KR20130098079A - Apparatus and method for controlling power supply at substation - Google Patents

Abstract

PURPOSE: A power supply control device in a substation and a method thereof supply power without installing a power supply device by adding a function supplying DC control power and on-site power to a power storage system. CONSTITUTION: A control device includes a power storage device (100), an on-site transformer (200) for a power storage device, and an automatic transfer switch (300). The control device confirms the power state of a substation through the automatic transfer switch and the power state of a battery through the power storage device. An operation mode of the battery and the operation of a circuit breaker (140) included in the power storage device are determined based on the power state of the substation and the power state of the battery. Power supply is controlled corresponding to the determined result. If the power supply is controlled, the power of the power storage device is maintained over the appropriate capacity of power equipment in the predetermined substation. [Reference numerals] (200) On-site transformer; (500) Power supply control unit; (AA) Transformer; (BB) 22.9kV second axis; (CC,DD) Load; (EE) Substation on-site power supply; (FF) DC control power supply

Description

Power supply control device in substation and its method {APPARATUS AND METHOD FOR CONTROLLING POWER SUPPLY AT SUBSTATION}

Power supply control device in substation and its method {APPARATUS AND METHOD FOR CONTROLLING POWER SUPPLY AT SUBSTATION}

A power system is a system in which power plants, substations, transmission and distribution lines, and loads are integrated to generate power and consume power.

The power system needs to be constantly monitored because demand and supply must be balanced by the homogeneity of power generation and consumption.

In the early small power systems, monitoring was easy, but as power demand increased due to industrial advancement and informatization, and power generation using renewable energy increased, power facilities became larger and more complicated, and thus the power system has been carried out until now. The limit has been reached for effective operation. Therefore, comprehensive automation of facilities for efficient performance of power system operation tasks is being rapidly promoted by applying a function of collecting, processing, analyzing and controlling information with a computer and communication function.

In the power storage device, research on large-capacity and long-life life of lithium-ion batteries has been conducted, focusing on transportation energy fields such as hybrid electric vehicles (HEVs) and electric vehicles (EVs). Commercialization is beginning. The market for the proliferation of large lithium-ion batteries has enormous market potential, such as the automotive sector, agriculture, construction machinery sector, industrial machinery sector, mobile device sector such as two-wheelers and tanks, and natural energy sector.

In the field of large power storage, large-sized batteries such as sodium-sulfur batteries (NAS batteries) and redox flow batteries are in the early stages of commercialization, and new markets are expected as competitions with self-generating facilities and high quality power supplies. have. Such batteries are inferior in performance to lithium batteries, but have a particularly good price / capacity, and are being used for large capacity power storage. Increasing capacity of secondary batteries such as lithium ion batteries, NAS batteries, and redox flow batteries has been developed, and has been developed to be capable of being used in power systems. Increasingly, large-capacity power storage systems will be expanded to substation units and used to load level or peak shaving the power of the entire system.

Currently, lead-acid batteries are used to supply DC control power for substation facilities. Uninterruptible power supplies (UPS) are installed at each major facility to supply power in emergencies.

When the large-capacity power storage system described above is expanded and distributed in substation units, the power storage system, the lead acid battery, and the uninterruptible power supply are installed in the same substation. It is inefficient in terms of space utilization.

It is an object of the present invention to provide a power supply control apparatus and method for controlling the supply of DC control power and AC in-house power required when power loss in a substation using a large-capacity power storage system.

According to an embodiment of the present invention for solving the above problems, a method including a power storage device, the on-site transformer for the power storage device, the automatic switching switch to control the power supply is

The apparatus may include checking a power state in a substation through the automatic switching switch and a power amount state of the battery through the power storage device; Determining whether an operation mode of the battery and a breaker included in the power storage device are operated based on a power state in the substation and a power amount state of the battery; And controlling the power supply corresponding to the determined result.

The controlling may include controlling the amount of power of the power storage device to maintain an amount of power equal to or greater than a predetermined capacity of a power facility in a predetermined substation.

The controlling may include checking remaining power of a battery in the power storage device; Comparing the remaining amount of power of the battery with an appropriate capacity of the power equipment in the substation; And determining a power supply state based on a position of an automatic switching switch when the amount of remaining power of the battery is smaller than an appropriate capacity of the power equipment in the substation, and controlling the power supply according to the power supply state. It is done.

The determining of the power supply state may include determining that the power in the substation is lost when the position of the automatic switching switch corresponds to the internal transformer for the power storage device, and the automatic switching switch corresponds to a predetermined internal transformer. If it is characterized in that the power source is determined to be secured.

The controlling may include controlling the power supply by controlling the switch switching of the automatic changeover switch corresponding to the power supply state in the substation.

In the controlling step, the power loss in the substation is checked based on the position of the automatic switching switch, and the breaker associated with the specific system is opened in response to the result of the check, and the mode of the power storage device is switched to the power supply mode in the substation. It is characterized by changing.

The operation mode of the battery may include a supply mode for supplying power and a charging mode for charging power.

According to another embodiment of the present invention for solving the above problems, the power supply control device in a substation

A power storage device including a battery, a battery management system (BMS), and a bidirectional converter; A circuit breaker for linking the power storage device and the system; A small transformer for the power storage device for supplying power to the power storage device and the substation; An automatic switching switch connected to the on-site transformer for the power storage device and an external on-site transformer, and automatically switching the switch according to a power supply state to supply power to the substation power and the DC control power; An inverter for converting AC power of the automatic switching switch into DC power and supplying the converted DC power to a DC control power supply; And a power supply control unit which checks the remaining power amount of the battery and the power state in the substation through the power storage device and controls the power supply based on the result of the check.

The power supply control unit may include a monitoring unit checking a power state of a substation through the automatic switching switch and checking a power amount state of a battery through the BMS; Determination unit for determining the operation mode of the battery and the operation of the breaker based on the results confirmed by the monitoring unit; And a controller configured to control the bidirectional converter and the breaker to control power supply in the substation according to the determination result of the determination unit.

The external in-house transformer may include a main in-house transformer and a pre-in-house transformer.

The automatic switching switch is characterized in that the switch is switched in accordance with the power supply state in the order of the internal transformer, the preliminary internal transformer, the internal transformer for the power storage device when the power loss in the substation.

The control unit may control the amount of power of the power storage device to maintain the amount of power more than a predetermined capacity of the power facility in a predetermined substation.

The controller determines the power supply state based on the position of the automatic switching switch when the amount of remaining power of the battery in the power storage device is less than the proper capacity of the power equipment in the substation, and controls the power supply according to the power supply state. It is characterized by.

The control unit controls the power supply by controlling the switch switching of the automatic switching switch corresponding to the power supply state in the substation.

The control unit checks the power loss state in the substation based on the position of the automatic switching switch, and in response to the result confirmed by opening the circuit breaker associated with a specific system, to change the mode of the power storage device to the power supply mode in the substation. It is characterized by.

According to an embodiment of the present invention, a power supply control apparatus and method in a substation add a function of supplying a power supply and a DC control power supply to a power substation in a substation to a power storage system, thereby providing an existing lead-acid battery and an uninterruptible power supply. The power supply in the substation can be supplied without the need for a supply.

According to an embodiment of the present invention, the power supply control apparatus and method in the substation are useful in recovering from a failure since the substation can be controlled irrespective of the number of times by securing power and control power during total power failure in the substation. In addition, the present invention does not need to install a conventional uninterruptible power supply and a lead acid battery twice, and is economical because it can supply not only main equipment but also the entire power in the substation uninterrupted.

1 is a diagram illustrating an environment in which a power supply control apparatus in a substation according to an embodiment of the present invention is applied.
2 is a block diagram showing a power supply control unit according to an embodiment of the present invention.
3 is a diagram illustrating a power flow in a steady state.
FIG. 4 is a diagram illustrating a constant power flow in a substation.
5 is a diagram illustrating a method of managing power of a power storage device.
6 is a flowchart illustrating a power supply control method in a substation according to an embodiment of the present invention.
7 is a flowchart illustrating a method of controlling the amount of power of a power storage device according to an embodiment of the present invention.
8 is a flowchart illustrating a method of controlling an automatic switching switch in response to a power supply state in a substation according to an embodiment of the present invention.
9 is a flowchart illustrating a method of controlling power supply in a substation according to a position of an automatic changeover switch according to an embodiment of the present invention.

The present invention will now be described in detail with reference to the accompanying drawings. Hereinafter, a repeated description, a known function that may obscure the gist of the present invention, and a detailed description of the configuration will be omitted. Embodiments of the present invention are provided to more fully describe the present invention to those skilled in the art. Accordingly, the shapes and sizes of the elements in the drawings and the like can be exaggerated for clarity.

Hereinafter, a power supply control apparatus and a method in a substation according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a diagram illustrating an environment in which a power supply control apparatus in a substation according to an embodiment of the present invention is applied.

Referring to FIG. 1, the power supply control device 10 in a substation includes a power storage device 100, an on-site transformer (S.Tr) 200, an automatic changeover switch (ATS) 300, an inverter 400, and electric power. And a supply control unit 500.

The power storage device 100 is connected to the system to perform the power supply when the load control and the power loss in the substation. To this end, the power storage device 100 includes a battery 110, a battery management system (BMS) 120, a bidirectional converter (PCS) 130, and a circuit breaker (CB) 140. Here, the breaker 140 opens or blocks a specific system and the power storage device 100.

When the on-site transformer 200 supplies power to the substation from the power storage device 100, the power transformer 200 transforms the power into a voltage size in the substation. Here, the on-site transformer 200 corresponds to the on-site transformer 200 for the power storage device 100.

The automatic switching switch 300 is a predetermined on-site transformer (for example, the on-site transformer (S.Tr # 1 (31)) and preliminary on-site transformer (S.Tr # 2 (32))) and the power storage device 100 It is associated with the on-site transformer 200, and by automatically switching the switch according to the situation of power loss, it is possible to supply power to the power supply and the DC control power supply in the substation.

The inverter 400 converts the AC power of the automatic changeover switch 300 into DC power and supplies the converted DC power to the DC control power.

The power supply control unit 500 checks the remaining power amount of the battery and the power state in the substation through the power storage device 100 and controls the power supply based on the result of the check. Specifically, the power supply controller 500 checks the remaining power amount of the battery 110 and the power supply state in the substation, and determines the operation mode of the battery 110 and the operation of the breaker based on the confirmed result. Next, the power supply control unit 500 controls the power supply in the substation by controlling the converter 130 and the breaker 140 according to the operation mode of the battery and the operation of the breaker.

Conventional substation power supplies use on-site transformers (eg, S.Tr # 1 and S.Tr # 2) to supply on-site power. Here, two on-site transformers are installed in different motions (BUS), one of which is used as a preliminary on-site transformer and the other is used to supply power in a substation.

In this case, when the power supply of S.Tr # 1 is cut off due to a failure, it is switched to S.Tr # 2 by the automatic switching switch and the power in the substation is supplied. In addition, when power is not available through all on-site transformers such as S.Tr # 1 and S.Tr # 2, power is supplied only to the main facilities by the uninterruptible power supply in the substation, and DC control power is supplied to the lead acid battery system. Power is supplied.

As described above, the present invention supplies DC control power to an inverter instead of a lead acid battery system unlike a conventional power supply device in a substation. In addition, the present invention adds a transformer switching switch to the automatic switching switch, thereby supplying power from the power storage device instead of the uninterruptible power supply in case of power failure.

Next, the power supply control unit 600 will be described in detail with reference to FIG. 2.

2 is a block diagram showing a power supply control unit according to an embodiment of the present invention.

Referring to FIG. 2, the power supply control unit 600 includes a monitoring unit 610, a determination unit 620, and a control unit 630.

The monitoring unit 610 always checks the power supply state in the substation through the automatic changeover switch 300, and always checks the power amount state of the battery 110 through the BMS 120.

The determination unit 620 determines whether the operation mode (supply mode or charging mode) and the breaker of the battery 110 are operated based on the result confirmed through the monitoring unit 610, that is, the power state in the substation and the power amount state of the battery 110. Judge.

The controller 630 controls the bidirectional converter 130 and the breaker 140 according to the determination result of the determination unit 620 to control the power supply in the substation.

Next, the steady state power flow will be described in detail with reference to FIG. 3.

3 is a diagram illustrating a power flow in a steady state.

Referring to FIG. 3, the power system includes a power system, a power storage device, and a substation.

When the power flow is in a normal state, power is supplied from the power storage device in the discharge mode or is required in the charging mode according to the load state of the power system. Substations receive power from the power system.

Next, a description will be given in detail of the power loss of the power supply in the substation with reference to FIG.

FIG. 4 is a diagram illustrating a constant power flow in a substation.

Referring to FIG. 4, the power system includes a power system, a power storage device, and a substation.

When the power supply in the substation is impossible from the power system, the substation receives power in the substation from the power storage device by using the power supply in the substation.

5 is a diagram illustrating a method of managing power of a power storage device.

Referring to FIG. 5, the remaining capacity except for the capacity (= power securing capacity in the substation) of the total capacity of the power storage device is calculated as the battery capacity for load control. Here, the power supply securing capacity in the substation is used as electric power capable of supplying electric power in the substation during a power failure.

Next, a method of controlling the power supply in the substation will be described in detail with reference to FIG. 6.

6 is a flowchart illustrating a power supply control method in a substation according to an embodiment of the present invention.

Referring to FIG. 6, the power supply control apparatus in the substation checks the power supply state of the substation through the automatic switching switch 300 and the power amount state of the battery 110 through the BMS 120 (S610).

The power supply control apparatus in the substation determines whether the operation mode of the battery 110 and the operation of the breaker are performed based on the power supply state of the substation and the power amount state of the battery 110 corresponding to the result confirmed in step S610 (S620). Here, the operation mode of the battery 110 includes a supply mode for supplying power, a charging mode for charging power, and the like.

 The power supply control apparatus in the substation controls the power supply in the substation by controlling the converter 130 and the breaker 140 according to the result determined in step S620 (S630).

Specifically, the method of controlling the power supply in the substation will be described as follows.

First, the power supply control apparatus in the substation controls the amount of power of the power storage device 100 to maintain the amount of power of Pset or more. Here, Pset corresponds to the capacity of all the electrical equipment in the substation (for example, the electrical equipment in the substation, the DC control power electrical equipment), that is, the appropriate capacity of the power equipment in the substation.

The power storage device 100 maintains the amount of power equal to or more than the proper capacity Pset in the substation, thereby securing the amount of power that can be supplied during a power failure. In addition, the power storage device 100 secures the battery capacity (Pb) or more than the appropriate capacity (Pset) of the power equipment in the substation.

Second, the power supply control device in the substation controls the switching of the automatic switching switch 300 corresponding to the power supply state in the substation.

Specifically, the power supply control device in the substation is to supply the internal power through the S.Tr # 1 (31) and S.Tr # 2 (32) when the power supply in the substation is normal, that is, in the normal state. To control the automatic switching switch (300). Here, S.Tr # 1 (31) and S.Tr # 2 (32) are each installed in a different motion (BUS), one of the two is used as a preliminary on-site transformer, the other in the form of supplying power in the substation Used. In addition, the power supply control device in the substation has an automatic switching switch so that the internal power supply can be supplied through the S.Tr # 2 (32) when the power supply of the S.Tr # 1 (31) is interrupted by a failure ( Control 300).

When the power supply control device in the substation cannot be supplied through S.Tr # 1 (31) and S.Tr # 2 (32), power may be supplied through the on-site transformer 200 for the power storage device 100. To control the automatic switching switch (300).

Third, the power supply control device in the substation checks the position of the automatic switching switch 300, and controls the model of the circuit breaker 140 and the power saving device 100 based on the result.

The power supply control device in the substation checks the state of power loss in the substation based on the position of the automatic switching switch 300, thereby opening the breaker. In addition, the power supply control device in the substation controls to supply power by changing the mode of the power storage device 100 to the power supply mode in the substation.

A method of controlling the power supply in the substation described above will be described in detail with reference to FIGS. 7 to 9.

7 is a flowchart illustrating a method of controlling the amount of power of a power storage device according to an embodiment of the present invention.

Referring to FIG. 7, the power supply control device in the substation checks the remaining power amount Pb of the battery 110 in the power storage device 100 through the BMS 120 (S710).

The power supply control apparatus in the substation compares the remaining amount of power Pb of the battery 110 identified in step S710 with the appropriate capacity Pset of the power plant in the substation (S720).

If the power supply control device in the substation has more power Pb of the battery 110 than the proper capacity Pset of the power equipment in the substation, the power supply control device of the substation again determines the remaining power Pb of the battery 110 in the power storage device 100. Check it.

On the other hand, the power supply control device in the substation determines the power supply state on the basis of the position of the automatic switching switch 300, when the remaining amount of power (Pb) of the battery 110 is smaller than the appropriate capacity (Pset) of the power equipment in the substation. .

The power supply control apparatus in the substation determines whether the position of the automatic switching switch 300 corresponds to the internal transformer (S.Tr) 200 for the power storage device 100 (S730).

Here, when the position of the automatic switching switch 300 corresponds to S.Tr # 1 (31) or S.Tr # 2 (32), the power is secured, and the position of the automatic switching switch 300 is the power In the case of the internal transformer (S.Tr) 200 for the storage device 100, the power in the substation is lost.

The power supply control device in the substation determines that the position of the automatic switching switch 300 corresponds to the small transformer (S.Tr) 200 for the power storage device 100, and determines that the power in the substation is lost, and supplies the power. Stop control.

On the other hand, the power supply control device in the substation, if the position of the automatic switching switch 300 does not correspond to the small transformer (S.Tr) 200 for the power storage device 100, the power in the substation is secured In operation S740, the load control supply mode of the power storage device 100 is stopped. Next, the power supply control device in the substation secures the amount of power of the power storage device 100 for supplying the whole house in the substation.

8 is a flowchart illustrating a method of controlling an automatic switching switch in response to a power supply state in a substation according to an embodiment of the present invention.

Referring to Figure 8, the power supply control device in the substation checks the power state of the power equipment in the substation (S810). At this time, the power supply control device in the substation is a constant transformer (eg, bus # 1 and bus # 2) PT (potential transformer)

), You can check if the power is lost.

The power supply control device in the substation determines whether the power is stably supplied to the power equipment in the substation based on the result confirmed in step S810 (S820).

The power supply control device in the substation checks the power status of the power equipment in the substation again when the power is supplied stably to the power equipment in the substation.

When the power supply control device in the substation is not supplied with power to the power equipment in the substation, the preliminary internal power supply (S.Tr # 2) from the internal power supply (S.Tr # 1) that was operating the position of the automatic changeover switch 300. (S830).

The power supply control device in the substation again determines whether the power of the power equipment in the substation is stably supplied (S840).

The power supply control device in the substation stops the power supply control when power is stably supplied to the power equipment in the substation (power ON state).

The power supply control device in the substation is in the site for the power storage device 100 in the preliminary internal power source (S.Tr # 2) that was operating the position of the automatic switching switch 300, when power is not supplied to the power equipment in the substation. The transformer 200 is transformed (S850).

As such, the power supply control apparatus in the substation can stably supply power in the substation by controlling the automatic switching switch 300 at the time of power failure.

9 is a flowchart illustrating a method of controlling power supply in a substation according to a position of an automatic changeover switch according to an embodiment of the present invention.

9, the power supply control device in the substation checks the position of the automatic switching switch 300 (S910).

The power supply control apparatus in the substation determines whether the position of the automatic changeover switch 300 corresponds to the internal transformer 200 for the power storage device 100 (S920).

The power supply control apparatus in the substation checks the position of the automatic switching switch 300 again when the position of the automatic switching switch 300 does not correspond to the internal transformer 200 for the power storage device 100. On the other hand, the power supply control apparatus in the substation operates the breaker 140 for the power storage device 100 when the position of the automatic switching switch 300 corresponds to the internal transformer 200 for the power storage device 100. (S930).

Next, the power supply control device in the substation determines whether the mode of the power storage device 100 corresponds to the supply mode for supplying power (S940).

The power supply control device in the substation stops the power supply control when the mode of the power storage device 100 corresponds to a supply mode that is supplying power.

The power supply control apparatus in the substation changes the mode of the power storage device 100 to the supply mode when the mode of the power storage device 100 does not correspond to the supply mode of supplying power, and the power storage device 100. The power in the substation is supplied by changing the mode (S950).

As described above, the best embodiment has been disclosed in the drawings and the specification. Although specific terms have been employed herein, they are used for purposes of illustration only and are not intended to limit the scope of the invention as defined in the claims or the claims. Therefore, those skilled in the art will understand that various modifications and equivalent other embodiments are possible from this. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims.

10; A power supply control device 100 in a substation; Power storage device
110; A battery 120; BMS
130; Bidirectional converter 140; breaker
200; On-site transformer 300; Automatic switch
400; Inverter 500; Power supply controller

Claims (15)

In a method for controlling a power supply by a device including a power storage device, the on-site transformer for the power storage device, automatic switching switch,
The apparatus may include checking a power state in a substation through the automatic switching switch and a power amount state of the battery through the power storage device;
Determining whether an operation mode of the battery and a breaker included in the power storage device are operated based on a power state in the substation and a power amount state of the battery; And
Controlling the power supply in response to the determined result
Power supply control method in the substation comprising a. The method according to claim 1,
The step of controlling
The power supply control method of the substation, characterized in that for controlling the amount of power of the power storage device to maintain the amount of power more than the predetermined capacity of the power equipment in the predetermined substation. The method according to claim 2,
The step of controlling
Checking an amount of power remaining in the battery in the power storage device;
Comparing the remaining amount of power of the battery with an appropriate capacity of the power equipment in the substation; And
Determining the power supply state based on the position of the automatic switching switch when the amount of remaining power of the battery is smaller than the proper capacity of the power equipment in the substation.
Lt; / RTI >
And controlling the power supply in accordance with the power supply state. The method according to claim 3,
The determining of the power supply state
When the position of the automatic changeover switch corresponds to the on-site transformer for the power storage device, it is determined that the power in the substation is lost, and when the position of the automatic changeover switch corresponds to the predetermined on-site transformer, the power is determined to be secured. Power supply control method in the substation, characterized in that. The method according to claim 1,
The step of controlling
The power supply control method of the substation, characterized in that for controlling the power supply by controlling the switch switching of the automatic switching switch corresponding to the power supply state in the substation. The method according to claim 1,
The step of controlling
Based on the position of the automatic switching switch to check the power loss state in the substation, and in response to the results confirmed by opening the circuit breaker associated with a specific system, the mode of the power storage device to the power supply mode in the substation, characterized in that Power supply control method in substation. The method according to claim 1,
The operation mode of the battery includes a supply mode for supplying power and a charging mode for charging power. A power storage device including a battery, a battery management system (BMS), and a bidirectional converter;
A circuit breaker for linking the power storage device and the system;
A small transformer for the power storage device for supplying power to the power storage device and the substation;
An automatic switching switch connected to the on-site transformer for the power storage device and an external on-site transformer, and automatically switching the switch according to a power supply state to supply power to the substation power and the DC control power;
An inverter for converting AC power of the automatic switching switch into DC power and supplying the converted DC power to a DC control power supply; And
A power supply control unit that checks the remaining power of the battery and the power state in the substation through the power storage device, and controls the power supply based on the confirmed result
Substation power supply control device comprising a. The method according to claim 8,
The power supply control unit
A monitoring unit checking a power state of a substation through the automatic switching switch and checking a power amount of a battery through the BMS;
Determination unit for determining the operation mode of the battery and the operation of the breaker based on the results confirmed by the monitoring unit; And
Control unit for controlling the power supply in the substation by controlling the bi-directional converter and the circuit breaker according to the determination result of the determination unit
Substation power supply control device comprising a. The method according to claim 8,
The external small internal transformer
A power supply control device in a substation, comprising a main transformer and a preliminary transformer. The method of claim 10,
The automatic changeover switch
The power supply control device in the substation, characterized in that the switch in accordance with the power supply state in the order of the main transformer, the preliminary internal transformer, the internal transformer for the power storage device when the power loss in the substation. The method according to claim 8,
The control unit
The power supply control device in the substation, characterized in that for controlling the amount of power of the power storage device to maintain the amount of power more than a predetermined capacity of the power facility in a predetermined substation. The method of claim 12,
The control unit
When the remaining power of the battery in the power storage device is less than the proper capacity of the power equipment in the substation, the power supply state is determined based on the position of the automatic switching switch, characterized in that for controlling the power supply according to the power supply state. Power supply control device in substation. The method according to claim 8,
The control unit
The power supply control device in the substation, characterized in that for controlling the power supply by controlling the switch switching of the automatic switching switch corresponding to the power supply state in the substation. The method according to claim 8,
The control unit
Based on the position of the automatic switching switch to check the power loss state in the substation, and in response to the results confirmed by opening the circuit breaker associated with a specific system, the mode of the power storage device to the power supply mode in the substation, characterized in that Power supply control device in substation.

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