JPH06245381A - Forming method for recovery operation procedure of power system - Google Patents

Abstract

PURPOSE:To discover a fault point by generating, after a fault, a fault section candidate block, a power interruption wave and a stop block from a power interruption section, extracting the wave, the stop block, the fault point block by considering presence/absence of a charging position adjacent to the blocks and priority of recovery, and sequentially closing switches. CONSTITUTION:Substations TA, TB are connected via transmission lines 1L, 2L, an F point of the line 1L is, for example, fault during power supply to a demander F, power distribution substation C-E. Concerned one of a disconnector LS, CB breaker is opened (blank) or closed (solid black), and input to a statistic control computer. The computer sequentially recloses the LS and CS by considering presence/absence, importance of an adjacent charging position by considering attribute of the power interruption wave block to a fault block or not. The LS, the CS which is not directly related to the fault is reclosed, and eventually the LS, the CS coupled directly to the fault point remains. Thus, discovery, remedy of the fault point are expedited while narrowing a fault section.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a power system restoration operation procedure in which a restoration operation procedure is automatically created by an inference process being executed by a system control computer with a situation of a power system in which an accident has occurred as an input. Regarding how to create.

[0002]

2. Description of the Related Art Conventionally, as a method of creating a recovery operation procedure when an accident occurs in a power system, there is a method of using an expert system constructed based on the knowledge and experience of a skilled operator. This system is usually
It is composed of IF-THEN rules and procedural processing. These are basically description of regular knowledge such as system restoration outline in rule format.

[0003]

The electric power system has a complicated equipment structure, and the system structure is constantly changing. Therefore, at the time of system restoration, it is necessary to perform a restoration operation suitable for the system configuration at that time. On the other hand, in the past, the system was constructed based on the system recovery outline and the empirical knowledge of the experienced operators as described above, and these knowledge sources basically target the system configuration in normal times and the recovery policy and operation procedure. Is defined.

For this reason, the above system cannot handle the equipment stoppage work or the installation of new equipment with a new structure. In this case, it becomes necessary to realize it as specific knowledge, and the system recovery function is required. The degree of freedom of is lost. For such problems, it is necessary to consider various system patterns from the system development stage.
It is extremely difficult to construct a system that covers all changes in the system configuration.

The present invention has been made to solve the above problems, and an object of the present invention is to provide a power system restoration operation procedure capable of flexibly coping with various system configurations and changes thereof. It is to provide a creation method.

[0006]

In order to achieve the above object, the present invention creates an operating procedure of a switch composed of a circuit breaker, a disconnector, etc. by a computer inference process in order to restore an electric power system after an accident. In the power system restoration operation procedure creation method, a failure section candidate block and a power failure ripple block are generated from the power failure section of the power system, and the power failure is considered in consideration of the presence or absence of adjacent charging points for these blocks and the priority of restoration. Ripple stop block, the recovery block extraction process of extracting the recovery target block in order of the failure section candidate block, the switch included in the recovery target block, and the switch adjacent to the recovery target block as the operation target switch,
The operation switch that is the actual operation target is extracted based on the attribute of whether the restoration target block is the failure section candidate block or the power failure spread stop block or the open / close state of the operation target switch, and these operation open / close operations are performed. The switch operating procedure is to create a switch operating procedure for the switch while considering the interlock condition, and output the switch operating procedure together with the corresponding power supply command.

[0007]

The present invention comprises a restoration block extraction process 10 and a switch operation process 20 as shown in FIG. Each content will be described below. (1) Restoration block extraction processing In this processing, the power failure section caused by an accident is divided into multiple consecutive blocks with the same attribute (failure section candidate or power failure ripple stop section). To form. Then, the block which must be restored with the highest priority at the present time is determined as the restoration block based on the attribute of each block and the presence / absence of important load.

Power failure block generation (S11) The search is started with all points of the power failure section as starting points. The condition for the search is that the connection equipment has the same attribute and is connected by the switch in the closed state. When this search is completed, each attribute is added as a power failure block and registered in the work area. At this time, if the facility to be the starting point is included in the already registered power failure block, the search from that facility is not performed, and the search is restarted starting from the next power failure facility. The input of this phase is the failure section candidate and the blackout spread section. For each input, the resulting failure candidate blocks 1, 2, ..., M,
Output spillover blocks 1, 2, ..., N.

Extraction of Recovery Target Block (S12) The block extracted as the recovery target block by this processing is the target of the recovery operation procedure creation. Therefore, at the time of this processing, the one that needs the restoration operation with the highest priority is selected. The basic idea is as follows. a. The blackout spread block adjacent to the charging point (power can be supplied from the charging point by closing the open switch)
Early recovery is possible. b. The failure section candidate block is
It is necessary to perform the operation from the block on the side closer to the power source (the side adjacent to the charging point) because it is not possible to confirm the presence or absence of a failure without performing the trial press operation. c. If the above situation is not particularly satisfied, the blocks that need to be restored preferentially are selected in the order of the power outage spillover stop block and the failure section candidate block.

According to such a basic recovery policy, in this processing, the generated power failure block is extracted as a recovery target block according to the priority order of the power failure ripple stop block and the failure section candidate block. If there are multiple blocks in the same attribute, ・ In case of power outage stop block →
Important load in the block, size of load amount / failure section candidate block → Prioritize restoration according to whether it is the power supply side, presence of important load, etc., and select blocks with higher priority as restoration target blocks .

Recovery end condition check (S13) If any of the following conditions is satisfied, the recovery end by this system is completed. a. When there is no power outage block When there is no power outage, all power outages have already been restored. b. When the load is not included in all blackout blocks There are facilities (eg, busbars, transmission lines, etc.) that have a power outage, but the load (distribution station, distribution bank in the substation, secondary bank, extra-high-end users) Are all restored. That is,
It is in a state where the supply disruption has been resolved. c. When "patrol restoration" is issued as a power supply command: Patrol restoration is when the failure location is found from the results of trial pressurization operation, etc. Is issued by. Therefore, this condition is a state in which restoration operation by remote control operation is impossible. If none of the above conditions are satisfied, the restoration operation is necessary and possible, so the following switch operation processing 20 is executed.

(2) Switch operation processing The switch (circuit breaker or disconnector) included in the restoration target block extracted by the restoration block extraction processing 10 described above.
Alternatively, a switch adjacent to the restoration target block is set as an operation target switch, and the operation switch is extracted from the switches according to the open / close status of these switches. Further, regarding the operation switch, the interlock condition is determined, and if the preparatory operation is necessary, the operation sequence having the minimum number of operations is derived and combined with the operation switch to generate the recovery operation for the recovery target block. At this time, the meaning of the operation of the operation switch is inferred and output as a power supply command. This process is further divided into the following processes.

Operation Target Switch Extraction (S21) The switches in the recovery target block extracted by the recovery block extraction processing 10 and adjacent switches are extracted as operation target switches. Next, operation priorities are added to the following operation target switches according to the attributes of the recovery target block and the current state of the operation target switches. The basic idea in extracting the switch to be operated is as follows.

A. Power outage stop block a. It is possible to recover by closing the switch in the open state with the charging location. B. When the secondary side connection is connected to the charging point, it can be restored by switching operation on the secondary side. C. However, if the switch in the closed state is adjacent to the failure section candidate block, the failure may spread if the restoration is performed by the above-mentioned a and b. Therefore, it is necessary to be separated from the failure section candidate block.

B. Failure segment candidate block a. If the fault type is a short circuit due to a fault in the substation, the test pressurization operation is not performed. B. In order to perform the trial pressurization operation, the trial pressurization operation is performed by the switch in the open state (the switch adjacent to the charging point). Strictly speaking, when the switch is a circuit breaker, it is a switch that trips when a failure point candidate has a failure. Also,
If there is a healthy load on the load side of the switch, these are switched to the standby power source side. C. When the block includes a plurality of locations, the switch in the closed state, if any, is opened.

Operation Switch Extraction (S22) Here, a switch to be actually operated is selected from the operation object switches extracted by the operation object switch extraction (S21). The method of deciding the operation switch differs depending on the attribute of the block to be restored (whether it is a power outage suspension block or a failure section candidate block). Among the switches to be operated, the closed switch is positioned as a preliminary operation for restoration and trial pressurization. Therefore, the operation target switch in the closed state determines the operation sequence in consideration of the interlock in the optimum interlock detection (S23) which is the next process. Moreover, since the open / closed operation target switch is a switch for recovery and trial pressurization, only one can be selected for one recovery target block. Therefore, when a plurality of open operation target switches are extracted by the operation target switch extraction (S21),
Assuming that the switch has been turned on, narrow down the operating switches according to conditions such as selecting equipment that does not cause overload on the power supply side of the switch.

Optimal interlock detection (S23) In order to operate the closed operation switch determined by the operation switch extraction (S22), a preparatory operation may be required due to the interlock. Therefore, by checking the extracted interlock condition of the operation switch and comparing it with the system at the time when the switch is operated, a preparatory operation that does not cause a power failure to the healthy load and has the minimum number of operations Derive. The preparatory operation derived here and the operation sequence obtained by the above processing are combined to determine the final operation procedure of the switch for the restoration target block. As the interlock information of each switch, what is defined in advance as a slot value in the switch model represented as an object is used. The detection of the optimum interlock information is performed as follows.

A. If there is a disconnecting switch among the extracted operation switches a. Refer to the interlock information of the relevant disconnector. B. If there is more than one piece of information referred to, check for each piece of information whether or not the interlock operation switch contains a switch with a normal attribute for one terminal. Exclude information from detection. When the referenced information is one, the interlock information is used. C. The number of operations and the operating procedure in the case of actually operating the interlock operation remaining due to the above-mentioned processing are obtained by comparing with the current system state, and the operating procedure with the minimum number of operations is adopted. D. Rearrange the operation switches in the following order. 1) Operation procedure determined by the above process 2) Open state operation switch

B. If there is no disconnecting switch in the extracted operating switches a. Do not detect interlock information. B. Rearrange the operation switches in the following order. 1) Closed operation switch 2) Opened operation switch

Power Supply Command Output (S24) A power supply command corresponding to the switch operating procedure determined by the above process is output. It is assumed that the relationship between the switch operating procedure and the power supply command is defined in advance according to the situation around the operating switch.

Operation procedure output (S25) The power supply command derived by the above process and the switch operation procedure are paired and output as support guidance. Also,
The passed rule name is stored and output to the inference process file.

Simulation (S26) The system state when the switch operation is executed is simulated on the power system model, and the states such as the connection state and facility attributes are updated on the power system model. After the opening operation of the switch in the closed state and the closing operation of the switch in the open state are executed in this order, a power failure block is generated again (S11), and the above processing is repeatedly executed.

[0023]

Embodiments of the present invention will be described below with reference to the drawings. FIG. 2 shows a system situation to which the embodiment is applied. In the figure, 1L and 2L are transmission lines between the substations TA and TB, and these transmission lines 1L and 2L are F consumers,
C distribution substation (hereinafter abbreviated as distribution), D distribution, E
Displacement is connected. The numbers such as (2) and (15) attached to each customer and the vicinity of the distribution show the load before each accident. The power supply AC is on the substation TA side,
This substation TA has disconnectors LS _{1 to} LS ₆ and a circuit breaker CB.
_{1 to} CB ₃ are provided. Further, the disconnector LS ₇ ~LS ₁₂ and breaker CB _4, CB ₅ is provided on the substation TB.

The F customer is connected to the transmission lines 1L and 2L via the disconnectors LS ₁₃ and LS ₁₄ and the circuit breaker CB ₆ . The No. 2 bank 2B of C distribution is connected to the transmission line 2L via the disconnector LS ₁₅ and the circuit breaker CB ₇ , and the No. 1 bank 1B is connected to the transmission line 1 via the disconnector LS ₁₈ and the circuit breaker CB _8.
The banks 1B and 2B are connected to L and the disconnectors LS ₁₆ and L
They are connected to each other via S ₁₇ . The No. 2 bank 2B of D distribution is connected to the power transmission line 2L via the disconnector LS ₁₉ and the circuit breaker CB ₉ , and the No. 1 bank 1B is connected to the power transmission line 1L via the disconnector LS ₂₁ and the circuit breaker CB _10. The banks 1B and 2B are connected to each other via a disconnector LS ₂₀ . The E-distributed No. 2 bank 2B is connected to the power transmission line 2L via the disconnector LS ₂₂ and the circuit breaker CB ₁₀ , and the No. 1 bank 1B is connected to the transmission line 1L via the disconnector LS ₂₄ and the circuit breaker CB _12. is connected to each bank 1B, 2B are connected to each other via a disconnecting switch LS _23.

Now, a fault F occurs in the power transmission line IL,
A series of processes of the present invention will be described on the assumption that each disconnector and circuit breaker are in the open / closed state as shown in the drawing and these pieces of information are input to the system control computer.

First, the attributes of each facility are as follows.・ Failure section candidate: main body of power transmission line 1L, power transmission end of power transmission line 1L, power reception end of power transmission line 1L, F customer premises, F customer bank, D customer 1 bank 1B premises, E distribution No. 1 bank 1B premises ・ Prevention of power outage: No. 1 bank 1B premises with C distribution, No. 1 bank 1B with C distribution, No. 1 bank 1B with D distribution, No. 1 bank 1B with E distribution The type is a ground fault.

First, as the first process in the recovery block extraction process 10 of FIG. 1, the following blocks are recognized as power failure blocks (S11). Failure zone candidate block 1: Main body of power transmission line 1L, power transmission end of power transmission line 1L, power reception end of power transmission line 1L, 1st bank 1B premises with D distribution change, 1st bank 1B premises with E distribution change, F customer blackout Ripple stop block 1: Bank No. 1 of C distribution 1B premises, Bank No. 1 of C distribution 1B Power interruption spread block 2: Bank No. 1 of D distribution 1B Power interruption spread block 3: Bank No. 1 of E distribution 1B, these failure section candidate blocks and power outage interruption blocks are shown by diagonal lines with different directions.

Next, the block to be restored is extracted (S1).
2). Here, for example, according to the recovery target block extraction rule of starting the power outage stop block extraction rule if there is a power outage stop block adjacent to the charging location, according to the content of the power outage stop block extraction rule, the important load is In some cases, the blackout spread block 1 including the No. 1 bank 1B of C distribution where the pre-accident load amount is maximum is extracted as a recovery target block. Therefore,
The first restoration policy is to restore the power outage suspension block 1.

In the recovery end condition check (S13), the operation target switch is extracted (S21) in the switch operation process 20 of FIG. 1 according to the recovery end condition rule of executing the switch operation process if there is a recovery point. Move. Here, if there is a switch at the end of the block and the attribute on the opposite side is the charging point, there is an open switch, and that switch is set as the open operation target switch. the target switch extraction rules, C distribution varying disconnector LS ₁₇ as opened operation target switch is extracted. In addition, if there is a closed switch that is the switch at the end of the block and the attribute on the opposite side is a fault section candidate, the block operation to stop the power outage that makes the switch the closed operation target switch According to the target switch extraction rule, the C-displacement disconnecting switch LS ₁₈ is extracted as the closed state operation target switch.

Next, in the operation switch extraction (S22),
According to the operation switch extraction rule (open state operation switch extraction rule) that if there is one open state operation target switch, the switch is set as an open state operation switch. The strange disconnector LS ₁₇ is extracted. In addition, if there is one switch to be operated in the closed state, the switch is regarded as the closed operation switch according to the operation switch extraction rule (closed operation switch extraction rule) that the switch is the closed operation switch. The disconnector LS ₁₈ of C distribution is extracted.

Further, in the optimum interlock detection (S23), it is determined whether or not there is a disconnector for which the interlock needs to be taken into consideration in the open state operation switch and the closed state operation switch. For the recovery operation procedure for the power outage interruption stop block 1 which is the restoration target block, the circuit breaker CB ₈ of the No. 1 bank 1B of C distribution is opened, the disconnector LS ₁₈ of the C distribution of transmission line 1L side is opened, and the C distribution is performed. Strange disconnector LS
₁₇ is closed, and the circuit breaker CB ₈ of the No. 1 bank 1B of C distribution is closed, and if this operation is executed by simulation through the power supply command output (S24) and the operation procedure output (S25) (S26), a power failure occurs. The spillover block 1 will be restored.

Hereinafter, the blocks to be restored from power outage and stop are sequentially extracted as the blocks to be restored (S12). However, since the loads in these blocks cannot be restored as they are, each switch is not the operation target, The switch operation processing 20 in the flowchart of FIG. 1 is idled twice.

Therefore, the recovery target block to be extracted next becomes the failure section candidate block 1. Since this fault is a ground fault, if there is a closed switch in the switch in the block, it will be closed according to the operation target switch extraction rule at the time of ground fault that the switch will be the closed operation target switch. The disconnector LS on the side of the transmission line 1L of D distribution as the switch to be operated
₂₁ , the disconnector LS ₂₄ on the transmission line 1L side of the E distribution is extracted. In addition, if there is an open state switch whose attribute on the opposite side is a charging point in the switch in the block, the switch is set as the open state operation target switch, according to the ground fault operation target switch extraction rule, The circuit breaker CB ₃ of the substation TA is extracted as the switch to be operated in the open state. Then, each of the closed state operation target switch and the open state operation target switch becomes a closed state or an open state operation switch according to the operation switch extraction rule.

Next, as a result of considering the interlock condition as described above, the operation procedure is as follows: No. 1 bank 1 of D distribution
Circuit breaker CB _{10 of} B is opened, disconnector LS ₂₁ of transmission line 1L side of D distribution is opened, circuit breaker CB of No. 1 bank 1B of E distribution is changed.
Open ₁₂ and open the disconnector LS ₂₄ on the 1L side of the E distribution transmission line,
The circuit breaker CB ₃ of the substation TA will be closed, and the premises of the 1st bank 1B of the D distribution and the premises of the 1st bank 1B of the E distribution will be disconnected, and power will be re-transmitted to the power transmission line 1L. As a result of the simulation, the circuit breaker CB ₃ of the substation TA trips, and the premises of the No. 1 bank 1B of the D distribution and the premises of the No. 1 bank 1B of the E distribution change to the power outage interruption block. After this, follow the procedure of C distribution recovery,
On the premises of Bank No. 1B of the distribution event, Bank No. 1 of the E distribution
A restoration procedure is created in the order of the premises of the first bank 1B of B and D distribution, and the first bank 1B of D distribution.

[0035]

As described above, according to the present invention, a failure section candidate block and a power outage spill block are generated when an accident occurs, the presence or absence of adjacent charging points for these blocks, the priority of restoration by an important load, etc. The recovery target block is extracted in consideration of the above, and then the switch included in this recovery target block and the switch adjacent to the recovery target block are used as the operation target switch, and the attributes of the recovery target block and the operation target switch The operation switches are extracted based on the switching status, and the switch operation procedure is created while considering the interlock conditions for these operation switches. However, it is possible to always create a suitable switch operating procedure according to these situations, even if the number changes. It has been confirmed that good results can be obtained according to the present invention even in a desk simulation.

[Brief description of drawings]

FIG. 1 is a flowchart showing the operation of the present invention.

FIG. 2 is an explanatory diagram of a system situation to which the embodiment of the present invention is applied.

[Explanation of symbols] 10 restoration block extraction processing 20 switch operation processing TA, TB substation 1L, 2L transmission line AC power supply CB _{1 to} CB ₁₂ circuit breaker LS _{1 to} LS ₂₄ disconnector

Claims (1)

[Claims] 1. A power system recovery operation procedure creating method for creating a switch operation switch consisting of a circuit breaker, a disconnector, etc. by inference processing of a computer in order to restore the power system after an accident, in a power failure section of the power system. Generates a failure section candidate block and a power failure spread block, and extracts the recovery target block in the order of the power failure spread block and the failure section candidate block in consideration of the presence or absence of adjacent charging points and the restoration priority of these blocks. Restoration block extraction processing to be performed, the switch included in the recovery target block, and the switch adjacent to the recovery target block as the operation target switch, the recovery target block is a failure section candidate block The operation switch that is the actual operation target is extracted based on the attribute of some or the open / close state of the operation target switch. The operation procedure of the power switch is created by considering the interlock condition for the operation switch of the switch, and the switch operation process of outputting the operation procedure together with the corresponding power supply command. How to make.