KR20130039092A - Power manegement system for power station and method thereof - Google Patents

Abstract

PURPOSE: A power plant power management system and a managing method thereof are provided to determine whether an event is generated in real time using multiple electric quality meters. CONSTITUTION: A communication part(120) receives electricity quality data from multiple electricity quality meters(10). The multiple electricity quality meters are installed inside a power plant. A determining part(130) uses electricity quality meter data for determining whether an event is occurred. An analyzing part(140) analyzes the occurrence time of an event, the degree of danger, an occurring path, an occurring order, and duration. A display part(150) displays the analyzed result of event of the analyzing part according to the control of a control part(110). [Reference numerals] (110) Control part; (120) Communication part; (130) Determining part; (140) Analyzing part; (150) Display part;

Description

Power Management System and Method {POWER MANEGEMENT SYSTEM FOR POWER STATION AND METHOD THEREOF}

The present invention relates to a power plant power management system and method for determining whether an event occurs in a power plant using electrical quality data and analyzing the generated event from a plurality of electrical quality meters installed in the power plant.

Although it is necessary to supply high-quality power continuously for stable operation of the power plant at present, the lack of a system that integrates and analyzes the electric quality meter installed in the power plant to analyze the causes and establish countermeasures when an event occurs. There are many difficulties. Publication No. 2000-0060966 discloses a technology that can automatically cut off the power supply by recognizing it when an abnormality occurs in the power supplied to the micro base station, but can analyze the cause of the abnormal phenomenon or systematically manage it. The device is not disclosed.

In addition, the management of the power supplied according to the type of power plant or the type of resources used in the power plant must be made differentially, and the technology for the systematic management system has not been developed at present.

The present invention provides a power plant power management system and method that can detect the occurrence of events in real time using a plurality of electrical quality meters installed in the power plant.

In addition, the risk of events generated according to the type of power plant or the type of resources used in the power plant can be set differently, and provides a power plant power management system and method that can send a warning signal to the administrator.

In addition, it provides a power plant power management system and method that can quickly cause analysis and establish countermeasures by analyzing and statistically processing events that occur.

The inventors' power plant power management system includes a control unit; A communication unit for receiving electrical quality data from a plurality of electrical quality meters installed in a power plant; A determination unit to determine whether an event occurs using the electrical quality meter data; An analysis unit analyzing the occurrence time, risk, occurrence path, occurrence sequence, and duration of the event; And a display unit for displaying an event analysis result of the analysis unit under the control of the controller.

The control unit generates an alarm when the determination unit determines that an event has occurred.

When the controller determines that an event has occurred, the controller pops up event occurrence information on the display unit.

The determination unit may determine that an event occurs when the value of the electrical quality meter data is out of the range of the reference electrical quality meter data value of the setting table stored in the database.

The analysis unit is characterized in that for processing the event by the event type or time zone for each electrical quality meter.

The analysis unit may perform analysis of an event occurring within a set time range.

The controller may generate an external power operation signal or a power off signal according to a type of an event and a risk analyzed by the analysis unit.

The power plant power management method of the present invention comprises the steps of the communication unit receives electrical quality data from a plurality of electrical quality meters installed in the power plant; Determining, by the determination unit, whether an event occurs using the electrical quality meter data; Analyzing, by the analysis unit, an occurrence time, risk, occurrence path, occurrence sequence, and duration of the event; And a display unit displaying an event analysis result of the analysis unit.

The determining may further include generating, by the controller, an alarm when the determination unit determines that an event has occurred.

The determining may further include popping up, by the controller, event occurrence information when the event is determined by the determination unit.

The power plant power management system and method of the present invention can detect the occurrence of an event in real time using a plurality of electrical quality meters installed in the power plant.

In addition, the risk of an event generated according to the type of power plant or the type of resources used in the power plant can be set differently, and a warning signal can be transmitted to the manager.

In addition, by analyzing the generated events and statistical processing, it is possible to quickly cause analysis and establish countermeasures.

1 is a configuration diagram of a power plant power management system according to an embodiment of the present invention;
2 is a screen in which event information and electrical quality data are displayed externally through a display unit;
3A is a screen in which an event list and electrical quality data are displayed externally through a display unit;
3B is a screen in which an event list is displayed externally through a display unit;
3C is a screen in which event information is displayed externally through a display unit;
4 is a screen in which the order of event occurrence is displayed externally through the display;
5 is a flow chart of a power plant power management method according to an embodiment of the present invention.

Hereinafter, exemplary embodiments of the present invention will be described with reference to the accompanying drawings. In the drawings, the same reference numerals are used to designate the same or similar components, and the same reference numerals will be used to designate the same or similar components. Detailed descriptions of known functions and configurations are omitted.

1 is a block diagram of a power plant power management system according to an embodiment of the present invention.

Power plant power management system according to an embodiment of the present invention the control unit 110; A communication unit 120 connected to a plurality of electrical quality meters installed in a power plant by wire or wirelessly to receive electrical quality data; A determination unit 130 that determines whether an event occurs using the electrical quality meter data; An analysis unit 140 analyzing the type, occurrence time, risk, occurrence path, occurrence sequence, and duration of the event; And a display unit 150 for displaying an event analysis result of the analysis unit 140 under the control of the control unit 110.

The communication unit 120 receives the electrical quality data from the electrical quality meter 10 installed in the power plant and stores it in a database (not shown). The electrical quality meter data is measured and transmitted to the communication unit 120 according to the international standard IEC 61010-4-30. The communication unit 120 and the electrical quality meter 10 are connected by wire or wirelessly and request data transmission to the electrical quality meter 10 at a predetermined time. For example, the communication unit 120 may receive electrical quality data using the electrical quality meter 10 and the TCP / IP communication protocol, or may transmit electrical quality data using a LAN.

The determination unit 130 determines whether an event occurs with respect to the electrical quality data received from the communication unit 120. An event refers to an abnormal situation with respect to voltage, current, frequency, temperature, humidity, and the like, and implies an impulse surge voltage, an instantaneous overvoltage, an instantaneous voltage drop, an instantaneous power failure, a power failure, and a frequency change. The determination unit 130 determines whether an event occurs by comparing with the range of the electrical quality data value set from the outside in addition to the abnormal situation recognized by the electrical quality meter 10 itself. For example, when the set temperature of the reference electrical quality data value of the setting table is in the range of 10 to 30 degrees and the temperature of the electrical quality data measured by the electrical quality meter 10 exceeds or falls below this, the electrical quality meter 10 In the case where it is determined that the event does not occur, the determination unit 130 determines that the event has occurred. Therefore, the manager can set the electric quality data reference value in consideration of the environmental conditions suitable to operate the power plant. Also, if the risk is high due to the change of current, voltage, temperature, etc., such as a nuclear power plant, the manager can set the electric quality data range. By limiting, the plant's power management system can be sensitive to changes in the environment. The event determination period of the determination unit 130 may be synchronized with the time period for receiving the electrical quality data from the communication unit 120, and may be set differently depending on the nature of the power plant. The determination unit 130 determines whether an event occurs with respect to the electrical quality data received by the communication unit 120, generates event generation data, and stores the event generation data in a database.

If the determination unit 130 determines that the event has occurred, the analysis unit 140 analyzes the event. The analyzer 140 receives the event occurrence information from the determiner 130 and records the occurrence time of the event. The analyzer 140 reads the estimated recovery time by referring to the setting table stored in the database from the event occurrence time and then calculates an expected recovery time from the occurrence time. The analysis unit 140 notifies the control unit 110 when it is determined that the same event continues to occur in the electric quality meter 10 even after the expected recovery time has elapsed. In addition, the analysis unit 140 stores a duration from the occurrence time to the time when the event is finished in the database.

The analysis unit 140 analyzes the risk of the event when the event occurs. The analyzer 140 analyzes the risk based on a time interval from the event occurrence time to the expected recovery time. For example, if the time interval between the event occurrence time of the instantaneous voltage drop and the expected recovery time is 40 seconds, and the time interval between the occurrence of the power failure event and the expected recovery time is 20 seconds, the power failure event is shorter than the voltage drop. Since it must be recovered in time, it is analyzed as having a higher risk than the instantaneous voltage drop event. FIG. 2 shows event information and electrical quality data generated in a power plant on a screen through the display unit 150 of a power plant power management system actually implemented using PQube of PSL. The display 150 may display general information about the electrical quality data in addition to the event information. FIG. 3A shows the list information on the events occurring in a specific time zone in chronological order and is displayed through the display unit 150. FIG. 3B is displayed on the display unit 150 in which detailed information on an event is displayed when a specific event is selected. will be. The analysis unit 140 analyzes the occurrence path and the sequence of occurrence of the event based on the installation position and the connection information of the electrical quality meter 10 installed in the power plant. Installation location and connection information of the electrical quality meter 10 is transmitted through the communication unit 120 in the electrical quality meter 10 and stored in a database. 3C illustrates the display unit 150 overlaying the result of analyzing the sequence of occurrence of the power failure event in the electrical quality meter 10 installed in the power plant when the power failure event occurs in the power plant. PQube A ~ D in the power plant image is the name of the electronic quality meter, the number of each electrical quality meter 10 represents the order of occurrence of the power failure event. Therefore, the cause of the power failure is generated in PQubeC, it can be seen that the power failure event occurred in the order of PQubeB, PQubeA PQubeD.

The analyzer 140 may perform statistical processing on the event analysis result. The analysis unit 140 analyzes an event generated in real time, stores the result in a database, and uses the event analysis data stored in the database to determine a type of event, an event occurrence time, or an electrical quality meter 10. Based on the event analysis results can be statistically processed. The analysis unit 140 may store the statistically processed data in a database and accumulate the subsequent events to perform statistical processing. 4 shows the results of the statistical processing by the analyzing unit 140 through the display unit 150. The statistical processing result includes the overall information on the electrical quality data in addition to the event information.

The display unit 150 refers to a general device capable of displaying an event analysis result analyzed by the analyzer 140 to the outside, and may be a display device using CRT, LCD, PDP, LED, and OLED. The display unit 150 may display an event analysis result based on the type of event, event occurrence time, etc. under the control of the controller 110. In addition, when an event occurs, the display 150 may pop up event occurrence information under the control of the controller 110.

The controller 110 may generate an alarm when an event occurs or may pop up event occurrence information on the display 150. In addition, the control unit 110 generates an external power operation signal or a power off signal according to the event analysis result of the analysis unit 140 and transmits it to the manager in the power plant through the communication unit 120. The controller 110 may generate the signal according to the type and risk of the event and transmit the signal to the manager. For example, if the type of event is a power failure or voltage drop and the risk exceeds the preset reference risk, an external power supply signal is generated. In the case of exceeding the preset reference risk level, a power off signal may be generated and transmitted to the manager in the power plant through the communication unit 120. The signal generated by the control unit 110 and transmitted to the power plant may be set in consideration of the influence of the type of power plant and the change in power supplied to the operation of the power plant, and may be changed through the communication unit 120 at the manager side. .

The controller 110 may control the display 150 to display an event analysis result, an event statistics processing result, and the like. The controller 110 may display an event analysis result generated according to an event type, an event occurrence time, and the like, and may display a result of statistical processing in the analysis unit 140 based on the event or the time zone in which the event occurred. .

 2 is a flowchart of a power plant power management method according to an embodiment of the present invention. Power plant power management method according to an embodiment of the present invention comprises the steps of the communication unit 120 receives the electrical quality data from a plurality of electrical quality meter 10 installed in the power plant; Determining, by the determiner, whether an event occurs using the electrical quality meter data; Analyzing, by the analysis unit, the event type, occurrence time, risk, occurrence path, occurrence sequence, and duration; The display unit 150 includes displaying an event analysis result of the analysis unit 140.

The communication unit 120 receives electrical quality data from a plurality of electrical quality meters 10 installed in the power plant. The communication unit 120 may request the electrical quality data transmission to the electrical quality meter 10 at regular time intervals.

The determination unit 130 determines whether an event occurs with respect to the electrical quality data received by the communication unit 120. The determination unit 130 determines that an event has occurred and generates event occurrence information when the electrical quality data received from the communication unit 120 exceeds or falls below a range of reference electrical quality data values in the setting table. The determination unit 130 may determine whether an event occurs by synchronizing with the time when the communication unit 120 receives the electrical quality data.

If the determination unit 130 determines that the event has occurred, the analysis unit 140 analyzes the event. The analysis unit 140 may analyze the occurrence time, the risk, the occurrence path, and the occurrence order of the corresponding event, and the analysis method is the same as described with reference to FIG. 1.

The display unit 150 displays an event analysis result under the control of the controller 110. The event analysis result may be an event analysis result based on the type of event, an event occurrence time, etc. under the control of the controller 110, and may be displayed externally under the control of the controller 110.

Unless defined otherwise, all terms used herein, including technical or scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. Terms such as those defined in commonly used dictionaries are to be interpreted as having a meaning consistent with the contextual meaning of the related art and are to be interpreted as either ideal or overly formal in the sense of the present application Do not.

10: electric quality meter
110: control unit
120:
130:
140:
150:

Claims (10)

A control unit;
A communication unit for receiving electrical quality data from a plurality of electrical quality meters installed in a power plant;
A determination unit to determine whether an event occurs using the electrical quality meter data;
An analysis unit analyzing the occurrence time, risk, occurrence path, occurrence sequence, and duration of the event; And
A display unit displaying an event analysis result of the analysis unit under control of the controller;
Power plant power management system comprising a.
The method of claim 1,
And the controller generates an alarm when the determination unit determines that an event has occurred.
The method of claim 1,
And the control unit pops up event occurrence information on the display unit when the determination unit determines that an event has occurred.
The method of claim 1,
The determination unit determines that an event has occurred when the value of the electrical quality meter data is out of the range of the reference electrical quality meter data value of the setting table stored in the database.
The method of claim 1,
The analysis unit is a power plant power management system, characterized in that for processing the event by the event type or time zone for each electrical quality meter.
The method of claim 1,
The analysis unit is a power plant power management system, characterized in that for performing an analysis of the event occurred within a set time range.
The method according to claim 6,
The control unit is a power plant power management system, characterized in that for generating an external power operation signal or a power-off signal according to the type of event and the risk analyzed by the analysis unit.
Receiving, by the communication unit, electrical quality data from a plurality of electrical quality meters installed in the power plant;
Determining, by the determination unit, whether an event occurs using the electrical quality meter data;
Analyzing, by the analysis unit, an occurrence time, risk, occurrence path, occurrence sequence, and duration of the event;
Displaying, by the display unit, an event analysis result of the analysis unit
Power plant power management method comprising a.
The method of claim 8,
The determining may further include generating an alarm by the control unit when the determination unit determines that an event has occurred.
The method of claim 8,
The determining may further include popping up, by the control unit, event occurrence information when the determination unit determines that an event has occurred.

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