KR102570917B1 - Apparatus for controlling output of ess for load management of transmission lines and method thereof - Google Patents

Abstract

The present invention relates to an ESS output control device for load management of a transmission line, which receives load factor (LF) information of a transmission line and output (P _ESS ) information of an ESS from a power storage system (ESS) and state of charge information (SOC) input unit; Using the load factor (LF) information of the transmission line, it is determined whether or not the overload is exceeded considering the heavy load or assumed failure of the transmission line, and also the output (P _ESS ) information and charge status information (SOC) from the power storage system (ESS) a determination unit for determining whether an output control of an electric power storage system (ESS) is necessary and whether an SOC management is necessary by using information; a calculation unit that calculates an output adjustment value to control the output of the power storage system (ESS) by a predetermined equation using the data received from the input unit and the determination unit; and a control unit controlling the output by providing the calculated output adjustment value to the power storage system (ESS).

Description

ESS output control device and method for power transmission line load management

The present invention relates to an ESS output control device and method for load management of a transmission line, and more particularly, to an ESS (Energy Storage System) according to a specific overload that occurs when a heavy load occurs in a transmission line or an assumed failure in a power system. It relates to an ESS output control device and method for load management of a transmission line, which can improve voltage stability by controlling power flow by changing the output of ) and eliminating overload.

Currently, research on large-capacity energy storage systems (ESS) is being actively conducted, and in accordance with the global trend of smart grids, power storage systems (ESS) are expanding and distributing to the entire power system along with the increase in new and renewable energy generation. will be operated.

However, the trends of concentrated load, long-distance transmission, continuous load increase, and concentrated large-scale power generation complex, which are the characteristics of the domestic power system, have caused voltage instability and voltage collapse ( Voltage collapse) is acting as a direct or indirect factor.

Accordingly, even in the domestic power system, the use of relatively cheap non-metropolitan power generation is limited by the voltage stability limit, and the amount of power available for use in the metropolitan area is used as a measure of economic operation of the system. Therefore, the voltage stability limit of the metropolitan area has a serious impact on the stable and efficient operation of the electricity market, and it is urgently required to establish countermeasures in terms of voltage stability.

On the other hand, the amount of current flowing through the transmission line should not exceed the installed capacity of the transmission line.

In addition, considering the N-1 or N-2 assumed failure by the grid code, which is a reliability standard, even if a transmission line 1 or 2 line failure occurs, the amount of current on the remaining transmission line exceeds the facility capacity and excessive overload ( 150% of facility capacity) is stipulated not to occur.

In addition, unlike conventional thermal and hydroelectric power generation, the amount of output cannot be controlled as much as desired, is irregular, and has a low utilization rate. There is a problem in that system reinforcement is excessive compared to the actual transmission line utilization rate.

Therefore, in order to solve the problem of the uncertainty of the output of new and renewable power and the inefficiency of reinforcing related facilities such as transmission lines, it is necessary to control the load factor of transmission lines in consideration of assumed failures in real time, that is, through power flow control. There is a need for a device and method capable of resolving an overload exceeding a specific value of a transmission line when considering a heavy load or an assumed failure of a furnace.

The background art of the present invention is disclosed in Republic of Korea Patent Publication No. 10-2020-0061201 (2018.11.23.).

According to one aspect of the present invention, the present invention was created to solve the above problems, and ESS (Energy Storage System, power storage) An object of the present invention is to provide an ESS output control device and method for load management of a transmission line, which can improve voltage stability by controlling power flow by changing the output of a system) and eliminating overload.

ESS output control device for load management of transmission line according to an aspect of the present invention, load factor (LF) information of transmission line and output (P _ESS ) information of ESS from power storage system (ESS) and state of charge information (SOC) an input unit that receives input; Using the load factor (LF) information of the transmission line, it is determined whether or not the overload is exceeded considering the heavy load or assumed failure of the transmission line, and also the output (P _ESS ) information and charge status information (SOC) from the power storage system (ESS) a determination unit for determining whether an output control of an electric power storage system (ESS) is necessary and whether an SOC management is necessary by using information; a calculation unit that calculates an output adjustment value to control the output of the power storage system (ESS) by a predetermined equation using the data received from the input unit and the determination unit; and a control unit controlling the output by providing the calculated output adjustment value to the power storage system (ESS).

In the present invention, the load factor (LF) is characterized in that it includes a load factor of the transmission line in a normal state or a load factor of the transmission line considering an assumed failure.

In the present invention, the determination unit compares the input load factor (LF) with a designated specific value (A), and if the comparison result, LF>A, the power storage system by using a predetermined equation through a calculation unit (ESS) output adjustment value ( ), and through the control unit, the calculated output adjustment value of the power storage system (ESS) ( ) to control the output of the power storage system (ESS), but the designated specific value (A) is a value that serves as a criterion for determining a specific overload considering a specific heavy load or assumed failure of a transmission line, and the output adjustment value ( ) is characterized in that it cannot exceed the rated facility capacity value of the power storage system (ESS).

In the present invention, the predetermined equation is In case of is the output variation value, Is a gain value that determines output control variability, The value can be positive or negative depending on the direction of current flowing on the transmission line. If the current on the transmission line is in the direction of ESS installation, If the value is positive, the output of ESS is increased in discharge mode, and the current of the transmission line is in the opposite direction of ESS installation. It is characterized in that the value is a negative number and has a value of reducing the output of the ESS or charging mode.

In the present invention, as a result of comparing the load factor (LF) and the designated specific value (A), LF>A is not, and the output value of the power storage system (ESS) ( ) is not 0, the output adjustment value ( ), and through the control unit, the calculated output adjustment value of the power storage system (ESS) ( ) to control the output of the corresponding power storage system (ESS).

In the present invention, the predetermined equation is In case of is a gain value that determines output control variability, The value can be positive or negative depending on the direction of current flowing on the transmission line. If the current on the transmission line is in the direction of ESS installation, If the value is positive and the current of the transmission line is in the opposite direction of ESS installation, The value is negative, but in this case value is having a value less than has a relationship, and the output change value ( ) Value is the output value of the power storage system (ESS) ( ) is characterized in that it cannot exceed.

In the present invention, the output value of the power storage system (ESS) ( ) is 0 and ( ), the range in which the state of charge information (SOC) of the power storage system (ESS) is designated ( ) is not satisfied, the control unit controls the output for SOC management of the power storage system (ESS), If , the power storage system (ESS) is discharged until the SOC is less than the designated maximum SOC value (a), , it is characterized in that the charging of the power storage system (ESS) is performed until the SOC becomes greater than the designated SOC minimum value (b).

According to another aspect of the present invention, an ESS output control method for load management of a transmission line includes information on the load factor (LF) of the transmission line and output (P _ESS ) information of the ESS from the power storage system (ESS) and state of charge information (SOC) ) Receiving an input; The judgment unit uses the load factor (LF) information of the transmission line to determine whether the transmission line is overloaded considering the heavy load or assumed failure, and also outputs from the power storage system (ESS) (P _ESS ) information and charging status information ( Determining whether an output control of an electric power storage system (ESS) is necessary and whether SOC management is necessary using SOC) information; calculating, by a calculation unit, an output adjustment value to control an output of an electric power storage system (ESS) by a predetermined equation using data received from the input unit and the determination unit; and providing, by a control unit, the calculated output adjustment value to a power storage system (ESS) to control the output.

In the present invention, the load factor (LF) is characterized in that it includes a load factor of the transmission line in a normal state or a load factor of the transmission line considering an assumed failure.

In the present invention, in the determining step, the determination unit compares the input load factor (LF) with a designated specific value (A), and if the comparison result, LF>A, through the operation unit, a predetermined mathematical expression Output adjustment value of the power storage system (ESS) using ), and through the control unit, the calculated output adjustment value of the power storage system (ESS) ( ) to control the output of the power storage system (ESS), but the designated specific value (A) is a value that serves as a criterion for determining a specific overload considering a specific heavy load or assumed failure of a transmission line, and the output adjustment value ( ) is characterized in that it cannot exceed the rated facility capacity value of the power storage system (ESS).

In the present invention, the predetermined equation is In case of is the output variation value, Is a gain value that determines output control variability, The value can be positive or negative depending on the direction of current flowing on the transmission line. If the current on the transmission line is in the direction of ESS installation, If the value is positive, the output of ESS is increased in discharge mode, and the current of the transmission line is in the opposite direction of ESS installation. It is characterized in that the value is a negative number and has a value of reducing the output of the ESS or charging mode.

In the present invention, as a result of comparing the load factor (LF) and the designated specific value (A), LF>A is not, and the output value of the power storage system (ESS) ( ) is not 0, the output adjustment value ( ), and through the control unit, the calculated output adjustment value of the power storage system (ESS) ( ) to control the output of the corresponding power storage system (ESS).

In the present invention, the predetermined equation is In case of is a gain value that determines output control variability, The value can be positive or negative depending on the direction of current flowing on the transmission line. If the current on the transmission line is in the direction of ESS installation, If the value is positive and the current of the transmission line is in the opposite direction of ESS installation, The value is negative, but in this case value is having a value less than has a relationship, and the output change value ( ) Value is the output value of the power storage system (ESS) ( ) is characterized in that it cannot exceed.

In the present invention, the output value of the power storage system (ESS) ( ) is 0 and ( ), the range in which the state of charge information (SOC) of the power storage system (ESS) is designated ( ) is not satisfied, the control unit controls the output for SOC management of the power storage system (ESS), If , the power storage system (ESS) is discharged until the SOC is less than the designated maximum SOC value (a), , it is characterized in that the charging of the power storage system (ESS) is performed until the SOC becomes greater than the designated SOC minimum value (b).

According to one aspect of the present invention, the present invention controls the power flow by changing the output of an ESS (Energy Storage System) according to a specific overload that occurs when a heavy load occurs in a transmission line or an assumed failure in the power system , it is possible to improve voltage stability by eliminating overload.

1 is an example for explaining the concept of a power storage system (ESS) output control device for load management of a transmission line linked to a power system in order to relieve a specific overload in case of heavy load or assumed failure of a transmission line according to an embodiment of the present invention. do.
2 is an exemplary view showing a schematic configuration of a power storage system (ESS) output control device for load management of a transmission line according to an embodiment of the present invention.
3 is a flowchart for explaining a power storage system (ESS) output control method for load management of a transmission line according to an embodiment of the present invention.
FIG. 4 is an exemplary view for more specifically explaining a method of controlling an output of a power storage system when a specific overload is not designated in case of heavy load or assumed failure in FIG. 3; FIG.
FIG. 5 is another exemplary diagram for explaining in more detail a method for controlling an output of a power storage system when a specific overload is not designated in case of heavy load or assumed failure in FIG. 3; FIG.

Hereinafter, an embodiment of an ESS output control apparatus and method for load management of a transmission line according to the present invention will be described with reference to the accompanying drawings.

In this process, the thickness of lines or the size of components shown in the drawings may be exaggerated for clarity and convenience of description. In addition, terms to be described later are terms defined in consideration of functions in the present invention, which may vary according to the intention or custom of a user or operator. Therefore, definitions of these terms will have to be made based on the content throughout this specification.

1 is an exemplary view for explaining the concept of a power storage system (ESS) output control device linked to a power system in order to relieve a specific overload in case of heavy load or assumed failure of a transmission line according to an embodiment of the present invention.

Referring to FIG. 1 , a power storage system (ESS) is installed in a transmission line to manage a load factor in a power system.

At this time, the ESS (Power Storage System) may be installed only in one area or may be installed in multiple units in two areas.

In this power system configuration, when the transmission line to be controlled exceeds a specific value or more specified as a heavy load or an overload considering assumed failure, in this embodiment, by controlling the output of the power storage system (ESS), the central part of the transmission line Overload considering under or assumed failure is resolved below the designated specific value.

At this time, if the power flow direction of the transmission line is the direction in which the power storage system (ESS) is installed, the power storage system (ESS) serves as a power generation source in a discharge mode, and the power flow direction of the transmission line is the power storage system (ESS) If installed in the opposite direction, the power storage system (ESS) acts as a load in charging mode.

2 is an exemplary view showing a schematic configuration of a power storage system (ESS) output control device for load management of a transmission line (ie, for resolving a specific overload in case of heavy load or assumed failure) according to an embodiment of the present invention.

Referring to FIG. 2 , the power storage system (ESS) output control device for load management of a transmission line according to the present embodiment includes an input unit 110, a determination unit 120, a calculation unit 130, and a control unit 140. do.

The input unit 110 receives load factor (LF) information of the transmission line, output (P _ESS ) information of the ESS from the power storage system (ESS), and charge state information (SOC).

The determination unit 120 determines whether an overload is exceeded in consideration of a heavy load or assumed failure of the transmission line by using load factor (LF) information of the transmission line.

In addition, the determination unit 120 determines whether output control of the power storage system (ESS) is necessary and whether SOC management is required by using the output (P _ESS ) information and the state of charge information (SOC) from the power storage system (ESS) do.

The calculation unit 130 uses the input data (eg, LF, P _ESS , SOC, whether overload is exceeded, whether output control of ESS is required, whether SOC management is required, etc.) ) output adjustment value to control the output ( ) is computed.

The control unit 140 controls the calculated value (eg, output adjustment value ( )) is provided to the power storage system (ESS) to control the output.

3 is a flowchart for explaining a power storage system (ESS) output control method for load management (ie, for resolving a specific overload in case of heavy load or assumed failure) of a power transmission line according to an embodiment of the present invention.

Referring to FIG. 3 , the power storage system (ESS) output control device for load management of a transmission line according to an embodiment of the present invention is a device specified through an input unit 110 (eg, SCADA (Supervisory Control And Data Acquisition) or The load factor (LF) information of the transmission line subject to power flow control is received from the load factor acquisition device of the transmission line) (not shown), and the output information of the power storage system (ESS) ( ) and state of charge information (SOC) are input (ST100).

Here, the load factor LF includes a load factor of a transmission line in a normal state or a load factor of a transmission line considering an assumed failure. In addition, the load factor of the transmission line considering the assumed failure can obtain information from a system that performs real-time system analysis (e.g., TSM of SCADA or CA (Contingency Analysis Tool, Contingency Analysis Tool) of EMS), and the received transmission line Through the information, it is possible to obtain information as a result of calculating the load factor of the remaining line of the transmission line considering the assumed failure. The load factor can be selected according to the user's purpose.

In addition, the power storage system (ESS) output control device for load management of the transmission line compares the input load factor (LF) with the specified specific value (A) through the determination unit 120, and if LF>A (example of ST201 ) Go to step ST301, and if LF>A, go to step ST202 (NO in ST201).

When going from step ST201 to step ST301, through the operation unit 130, a predetermined equation ( ), the output adjustment value of the power storage system (ESS) ( ) is calculated (ST301).

Here, the designated specific value (A) is a standard value for determining a specific heavy load or a specific overload considering an assumed failure of a transmission line, and this value can be determined according to a user's purpose. Also in the above equation Is a gain value that determines output control variability. remind The value may be a positive or negative number depending on the direction of the current flowing through the transmission line. In FIG. 1, if the current of the transmission line is in the direction of the ESS installation If the value is positive, the output of ESS is increased in discharge mode, and the current of the transmission line is in the opposite direction of ESS installation. As the value is negative, it has the value of reducing the output of ESS or charging mode. In addition, the output adjustment value ( ) value cannot exceed the value of the rated facility capacity of the power storage system (ESS).

As described above, the output adjustment value ( ) is calculated, in step ST401, through the control unit 140, the calculated output adjustment value of the power storage system (ESS) ( ) to control the output of the corresponding power storage system (ESS) (ST401).

In addition, when going from ST201 to ST202, the output value of the power storage system (ESS) received through the determination unit 120 ( ) is 0, If it is, it goes to step ST203, Otherwise, it goes to step ST302 (ST202).

Accordingly, when going from step ST201 to step ST302, through the arithmetic unit 130, a predetermined equation ( ), the output adjustment value of the power storage system (ESS) ( ) is calculated (ST302).

here Is a gain value that determines output control variability.

remind The value may be a positive or negative number depending on the direction of the current flowing through the transmission line. In FIG. 1, if the current of the transmission line is in the direction of the ESS installation If the value is positive and the current of the transmission line is in the opposite direction of ESS installation, value has a negative number. At this time value is having a value less than has a relationship of and value is cannot exceed

As described above, the output adjustment value ( ) is calculated, in step ST402, through the control unit 140, the calculated output adjustment value of the power storage system (ESS) ( ) to control the output of the corresponding power storage system (ESS) (ST402).

In addition, when the step ST202 is passed to the step ST203, the input state of charge information (SOC) of the power storage system (ESS) through the determination unit 120 is within the specified range ( ), the state of charge information (SOC) of the power storage system (ESS) is within the specified range ( ) is satisfied, the ESS output control performance is terminated, and the specified range ( ) is not satisfied, the process goes to step ST403 (ST203).

In step ST403, the control unit 140 controls the output for SOC management of the power storage system (ESS) (ST403).

for example If it is, the power storage system (ESS) is discharged until the SOC is less than the value a (ie, the maximum value of the specified SOC), , the power storage system (ESS) is charged until the SOC becomes greater than the b value (ie, the specified SOC minimum value).

The provided method is repeatedly performed to control the power storage system (ESS) to resolve a specific overload considering a heavy load or assumed failure of a transmission line.

FIG. 4 is an exemplary diagram for more specifically explaining a method of controlling an output of a power storage system when a specific overload is not designated in case of heavy load or assumed failure in FIG. 3 .

Referring to FIG. 4, the power storage system (ESS) output control device for load management of the transmission line according to the present embodiment receives the load factor (LF) of the transmission line subject to power flow control and overloads the transmission line in case of heavy load or assumed failure. is compared with the value (A) that is the criterion for determining, and the compared value ( ) is the gain value ( ) output variation value proportional to ( ) is calculated, and the calculated output change value ( ) and the output value of the power storage system (ESS) ( ) is the sum of the output adjustment values ( ) to control the output of the power storage system (ESS).

At this time, the output adjustment value of the power storage system (ESS) ( ) is the maximum output value (by the rated capacity of the power storage system (ESS) ) to the minimum output value ( ) is limited to

FIG. 5 is another exemplary view for more specifically explaining a method of controlling an output of a power storage system when a specific overload is not specified in case of heavy load or assumed failure in FIG. 3 .

Referring to FIG. 5, the power storage system (ESS) output control device for load management of the transmission line according to the present embodiment receives the load factor (LF) of the transmission line subject to power flow control and overloads in case of heavy load or assumed failure of the transmission line. is compared with the value (A) that is the criterion for determining, and the compared value ( ) is the gain value ( ) output variation value proportional to ( ) is calculated, and the calculated output change value ( ) and the output value of the power storage system (ESS) ( ) is the sum of the output adjustment values ( ) to control the output of the power storage system (ESS).

At this time, the output adjustment value of the power storage system (ESS) ) is the maximum value (by the power storage system (ESS) rated capacity) ) to the minimum value ( ), where the minimum value ( ) is zero.

As described above, the present embodiment controls the power flow by changing the output of the ESS (Energy Storage System) according to the specific overload that occurs when a heavy load occurs on a transmission line or an assumed failure in the power system, thereby solving the overload This has the effect of improving voltage stability.

In addition, as a result, it is possible to increase the connection of new and renewable power by considering the actual amount of new and renewable power generation without limiting the connection of new and renewable power collectively by the capacity of the generator facility, and to increase the acceptability limit of this new and renewable power connection. has the effect of enabling economical and stable operation in terms of the power system by efficiently reducing system reinforcement of transmission lines for renewable energy and enabling stable operation of transmission lines while satisfying reliability standards.

As described above, the present invention has been described with reference to the embodiments shown in the drawings, but this is only exemplary, and those skilled in the art can make various modifications and other equivalent embodiments. will understand that Therefore, the technical protection scope of the present invention should be determined by the claims below. Implementations described herein may also be embodied in, for example, a method or process, an apparatus, a software program, a data stream, or a signal. Even if only discussed in the context of a single form of implementation (eg, discussed only as a method), the implementation of features discussed may also be implemented in other forms (eg, an apparatus or program). The device may be implemented in suitable hardware, software and firmware. The method may be implemented in an apparatus such as a processor, which is generally referred to as a processing device including, for example, a computer, microprocessor, integrated circuit or programmable logic device or the like. Processors also include communication devices such as computers, cell phones, personal digital assistants ("PDAs") and other devices that facilitate communication of information between end-users.

110: input unit
120: judgment unit
130: calculation unit
140: control unit
ESS: Power storage system

Claims (14)

An input unit that receives load factor (LF) information of the transmission line, output (P _ESS ) information of the ESS from the power storage system (ESS), and state-of-charge information (SOC);
Using the load factor (LF) information of the transmission line, it is determined whether or not the overload is exceeded considering the heavy load or assumed failure of the transmission line, and also the output (P _ESS ) information and charge status information (SOC) from the power storage system (ESS) a determination unit for determining whether an output control of an electric power storage system (ESS) is necessary and whether an SOC management is necessary by using information;
a calculation unit that calculates an output adjustment value to control the output of the power storage system (ESS) by a predetermined equation using the data received from the input unit and the determination unit; and
A controller for providing the calculated output adjustment value to a power storage system (ESS) to control the output; including,
The judge,
Compare the load factor (LF) with a designated specific value (A),
As a result of comparing the load factor (LF) and the designated specific value (A), LF>A is not,
Output value of the power storage system (ESS) ( ) is not zero,
Through the calculation unit, the output variation value ( ) is reflected in the output adjustment value of the power storage system (ESS) ( ) is calculated,
Through the control unit, the output adjustment value of the power storage system (ESS) ( ) ESS output control device for transmission line load management, characterized in that for controlling the output of the corresponding power storage system (ESS).
The method of claim 1, wherein the load factor (LF) is,
An ESS output control device for load management of a transmission line, characterized in that it includes a transmission line load factor in a normal state or a load factor of a transmission line considering an assumed failure.
The method of claim 1, wherein the determination unit,
As a result of the comparison, if LF>A,
Through the calculation unit, the output adjustment value of the power storage system (ESS) using a predetermined equation ( ) is calculated,
Through the control unit, the output adjustment value of the power storage system (ESS) ( ) to control the output of the corresponding power storage system (ESS),
The designated specific value (A) is a value that is a criterion for determining a specific overload considering a specific heavy load or assumed failure of a transmission line,
The output adjustment value ( ) is an ESS output control device for power transmission line load management, characterized in that it cannot exceed the rated facility capacity value of the power storage system (ESS).
The method of claim 1, wherein the predetermined equation is If
remind is the output variation value,
remind Is a gain value that determines output control variability,
A in the above equation is a value that is a criterion for determining a specific overload considering a specific heavy load or assumed failure of a transmission line,
remind The value can be positive or negative depending on the direction of current flowing on the transmission line. If the current on the transmission line is in the direction of ESS installation, If the value is positive, the output of ESS is increased in discharge mode, and the current of the transmission line is in the opposite direction of ESS installation. ESS output control device for transmission line load management, characterized in that the value has a value of reducing the output of the ESS to a negative number or a charging mode value.
delete According to claim 1,
The above predefined formula If
remind is a gain value that determines output control variability,
remind The value can be positive or negative depending on the direction of current flowing on the transmission line. If the current on the transmission line is in the direction of ESS installation, If the value is positive and the current of the transmission line is in the opposite direction of ESS installation, value is negative,
At this time value is having a value less than has a relationship of
A in the above equation is a value that is a criterion for determining a specific overload considering a specific heavy load or assumed failure of a transmission line,
remind Is a gain value that determines output control variability,
Output change value ( ) Value is the output value of the power storage system (ESS) ( ) ESS output control device for transmission line load management, characterized in that it cannot exceed.
According to claim 1,
Output value of the power storage system (ESS) ( ) is 0 and ( ), the range in which the state of charge information (SOC) of the power storage system (ESS) is designated ( ) is not satisfied,
The control unit controls the output for SOC management of the power storage system (ESS),
If , the power storage system (ESS) is discharged until the SOC is less than the designated maximum SOC value (a),
ESS output control device for power transmission line load management, characterized in that for performing charging of the power storage system (ESS) until the SOC becomes greater than the specified SOC minimum value (b).
Receiving, by an input unit, load factor (LF) information of the transmission line and output (P _ESS ) information of the ESS from the power storage system (ESS) and state of charge information (SOC);
The judgment unit uses the load factor (LF) information of the transmission line to determine whether the transmission line is overloaded considering the heavy load or assumed failure, and also outputs from the power storage system (ESS) (P _ESS ) information and charging status information ( Determining whether an output control of an electric power storage system (ESS) is necessary and whether SOC management is necessary using SOC) information;
calculating, by a calculation unit, an output adjustment value to control an output of an electric power storage system (ESS) by a predetermined equation using data received from the input unit and the determination unit; and
Controlling the output by providing the calculated output adjustment value to the power storage system (ESS); including,
In the judgment step,
The judge,
Compare the load factor (LF) with a designated specific value (A),
As a result of comparing the load factor (LF) and the designated specific value (A), LF>A is not,
Output value of the power storage system (ESS) ( ) is not zero,
Through the calculation unit, the output variation value ( ) is reflected in the output adjustment value of the power storage system (ESS) ( ) is calculated,
Through the control unit, the output adjustment value of the power storage system (ESS) ( ) ESS output control method for transmission line load management, characterized in that for controlling the output of the corresponding power storage system (ESS).
The method of claim 8, wherein the load factor (LF) is,
An ESS output control method for load management of a transmission line, characterized in that it includes a transmission line load factor in a normal state or a load factor of a transmission line considering an assumed failure.
The method of claim 8, wherein in the determining step,
The judge,
As a result of the comparison, if LF>A,
Through the calculation unit, the output adjustment value of the power storage system (ESS) using a predetermined equation ( ) is calculated,
Through the control unit, the output adjustment value of the power storage system (ESS) ( ) to control the output of the corresponding power storage system (ESS),
The designated specific value (A) is a value that is a criterion for determining a specific overload considering a specific heavy load or assumed failure of a transmission line,
The output adjustment value ( ) is an ESS output control method for power transmission line load management, characterized in that it cannot exceed the rated facility capacity value of the power storage system (ESS).
9. The method of claim 8, wherein the predetermined equation is If
remind is the output variation value,
remind Is a gain value that determines output control variability,
A in the above equation is a value that is a criterion for determining a specific overload considering a specific heavy load or assumed failure of a transmission line,
remind The value can be positive or negative depending on the direction of current flowing on the transmission line. If the current on the transmission line is in the direction of ESS installation, If the value is positive, the output of ESS is increased in discharge mode, and the current of the transmission line is in the opposite direction of ESS installation. ESS output control method for power transmission line load management, characterized in that the value has a value of reducing the output of the ESS to a negative number or a charging mode value.
delete According to claim 8,
The above predefined formula If
remind is a gain value that determines output control variability,
remind The value can be positive or negative depending on the direction of current flowing on the transmission line. If the current on the transmission line is in the direction of ESS installation, If the value is positive and the current of the transmission line is in the opposite direction of ESS installation, value is negative,
At this time value is having a value less than has a relationship of
A in the above equation is a value that is a criterion for determining a specific overload considering a specific heavy load or assumed failure of a transmission line,
remind Is a gain value that determines output control variability,
Output change value ( ) Value is the output value of the power storage system (ESS) ( ) ESS output control method for transmission line load management, characterized in that it cannot exceed.
According to claim 8,
Output value of the power storage system (ESS) ( ) is 0 and ( ), the range in which the state of charge information (SOC) of the power storage system (ESS) is designated ( ) is not satisfied,
The control unit controls the output for SOC management of the power storage system (ESS),
If , the power storage system (ESS) is discharged until the SOC is less than the designated maximum SOC value (a),
ESS output control method for power transmission line load management, characterized in that the charging of the power storage system (ESS) is performed until the SOC becomes greater than the specified SOC minimum value (b).

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