JPH09252551A - Power-system supervisory control system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To obtain a power-system supervisory control system which eliminates an accident due to an operator's mistake, by a method wherein information regarding a breaker installed at a power system is transmitted to a computer from the breaker. SOLUTION: An operator stands by at a control center 1 equipped with a computer 1a, and the operator operates the computer 1a by a terminal device. Various pieces of information regarding a power system are reported to the computer 1a from a computer 21. As the pieces of information, a current, electric power, electric energy and the like in respective parts of the power supply, the on/off state and the failure of a breaker 24, information on whether the breaker 24 is in an operating state or in a disconnected position, information on whether the breaker 24 is in a remote mode or in a direct mode and the existence of a control power supply with reference to the breaker 24 are reported. The pieces of information reported to the computer 1a are displayed on the terminal device connected to the computer 1a.

Description

Detailed Description of the Invention

[0001]

TECHNICAL FIELD The present invention relates to a power system monitoring and control system.

[0002]

2. Description of the Related Art For example, in a gas manufacturing plant, electric power is supplied to drive a pump, a compressor, etc. (hereinafter referred to as "load") involved in gas production, but electric power is supplied to a substation room or a load. A circuit breaker or the like is provided in the line to enable the load to be electrically disconnected from the power system at the time of failure or inspection. The circuit breaker and the like are provided on the switchboard of the substation.

By the way, when it is desired to continuously operate a load day and night, it is very convenient to have a system in which a plurality of switchboards can be operated at one place and can be centrally managed. Therefore, recently, an electric power system monitoring control system has been developed which can remotely operate the circuit breaker at the time of failure or inspection.

FIG. 1 is a block diagram of a conventional power system supervisory control system.

An operator stands by at the control center 1 having the computer 1a, and the operator operates the computer 1a by a terminal device (not shown).

Since each of the substation rooms 2-1, 2-2, 2-3 has the same structure, the substation room 2-1 will be described here as a representative. A computer 21, an I / F relay board 22, and a switchboard 23 are installed in the substation room 2-1.
Are provided. The computer 21 is connected to the computer 1a to exchange signals. The I / F relay board 22 is a switchboard 2 based on an instruction from the computer 21.
The circuit breaker 24 in 3 is operated.

As the types of the circuit breaker 24, there are a system circuit breaker provided on a path for supplying electric power to the bus bar and a load circuit breaker provided for each individual load. Both are subject to monitoring / control.

A circuit breaker 24 is provided in the switchboard 23.
The circuit breaker 24 is provided with a circuit breaker panel 25 and a far / direct selection switch 26. When the circuit breaker 24 is turned on / off, the circuit for supplying electric power to the load 27 can be connected / cut off. When the remote / direct selection switch 26 is in the remote mode, the circuit breaker 24 can be turned on / off by an instruction from the computer 1a, and when the remote / direct selection switch 26 is in the direct mode, the circuit breaker can be operated. The on / off operation of 24 cannot be performed by an instruction from the computer 1a, and is directly performed in the substation room 2-1. Further, the circuit breaker panel 25 can connect / disconnect the path for supplying electric power to the load 27 when it is in the operating position, and at the time of inspection or the like, pull out the circuit breaker panel 25 from the casing to the disconnection position. To do.

From the computer 21, the computer 1
Various information regarding the electric power system is reported to a. In the conventional electric power system monitoring and control system, as this information, the current, voltage, electric power, electric energy, etc. in each part of the electric power system, the on / off state of the circuit breaker 24, and the presence / absence of a failure have been reported.

In the conventional power system supervisory control system, when the breaker 24 is turned on / off from the computer 1a, the load 27 and other power systems are not adversely affected by turning on / off the breaker 24. It had an interlock function. The interlock function will be described below.

FIG. 2 is a diagram showing an interlock function in a conventional power system supervisory control system, and FIG. 2 (a) shows an interlock function in the closing operation of a circuit breaker,
(B) shows the interlock function in the opening operation of the circuit breaker. Further, FIG. 3 is a table for explaining the meaning of the symbols used in FIGS. 2 (a) and 2 (b).

As shown in FIG. 2A, the interlock function in the conventional circuit breaker closing operation is as follows: (1) The circuit breaker control power is on; (2) Circuit breaker is in the remote mode. The circuit breaker can be turned on when the following four conditions are satisfied: (3) the bus bar is not grounded, and (4) the fault relay that detects a fault is not operating. It was a thing.

Further, the interlock function in the opening operation of the conventional circuit breaker is, as shown in FIG. 2 (b), (1) the control power source of the circuit breaker is turned on, and (2) the circuit breaker When the two conditions of being in the remote mode are satisfied, the circuit breaker can be opened.

[0014]

The conventional power system supervisory control system as described above has the following problems.

For example, the configuration of the electric power system is as shown in FIG. 4, in which the circuit breakers 24a and 24f are open, the circuit breakers 24b, 24c, 24d and 24e are on, and the load 27 is present.
A case where power is supplied to and driven by a, 27b, 27c, and 27d will be described. At this time, the circuit breaker 24b
If you want to check with the open state, load 27a, 2
Since the power supply to 7b is not stopped, the circuit breaker 24f must be turned on. For this reason, conventionally, such precautions are described in a procedure manual and the operator operates according to the precautions.

However, with the conventional interlock function, the circuit breaker 24b can be opened even if the circuit breaker 24f is not closed. Therefore, the circuit breaker 24f is closed due to an operator's operation error. Circuit breaker 24b in front
There was a risk of opening the. In this case, the power supply to the loads 27a and 27b is cut off, which causes an accident. The conventional interlock function was realized by the relay sequence in the I / F relay board 22, but it was difficult to realize a more complicated interlock function by such a relay sequence.

When the circuit breaker 24f is turned on, the computer 1a of the control center 1 does not know whether the circuit breaker 24f is in the operating position. Even if the instruction is given from 1a, if the circuit breaker 24f is in the disconnection position, the circuit breaker 24f will not be turned on, and if the circuit breaker 24b is opened without knowing this, it will cause an accident. There was a fear.

The present invention has been made in view of the above points, and an object of the present invention is to provide a power system monitoring and control system capable of eliminating an accident due to an operation error by an operator.

[0019]

In order to achieve the above object, the present invention provides a power system supervisory control system for turning on / off a circuit breaker provided in a power system in response to an instruction from a computer of a control center. Information about the circuit breaker is transmitted from the circuit breaker to the computer.

Further, the information regarding the circuit breaker is the information regarding the remote / direct mode of the circuit breaker, the information regarding the operating position / disconnection position of the circuit breaker, and the information regarding the presence / absence of a control power source for the circuit breaker.

Further, an interlock function based on the information on the circuit breaker is provided.

[0022]

DETAILED DESCRIPTION OF THE INVENTION The present invention will be described below with reference to the drawings.

The block diagram of the power system supervisory control system according to the present invention is the same as the conventional block diagram shown in FIG. 1 and will be described with reference to FIG.

An operator stands by at the control center 1 having the computer 1a, and the operator operates the computer 1a by a terminal device (not shown).
The description of each component is the same as the description of the conventional technique, and therefore will be omitted here.

From the computer 21, the computer 1
Various information regarding the electric power system is reported to a. In the electric power system monitoring and control system according to the present invention, as this information, the current, voltage, electric power, electric energy, etc. in each part of the electric power system, the on / off state of the circuit breaker 24 and the presence / absence of a failure, and further the circuit breaker Information on whether 24 is in the operating position or the disconnecting position, information on whether the circuit breaker 24 is in the remote mode or the direct mode, and the presence or absence of a control power source for the circuit breaker 24 are reported. The information reported to the computer 1a is displayed on the terminal device connected to the computer 1a.

Next, the interlock function in the power system supervisory control system according to the present invention will be described.

FIG. 5 is a diagram showing an interlock function in the power system supervisory control system according to the present invention.
(A) shows the interlock function in the closing operation of a circuit breaker, (b) shows the interlock function in the opening operation of a circuit breaker. The meanings of the symbols used in FIGS. 5A and 5B are shown in FIG. 3 as in FIGS. 2A and 2B.

Referring to FIG. 5 (a), the following conditions are considered in the interlock function at the time of turning on and off the circuit breaker in the power system supervisory control system according to the present invention. (1) The circuit breaker control power is on. (2) The circuit breaker is in the far mode. (3) The bus bar is not grounded. (4) The fault relay that detects the fault is not in operation. (5) As a system configuration state, collision of different power sources and reverse power transmission should not occur due to the operation of turning on the circuit breaker. (6) The bus bar has voltage and the power supply is available. (7) The breaker is in the operating position. (8) The breaker is in the disconnecting position. (9) Conditions (1) to (4) are satisfied. (10) Conditions (5) to (7) are satisfied. (11) Condition (8) or (10) is satisfied. (12) Conditions (9) and (11) are satisfied. Finally, when the condition (12) is satisfied, the circuit breaker can be turned on.

Further, referring to FIG. 5 (b), the following conditions are considered for the interlock function at the time of opening operation of the circuit breaker in the power system supervisory control system according to the present invention. (1) The circuit breaker control power is on. (2) The circuit breaker is in the far mode. (3) As a system configuration state, a power failure and reverse power transmission do not occur due to the opening operation of the circuit breaker. (4) The load current is 0 ampere, that is, there is no load. (5) The backup system is configured. (6) The circuit breaker is in the operating position. (7) The breaker is in the disconnecting position. (8) Conditions (1) and (2) are satisfied. (9) Conditions (3) and (4) are satisfied. (10) Condition (9) or (5) is satisfied. (11) Conditions (10) and (6) are satisfied. (12) Condition (11) or (7) is satisfied. (13) Conditions (8) and (12) are satisfied. Finally, when the condition (13) is satisfied, the circuit breaker can be opened.

The interlock function in the above-described power system monitoring and control system according to the present invention may be realized by a relay sequence in the I / F relay board 22, but it is complicated and therefore operates in the computer 1a or the computer 21. It is desirable to configure it as software that runs.

[0031]

As described above, according to the present invention,
Information about the circuit breaker's distant / direct mode and operation / disconnect position is also reported to the control center computer. For example, when the circuit breaker is in the disconnect position, a command to turn it on is sent and the circuit is disconnected. It is possible to prevent an operation error such that the user thinks that the container is in the on state and performs the subsequent operation. Further, if the interlock function of the power system supervisory control system is realized by software, the interlock function more fulfilling than the conventional one can be realized and the operator's operation error can be prevented.

As a result, in the power system monitoring and control system according to the present invention, it is possible to eliminate an accident caused by an operation error by the operator.

[Brief description of drawings]

FIG. 1 is a block diagram of a power system supervisory control system according to the related art and the present invention.

2A and 2B are diagrams showing an interlock function in a conventional power system monitoring and control system, in which FIG. 2A shows an interlock function when a circuit breaker is turned on, and FIG. 2B is an interlock function when a circuit breaker is opened. Indicates.

3 (a), (b) and FIGS. 5 (a), (b).
3 is a diagram illustrating the meaning of symbols used in FIG.

FIG. 4 is a diagram showing an example of a configuration of a power system.

5A and 5B are diagrams showing an interlock function in the power system supervisory control system according to the present invention, in which FIG. 5A shows an interlock function when the circuit breaker is turned on, and FIG. 5B is an interlock function when the circuit breaker is opened. Indicates a function.

[Explanation of symbols]

 1 Control Center 1a Computer 2-1, 2-2, 2-3 Substation 21 Computer 22 I / F Relay Panel 23 Switchboard 24 Circuit Breaker 25 Circuit Breaker Panel 26 Far / Direct Selection Switch 27 Load

Claims (3)

[Claims] 1. A power system monitoring and control system in which a circuit breaker provided in a power system is turned on / off according to an instruction from a computer of a control center, wherein information about the circuit breaker is transmitted from the circuit breaker to the computer. A characteristic power system monitoring and control system. 2. The information regarding the circuit breaker is information regarding the remote / direct mode of the circuit breaker, information regarding the operating position / disconnecting position of the circuit breaker, and information regarding the presence / absence of a control power source for the circuit breaker. The electric power system monitoring control system according to claim 1. 3. The power system supervisory control system according to claim 1, further comprising an interlock function based on information about the circuit breaker.