JP4721938B2 - Power system power flow control system and power system power flow control program - Google Patents

Description

  The present invention relates to a power system power flow control system and a power system power flow control program that can accurately perform system analysis reflecting the status of operating facilities in power system analysis.

  2. Description of the Related Art Conventionally, technologies related to power system analysis have progressed with the development of computers as hardware. For example, Patent Document 1 discloses a “hybrid power system analysis device”.

  In this technique, an analog simulator that analyzes a part of a power system by analog simulation generates a first electric state quantity at a link portion between the simulation target power system PS1 and the digital simulator simulation target power system PS2. A digital simulator having a voltage source of 5 and analyzing the remaining part of the power system by digital simulation generates an electrical state quantity at the link between the power system PS2 to be simulated and the power system to be simulated by the analog simulator A second voltage source is provided. According to the present technology, it is possible to realize a hybrid power system analysis apparatus suitable for analyzing a power system accompanied by a state change shorter than the analysis step time of the digital simulator.

JP 2000-245062 A

  On the other hand, various substation data such as “equipment information”, “facility maintenance information”, and “facilities operation information” exist in advance in the substation to be subjected to system analysis. In addition to these substation data, substation equipment information such as “voltage”, “current”, and “system status” also exists.

Now, various power system analysis systems and programs have been developed. However, in any of these cases, a system analysis has not yet been performed that accurately reflects the state of the equipment in operation. In other words, although it was possible to perform system analysis based on substation data that does not change in real time, system analysis including information that fluctuates in real time such as the above-mentioned facility information is efficient. The means to do was not established.
Further, in the technique of Patent Document 1, although analysis of a power system accompanied by a state change shorter than the analysis step time of the digital simulator can be realized, it is disclosed that system analysis including real-time facility information is performed. Absent. Therefore, there is a demand for a technology that can accurately perform system analysis reflecting the real-time situation of the equipment in operation at the substation.

The purpose of claim 1 and claim 2 is to provide a power system power flow control system that can accurately phylogenetic analysis reflects the real-time status in operation equipment in substations.
The object according to claims 3 and 4 is to provide a power system power flow control program to reflect the real-time status in operation at the substation facilities can be performed accurately phylogenetic analysis.

( First invention )
The first invention comprises a substation system that manages a plurality of substations, and a construction equipment management system that can receive substation data of the plurality of substations and the status of operating facilities of the substations, and performs system analysis It relates to possible power system power flow control system.
That is, substation data recording means for recording substation data including equipment information, equipment maintenance information, equipment operation information of the plurality of substation systems in a database of the construction equipment management system, and voltages, currents of the plurality of substation systems, Real-time facility information extraction means for transmitting a request for extracting real-time facility information including system status, and real-time facility information reception for transmitting real-time facility information from the plurality of substation systems and receiving the transmitted real-time facility information Means, real-time equipment information recording means for recording the real-time equipment information in the database, system analysis executing means for executing system analysis using the substation data and real-time equipment information, and the system analysis executing means Based on the system analysis results, Tidal current control execution enabling / disabling means for determining whether or not to perform power flow control, and tidal current control for executing power flow control for the substation system when the power flow control enabling / disabling means determines to perform power flow control. Power flow control data transmission means for transmitting execution data.
The system analysis execution means executes system analysis in which the performance and state of each device based on the substation data in the database is reflected in the system analysis condition, and reflects the result to the device and the power system. To control the load distribution to

(Glossary)
“Substation data” refers to equipment information, equipment maintenance information, and equipment operation information of the substation. These are fixed data that do not fluctuate daily or have little fluctuation.
“Real-time facility information” refers to voltage, current, system status, and the like. These are fluctuating data that fluctuate in real time.
“Power flow control data” is command data for performing power flow control on the substation system. When receiving the power flow control data, the substation system executes power flow control for each substation.

(Function)
The data acquisition process required for system analysis is as follows.
First, when substation data is input in the construction equipment management system, the substation data recording means records the substation data in the construction equipment management system database. The real-time facility information extraction means transmits a request for extracting the real-time facility information of the substation system. In the substation system, the real-time facility information is transmitted in response to the request, and the real-time facility information receiving means receives the transmitted real-time facility information. This real-time equipment information is recorded in the database by the real-time equipment information recording means.

Once the necessary data has been acquired, the system analysis process is performed next.
First, system analysis execution means executes system analysis based on substation data and real-time equipment information recorded in the database. From the system analysis result, the power flow control execution availability determination unit determines whether to perform power flow control by system operation. When it is determined that the power flow control is to be performed, the power flow control data transmission means transmits power flow control execution data for executing the power flow control to the substation system. When receiving the power flow control data, the substation system executes power flow control for each substation.
That is, by using real-time facility information for system analysis, the real-time operation state of the substation can be reflected in accurate system analysis. Thereby, it contributes to the improvement of the efficiency of system analysis and work efficiency.
The real-time equipment information is recorded in the database and can be temporarily recorded in the RAM. In this way, the speed of the analysis process can be improved.

The first invention may be limited as follows.
That is, the substation data includes equipment operation guideline data of the substation system, the equipment operation guideline data is received from the substation system, and the system analysis execution means also uses the equipment operation guideline data. System analysis.

(Function)
The substation data recorded in the database includes facility operation guideline data during overload operation of the substation system. The system analysis execution means executes system analysis including the facility operation guideline data. By including the equipment operation guideline data, a more detailed system analysis is realized, so accurate power flow control according to the state of the substation is possible.

The first invention may be limited as follows.
That is, the substation data includes predicted load curve data for system analysis, and receives the predicted load curve data from the substation system.
The system analysis execution means executes system analysis using the predicted load curve data.

(Function)
The substation data recorded in the database includes expected load curve data for system analysis. The system analysis execution means executes system analysis including the predicted load curve data. That is, by including the expected load curve data, a more detailed system analysis is realized, so that accurate power flow control according to the state of the substation is possible.

The first invention may be limited as follows.
In other words, the extracted real-time equipment information parameters are provided with parameter correction means capable of changing according to the state of the substation.

(Function)
The parameter correction means changes the parameters of the extracted real-time facility information according to the state of the substation.
Normally, the parameters of real-time equipment information are used as they are.However, standard real-time equipment information such as safety inspections such as turning on / off of substation switches and emergency shutdown of equipment due to accidents or disasters can There may be a problem with the equipment information parameters. For this reason, it is a function for manual correction to be optimal. Therefore, system analysis can be performed more accurately. In addition to the manual correction, the parameters may be corrected in advance by setting data such as safety inspections and accidents / disasters in advance, and simulating them to obtain optimum values.

The first invention may be limited as follows.
That is, the system analysis execution means includes display means capable of displaying the parameters analyzed by the system analysis.

(Function)
The power flow control parameters subjected to the system analysis are displayed on a display means such as a monitor of the construction equipment management system. For this reason, the system administrator of the construction equipment management system can see the tidal current control parameters displayed on the monitor.

( Second invention )
The second invention relates to a substation system that manages a plurality of substations, and a power system power flow control program that receives substation data of a plurality of substations and the status of operating facilities of the substations and performs system analysis. .
The program includes substation data recording procedures for recording substation data including equipment information, equipment maintenance information, and equipment operation information of the plurality of substation systems in a database of the construction equipment management system, and voltages of the plurality of substation systems, Real-time equipment information extraction procedure for transmitting a request for extracting real-time equipment information including current and system status, and real-time equipment for transmitting real-time equipment information from the plurality of substation systems and receiving the transmitted real-time equipment information An information reception procedure, a real-time facility information recording procedure for recording the real-time facility information in the database, a system analysis execution procedure for executing a system analysis using the substation data and the real-time facility information, and a system analysis execution procedure. From the system analysis results, the system If it is determined that the tidal current control execution procedure for determining whether or not the tidal current control is performed and the tidal current control execution procedure is to perform the tidal current control, the tidal current control execution procedure is executed for the substation system. And a power flow control data transmission procedure for transmitting power flow control execution data. In the system analysis execution procedure, the performance and state of each device based on the substation data in the database are determined. This is a tidal current system control program that executes system analysis reflected in system analysis conditions and controls the distribution of loads to devices and power systems by reflecting the results.

The second invention may be limited as follows.
That is, the substation data includes equipment operation guideline data during overload operation of the substation system, and receives the equipment operation guideline data from the substation system, and the system analysis execution procedure executes system analysis. Features.

The second invention may be limited as follows.
That is, the substation data includes predicted load curve data for system analysis, the predicted load curve data is received from the substation system, and the system analysis execution procedure executes system analysis.

The second invention may be limited as follows.
In other words, the extracted real-time equipment information parameters are provided with parameter correction means capable of changing according to the state of the substation.

The second invention may be limited as follows.
That is, the present invention is characterized in that it includes a procedure for displaying tidal current control parameters analyzed by the system analysis execution means.

The computer program according to the second invention can be provided by being stored in a recording medium. Here, the “recording medium” is a medium that can carry a program that cannot occupy space by itself, such as a flexible disk, a hard disk, a CD-R, an MO (magneto-optical disk), a DVD- R and the like.
It is also possible to transmit from a computer storing a program according to these inventions to another computer through a communication line.

According to the invention described in the first invention , it is possible to provide an electric power system power flow control system capable of performing system analysis accurately reflecting the real-time situation of the facility in operation at the substation.
According to the second aspect of the invention , it is possible to provide a power system power flow control program that can accurately perform system analysis reflecting the real-time status of operating equipment in a substation.

  Embodiments according to the present invention will be described below with reference to the drawings. The drawings used here are FIGS. 1 to 5. FIG. 1 is a conceptual diagram showing the overall configuration of the power system power flow control system, FIG. 2 is a schematic diagram schematically showing each function in the power system power flow control system, and FIG. 3 is a diagram of the substation system. 4 is a block diagram showing a hardware configuration, FIG. 4 is a block diagram showing a hardware configuration of the construction equipment management system, and FIG. 5 is a flowchart showing data processing in the substation system and the construction equipment management system. is there.

  The power system power flow control system 1 includes a substation system 10 that manages a plurality of substations, and a construction equipment management system 50 (hereinafter referred to as an MJ) that can receive substation data of a plurality of substations and the status of facilities under operation of the substations. Power system power flow control system capable of executing system analysis with substation data consisting of equipment information, equipment maintenance information, and equipment operation information of the substation system 10 being inputted and inputted. Substation data recording means for recording the substation data in the database 60 of the MJ system 50, and real-time equipment information extracting means for transmitting a request for extracting real-time equipment information comprising the voltage, current, and system state of the substation system 10 And real-time equipment information is transmitted from the substation system 10, and the transmitted real-time equipment information is Real-time equipment information receiving means, real-time equipment information recording means for recording the real-time equipment information in the database 60, system analysis executing means for executing system analysis based on substation data and real-time equipment information, and the system If it is determined from the system analysis result executed by the analysis execution means that the power flow control execution enable / disable means for determining whether or not the power flow control by the system operation is performed, and the power flow control execution enable / disable means determines to perform the power flow control, And tidal current control data transmitting means for transmitting tidal current control execution data for performing tidal current control to the system 10.

(Transformer system)
The substation system 10 is a system that manages facility information of substations nationwide installed at a plurality of locations, for example. In this facility information, real-time facility information such as “voltage”, “current”, and “system state” of each substation is managed, and these real-time facility information is updated as needed in real time. In response to the real-time facility information extraction request transmitted from the MJ system 50, necessary real-time facility information is transmitted to the MJ system 50.

FIG. 3 is a block diagram showing the hardware configuration of the substation system 10.
The substation system 10 controls the entire substation system 10 and also stores a CPU 11 that performs various arithmetic processes, a RAM 12 that temporarily expands various data when writing various data, an operating system, application software, and various data. Storage unit 13, input unit 14 such as a mouse or keyboard, display unit 15 such as a monitor, communication unit 16 that can be connected to an electric communication line such as the Internet or an intranet, and output unit 17 that can output various data to a printer or the like. And an input / output port 18 which is an input / output unit for various data.

The storage unit 13 stores substation real-time equipment information such as “voltage”, “current”, and “system state” at each substation.
The communication unit 16 has a function for transmitting and receiving real-time facility information to and from the MJ system 50.

(MJ system)
The MJ system 50 has substation data of “equipment information”, “equipment maintenance information”, and “equipment operation information” recorded in the database 60, and these substation data and real-time equipment information transmitted from the substation system 10. Based on the above, it has a tidal current system control program that can execute the system analysis of each substation and control it.

FIG. 4 is a block diagram showing the hardware configuration of the MJ system 50.
The MJ system 50 controls the MJ system 50 as a whole, and performs various arithmetic processes, a CPU 51, a RAM 52 that temporarily develops various data, an operating system, a power system power flow control program, and various types Analyzed by a storage unit 53 for storing data, an input unit 54 such as a mouse or keyboard, a display unit 55 such as a monitor, a communication unit 56 connectable to an electric communication line such as the Internet or an intranet, and a power system power flow control program An output unit 57 that can output various data to a printer or the like, an input / output port 58 that is an input / output unit for various data, and a database 60 in which substation data at a plurality of substations are recorded.

The “apparatus information” recorded in the database 60 refers to various information such as “transformer”, “GIS (gas insulation switchgear)”, “auxiliary information”, and the like.
“Transformer” is data such as equipment specifications, oil level, overload limit, etc. “GIS” is a circuit breaker that cuts off power when an accident occurs and a disconnecting machine that disconnects power by construction, etc. There are data such as equipment specifications, gas pressure, circuit breaker operation frequency. “Auxiliary device information” is data such as cooling capacity and operating state.

“Equipment maintenance information” is data such as “manufacturing date”, “manufacturer”, “model”, “history maintenance history”, and the like.
“Manufacturing date” is the date when the target equipment was manufactured, “Manufacturer” is the name of the manufacturer of the target equipment, and “Model” is the model number of the target equipment. The “history maintenance history” is a log of the maintenance history of the target equipment.

“Equipment operation information” includes data such as “inspection data”, “abnormality processing data”, and “inspection results”.
“Patrol data” is a record of inspection of the target equipment, “Abnormal processing data” is a record when the target equipment is abnormally processed, and “Inspection result” is the target equipment. This is the result of inspection.

Next, a specific processing procedure of this system will be described with reference to FIG.
First, in the MJ system 50, the input unit 54 (input means) inputs substation data ("equipment information", "facility maintenance information", "facility operation information") (S101).
The substation data recording means records the substation data input by the input unit 54 in the database 60 (S102).

Next, the real-time facility information extraction means transmits a request for extracting the real-time facility information of the substation system 10 (S103). For this transmission, predetermined communication means such as a dedicated line, a LAN, and an Internet line are used.
In the substation system 10, the real-time facility information extraction request receiving means receives the real-time facility information extraction request, gives the extraction permission of predetermined real-time facility information, and the real-time facility information is extracted (S104).

In the MJ system 50, the real-time facility information receiving means receives the extracted real-time facility information (S105).
Further, the real-time equipment information extracted by the real-time equipment information recording means is recorded in the database 60 (S106).
The input means inputs equipment operation guideline data such as an overload operation guideline (S107).
Moreover, when changing the extracted real-time equipment information, the input means inputs the expected load curve data necessary for system analysis (S108).

Further, when changing the extracted real-time equipment information, the parameter correction means corrects the system analysis parameters such as the on / off state of the switch (S109).
The system analysis execution means executes system analysis based on the substation data, real-time facility information, facility operation guideline data, and expected load curve data (S110).
From this system analysis result, necessary power flow control is read, and it is determined whether the power flow control execution enable / disable means performs power flow control by system operation (S111).
Here, when it is determined that the power flow control is to be performed, the power flow control data transmitting unit transmits the power flow control data for executing the power flow control to the substation system 10 (S112).

In the substation system 10, the power flow control execution data receiving means receives the power flow control data (S113).
Then, the power flow control execution data reflecting means reflects the power flow control execution data to the corresponding substation, and adjusts so that the optimum analysis condition and operation state are obtained (S114).
On the other hand, if it is determined by the means for determining whether or not the power flow control is to be performed, the analysis result output means outputs the analysis result to a display means such as a monitor (S115).

(Parameter correction)
In addition, the above-mentioned parameter correction means changes the parameter of the extracted real-time equipment information according to the state of the substation. This usually uses the parameters of real-time equipment information as they are, but depending on the state variation of the substation, such as safety inspection such as turning on and off of the switch in the substation and emergency stop of equipment due to accidents and disasters, There may be a problem with the standard real-time facility information parameters.
For this reason, it is a function for manual correction to be optimal. Therefore, system analysis can be performed more accurately.
In addition to the manual correction, the parameters may be corrected in advance by setting data such as safety inspections and accidents / disasters in advance, and simulating them to obtain optimum values.

Example 1
The following describes the control during overload operation of a transformer as an example of the power system power flow control system 1.
In case of transformer overload operation such as load switching at the time of accident,
[1]. Equipment specifications (age, manufacturer, load loss, no load loss, etc.)
[2]. Oil gas analysis results (normal, caution 1, caution 2, abnormal)
[3]. Water content in oil (Bubble generation temperature is calculated by converting water content in oil to water content in paper)
[4]. Load factor (equivalent age is calculated using data from operation)
Based on the above information, the normal overload tolerance is calculated using the basic data of [1], and the overload tolerance considering the respective conditions from the information of [2], [3] and [4] Is calculated and the load distribution is controlled so as to be equal to or less than the tolerance.

For example, if the result of [2] is normal, the load is limited to an overload according to the ability, and if the attention is 1 or more, the load is limited to 110% and the power flow of the system is controlled.
Regarding the load factor of [4], the overload capacity and life are determined, the life management is performed from the overload results, and the overload capacity is limited when it is necessary to ensure the life.
Similarly, for other items, calculate the overload capacity according to each state, and control the system so that the current will be less than that.
Similarly, for the short-circuit capacity at the time of the accident, the short-circuit capacity corresponding to the transformer state is calculated with respect to the normal short-circuit capacity, and the load of the substation includes the number of parallel banks, the number of lines, series equipment (switch , Cable, etc.), and so on.

  These data are read from the MJ system 50, the transformer overload capability is calculated as needed according to the device state, and the system is controlled so that the current is less than that value. That is, by systematically performing such a series of controls, the system can be controlled more quickly and finely. Thereby, system efficiency and work efficiency are also improved.

(Example 2)
Moreover, in the circuit breaker operation control and the system control prepared for the summer heavy lightning strike, it is as follows.
For the hydraulically driven SF6 gas circuit breaker, the following state information is read, the circuit breaker performance corresponding to the state is calculated as needed, and the system is controlled.
[1]. Equipment specifications (age, manufacturer, rated voltage, rated current, rated breaking current, etc.)
[2]. Cumulative cut-off current [3]. Operating mechanism status (number of operations, oil pressure, number of pump operations, etc.)
[4]. Gas pressure For example, when it is determined from the cumulative cutoff current that a 40 kA lightning current can be interrupted up to two times, it is possible to control such as switching the system by limiting the number of interruption operations during summer multiple lightning.

It is the conceptual diagram which showed the whole structure of the electric power system power flow control system. It is the schematic which showed each function in an electric power system power flow control system roughly. It is the block diagram which showed the hardware constitutions of the substation system. It is the block diagram which showed the hardware constitutions of the construction equipment management system. It is the flowchart which showed the data processing in a substation system and a construction equipment management system.

10 Substation system 11, 51 CPU
12, 52 RAM
13, 53 Storage unit 14, 54 Input unit 15, 55 Display unit 16, 56 Communication unit 17, 57 Output unit 18, 58 Input / output port 50 Construction facility management system 60 Database

Claims (4)

Power system flow that can perform system analysis with a substation system that manages multiple substations, and a construction facility management system that can receive substation data of multiple substations and the status of operating facilities of substations A control system,
Substation data recording means for recording substation data including equipment information, equipment maintenance information, equipment operation information of the plurality of substation systems in a database of the construction equipment management system,
Real-time facility information extraction means for transmitting a request for extracting real-time facility information including voltage, current, and system state of the plurality of substation systems;
Real-time equipment information is transmitted from the plurality of substation systems, and the real-time equipment information receiving means for receiving the transmitted real-time equipment information;
Real-time equipment information recording means for recording the real-time equipment information in the database;
System analysis execution means for executing system analysis using the substation data and real-time facility information;
From the system analysis result executed by the system analysis execution means, power flow control execution enable / disable means for determining whether or not to perform power flow control by system operation,
When it is determined that the power flow control execution possibility means performs power flow control, the power flow control data transmission means for transmitting power flow control execution data for executing power flow control to the substation system, and
The system analysis execution means executes a system analysis in which the performance and state of each device based on the substation data in the database is reflected in the system analysis condition, and calculates an overload withstand according to the state of each device. and a controlling the distribution of load to the device and the electric power system,
The substation data includes equipment operation guideline data for the substation system and expected load curve data for system analysis,
The facility operation guideline data is received from the substation system,
In the real-time equipment information in the substation system, comprising parameter correction means capable of correcting parameters of system analysis,
The parameter correction means acquires the state variation of the plurality of substations and corrects the parameter,
The system analysis execution means includes a display means capable of performing system analysis using the facility operation guideline data and the predicted load curve data, and capable of displaying parameters analyzed by the system analysis execution means. power flow system control system. The system analysis execution means executes system analysis based on the circuit breaker performance calculated by reading any of the device specifications, cumulative interruption current, operation mechanism state and gas pressure, and reflects the result. The power flow system control system according to claim 1, wherein distribution of loads to devices and electric power systems is controlled. Power system power flow control that can perform system analysis with a substation system that manages multiple substations and a construction facility management system that can receive substation data and substation operational status of multiple substations A program,
The program is a substation data recording procedure for recording substation data including equipment information, equipment maintenance information, equipment operation information of the plurality of substation systems in a database of the construction equipment management system,
Real-time facility information extraction procedure for transmitting a request for extracting real-time facility information including voltage, current, and system state of the plurality of substation systems;
Real-time equipment information is transmitted from the plurality of substation systems, and the real-time equipment information receiving procedure for receiving the transmitted real-time equipment information;
Real-time equipment information recording procedure for recording the real-time equipment information in the database;
A system analysis execution procedure that uses the substation data and real-time equipment information and calculates a system analysis by calculating an overload capacity according to the state of each device ,
From the system analysis result executed by the system analysis execution procedure, a procedure for determining whether or not to perform power flow control by determining whether or not to perform power flow control by system operation,
If it is determined that the tidal current control execution procedure performs tidal current control, a tidal current control data transmission procedure for transmitting tidal current control execution data for executing tidal current control to the substation system;
In the real-time equipment information in the substation system, a parameter correction procedure capable of correcting parameters of system analysis,
A display procedure for displaying parameters subjected to system analysis by the system analysis execution procedure;
To run on a computer,
The substation data includes equipment operation guideline data for the substation system and expected load curve data for system analysis, and the equipment operation guideline data is received from the substation system,
In the parameter correction procedure, to obtain the state variation of the plurality of substations to correct the parameters,
In the system analysis execution procedure, a system analysis is performed by reflecting the performance and state of each device based on the substation data in the database in the system analysis conditions, and the result is reflected in the device and the power system. Tidal power system control program for controlling distribution of load of the power source, receiving equipment operation guideline data from the substation system, and executing system analysis using the equipment operation guideline data and the predicted load curve data . The above system analysis execution procedure executes system analysis based on the circuit breaker performance calculated by reading any of the equipment specifications, cumulative breaking current, operating mechanism state and gas pressure, and reflects the result. The tidal current system control program according to claim 3, wherein distribution of loads to devices and power systems is controlled.

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