KR101963847B1 - Frequency regulation event simulation method and frequency regulation event simulation server - Google Patents

Abstract

The present invention relates to a frequency regulation event simulation method and a frequency regulation event simulation server. The method includes: a power resource monitoring step of monitoring state information at least one power resource consuming the power supplied from a power system; an FR event generating step of determining a frequency regulation power amount, which is necessary to regulate a system frequency to an allowable frequency when the system frequency exceeds the allowable frequency, and generating an RF event requesting the power resource for the frequency regulation power amount; an FR event issuing step of transmitting the FR event to the power resource; and an FR event simulation step of simulating whether the power resource is able to be operated in accordance with the FR event or not based on the power resource state information.

Description

TECHNICAL FIELD [0001] The present invention relates to a frequency adjustment event simulation method and a frequency adjustment event simulation server,

The present invention relates to a frequency adjustment event simulation method and a frequency adjustment event simulation server. More particularly, the present invention relates to a frequency adjustment event simulation method and a frequency adjustment event simulation server that can pre- .

The system frequency is the frequency of change of the waveform appearing for 1 second in alternating current, and the unit is hertz (Hz), and the frequency of electric power in Korea is 60 Hz which is 60 times alternating direction of the waveform in 1 second. In the United States and Canada, 60Hz is used as in Korea, and 50Hz is mainly used in Europe, Japan and China. The frequency remains constant if the supply and consumption of power are balanced, but if the supply is greater than the supply (supply> consumption) the frequency rises and if the supply is less than the supply (supply <consumption) the frequency decreases. The change in frequency has a great influence on the life and efficiency of the electric device using the motor, so it is necessary to maintain the frequency at a constant level. Currently, the Korean Electricity Business Law sets the standard frequency and the tolerance to 60 ㎐ ± 0.2 Hz.

Recently, there has been an attempt to adjust the grid frequency using the ESS system. However, when the ESS system is used, a separate storage device is required to store the electric power. In order to construct the ESS system, There was a need for this.

In order to reduce power consumption of power consuming resources, DR (Demand response) has been conventionally performed, but there is no technology that integrates DR management technology and system frequency tuning technology .

The present invention solves the above problems, and the FR event simulation method and the FR event simulation server according to the present invention can pre-select power resources that can participate in the FR market by simulating power resources.

In addition, the FR event simulation method and the FR event simulation server according to the present invention can provide an FR event simulation method and an FR event simulation server that can simulate FR events while observing DR events.

The FR event simulation method and the FR event simulation server according to the present invention are intended to provide an FR event simulation method and an FR event simulation server that simulate FR events when DR events are not generated.

According to another aspect of the present invention, there is provided an FR event simulation method for performing a simulation for adjusting a system frequency of a power system, the method comprising: A power resource monitoring step of monitoring the state information of at least one power resource in real time when the grid frequency is out of the allowable frequency, determining a frequency adjustment power amount necessary for adjusting the grid frequency to the allowable frequency, An FR event generation step of generating an FR event requesting a power amount to the at least one power resource, an FR event issue step of transmitting the FR event to the at least one power resource, To A may include FR event simulation step simulating that the at least one power resources to perform the operation based on the FR event.

In one embodiment, the power resource state information includes at least one of a battery state of the at least one power resource, a charge / discharge ratio indicating a charge / discharge time, an FR event participation state indicating whether the FR event is automatically participated, An FR event type indicating a type, an FR event participation schedule indicating a time to participate in an actual FR event, and a charge / discharge selection for selecting a battery charge or discharge.

In one embodiment, the FR event simulation method further comprises: generating a FR event report that monitors the simulation process of the at least one power resource according to a result of the FR event simulation step and analyzes the result, To determine whether the at least one power resource can participate in an actual situation FR event.

In one embodiment, the reliability determination step may classify power resources suitable for each of the primary FR and the secondary FR based on the FR event report.

In one embodiment, the reliability determination step may set the FR event performing group such that the power resource higher than the predetermined reliability together with the FR event is performed together when the reliability of the at least one power resource is higher than the predetermined reliability .

In one embodiment, the FR event simulation method further comprises: generating a DR event event that determines whether at least one power resource consuming power supplied from the power system has issued a DR event that is pre-agreed to reduce power consumption Determining whether the DR event has been issued, and stopping the simulation if it is determined that the DR event has been issued.

The FR event simulation server according to an embodiment of the present invention is a FR event simulation server that performs simulation to adjust a system frequency of a power system, A power resource monitoring unit for monitoring in real time a frequency adjustment power amount necessary for adjusting the grid frequency to the allowable frequency when the grid frequency is out of the allowable frequency, An FR event generating unit for generating a requesting FR event, an FR event signaling unit for transmitting the FR event to the at least one power resource, The FR It may include whether you can perform operations according to the FR vent simulation unit for simulating events.

In one embodiment, the power resource state information includes at least one of a battery state of the at least one power resource, a charge / discharge ratio indicating a charge / discharge time, an FR event participation state indicating whether the FR event is automatically participated, An FR event type indicating a type, an FR event participation schedule indicating a time to participate in an actual FR event, and a charge / discharge selection for selecting a battery charge or discharge.

In one embodiment, the FR event simulation server monitors the simulation process of the at least one power resource according to a result of the FR event simulation unit to generate an FR event report analyzing the result, and based on the FR event report And a reliability determiner for predicting whether the at least one power resource can participate in an actual situation FR event.

In one embodiment, the reliability determining unit may classify power resources suitable for each of the primary FR and the secondary FR based on the FR event report for the at least one power resource.

In one embodiment, the reliability determining unit may set the FR event performing group such that the power resource higher than the preset reliability performs the FR events together when the reliability of the at least one power resource is higher than the predetermined reliability.

In one embodiment, the FR event simulation server further includes a DR event notification determination unit that determines whether or not a DR event has been issued in advance to reduce consumption of power supplied from the power system by at least one power resource And may stop the simulation if it is determined that the DR event has been issued.

The FR event simulation method and the FR event simulation server according to the present invention as described above can select the power resources that can participate in the FR market in advance and secure the reliability of the demand resources that can participate in the FR market through the FR event simulation.

In addition, the FR event simulation method and the FR event simulation server according to the present invention can simulate FR events while observing DR events.

In addition, the FR event simulation method and the FR event simulation server according to the present invention are advantageous in that at least one power resource can be efficiently managed by simulating FR events when a DR event is not generated.

1 is a schematic diagram of a FR event simulation system according to an embodiment of the present invention.
2 is a block diagram illustrating a configuration of an FR event simulation server according to an embodiment of the present invention.
3 is a flowchart of a FR event simulation method according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings in order to clarify the technical idea of the present invention. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a block diagram of a computer system according to an embodiment of the present invention; Fig. For convenience of explanation, the apparatus and method are described together when necessary.

1 is a schematic diagram of a FR event simulation system according to an embodiment of the present invention.

Referring to FIG. 1, an FR event simulation system according to an embodiment of the present invention may include power systems E and L, at least one power resource r, and an FR event simulation server 100.

The power systems (E and L) can be a system consisting of a series of electrical facilities, such as power generating facilities that generate electricity, transmission lines that transport and distribute generated power, substations, and distribution lines. The power systems E and L may be constructed of an electric power plant E and a line L as shown in FIG. 1 and may generate alternating electricity according to the system frequency at the electric power generating plant E so that at least one Of the power source (r) of FIG. The power plant (E) can be composed of power generation facilities such as a nuclear power plant, a hydroelectric power plant, and a thermal power plant, and the line (L) can supply power generated from a power generation facility such as a transmission line and a distribution line to at least one power resource You can send it.

At least one power resource r may consume power supplied from power systems E and L. [ The at least one power resource r may be an object having a battery storing power. 1, the at least one power resource r may include an electric vehicle r_c1 and r_c2 with a battery, a building r_b1 provided with a power storage device, a house r_h1 equipped with a power storage device, But may be formed of various objects capable of storing, charging, and discharging electric power.

The FR event simulation server 100 may be connected to at least one power resource r to transmit and receive information, and may be connected to the power systems E and L to monitor the system frequency in real time. 1, the FR event simulation server 100 is connected to an electric vehicle r_c1 and r_c2, a building r_b1 in which a power storage device is installed, and a house r_h1 in which a power storage device is installed, Can be monitored.

The FR event simulation server 100 can perform simulation to adjust the grid frequency of the power systems E and L. [ The FR event simulation server 100 can determine the frequency adjustment power amount necessary for adjusting the system frequency to the allowable frequency when the system frequency is out of the allowable frequency. The FR event simulation server 100 can adjust the frequency through this frequency adjustment power amount.

The frequency adjustment power amount may be the amount of power discharged by at least one power resource r or the amount of power charged by at least one power resource r. As the demand for the power consumed by the at least one power resource r rises, the system frequency decreases and as the demand for the power consumed by the at least one power resource r decreases, the system frequency rises, The grid frequency can be adjusted as the power resource r charges or discharges the power.

In particular, if the power demand of the at least one power resource r increases and the system frequency of the power system decreases, at least one power resource r may discharge power to restore the system frequency to the allowed frequency. In this case, since at least one power resource r has an effect as if the demand is reduced, the system frequency of the power system can be increased by the discharged power. Conversely, if the power demand of the at least one power resource r decreases and the system frequency of the power system rises, then at least one power resource r may be used to further charge the power have. In this case, the power charged by the at least one power resource r has the same effect as if the demand rises, so that the system frequency of the power system can rise.

The FR event simulation server 100 can pre-select a power resource r capable of participating in the FR market through a simulation that issues the FR event to at least one power resource r without actually adjusting the system frequency. That is, the FR event simulation server 100 generates and transmits an FR event to at least one power resource r, and determines whether at least one power resource r is in a state capable of discharging or charging electric power according to the FR event It is possible to virtually simulate such that the system frequency is adjusted by monitoring the response speed and the like of at least one power resource r. Therefore, the FR event simulation server 100 is capable of performing the FR response simulation training for the emergency situation requiring the frequency adjustment. In addition, the FR event simulation server 100 according to the present invention can previously select the power resources r capable of participating in the FR market, and secure the reliability of the demand resources that can participate in the FR market through the FR event simulation.

The FR event simulation server 100 may be a server for issuing a DR event for smooth power supply of the power system. The DR event may be an event that the at least one power resource r pre-agrees to reduce the consumption of the power supplied from the power systems E and L. When the FR event simulation server 100 issues a DR event, at least one power resource r may use less power demand in order to comply with a contract according to a DR event.

2 is a block diagram illustrating a configuration of an FR event simulation server according to an embodiment of the present invention.

2, the FR event simulation server 100 according to an embodiment of the present invention includes a power resource monitoring unit 110, an FR event generating unit 120, an FR event signaling unit 130, A reliability determination unit 150, a DR event notification determination unit 160, and a control unit 170. The control unit 170 may include a controller 140, a reliability determination unit 150, a DR event notification determination unit 160,

The power resource monitoring unit 110 may monitor status information of at least one power resource r consuming power supplied from the power system in real time. The state information includes at least one of a battery state of the power resource r, a charge / discharge ratio indicating a charging / discharging time, an FR event type indicating whether the FR event is automatically participated, an FR event type indicating a type of FR event to participate, An FR event attendance schedule indicating the time to participate in the actual FR event, and a charge / discharge selection for selecting charging or discharging of the battery.

The FR event generating unit 120 may generate an FR event requesting at least one power resource r to adjust the grid frequency to a permissible frequency when the grid frequency deviates from the allowable frequency. The FR event generation unit 120 can determine the frequency adjustment power amount necessary for adjusting the system frequency. The FR event may include a response time indicating when to participate according to the FR event, a response duration indicating a time period during which the operation should be performed, and a response capacity indicating the maximum output.

The FR event generating unit 120 may be connected to the power system to monitor whether the system frequency is within the allowable frequency range, lower than the allowable frequency, or higher than the allowable frequency. The FR event generating unit 120 may set the amount of power to be supplied from the outside to increase the frequency when the system frequency is lower than the allowable frequency as the frequency adjusting power amount. Conversely, when the system frequency is higher than the allowable frequency, the FR event generator 120 can set the amount of power to be discharged to the outside as the frequency adjustment power amount in order to lower the frequency.

The FR event signaling unit 130 may transmit the FR event with at least one power resource r. The FR event signaling unit 130 may transmit the FR event based on whether the FR event is set in the state information of at least one power resource r. The FR event signaling unit 130 transmits an FR event when the state information of at least one power resource r is set to indicate whether a participant such as &quot; participation &quot; or &quot; Opt in &quot; . If the state information of the at least one power resource (r) indicates that the FR event is not participating in the FR event or the do not wish to participate, such as &quot; Opt out &quot; It may not transmit.

The FR event simulation unit 140 can simulate whether at least one power resource r can participate in the FR event. The FR event simulation unit 140 can simulate whether at least one power resource r can perform an operation according to the FR event based on the power resource r state information of the at least one power resource r . The FR event simulation unit 140 can determine whether at least one power resource r can perform an operation according to the response time, the response period, and the response capacity. The FR event simulation unit 140 can monitor the status information of at least one power resource r in real time and simulate using the collected information.

The FR event simulation unit 140 may transmit information on the success or failure of the FR event so that the reliability determination unit 150, which will be described later, when the power resource r succeeds in the FR event, generates a report. The FR event simulation unit 140 transmits information on the failure or failure of the FR event so that the power resource monitoring unit 110 checks the state information of the power resource r again when the power resource r fails the FR event . That is, when the FR event fails, the FR event simulation unit 140 may reset the FR event target to issue an FR event.

In one embodiment, the FR event simulation unit 140 may classify an FR event into a primary FR event and a secondary FR event. FR events can be divided into primary FR events and secondary FR events, depending on response time, response duration, and response capacity. For example, a Primary FR event should be able to sustain a power source (r) participating in FR events within 10 seconds and lasting at least 20 seconds, and a Secondary FR event should be a power resource (r) participating in FR events. May respond in less than 30 seconds and be able to sustain an output of at least 30 minutes.

The reliability determining unit 150 may generate the FR event report to determine the reliability of at least one power resource r. The reliability determining unit 150 may monitor the simulation process of at least one power resource r according to the result of the FR event simulation unit 140 and analyze the result to generate an FR event report. The FR event report includes information on the success or failure of the FR event performed by the FR event simulation unit 140 and the response time, response period, and response capacity of the power resource r according to the FR event during the simulation May be the result.

The reliability determining unit 150 can predict whether or not at least one power resource r can participate in the actual situation FR event based on the FR event report. Actual situation The FR event may be an event to actually adjust the grid frequency, unlike the FR event that is virtually performed in the simulation. The reliability determining unit 150 may determine the reliability of each of the at least one power resource r based on a predetermined determination criterion.

The reliability determining unit 150 can estimate that the highly reliable power resource r can be supplied with the required frequency adjustment power amount at a required time. Accordingly, the present invention can quickly and accurately adjust the system frequency by preferentially issuing the actual situation FR event with a highly reliable power resource r when it is necessary to adjust the system frequency.

In one embodiment, the FR event simulation unit 140 may classify a power resource r suitable for each of the Primary FR and Secondary FR based on the FR event report for at least one power resource r. When the FR event simulation unit 140 classifies an FR event into a primary FR event and a secondary FR event, the reliability determining unit 150 compares at least one power resource r with a reliability according to a primary FR event and a secondary FR It can be determined by dividing by the reliability according to the event, and the reliability data can be stored. Accordingly, the FR event simulation server 100 according to an embodiment of the present invention can more finely and accurately adjust the system frequency.

In another embodiment, when the reliability of at least one power resource r is higher than a predetermined reliability, the reliability determining unit 150 may determine that the FR resource (r) Can be set as an execution group. That is, the reliability determining unit 150 may perform reliability grouping for grouping the reliable power resources r among the at least one power resource r. Accordingly, the present invention is advantageous in that the system frequency can be adjusted more quickly when an actual situation FR event is issued.

The DR event notification deciding unit 160 may determine whether or not the DR event has been issued. The DR event notification deciding unit 160 may stop the simulation if it is determined that the DR event has been issued. The DR event notification deciding unit 160 may continuously monitor whether or not a DR event is issued during the execution of the FR event simulation server 100 and stop the simulation when a DR event is issued. In other words, the FR event simulation server 100 according to the present invention can normally issue an FR event to perform a simulation, and stop the simulation when a DR event is issued. Therefore, the FR event simulation server 100 according to an embodiment of the present invention can efficiently manage at least one power resource r by simulating FR events without affecting DR events while observing DR events. There is an advantage.

The control unit 170 can control each configuration of the FR event simulation server 100 to issue an FR event and simulate at least one power resource r according to the FR event to determine reliability through the simulation result.

3 is a flowchart of a FR event simulation method (SlOO) according to an embodiment of the present invention.

Referring to FIG. 3, the FR event simulation method S100 according to an embodiment of the present invention includes a DR event notification determination step S110, a power resource monitoring step S120, an FR event generation step S130, An instruction step S140, an FR event simulation step S150, and a reliability determination step S160.

The DR event notification decision step S110 may include determining whether at least one power resource r consuming the power supplied from the power system has issued a DR (Demand response) event, which is prearranged to reduce power consumption, It can be judged. If it is determined that the DR event has been issued (S110), the simulation may be stopped. Although FIG. 3 shows that the DR event notification decision step S110 is performed at the beginning of the FR event simulation method S100, the DR event notification decision step S110 is continuously performed in each step of the present invention If it is determined that the DR event is issued, the FR event simulation can be stopped. The DR event notification decision step S110 may be performed by the DR event notification determination unit 160. [ Therefore, the FR event simulation method (S100) according to the present invention is advantageous in that at least one power resource (r) can be efficiently managed by simulating FR events without affecting DR events while observing DR events .

The power resource monitoring step S120 may monitor the status information of at least one power resource r consuming the power supplied from the power system in real time. The power resource monitoring step S120 may be performed by the power resource monitoring unit 110 described above. The power resource monitoring unit 110 may monitor status information of at least one power resource r consuming power supplied from the power system in real time. The state information includes at least one of a battery state of the power resource r, a charge / discharge ratio indicating a charging / discharging time, an FR event type indicating whether the FR event is automatically participated, an FR event type indicating a type of FR event to participate, An FR event attendance schedule indicating the time to participate in the actual FR event, and a charge / discharge selection for selecting charging or discharging of the battery.

The FR event generation step S130 may include a step of determining a frequency adjustment power amount necessary for adjusting the system frequency to the allowable frequency when the system frequency is out of the allowable frequency, Lt; RTI ID = 0.0 &gt; FR &lt; / RTI &gt; The FR event generating step (S130) may be performed by the FR event generating unit 120 described above.

The FR event announcement step S140 may transmit the FR event to the at least one power resource r. The FR event announcement step S140 may be performed by the FR event notification unit 130 described above.

The FR event simulation step S150 may include simulating whether the at least one power resource r can perform an operation according to the FR event based on the power resource status information of the at least one power resource r can do. The FR event simulation step S150 may be performed by the FR event simulation unit 140 described above.

The reliability determination step S160 may generate an FR event report that monitors the simulation process of at least one power resource r and analyzes the result according to the result of the FR event simulation step S150. The reliability determination step S160 may predict based on the FR event report whether the at least one power resource r can participate in an actual situation FR event. The reliability determination step S160 may determine the reliability of at least one power resource r as a score. Accordingly, the present invention can quickly and accurately adjust the system frequency by preferentially issuing the actual situation FR event with a highly reliable power resource r when it is necessary to adjust the system frequency.

In one embodiment, the FR event simulation step S150 may classify the power resource r suitable for each of the Primary FR and the Secondary FR based on the FR event report for at least one power resource r. In the FR event simulation step S150, when the FR event is classified into the primary FR event and the secondary FR event, the reliability determination step S160 determines at least one power resource r as the reliability according to the primary FR event and the secondary FR It can be determined by dividing it by the reliability according to the event. Accordingly, the FR event simulation method (S100) according to the present invention can more finely and accurately adjust the system frequency.

In another embodiment, the reliability determination step (S160) includes determining that the FR resource (r) is higher than the predetermined reliability if the reliability of the at least one power resource (r) Can be set as an execution group. That is, the reliability determination step S160 may perform reliability grouping to group the reliable power resources r among the at least one power resource r. Accordingly, the present invention is advantageous in that the system frequency can be adjusted more quickly when an actual situation FR event is issued.

The present invention has been described in detail with reference to the preferred embodiments shown in the drawings. These embodiments are to be considered as illustrative rather than limiting, and should be considered in an illustrative rather than a restrictive sense. The true scope of protection of the present invention should be determined by the technical idea of the appended claims rather than the above description. Although specific terms are used herein, they are used for the purpose of describing the concept of the present invention only and are not used to limit the scope of the present invention described in the claims or the claims. Each step of the present invention need not necessarily be performed in the order described, but may be performed in parallel, selectively, or individually. It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. It is to be understood that the equivalents include all components that are invented in order to perform the same function irrespective of the currently known equivalents as well as the equivalents to be developed in the future.

100: FR event simulation server 110: Power resource monitoring unit
120: FR event generating unit 130: FR event notification unit
140: FR event simulation unit 150:
160: DR event notification decision unit 170:
E: Power generation facility L: Line
r: Power resources

Claims (12)

1. A frequency regulating (FR) event simulation method for performing a simulation of adjusting a system frequency of a power system,
A power resource monitoring step of monitoring status information of at least one power resource consuming power supplied from the power system in real time;
Generating an FR event for determining an amount of frequency adjustment power necessary to adjust the system frequency to the allowable frequency when the system frequency is out of the allowable frequency and generating an FR event requesting the frequency adjustment power amount as the at least one power resource step;
An FR event announcement step of transmitting the FR event to the at least one power resource;
Simulating an FR event simulating that said at least one power resource can perform an operation in accordance with said FR event based on power resource status information of said at least one power resource; And
Generating a FR event report for monitoring a simulation process of the at least one power resource according to a result of the FR event simulation step and generating an FR event report for analyzing a result, And determining a reliability of the at least one power resource,
The reliability determination step may include:
And when the reliability of the at least one power resource is higher than the predetermined reliability, the power resource having the reliability higher than the predetermined reliability sets the FR event together with the FR event. The method according to claim 1,
Wherein the power resource status information comprises:
An FR event type indicating a type of an FR event to be participated in, an actual FR event, and a FR event type indicating a type of an FR event to be participated in. An FR event participation schedule indicating a time for which the battery is to be charged, and a charge / discharge selection for selecting the charging or discharging of the battery. delete The method according to claim 1,
The reliability determination step may include:
And classifying the power resources satisfying the response time, the response duration, and the response capacity of each of the primary FR and the secondary FR based on the FR event report for the at least one power resource. delete The method according to claim 1,
The FR event simulation method includes:
Further comprising a step of determining whether or not a DR event has been issued to determine whether at least one power resource consuming power supplied from the power system has issued a DR (Demand response) event,
And stopping the simulation if it is determined that the DR event has been issued. 1. An FR event simulation server for performing a simulation to adjust a system frequency of a power system,
A power resource monitoring unit for monitoring in real time status information of at least one power resource consuming power supplied from the power system;
Generating an FR event for determining an amount of frequency adjustment power necessary to adjust the system frequency to the allowable frequency when the system frequency is out of the allowable frequency and generating an FR event requesting the frequency adjustment power amount as the at least one power resource part;
An FR event notification unit for transmitting the FR event to the at least one power resource;
An FR event simulation unit that simulates whether the at least one power resource can perform an operation according to the FR event based on power resource status information of the at least one power resource; And
Generating a FR event report for monitoring a simulation process of the at least one power resource according to a result of the FR event simulation unit and generating at least one power resource based on the FR event report, And determining a reliability of the at least one power resource,
The reliability determining unit may determine,
When the reliability of the at least one power resource is higher than the predetermined reliability, the power resource having the reliability higher than the predetermined reliability sets the FR event together with the FR event. 8. The method of claim 7,
Wherein the power resource status information comprises:
An FR event type indicating a type of an FR event to be participated in, an actual FR event, and a FR event type indicating a type of an FR event to be participated in. An FR event participation schedule indicating a time for which the battery is to be charged, and a charge / discharge selection for selecting charging or discharging of the battery. delete 8. The method of claim 7,
The reliability determining unit may determine,
And classifies a power resource that satisfies a response time, a response duration, and a response capacity of each of a primary FR and a secondary FR based on the FR event report for the at least one power resource. delete 8. The method of claim 7,
The FR event simulation server includes:
Further comprising a DR event notification determining unit configured to determine whether or not the at least one power resource has issued a DR event in advance to reduce consumption of power supplied from the power system,
And stops the simulation if it is determined that the DR event has been issued.

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