KR101758307B1 - Management method of a energy storage device - Google Patents

Abstract

The present invention discloses a method of operating an energy storage device, and it is an object of the present invention to provide a method and apparatus for estimating power generation amount of a renewable energy source, a power sale price, a power purchase price of an electric power company, Based on the SOC (State of Charge) operation range and the power generation efficiency information of the power generation system, the charge / discharge operation schedule of the energy storage device is determined. If the power generation system of the new and renewable energy source does not develop, This is because the energy resale of the new and renewable energy source is made at the optimal time, maximizing the profit generation by the resale of the electric power, The electric power stored in the electric power is discharged to maximize the profit of the electric power trading.

Description

[0001] The present invention relates to a method of operating an energy storage device,

The present invention relates to a technology for storing a renewable energy source such as wind power and solar energy. More particularly, the present invention relates to a technology for efficiently generating electricity from electricity trading through renewable energy sources stored in an energy storage device And more particularly, to a method of operating an energy storage device capable of maximizing power consumption.

Generally, the output of a renewable energy source such as wind and sunlight is stored in an energy storage device and then supplied to a grid system through a power conversion device. This is an operation scheduling of an energy storage device for micro grid independent operation, (Time Of Use) rate system, which is linked to wind power and solar power generators.

Considering operational scheduling of the energy storage device, there are many error factors and difficulties, such as a power generation forecast error, a load and power price error of a wind power and a solar power generator, and a state of charge (SOC) Accordingly, there is conventionally an operating system for modeling and determining operation scheduling according to characteristics of a power generation system associated with an energy storage device for storing the output of a renewable energy source.

However, in the case of an operating method for determining modeling and operation scheduling of a renewable energy source stored in a conventional energy storage device, there is no separate operation method for real-time pricing (RTP) and resale of electric power. There was no profit generation effect using renewable energy sources stored in energy storage devices.

SUMMARY OF THE INVENTION Accordingly, the present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a system and method for estimating power generation amount of a renewable energy source, a power purchase price, Discharge operation schedule of the energy storage device based on the state of charge range of the power generation system and the power generation efficiency information of the power generation system, and when the power generation system of the new and renewable energy source does not develop, By constructing a schedule for storing this in the energy storage device, it is possible to maximize the profit generation by reselling the power by allowing the resale of the power of the renewable energy source to be performed at the optimum time point and to save it in the energy storage device Energy storage device that discharges electricity to maximize profit of electricity trading To provide a method which would have its purpose.

According to an aspect of the present invention, there is provided a method of operating an energy storage device including generating information of a new and renewable energy source device and an energy storage device connected thereto, ; ≪ / RTI > The operation schedule of the energy storage device is configured according to the season and the usage time zone based on the information inputted from the first step so that the discharging operation of the renewable energy source charged in the energy storage device or the charging operation of the renewable energy source is performed A second step of performing power trading to the load side; And a second step of, when it is impossible to charge the renewable energy source in the energy storage device according to the charging / discharging operation schedule, receiving power from the power generation device of the power supply source and storing it in the energy storage device A third step of performing a charging operation to cause electric power to be transferred to the load side; .

Also, the power generation information in the first stage includes information on power generation predicted value of the renewable energy source power generation device, charging rate and charging / discharging efficiency information of the energy storage device, Price information for purchasing power of the renewable energy source, bid amount information of the power transaction, and power trading winning bid amount information.

The charge / discharge operation schedule is divided into a first season in spring and autumn, a second season in summer in winter, and a third season in winter in winter, and the first and second seasons are divided into (11:00 am to 12:00 am), the first intermediate load (09:00 am to 11:00 am), the first intermediate load (11:00 am to 12:00 am), the second intermediate load (13:00 pm to 17:00 pm) and a third intermediate load (17:00 pm to 23:00 pm), and the third season is divided into three periods (11:00 am - 12:00 am), the 12th intermediate load (11:00 am - 10:00 am), the 11th load (11:00 am - (12:00 pm to 17:00 pm), 12th peak load (17:00 pm to 20:00 pm), 13th medium load (20:00 pm to 22:00 pm), 13th peak load (22:00 pm to 23:00 pm) . .

As described above, the present invention can be applied not only to the predicted power generation amount of new and renewable energy sources per unit time, the electricity sales price, the electric power purchase price of the electric power company and the capacity of the energy storage device but also the SOC (State of Charge) Discharge operation schedule of the energy storage device is determined on the basis of the power generation efficiency information of the renewable energy source, and when the power generation system of the renewable energy source is not developed, a schedule of receiving the electric power of the KEPCO system and storing it in the energy storage device In this way, it is possible to maximize the profit generation by reselling the electric power by making the resale of the electric power of the new and renewable energy source at the optimum point, discharging electric power stored in the energy storage device at the time of high electric power price, As a result, it is possible to expect the effect of maximizing the profit of the company.

1 is a block diagram of a system for implementing an energy storage device operating method in accordance with an embodiment of the present invention.
FIG. 2 is a flow diagram illustrating a method of operating an energy storage device in accordance with an embodiment of the present invention. FIG.
3 is a graph showing a charge / discharge operation schedule of an energy storage device in the first and second season (spring / autumn, summer) according to an embodiment of the present invention.
FIG. 4 is a graph showing a charge / discharge operation schedule of an energy storage device according to the third season (winter) as an embodiment of the present invention. FIG.

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings.

FIG. 1 is a block diagram of a system for implementing an energy storage device operating method according to an embodiment of the present invention. Referring to FIG. 1, a new and renewable energy source device An energy storage device 200 connected to the renewable energy source power generation device 100 through a power line and charging / discharging a renewable energy source; (For example, KEPCO) generator 300 for supplying electric power generated by the load side 400 as a demand source and / or power of a renewable energy source stored in the energy storage device 200 .

Meanwhile, the energy storage device operating method implemented by the energy storage device operating system includes steps 1, 2, and 3 (S100) (S200) (S300) as shown in FIG.

The first step S100 is a step of inputting information to the operation server of the energy storage device 200 and is a step of generating information on the power generation of the renewable energy source power generation device 100 and the energy storage device And the market price information of the power used by the load side 400, which is a power usage destination of the power source generation device 300, while inputting price information for purchasing power of the renewable energy source at the power source, The bid amount information of the transaction, the information on the amount of power purchase, and the like.

Here, the power generation information includes power generation predicted power generation information of the renewable energy source power generation apparatus 100, charging rate of the energy storage device 200, and charging / discharging efficiency information.

The second step S200 configures the operation schedule S201 of the energy storage device 200 according to the season and the usage time period based on the information input from the first step S100 to charge the energy storage device 200 (S202) (S203) so that a power transaction (S204) to the load side (400) is performed.

In the third step S300, if it is impossible to charge the renewable energy source in the energy storage device 200 according to the charging / discharging operation schedule constituted from the second step S200, And then performs a substitute electric power charging operation for storing the electric power in the energy storage device 200 so that the power exchange to the load side 400 is performed.

That is, in the method of operating the energy storage device according to the embodiment of the present invention, as shown in FIGS. 1 to 4, in constructing the charge / discharge operation schedule of the energy storage device 200, , The second season of summer in summer, and the third season in winter, which is winter season.

3, the first and second seasons are divided into a first light load (23:00 pm - 09:00 am), a first intermediate load (09:00 am - (13:00 am to 17:00 pm), the third mid-load (12:00 am to 11:00 pm), the first peak load (11:00 am to 12:00 am) And load (17:00 pm to 23:00 pm).

As shown in FIG. 4, the third season is the 11th light load (23:00 pm - 09:00 am), the 11th middle load (09:00 am - 10:00 am) (12:00 am to 17:00 pm), the 12th maximum load (17:00 pm to 20:00 pm), the 13th intermediate load (12:00 am to 5:00 pm) 20:00 pm - 22:00 pm), and the 13th maximum load (22:00 pm - 23:00 pm).

3, the predicted value (kWh) of the power generation amount of the renewable energy source power generation apparatus 100 is set to be higher than the predicted power generation amount (kWh) of the renewable energy source power generation apparatus 100 (SOC < 90%) in which the first condition (kWh > 0) to be reduced and the charge rate (SOC) of the energy storage device 200 do not exceed a certain ratio (90% The energy storage device 200 is charged with the power of the renewable energy source and the power of the power source generator 300.

On the other hand, as shown in FIG. 3, when the predicted power generation amount (kWh) of the renewable energy source power generation apparatus 100 is less than the predicted value (kWh) of the renewable energy source power generation apparatus 100 If the first condition (kWh <0) and the second condition (SOC <90%) that the charging rate SOC of the energy storage device 200 does not exceed a certain rate (90%) are satisfied, The power of the power source generator 300 is charged because the renewable energy source generator 100 can not be charged with electricity.

In addition, as shown in FIG. 3, in the case of the use time zone (23:00 pm - 09:00 am) (12:00 am - 13:00 pm) according to the first light load and the second intermediate load of the second season, The first condition (kWh &gt; 0) in which the predicted power generation amount (kWh) of the renewable energy source power generation device 100 becomes small and the first condition (kWh &gt; 0) in which the fuel storage rate SOC of the energy storage device 200 does not exceed a certain ratio (SOC &lt; 90%), the power of the renewable energy source and the power of the power source generator 300 are charged to the energy storage device 200.

On the other hand, as shown in FIG. 3, in the use time zone (from 23:00 pm to 09:00 am) (12:00 am to 13:00 pm) according to the first light load and the second intermediate load of the second season, A second condition (kWh <0) in which the electricity generation amount prediction value (kWh) of the original power generation device 100 is not present and a second condition (kWh <0) in which the SOC of the energy storage device 200 does not exceed a certain ratio SOC &lt; 90%), the power of the power source generator 300 is charged to the energy storage device 200.

As shown in FIG. 3, in the case of the use time zone (09:00 am - 11:00 am, 17:00 pm - 23:00 pm) according to the first and second intermediate loads of the first and second seasons, And power exchange to the load side 400 is performed according to the predicted value of the original power generation amount.

3, when the charging time (SOC) of the energy storage device 200 is lower than a certain rate (for example, 11:00 am to 12:00 am) according to the first maximum load of the first season (RTP_R1 &gt; RTP_R2) of a first condition (SOC &gt; 10%) exceeding 10% of the power sale price (RTP_R1) ) To discharge the renewable energy source.

As shown in FIG. 3, in the usage time zone (11:00 am to 12:00 am) according to the first maximum load of the first season, the first condition is satisfied and the power sale price (RTP_R1 (RTP_R1 &lt; RTP_R2) of the RTP_R2 (RTP_R2), the power exchange to the load side 400 is performed according to the predicted power generation amount of the renewable energy source.

Here, in the power selling price (RTP_R1) (RTP_R2), the power selling price of RTP_R1 means the selling price of power by time slot. That is, in the power sale price of RTP_R1 and RTP_R2, R1 is close to the starting point of power sale and R2 is away from the starting point of power sale.

3, when the charging time (SOC) of the energy storage device 200 is lower than a certain rate 10 (10:00 PM to 10:00 PM) according to the second maximum load of the first season (RTP_R1> RTP_R2) of the power sale price (RTP_R1) (RTP_R2) by time slot, the first condition (SOC> 10% So that power exchange to the load side 400 is performed.

On the other hand, in the case of the second condition satisfying the above-mentioned first condition and satisfying the comparison information (RTP_R1 <RTP_R2) of the power selling price (RTP_R1) (RTP_R2) And is operated so as to discharge the renewable energy source stored in the apparatus 200.

Meanwhile, as shown in FIG. 3, when the energy storage device 200 is in a usage time zone (11 am - 12 am, 13 pm - 17 pm) according to the first and second maximum loads of the second season, (RTP_R1 &gt; RTP_R2) (RTP_R1 &lt; RTP_R2 (RTP_R2)) of the first condition (SOC &gt; 10%) in which the charging rate (SOC) The energy storage device 200 is operated to discharge the renewable energy source.

On the other hand, as shown in FIG. 4, when the utilization time zone (23:00 pm - 09:00 am) according to the eleventh light load of the third season is less than the predicted generation amount (kWh) of the renewable energy source power generation apparatus 100 If the first condition (kWh <0) and the second condition (SOC <90%) that the charging rate SOC of the energy storage device 200 does not exceed a certain rate (90%) are satisfied, (200) to charge the power of the power source generator (300).

On the other hand, as shown in FIG. 4, the predicted power generation amount (kWh) of the renewable energy source power generation apparatus 100 is small in the use time zone (23:00 pm - 09:00 am) And the second condition (SOC &lt; 90%) in which the first condition (kWh &gt; 0) and the SOC of the energy storage device 200 do not exceed a certain ratio (90% The apparatus 200 is operated to charge the power of the renewable energy source and the power of the power source generator 300.

Meanwhile, as shown in FIG. 4, the service hours (09:00 am to 10:00 am) of the 11th to 12th middle loads and the 13th to 20th middle loads of the third season (12:00 am to 17:00 am ) (20:00 pm to 22:00 pm), electricity is transferred to the load side (400) according to the predicted power generation amount of the renewable energy source.

Meanwhile, as shown in FIG. 4, when the charging time (SOC) of the energy storage device 200 reaches a predetermined rate (10:00 am to 12:00 am) according to the eleventh peak load of the third season (RTP_R1> RTP_R2> RTP_R3) of the power sale price RTP_R1 (RTP_R2) (RTP_R3) by time slot while satisfying a first condition (SOC> 10% Is operated to discharge a renewable energy source stored in the energy storage device 200.

4, when the charging time (SOC) of the energy storage device 200 reaches a predetermined rate (10:00 am to 12:00 am) according to the eleventh peak load of the third season (10:00 am to 12:00 am) (RTP_R2> RTP_R3> RTP_R1) of the power sale price RTP_R1 (RTP_R2) (RTP_R3) by time slot while satisfying the first condition (SOC> 10% Is operated so that power exchange to the load side 400 is performed according to the predicted value of the power generation amount of the renewable energy source.

4, when the charging time (SOC) of the energy storage device 200 reaches a predetermined rate (10:00 am to 12:00 am) in accordance with the eleventh peak load of the third season (10:00 am to 12:00 am) (RTP_R3> RTP_R1> RTP_R2) of the power sale price RTP_R1 (RTP_R2) (RTP_R3) by time slot while satisfying the first condition (SOC> 10% Is operated to discharge a renewable energy source stored in the energy storage device 200.

4, when the charging time (SOC) of the energy storage device 200 is lower than a predetermined rate (17:00 - 20:00) according to the 12th maximum load of the third season (RTP_R1> RTP_R2> RTP_R3) of the power sale price RTP_R1 (RTP_R2) (RTP_R3) by time slot while satisfying a first condition (SOC> 10% Is operated to discharge a renewable energy source stored in the energy storage device 200.

4, when the charging time (SOC) of the energy storage device 200 is lower than a predetermined rate (17:00 - 20:00) according to the 12th maximum load of the third season (RTP_R2> RTP_R3> RTP_R1) of the power sale price RTP_R1 (RTP_R2) (RTP_R3) by time slot while satisfying the first condition (SOC> 10% Is operated to discharge a renewable energy source stored in the energy storage device 200.

4, when the charging time (SOC) of the energy storage device 200 is lower than a certain rate (for example, 17:00 to 20:00) according to the 12th maximum load of the third season (RTP_R3> RTP_R1> RTP_R2) of the power sale price RTP_R1 (RTP_R2) (RTP_R3) by time slot while satisfying the first condition (SOC> 10% The power supply to the load side 400 is operated according to the predicted power generation amount of the renewable energy source.

4, when the charging time (SOC) of the energy storage device 200 is lower than a certain rate (for example, 22:00 to 23:00) according to the 13th maximum load of the third season (RTP_R1> RTP_R2> RTP_R3) of the power sale price RTP_R1 (RTP_R2) (RTP_R3) by time slot while satisfying a first condition (SOC> 10% The power supply to the load side 400 is operated according to the predicted power generation amount of the renewable energy source.

4, when the charging time (SOC) of the energy storage device 200 is lower than a certain rate (for example, (RTP_R2> RTP_R3> RTP_R1) of the power sale price RTP_R1 (RTP_R2) (RTP_R3) by time slot while satisfying the first condition (SOC> 10% A new and renewable energy source stored in the energy storage device 200 is discharged.

4, when the charging time (SOC) of the energy storage device 200 is lower than a certain rate (for example, 22:00 to 23:00) according to the 13th maximum load of the third season (RTP_R3> RTP_R1> RTP_R2) of the power sale price RTP_R1 (RTP_R2) (RTP_R3) by time slot while satisfying the first condition (SOC> 10% Is operated to discharge a renewable energy source stored in the energy storage device 200.

As described above, according to the present invention, the renewable energy source is charged and stored in the energy storage device 200 for each season and the usage time of the day, and in the external environment where it is difficult to charge the renewable energy source, After power is supplied from the device 300, the power of the renewable energy source as well as the power to be received can be resold in the optimal condition.

While the present invention has been described with reference to the particular illustrative embodiments, it is to be understood that the invention is not limited to the disclosed embodiments.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit and scope of the invention as defined by the appended claims. It is to be understood that such changes and modifications are within the scope of the claims.

100; Renewable energy source power generation device
200; Energy storage device
300; Power source generator

Claims (12)

A first step of inputting power generation information of a renewable energy source power generation device and an energy storage device connected thereto, a power supply price of the power source power generation device, and market price information of power used by the load side;
The operation schedule of the energy storage device is configured according to the season and the usage time zone based on the information inputted from the first step so that the discharging operation of the renewable energy source charged in the energy storage device or the charging operation of the renewable energy source is performed A second step of performing power trading to the load side; And
When the renewable energy source can not be charged in the energy storage device according to the charging / discharging operation schedule composed of the second step, the power is supplied from the power generation device of the power supply source and then stored in the energy storage device A third step of performing power exchange to the load side by performing the third step; Lt; / RTI &gt;
Wherein the power generation information in the first stage includes information on estimated power generation amount of the new and renewable energy source power generation device, charging rate and charging / discharging efficiency information of the energy storage device, and information input in the first stage is renewable energy The price information for purchasing the original power, the bid amount information of the power transaction, and the power trading winning amount information. delete The method according to claim 1,
The charge / discharge operation schedule is classified into a first season in spring and autumn, a second season in summer, a winter season, and a third season in winter,
The first and second seasons are classified into a light load, a first intermediate load, a first maximum load, a first intermediate load, a second maximum load, and a second intermediate load according to the usage time of power usage on the load side,
The third season is divided into the 11th light load, the 11th load, the 11th load, the 12th load, the 12th load, the 13th load, and the 13th load Wherein the energy storage device comprises a plurality of energy storage devices. The method of claim 3,
The first condition (kWh &gt; 0) that the predicted power generation amount (kWh) of the renewable energy source power generation device becomes small in the use time zone according to the first light load of the first season and the charging condition (SOC) (SOC &lt; 90%) that does not exceed the first condition (90%), the power of the renewable energy source and the power of the power source generator are charged to the energy storage device,
(SOC &lt; 90) in which the first condition (kWh &lt; 0) without the estimated generation amount of the renewable energy source power generation device (kWh) and the SOC of the energy storage device do not exceed a certain ratio (90% %), The energy storage device is configured to charge the power of the power source generator. The method of claim 3,
The first condition (kWh &gt; 0) in which the predicted power generation amount (kWh) of the renewable energy source power generation device is reduced in the use time zone according to the first light load and the second intermediate load of the second season, (SOC &lt; 90%), which does not exceed a predetermined ratio (90%), the power of the renewable energy source and the power of the power source generator are charged in the energy storage device,
(SOC &lt; 90) in which the first condition (kWh &lt; 0) without the estimated generation amount of the renewable energy source power generation device (kWh) and the SOC of the energy storage device do not exceed a certain ratio (90% %), The energy storage device is configured to charge the power of the power source generator. The method of claim 3,
(SOC> 10%) in which the charging rate (SOC) of the energy storage device exceeds a certain rate (10%) in the usage time zone corresponding to the first maximum load of the first season and the first condition RTP_R1) RTP_R2 (RTP_R1 &gt; RTP_R2), and to discharge the renewable energy source stored in the energy storage device in a second condition that satisfies the comparison information (RTP_R1 &gt; RTP_R2)
In a second condition that satisfies the first condition and satisfies the comparison information (RTP_R1 <RTP_R2) of the power sale price (RTP_R1) (RTP_R2) by time slot, the power supply to the load side is performed according to the predicted power generation amount of the renewable energy source Wherein the energy storage device comprises a plurality of energy storage devices. The method of claim 3,
(SOC> 10%) in which the charging rate (SOC) of the energy storage device exceeds a certain rate (10%) in the usage time zone corresponding to the second maximum load of the first season and the first condition (RTP_R1) and RTP_R2 (RTP_R1 &gt; RTP_R2) of the renewed energy source,
And configured to discharge the renewable energy source stored in the energy storage device under a second condition that satisfies the first condition and satisfies the comparison information (RTP_R1 <RTP_R2) of the power sale price (RTP_R1) (RTP_R2) Wherein the energy storage device is a power storage device. The method of claim 3,
(SOC &gt; 10%) in which the charging rate (SOC) of the energy storage device exceeds a certain rate (10%) in the usage time zone according to the first and second maximum loads of the second season, The energy storage device is configured to discharge the renewable energy source stored in the energy storage device under a second condition that satisfies the comparison information (RTP_R1> RTP_R2) (RTP_R1 &lt; RTP_R2) of the price (RTP_R1) Way. The method of claim 3,
The first condition (kWh <0) in which there is no predicted power generation amount (kWh) of the renewable energy source power generation device and the charging rate (SOC) of the energy storage device are within a certain ratio 90 (SOC &lt; 90%) that does not exceed the first condition (SOC &lt;%), the energy storage device is configured to be charged with the power of the power-
The first condition (kWh &gt; 0) in which the predicted power generation amount (kWh) of the new and renewable energy source power generation device is small and the second condition (SOC <0) in which the charge storage ratio SOC of the energy storage device does not exceed a certain ratio (90% 90%) is satisfied, the power of the renewable energy source and the power of the power source generator are charged to the energy storage device. The method of claim 3,
(SOC &gt; 10%) in which the charging rate (SOC) of the energy storage device exceeds a certain rate (10%) in the usage time zone corresponding to the eleventh peak load of the third season,
The renewable energy source stored in the energy storage device is discharged in a second condition that satisfies the comparison information (RTP_R1>RTP_R2> RTP_R3) of the power sale price (RTP_R1) (RTP_R2) (RTP_R3)
In the second condition that satisfies the comparison information (RTP_R2>RTP_R3> RTP_R1) of the power selling price (RTP_R1) (RTP_R2) (RTP_R3) for each time slot, power exchange to the load side is performed according to the predicted power generation amount of the renewable energy source,
The renewable energy source stored in the energy storage device is discharged in a second condition that satisfies the comparison information (RTP_R3>RTP_R1> RTP_R2) of the power sale price (RTP_R1) (RTP_R2) (RTP_R3) A method of operating an energy storage device. The method of claim 3,
(SOC &gt; 10%) in which the charging rate (SOC) of the energy storage device exceeds a certain rate (10%) in the use time zone according to the 12th maximum load of the third season,
The renewable energy source stored in the energy storage device is discharged in a second condition that satisfies the comparison information (RTP_R1>RTP_R2> RTP_R3) of the power sale price (RTP_R1) (RTP_R2) (RTP_R3)
The renewable energy source stored in the energy storage device is discharged in a second condition that satisfies the comparison information (RTP_R2>RTP_R3> RTP_R1) of the power sale price (RTP_R1) (RTP_R2) (RTP_R3)
In the second condition that the comparison information (RTP_R3>RTP_R1> RTP_R2) of the power sale price (RTP_R1) (RTP_R2) (RTP_R3) by time slot is satisfied, the power exchange to the load side is performed according to the predicted power generation amount of the renewable energy source Characterized in that the energy storage device is operated. The method of claim 3,
(SOC &gt; 10%) in which the charging rate (SOC) of the energy storage device exceeds a certain rate (10%) in the use time zone corresponding to the 13th maximum load of the third season,
In the second condition that satisfies the comparison information (RTP_R1>RTP_R2> RTP_R3) of the power selling price (RTP_R1) (RTP_R2) (RTP_R3) for each time slot, power trading to the load side is performed according to the predicted power generation amount of the renewable energy source,
The renewable energy source stored in the energy storage device is discharged in a second condition that satisfies the comparison information (RTP_R2>RTP_R3> RTP_R1) of the power sale price (RTP_R1) (RTP_R2) (RTP_R3)
The renewable energy source stored in the energy storage device is discharged in a second condition that satisfies the comparison information (RTP_R3>RTP_R1> RTP_R2) of the power sale price (RTP_R1) (RTP_R2) (RTP_R3) A method of operating an energy storage device.

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