

Preferably, the control rod information is updated at a constant cycle.

Preferably, the fuel information is updated when one of the core monitoring device and the refueling control device is initialized, or when a communication error that has once occurred is restored. I do.

Preferably, the central processing unit includes a control rod operation monitoring function for monitoring control rod insertion and withdrawal control rod operation as a function of monitoring a state of the core operation based on the information. A fuel operation monitoring function for monitoring fuel operation during fuel loading and fuel removal during core work,
It has a core work operation procedure monitoring function for monitoring fuel and control rod operation procedures related to core work.

Preferably, the control rod operation monitoring function is performed when update data of selected control rod coordinates is transmitted to the control rod information input unit, or a control rod substitute value is inserted / released by the core monitoring device. When the control rod position data information received by the control rod information input unit and the fuel loading information loaded on the core and the fuel pool received by the fuel information input unit, the central processing unit The control rod insertion (pull-out) operation determining means is used, and the determination is performed by the determining means.

Preferably, in the control rod insertion (pull-out) operation determination procedure, the control rod insertion (pull-out) operation determination means is used when the selected control rod is inserted or withdrawn.

Preferably, the apparatus further comprises a judgment result transmitting function of transmitting a judgment result by the control rod insertion (pulling) operation judgment means to the core work information display device and the alarm output device.

Preferably, the fuel operation monitoring function includes a step of transmitting fuel position update data relating to core work from the refueling machine control unit to the fuel information input unit.
A fuel having, at the central processing unit, control rod position data information received at the control rod information input section and fuel loading information loaded in the core and fuel pool received at the fuel information input section. The determination is performed by each of the above-described units using the misloading determination unit and the erroneous fuel extraction determination unit.

Preferably, the fuel misload determination means makes a determination using the fuel misload determination means when fuel or double blade guide is loaded.

Preferably, the erroneous fuel removal determining means makes a determination using the erroneous fuel removal determining means when removing fuel or a double blade guide.

Preferably, the apparatus further comprises a determination result transmitting function of transmitting determination results by the fuel misload determination means and the fuel mistake determination means to the core work information display device and the alarm output device.

Preferably, in the core work operation procedure monitoring function, information from the control rod operation monitoring device and the refueling machine control device is input to the control rod information input section and the fuel information input section in real time. When the operation mode of the refueling machine is the automatic mode, the control rod position data information received by the control rod information input section and the fuel loading loaded in the core and the fuel pool received by the fuel information input section. The fuel handling operation procedure determining means having the information and the information in the central processing unit is used, and the determination is performed by the determining means.

Preferably, the fuel handling operation procedure judging means compares the fuel procedure data inputted to the fuel information input section with an operation history inputted in real time by the fuel handling operation procedure judging means. Do.

Preferably, the apparatus further comprises a determination result transmitting function of transmitting a determination result by the fuel handling operation procedure determining means to the core work information display device and the alarm output device.

Preferably, the core work information display device displays an abnormality cause when the central processing unit detects an abnormality based on each of the determination means.

The nuclear power plant according to the present invention has a control rod operation monitoring device that controls the control rod information, a fuel exchange control device that controls the fuel information, a nuclear instrumentation state monitoring device that controls the neutron flux information, and a reactor shutdown. And a core monitoring device that monitors the state of the core in the reactor, wherein the core monitoring device is the above-described core monitoring device.

The nuclear power plant according to the present invention has a control rod operation monitoring device that controls the control rod information, a fuel exchange control device that controls the fuel information, a nuclear instrumentation state monitoring device that controls the neutron flux information, and a reactor shutdown. A core monitoring device that monitors a state of the core during the control, the core monitoring device is a control rod information input unit that receives a signal related to the control rod information from the control rod operation monitoring device; and A fuel information input unit for receiving a signal relating to the fuel information, a neutron flux information input unit for receiving a signal relating to the neutron flux information from the nuclear instrumentation condition monitoring device, and a central processing unit for processing a signal received at each of the input units A processing device, a core work information display device for displaying information necessary for core work based on signals processed by the central processing unit, and the central processing unit A core work information output device that prints out information necessary for core work based on the processed signal, and an alarm output device that outputs an alarm based on the signal processed by the central processing unit, The central processing unit has a core state analysis means for analyzing a core state during shutdown of the reactor based on the information, a control rod operation monitoring function, a fuel operation monitoring function, and a core work operation procedure monitoring function. The core state analysis means recognizes one control rod and four fuel assemblies around it as one set as one cell, and based on the control rod information and the fuel information, each cell of the nuclear reactor. Has a function of determining whether all of the four fuel assemblies in the cell have been removed and the control rods in the cell have been fully pulled out, and the control rod operation monitoring function has a function of inserting the control rods. Or withdraw The fuel operation monitoring function has a function of determining whether or not a fuel loading or unloading operation is permitted. And
The core operation procedure monitoring function has a function of determining whether fuel movement is operated according to a fuel handling procedure,
The core monitoring device further includes a determination result transmitting function of transmitting a determination result of a cell state by the core state analysis means to the control rod operation monitoring device, wherein the control rod operation monitoring device includes a determination result of the cell state. By monitoring the operation of the control rods based on the above, it is possible to operate a plurality of control rods while the interlock is kept functioning.

Preferably, the control rod operation monitoring device is provided with a connection permission switch for switching between a connection permission state for permitting connection with the core monitoring device and a connection prohibition state for prohibiting connection.

Preferably, when the connection permitting switch is switched from the connection permitting state to the connection prohibiting state, the control rod operation monitoring device determines the core state which has already been made on the basis of the cell state determination result. To be released.

Preferably, the control rod operation monitoring device is provided with a connection state display unit for displaying which of the connection permitted state and the connection prohibited state.

[0042]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS A core monitoring apparatus according to an embodiment of the present invention and a nuclear power plant provided with the core monitoring apparatus will be described below with reference to FIGS. In addition,
The same components as those of the conventional nuclear power plant shown in FIGS. 15 and 16 are denoted by the same reference numerals, and detailed description is omitted.

FIG. 1 shows a core monitoring apparatus 1 according to this embodiment.
FIG. 2 is a block diagram showing a schematic configuration of a core monitoring system of a nuclear power plant provided with a nuclear power plant 0, and FIG. 2 is a schematic configuration diagram schematically showing a core monitoring system of a nuclear power plant according to the present embodiment.

As shown in FIG. 1, in the nuclear power plant according to the present embodiment, the control rod operation monitoring device 2 for controlling the control rod information 5 and the refueling machine control device 1 for controlling the fuel information 4 are provided.
And the nuclear instrumentation status monitoring device 3 that controls the neutron flux information 6
And core monitoring device 1 for monitoring the state of the core during reactor shutdown
0.

The core monitoring apparatus 10 includes a central processing unit (CPU) including a core state analyzing means for analyzing a core state during shutdown of the reactor, a control rod operation monitoring function, a fuel operation monitoring function, and a core operation procedure monitoring function. CPU) 11, a core work information output device 12 for printing out the processing result of the central processing unit 11, an alarm output device 18 for inviting an operator to detect an abnormality based on the processing result of the central processing unit 11, and a central processing unit A core work information display device 19 for displaying a processing result of the device 11 is provided. As shown in FIG. 2, the core work information display device 19 includes a device 19a disposed in the refueling machine control device room and a device 19a disposed in the central operation room.
b.

The central processing unit 11 is provided with an input / output interface 13. The input / output interface 13 is provided with a fuel information input section 14 for receiving a signal relating to the fuel information 4 from the fuel exchange control device 1, A control rod information input unit 15 that receives a signal related to the control rod information 5 from the rod operation monitoring device 2 and a neutron flux information input unit 16 that receives a signal related to the neutron flux information 6 from the nuclear instrumentation state monitoring device 3 Have.

The input / output interface 13 is
A determination result transmitting function of transmitting the determination result of the cell state by the core state analysis means to the control rod operation monitoring device 2 as a cell mask signal is further provided. The determination of the cell state will be described later.

The central processing unit 11 including the core state analysis means analyzes the core state while the reactor is stopped based on the information received at each of the input units 14, 15, and 16, and the analysis result outputs the core operation information output. Device 12 and core work information display device 1
9a and 19b.

Each of the information 4, 5, 6 is input to each of the input units 14, 1,
5 and 16 are input in real time, the central processing unit 11 analyzes the core state in real time based on the information 4, 5 and 6, and the core work information output device 12 and the core work information display devices 19a and 19b are real-time. Output the analysis result of the central processing unit 11.

More specifically, the core condition analysis means of the central processing unit 11 recognizes one control rod and four fuel assemblies around it as one set as one cell, Based on the fuel information 4, a cell state determination function for determining whether or not all four fuel assemblies in each cell have been taken out and the control rods in the cell have been fully drawn out on a cell-by-cell basis. Have.

In the cell state determination function, when all of the four fuel assemblies in the cell have been taken out and the control rods in the cell have been fully pulled out, the cell can be masked. Is determined.

Here, the "cell mask" means that when all of the four fuel assemblies in the cell are taken out and the control rods in the cell are in the fully pulled-out state, the cell is connected to the core. This is a concept that is not considered a department.

As described above in the section of the prior art, the control rod operation monitoring device 2 is provided with a logic for inhibiting the removal of two or more control rods as an interlock in the refueling mode. However, for a cell for which a cell mask has been established, the control rods in the fully pulled-out state in the cell are not subject to interlock. Therefore, the second control rod can be operated while the interlock of the control rod operation monitoring device 2 is kept functioning. It is preferable that the final decision on whether to establish the cell mask be made by an operator.

The determination result of the cell state by the core state analysis means of the central processing unit 11 is transmitted to the control rod operation monitoring device 2 as a cell mask signal 17, and the control rod operation monitoring device 2 is based on the received cell mask signal 17. By monitoring the operation of the control rods, it is possible to operate a plurality of control rods while keeping the conventional interlock functioning.

From the control rod operation monitoring device 2 to the core monitoring device 1
The control rod information 5 to 0 is preferably updated at a certain fixed cycle. By updating the control rod information 5 in this manner, the reliability of the information can be improved.

The fuel information 4 is preferably updated when either the core monitoring device 10 or the refueling control device 1 is initialized, or when a communication error that has once occurred is restored. By updating the fuel information 4 in this manner, the reliability of the core state of the core monitoring device 10 can be improved.

Further, when the control rod position signal (PIP signal) from the control rod position indicating device for indicating the position of the control rod is not available, the core monitoring apparatus 10 transmits a substitute value relating to the control rod position to the control rod information 5. Central processing unit 11
And a function of canceling the substitute value once given.

For example, when performing a replacement work of a local area monitor (LPRM) of a nuclear power plant or performing a check work of a control rod drive mechanism (CRD) in a periodic inspection, a control rod position indicating device is used. The control rod position signal cannot be used. Therefore, in such a case, a substitute value relating to the control rod position is given to the central processing unit 11 as the control rod information 5.

The substitute value providing function is a function for establishing / releasing the cell mask, and it is preferable that the substitute value is only a value corresponding to the full extraction in consideration of safety at the time of core work. When the control rod position signal returns, the substitute value is released under the judgment of the operator.

A central processing unit (CP) including a control rod operation monitoring function, a fuel operation monitoring function, and a core operation procedure monitoring function.
U) 11 monitors the state of the control rod operation, the fuel transfer operation, and the fuel transfer operation procedure at the time of the periodic inspection based on the information received at each of the input units 14, 15, and 16, and the monitoring result indicates the core. The work information is output to the work information output device 12, the alarm output device 18, and the core work information display devices 19a and 19b.

Each of the information 4, 5, 6 is input to each of the input sections 14, 1,
The central processing unit 11 monitors the control rod operation, the fuel transfer operation, and the fuel transfer operation procedure in real time based on the information 4, 5 and 6, and outputs the core work information output device. The alarm output device 12, the core work information display devices 19a and 19b output the monitoring results of the central processing unit 11 in real time.

More specifically, the control rod insertion (pull-out) operation determining means of the central processing unit 11 determines whether the control rod information 5 has received the updated data of the selected control rod coordinates, or the core monitoring apparatus 10 The control rod position data information received by the control rod information input unit 15 when the substitute value is inserted / released, and the fuel loading information loaded on the core received by the fuel information input unit 14 are used to determine the control rod It has a control rod operation monitoring function for determining whether insertion or removal is permitted.

The fuel misloading judging means and the fuel mistaking out judging means of the central processing unit 11 perform control rod information when the renewal data relating to core work is transmitted from the refueling control device 1 to the fuel information input section 14. Based on the control rod position data information received at the input unit 15 and the fuel loading information loaded in the core and the fuel pool received at the fuel information input unit 14, whether loading or unloading of fuel is permitted is performed. Has a fuel operation monitoring function for determining

The fuel handling operation procedure judging means of the central processing unit 11 sends the control rod operation input unit 15 and the fuel information input unit 14 the information from the control rod operation monitoring device 2 and the fuel exchange control device 1 in real time. The control rod position data information received by the control rod information input unit 15 and the core and fuel pool received by the fuel information input unit 14 are input when the operation mode of the refueling machine is the automatic mode. It has a core operation procedure monitoring function of determining whether fuel operation is performed according to a predetermined procedure from fuel loading information.

Further, preferably, the control rod operation monitoring device 2
Is provided with a connection permission switch for switching between a connection permission state for permitting connection with the core monitoring device 10 and a connection prohibition state for prohibiting connection. When the connection permission switch is in the connection permission state, the cell mask signal 17 from the central processing unit 11 is transmitted to the control rod operation monitoring device 2, and when the connection permission switch is in the connection prohibition state, the cell mask signal 17 is not transmitted. By switching the connection permission switch, the operation using the core monitoring apparatus 10 according to the present embodiment and the conventional operation can be switched.

Preferably, when the connection permission switch is switched from the connection permission state to the connection prohibition state, the control rod operation monitoring device 2 cancels the judgment on the core state already made based on the judgment result of the cell state. So that

Also, preferably, the control rod operation monitoring device 2
Is provided with a connection state display unit for displaying whether the state is the connection permitted state or the connection prohibited state. The connection state display unit preferably has an indicator light that is turned on when the core monitoring device 10 is connected to the control rod operation monitoring device 2, and this indicator light alerts the operator. To In addition, it is preferable to provide a function for preventing the connection state from being forgotten.

As shown in FIG. 2, in the refueling machine control room, the refueling machine control device 1 and its output device 7 are arranged, and the core work information output device 12 (see FIG. 1) and the core work An information display device 19a is provided.

In the central operation room, a control rod operation monitoring device 2 and a nuclear instrumentation state monitoring device 3 are arranged. Further, a central processing unit 11 including core state analysis means, and a core work information output device. 12 (see FIG. 1) and a core work information display device 19b.

The core work information display devices 19a and 19a
9b can display common data, and the operator A in the refueling machine control unit room and the operator B in the central operation room can perform core work without using a means such as a telephone as in the related art. Necessary information can be shared.

FIG. 3 is a diagram showing a logic for determining a condition for establishing a cell mask, which is executed by the central processing unit 11 including the core state analysis means. As shown in FIG. 3, the refueling machine operation mode from the refueling machine control device 1 is in the “automatic refueling mode”, and the states of the refueling machine control device 1 and the control rod operation monitoring device 2 are both “normal”. And
In addition, the cell mask permission / bypass switch from the control rod operation monitoring device 2 is in the “permission” position, all the fuel in the cell has been taken out, and the input information from the control rod operation monitoring device 2 When it is determined that the control rod is in the fully pulled-out state, the state of cell mask permission is established. As described above, a substitute value can be used as the control rod information.

When the operator determines that the cell mask may be established and inputs a signal to that effect to the central processing unit 11, the cell mask permission signal is transmitted from the central processing unit 11. This cell mask permission signal is sent to the core work information output device to be printed out, sent to and displayed on the core work information display devices 19a and 19b, and also sent to the control rod operation monitoring device 2.

FIG. 4 is a diagram showing a logic for determining a cell mask release condition executed by the central processing unit 11 including the core state analysis means. As shown in FIG. 4, the refueling operation mode from the refueling machine control device 1 is in the “automatic refueling mode”, and the states of the refueling machine control device 1 and the control rod operation monitoring device 2 are both “normal”. And the cell mask permission / bypass switch from the control rod operation monitoring device 2 is in the “permitted” position, and it is determined from the input information from the control rod operation monitoring device 2 that the control rod is fully inserted. When the cell mask is being established, a state in which the cell mask can be released is established.

Then, when the operator judges that the cell mask can be released and inputs a signal to that effect to the central processing unit 11, a cell mask release signal is transmitted from the central processing unit 11. The cell mask release signal is sent to the core work information output device 12 and displayed here, and is also sent to the control rod operation monitoring device 2.

FIG. 5 is a diagram showing an interlock determination logic in the control rod operation monitoring device 2 of the nuclear power plant according to the present embodiment. As can be seen from FIG. 5, even if the control rod is not in the fully inserted state in a cell at a certain position, for example, the cell at the X1-Y1 position, if the cell mask is established in the cell, the cell is in the fully inserted state. The same handling is performed. In other words, the cell for which the cell mask is established is not considered to be part of the core. The logic α in the portion surrounded by the dotted line frame in FIG. 5 ranges from α1 to αx according to the number x of cells.

As described above, even when the control rod is not in the fully inserted state, it is handled as not being a part of the core as long as the cell mask is established. Bars are not subject to interlock. Therefore, it is possible to operate the second control rod while the conventional interlock of the control rod operation monitoring device 2, that is, the interlock for prohibiting the operation of two or more control rods is functioning.

As shown in FIG. 5, when the reactor mode switch is in the "refuel change" position and the cell mask permission / bypass switch is in the "permission" position, the "caution" A signal of "remind" is sent to alert the operator.

FIG. 6 shows the control rod erroneous operation determination logic executed by the central processing unit 11 including the control rod operation monitoring function. When the control rod operation is performed, the fuel is present in the selected control rod cell, the refueling machine is on the core, and the control rod drive mechanism coupling test is performed as a control rod operation at 48 pos (fully withdrawn) → 46 pos → 48 pos.
In order to confirm the notch insertion / pull-out of (full pull-out), if the consideration is to bypass monitoring during that time, or if it is determined that there is a double blade guide in the selected control rod cell, the control rod operation is permitted. Holds.

When this condition is not satisfied, the central processing unit 11 prints out the abnormal state to the core work information output unit 12 and sounds an alarm sound by the alarm output unit 18 to alert the operator. Then, an abnormal state is displayed on the core work information display device 19.a, 19b.

FIGS. 7 to 10 are diagrams showing the judgment logic implemented in the central processing unit 11 including the fuel operation monitoring function. As shown in FIG. 7, when fuel is loaded, the release coordinate position of the fuel is the core, there is no fuel at the release position, there is no double blade guide at the release position, and the control rod in the release position cell When it is determined that the position is 00pos (full insertion) and the release position is not in the cell mask, permission for the fuel loading operation is established. As shown in FIG. 8, when performing double blade guide loading,
When it is determined that the release coordinate position of the double blade guide is the core, that there is no fuel at the release position, and that there is no double blade guide in the release position cell, permission for the double blade guide loading operation is established. As shown in FIG. 9, when the fuel is taken out, when it is determined that the grip position of the fuel is the core, the release coordinate position is other than the core, and there is no fuel at the release position, the fuel loading operation is performed. Is granted. As shown in FIG. 10, when the double blade guide is taken out, it is determined that the grip coordinate position of the double blade guide is the core, the release coordinate position is other than the core, and there is no double blade guide at the release position. The double blade guide loading operation is approved.

When this condition is not satisfied, the central processing unit 11 prints out the abnormal state on the core work information output unit 12 and sounds an alarm by the alarm output unit 18 to alert the operator. Then, an abnormal state is displayed on the core work information display devices 19a and 19b.

FIG. 11 to FIG. 14 are diagrams showing logics for determining misloading of fuel and misloading of fuel performed by the central processing unit 11 including a fuel operation monitoring function. As shown in FIG. 11, when fuel is loaded, when it is determined that the release coordinate position of the fuel is the core and that there is fuel at the grasping position, permission for the fuel removal operation is established. As shown in FIG. 12, when performing double blade guide loading,
The gripping coordinate position of the double blade guide is the core,
When it is determined that the double blade guide is present at the gripping position, permission for the double blade guide removal operation is established. As shown in FIG. 13, when performing fuel removal, the grip coordinate position of the fuel is the core, and the release coordinate position is other than the core, and there is fuel at the grip position,
In addition, when it is determined that there is a double blade guide in the cell after removal or that there is fuel on the diagonal of the cell after removal, permission for the fuel removal operation is established. As shown in FIG. 14, when taking out the double blade guide, the grip coordinate position of the double blade guide is the core, the release coordinate position is other than the core, and the double blade guide is at the grip position, and When the control rod in the position is determined to have fuel at 48 pos (full removal) or at a diagonal of the cell after removal, permission for the double blade guide removal operation is established.

When this condition is not satisfied, the central processing unit 11 prints out the abnormal state to the core work information output unit 12 and sounds an alarm by the alarm output unit 18 to alert the operator. Then, an abnormal state is displayed on the core work information display devices 19a and 19b.

The judgment logic of the core operation procedure monitoring function is as follows.
Based on the fuel handling procedure data from the refueling machine control device 1, it is determined whether or not the operation is performed according to a predetermined fuel handling procedure for each fuel cycle update and fuel operation.

When this condition is not satisfied, the central processing unit 11 prints out the abnormal state to the core work information output unit 12 and sounds an alarm by the alarm output unit 18 to alert the operator. Then, an abnormal state is displayed on the core work information display devices 19a and 19b.

As described above, according to the core monitoring device 10 and the nuclear power plant provided with the core monitoring device 10 according to the present embodiment, the information necessary for the core operation is centrally managed and displayed by the core monitoring device 10. Therefore, the labor load of the operator can be reduced, and the occurrence of human error can be prevented.
In addition, since the interlock is configured by the determination logic introducing the concept of the cell mask, it is possible to operate the second control rod while the interlock of the conventional control rod operation monitoring device 2 is functioning. Therefore, core work can be performed quickly and smoothly while ensuring safety.

[0087]

As described above, according to the core monitoring apparatus of the present invention and the nuclear power plant equipped with this core monitoring apparatus, information necessary for core work can be centrally managed and displayed. The operator's labor load can be reduced more than before, and the core work can be performed more safely and smoothly than before.

Further, according to the core monitoring apparatus according to the present invention and the nuclear power plant provided with the core monitoring apparatus, the interlock is configured by the determination logic introducing the concept of the cell mask. It is possible to operate the second control rod while the interlock of the apparatus is functioning, so that core work can be performed quickly and smoothly while ensuring safety.

[Brief description of the drawings]

FIG. 1 is a block diagram showing a schematic configuration of a core monitoring system of a nuclear power plant provided with a core monitoring device according to an embodiment of the present invention.

FIG. 2 is a schematic configuration diagram schematically showing a core monitoring system of the nuclear power plant according to one embodiment of the present invention.

FIG. 3 is a diagram showing logic for determining a cell mask establishment condition executed by a central processing unit including a core state analysis means of the core monitoring apparatus according to the embodiment of the present invention.

FIG. 4 is a diagram showing logic for determining a cell mask release condition executed by a central processing unit including a core state analyzing means of a core monitoring apparatus according to an embodiment of the present invention.

FIG. 5 is a diagram showing an interlock determination logic in the control rod operation monitoring device of the nuclear power plant according to the embodiment of the present invention.

FIG. 6 is a diagram showing a determination logic of a control rod operation monitoring function performed by a central processing unit including a control rod insertion (pulling) operation determination unit of the core monitoring apparatus according to the embodiment of the present invention.

FIG. 7 is a diagram illustrating a determination logic of a fuel operation monitoring function performed by a central processing unit including a fuel misload determination unit of a core monitoring device according to an embodiment of the present invention, and illustrates a case of fuel loading; Figure.

FIG. 8 is a diagram illustrating a determination logic of a fuel operation monitoring function performed by a central processing unit including a fuel misload determination unit of a core monitoring device according to an embodiment of the present invention, in the case of double blade guide loading; FIG.

FIG. 9 is a diagram illustrating a determination logic of a fuel operation monitoring function performed by a central processing unit including a fuel misload determination unit of a core monitoring device according to an embodiment of the present invention, and illustrates a case of fuel removal. Figure.

FIG. 10 is a diagram illustrating a determination logic of a fuel operation monitoring function performed by a central processing unit including a fuel misload determination unit of a core monitoring device according to an embodiment of the present invention, in a case where a double blade guide is taken out. FIG.

FIG. 11 is a diagram illustrating a determination logic of a fuel operation monitoring function performed by a central processing unit including a fuel mistake determination unit of a core monitoring device according to an embodiment of the present invention, and illustrates a case of fuel loading; Figure.

FIG. 12 is a diagram illustrating a determination logic of a fuel operation monitoring function performed by a central processing unit including a fuel mistake determination unit of a core monitoring device according to an embodiment of the present invention, in the case of double blade guide loading; FIG.

FIG. 13 is a diagram showing a determination logic of a fuel operation monitoring function performed by a central processing unit including a fuel erroneous removal determination unit of a core monitoring device according to an embodiment of the present invention, showing a case of fuel removal. Figure.

FIG. 14 is a diagram illustrating a determination logic of a fuel operation monitoring function performed by a central processing unit including a fuel mistake removal determination unit of a core monitoring device according to an embodiment of the present invention, illustrating double blade guide removal; Figure.

FIG. 15 is a block diagram showing a schematic configuration of a conventional core monitoring system of a nuclear power plant.

FIG. 16 is a schematic configuration diagram schematically showing a core monitoring system of a conventional nuclear power plant.

[Explanation of symbols]

 DESCRIPTION OF REFERENCE NUMERALS 1 fuel exchanger control device 2 control rod operation monitoring device 3 nuclear instrumentation state monitoring device 4 fuel information 5. control rod information 6 neutron flux information 10 core monitoring device 11 central processing unit (CPU) 12 core work information output device 13 interface 14 Fuel information input unit 15 Control rod information input unit 16 Neutron flux information input unit 17 Cell mask signal 18 Alarm output device 19 Core work information display device

Claims (25)

[Claims] A control rod information input unit for receiving a signal relating to control rod information from a control rod operation monitoring device; a fuel information input unit for receiving a signal relating to fuel information from a fuel exchange control device; and a nuclear instrumentation state monitoring device. A neutron flux information input unit that receives a signal related to neutron flux information, a central processing unit that processes a signal received at each of the input units, and a core processing unit required for core work based on the signal processed by the central processing unit. A core monitoring device, comprising: a core operation information display device for displaying information. 2. The core monitoring apparatus according to claim 1, wherein said central processing unit has a core state analyzing means for analyzing a core state during reactor shutdown based on each of said information. 3. The core state analysis means recognizes one control rod and four fuel assemblies around it as one set as one cell, and based on the control rod information and the fuel information,
It has a cell state determination function to determine whether all four fuel assemblies in each cell of the nuclear reactor are taken out and the control rods in the cell are in a fully drawn state on a cell-by-cell basis. The core monitoring device according to claim 2, wherein 4. The core monitoring apparatus according to claim 3, further comprising a determination result transmitting function of transmitting a determination result of a cell state by said core state analysis means to said control rod operation monitoring apparatus. 5. Each of the information is input to each of the input units in real time, the core state analysis means analyzes the core state in real time based on each of the information, and the core work information display device displays the core in real time. The core monitoring apparatus according to any one of claims 2 to 4, wherein an analysis result of the state analysis means is output. 6. A function of assigning a substitute value relating to a control rod position as said control rod information to said core condition analysis means when a control rod position signal from a control rod position indicating device for indicating a position of a control rod is not available. The reactor core monitoring device according to claim 2, further comprising: 7. The reactor core monitoring apparatus according to claim 1, wherein the control rod information is updated at a constant cycle. 8. The fuel information is updated when one of the core monitoring device and the refueling control device is initialized or when a communication error that has once occurred is recovered. The core monitoring device according to any one of claims 1 to 7. 9. The central processing unit includes a control rod operation monitoring function for monitoring control rod insertion and withdrawal control rod operation, as a function of monitoring the state of the core operation during the core operation based on the information. 4. A fuel operation monitoring function for monitoring fuel operation during fuel loading and fuel removal during operation, and a core operation operation monitoring function for monitoring fuel and control rod operation procedures related to core operation. The core monitoring device according to claim 8. 10. The control rod operation monitoring function is performed when update data of selected control rod coordinates is transmitted to the control rod information input unit, or when a control rod substitute value is inserted / released by the core monitoring device. A control having, at the central processing unit, control rod position data information received at the control rod information input section and fuel loading information loaded in the core and fuel pool received at the fuel information input section. Stick insertion
10. The core monitoring apparatus according to claim 9, wherein (pulling out) operation determining means is used, and the determination is performed by the determining means. 11. The control rod insertion (pull-out) operation judging means performs a judgment using the control rod insertion (pull-out) operation judging means at the time of insertion or pull-out operation of a selected control rod. A core monitoring device as described in the above. 12. The apparatus according to claim 11, further comprising a judgment result transmitting function of transmitting a judgment result by said control rod insertion (pulling) operation judgment means to said core work information display device and said alarm output device. Core monitoring device. 13. The fuel rod operation monitoring function is provided when the fuel rod control unit receives fuel rod position update data relating to core work from the fuel exchange control unit to the fuel rod information input unit. Data information and fuel loading information loaded in the core and fuel pool received in the fuel information input unit, using the fuel misloading determination means and fuel mistake determination means having in the central processing unit,
The core monitoring device according to claim 9, wherein the determination is performed by each of the units. 14. The fuel misloading judging means makes a judgment using the fuel misloading judging means when fuel or double blade guide is loaded.
3. The core monitoring device according to 3. 15. The reactor core monitoring system according to claim 13, wherein said fuel mistake removal judgment means makes a decision using said fuel mistake removal judgment means when taking out fuel or a double blade guide. 16. The apparatus according to claim 16, further comprising a determination result transmitting function of transmitting a determination result by said fuel misloading determination means and said fuel mistake removal determination means to said core work information display device and said alarm output device. 14 or claim 15
A core monitoring device according to item 1. 17. The core work operation procedure monitoring function is characterized in that information from the control rod operation monitoring device and the fuel exchanger control device is input to the control rod information input section and the fuel information input section in real time. When the operation mode is the automatic mode, control rod position data information received at the control rod information input unit, and fuel loading information loaded in the core and fuel pool received at the fuel information input unit, 17. The reactor core monitoring device according to claim 16, wherein the determination is performed by the determination unit using a fuel handling operation procedure determination unit having the central processing unit. 18. The fuel handling operation procedure determining means determines that the fuel handling operation procedure determining means compares the fuel procedure data input to the fuel information input section with an operation history input in real time. The reactor core monitoring device according to claim 17, wherein 19. The reactor core monitoring device according to claim 18, further comprising a determination result transmitting function of transmitting a determination result by said fuel handling operation procedure determining means to said core work information display device and said alarm output device. . 20. The core work information display device according to claim 1, wherein when the central processing unit detects an abnormality based on each of the determination means, it displays the cause of the abnormality.
The core monitoring device according to any one of claims 0 to 19. 21. A control rod operation monitoring device for controlling the control rod information, a refueling control device for controlling the fuel information, a nuclear instrumentation condition monitoring device for controlling the neutron flux information, and a core state during reactor shutdown. A nuclear power plant, comprising: a core monitoring device for monitoring; and wherein the core monitoring device is the core monitoring device according to any one of claims 1 to 20. 22. A control rod operation monitoring device for controlling the control rod information, a refueling control device for controlling the fuel information, a nuclear instrumentation condition monitoring device for controlling the neutron flux information, and a core state during reactor shutdown. And a control rod information input unit for receiving a signal related to the control rod information from the control rod operation monitoring device, and a signal related to the fuel information from the refueling exchanger control device. A fuel information input unit, a neutron flux information input unit that receives a signal related to the neutron flux information from the nuclear instrumentation state monitoring device, a central processing unit that processes a signal received at each of the input units, A core work information display device for displaying information necessary for core work based on a signal processed by the central processing unit; and a furnace based on the signal processed by the central processing unit. A core operation information output device that prints out information necessary for the operation, and an alarm output device that outputs an alarm based on a signal processed by the central processing unit, wherein the central processing unit Core state analysis means for analyzing the core state during shutdown of the reactor based on the information, a control rod operation monitoring function, a fuel operation monitoring function,
A core work operation procedure monitoring function, wherein the core state analysis means recognizes one control rod and four fuel assemblies around it as one set as one cell, and includes the control rod information and the fuel information. A function of determining whether all of the four fuel assemblies in each cell of the nuclear reactor have been removed and whether the control rods in the cells have been fully drawn out, based on The operation monitoring function has a function of determining whether or not a control rod insertion or withdrawal operation is permitted, and the fuel operation monitoring function determines whether or not fuel loading or unloading operation is permitted. Has a function of determining whether or not the core operation procedure monitoring function, the core operation procedure monitoring function has a function of determining whether fuel movement is operated according to the fuel handling procedure, the core monitoring device, For core condition analysis The control rod operation monitoring device further includes a determination result transmission function of transmitting a determination result of the cell state to the control rod operation monitoring device, wherein the control rod operation monitoring device monitors operation of the control rod based on the determination result of the cell state. A nuclear power plant characterized in that a plurality of control rods can be operated with the interlock functioning. 23. The control rod operation monitoring device is provided with a connection permission switch for switching between a connection permission state for permitting connection with the core monitoring device and a connection prohibition state for prohibiting connection. A nuclear power plant according to claim 21 or claim 22. 24. When the connection permitting switch is switched from the connection permitting state to the connection prohibiting state, the control rod operation monitoring device cancels the judgment on the core state already made on the basis of the cell state judgment result. The nuclear power plant according to claim 23, characterized in that: 25. The control rod operation monitoring device according to claim 23, further comprising a connection state display unit for displaying whether the connection is permitted or the connection is prohibited. 25. The nuclear power plant according to 24.