KR102334046B1 - System for managing power - Google Patents

Abstract

The present invention relates to a power management system, and more particularly, to a grid-connected power management system that receives and stores power from a power system according to a frequency of the power system, or supplies stored power to the power system. A power management system according to an embodiment of the present invention is a grid-linked power management system for adjusting a frequency of a power system, the power management apparatus generating a device control message and a charge/discharge control message according to the frequency of the power system; A power storage device that stores power supplied from the power system in a battery or discharges power stored in the battery to the power system according to the charge/discharge control message and a device generated in the power management device through a first communication line and a communication control device that transmits a message to the battery management device or the power storage device, or transmits state information of the battery management device or the power storage device to the power management device through the first communication line, wherein the power management The device transmits the charge/discharge control message to the power storage device through a second communication line.

Description

Power management system {System for managing power}

The present invention relates to a power management system, and more particularly, to a grid-connected power management system that receives and stores power from a power system according to a frequency of the power system, or supplies stored power to the power system.

The power management system is a system that adjusts the frequency of the power system. Here, the power system refers to a system in which a power plant, a substation, a transmission/distribution line, and a load are integrated to generate and use power. More specifically, the power system includes industrial facilities such as factories from general households using power, and renewable energy power plants that produce power.

The frequency of the power system decreases when the amount used is greater than the amount of power supplied, and increases when the amount used is less than the amount of power supplied. In general, when the frequency of the power system is constant, since the quality of power is good, the power management system is linked with the power system to maintain the frequency of the power system within a certain range.

More specifically, the power management system controls to charge the battery when the frequency of the power system exceeds a certain range, and controls to discharge the power stored in the battery when the frequency of the power system is less than a certain range.

1 is a diagram illustrating a conventional power management system. Hereinafter, an operation method of a conventional power management system will be described in detail with reference to FIG. 1 .

1, the conventional power management system includes a PMS (Power Management System, 11), a communication relay device, an ESS (Energy Storage System, 14), a BMS (Battery Management System, 13) and other peripheral devices 15 is composed by

In general, the PMS 11 of the power management system is located inside the control room, analyzes the frequency of the power system, and gives a control command according to the frequency of the power system. The ESS 14 located in the field performs control on actual power according to the control command of the PMS 11 .

In other words, since the location of the device (PMS) that analyzes the frequency and issues a control command and the location of the device (BMS, ESS, peripheral device) whose actual power is controlled are physically separated, each device is electrically Connected.

Accordingly, the control command generated in the PMS 11 is transmitted to the ESS 14, the BMS 13 and other peripheral devices 15 through the communication relay device 12, and each device operates according to the control command. . For example, a control command for battery charging and discharging is transmitted from the PMS 11 to the ESS 14 through the communication relay device 12 . At this time, the ESS 14 controls the battery or the BMS 13 to charge the battery with power or discharge the power stored in the battery.

When an accident occurs in the power system, it is necessary to quickly control the frequency of the power system. However, according to the conventional power management system, a control command for battery charging and discharging is transmitted from the PMS 11 to the ESS 14 through the communication relay device 12, so communication delay occurs, and accordingly, the reaction speed of battery charging and discharging. There is a problem with the delay.

An object of the present invention is to provide a power management system capable of increasing a response speed of charging and discharging a battery by configuring a communication line for a device control message and a charge/discharge control message differently.

In addition, the present invention provides a power management system capable of preventing malfunction of the entire system due to abnormality of any one device by controlling the startup and communication of each device according to state information received from the battery management device and the power storage device. aim to do

In addition, an object of the present invention is to provide a power management system capable of managing the state history of each device constituting the system and grasping the control tendency of the system by accumulating and storing state information of the battery management device and the power storage device. do it with

In addition, the present invention provides a power management system in which each device located in the field blocks communication to the communication control device based on the communication status information of the power management device, thereby preventing the entire system malfunction due to poor communication status in advance. aim to do

The objects of the present invention are not limited to the above-mentioned objects, and other objects and advantages of the present invention not mentioned may be understood by the following description, and will be more clearly understood by the examples of the present invention. Moreover, it will be readily apparent that the objects and advantages of the present invention may be realized by the means and combinations thereof indicated in the claims.

In order to achieve this object, the power management system according to an embodiment of the present invention provides a device control message and a charge/discharge control message according to the frequency of the power system in the grid-linked power management system for adjusting the frequency of the power system. A power management device that generates, a power storage device that stores power supplied from the power system in a battery or discharges the power stored in the battery to the power system according to the charge/discharge control message, and the power management through a first communication line A communication control apparatus that transmits a device control message generated in an apparatus to a battery management apparatus or the power storage apparatus, or transmits state information of the battery management apparatus or the power storage apparatus to the power management apparatus through the first communication line and wherein the power management device transmits the charge/discharge control message to the power storage device through a second communication line.

According to the present invention as described above, by configuring the communication lines for the device control message and the charge/discharge control message differently, there is an effect that the reaction speed of the battery charge/discharge can be increased.

In addition, according to the present invention, by controlling the start-up and communication of each device according to the state information received from the battery management device and the power storage device, there is an effect that it is possible to prevent malfunction of the entire system due to an abnormality in any one device.

In addition, according to the present invention, by accumulating and storing the state information of the battery management device and the power storage device, it is possible to manage the state history of each device constituting the system and to understand the control tendency of the system.

In addition, according to the present invention, since each device located in the field blocks communication with the communication control device based on the communication status information of the power management device, there is an effect that the entire system malfunction due to the poor communication status can be blocked in advance.

1 is a diagram illustrating a conventional power management system.
2 is a diagram illustrating a power management system according to an embodiment of the present invention.
3 is a diagram illustrating a state in which a control message and status information are transmitted and received in the power management system of the present invention.

The above-described objects, features and advantages will be described below in detail with reference to the accompanying drawings, and accordingly, those of ordinary skill in the art to which the present invention pertains will be able to easily implement the technical idea of the present invention. In describing the present invention, if it is determined that a detailed description of a known technology related to the present invention may unnecessarily obscure the gist of the present invention, the detailed description will be omitted. Hereinafter, preferred embodiments according to the present invention will be described in detail with reference to the accompanying drawings. In the drawings, the same reference numerals are used to indicate the same or similar components.

2 is a diagram illustrating a power management system 100 according to an embodiment of the present invention. Referring to FIG. 2 , the power management system 100 according to an embodiment of the present invention includes a power management device 110 , a power storage device 120 , a communication control device 130 , a first switching module 140 , and and a second switching module 150 . The power management system 100 illustrated in FIG. 2 is according to an embodiment, and its components are not limited to the embodiment illustrated in FIG. 2 , and some components may be added, changed, or deleted as necessary. have.

The power management system 100 of the present invention is a grid connected power management system that adjusts the frequency of the power system. Here, the power system refers to a system in which a power plant, a substation, a transmission/distribution line, and a load are integrated to generate and use power. More specifically, the power system may include industrial facilities such as factories from general households using electricity, and may include a renewable energy power plant that produces electricity.

The frequency of the power system decreases when the amount used is greater than the amount of power supplied, and increases when the amount used is less than the amount of power supplied. In general, since the quality of power is good when the frequency of the power system is constant, the power management system 100 of the present invention may be a system for maintaining the frequency of the power system within a predetermined range in connection with the power system.

The power management system 100 controls to charge power when the frequency of the power system exceeds a certain range, and controls to discharge power when the frequency of the power system is less than a certain range, thereby improving the efficiency of power use.

3 is a diagram illustrating a state in which a control message and state information are transmitted and received in the power management system 100 of the present invention. Hereinafter, with reference to FIG. 3, the power management system 100 of the present invention and each component constituting the same will be described in detail.

Referring to FIG. 3 , the power management system 100 according to an embodiment of the present invention may be divided into a control room and a field. The control room is a location where the user controls the entire power management system 100 through the power management device 110 to be described later. In addition, the field is a location where the movement of power actually occurs under the control of the user.

As shown in FIG. 3 , in general, a control room and a field may be physically separated, and a user located in the control room may control a plurality of power devices located in the field together.

Referring back to FIG. 3 , the power management apparatus 110 according to an embodiment of the present invention may generate a device control message and a charge/discharge control message according to the frequency of the power system. The present invention may further include a frequency sensor 111 to measure the frequency of the power system. The frequency sensor 111 may measure a frequency using a current or voltage of a power system, and may transmit the measured frequency data to the power management device 110 .

The power management device 110 of the present invention is a top-level control device of the power management system 100 , and may include an Energy Management System (EMS) or a Power Management System (PMS) that operates in connection with a power system.

The power storage device 120 according to an embodiment of the present invention may store power supplied from the power system in the battery or discharge the power stored in the battery to the power system according to a charge/discharge control message.

The charge/discharge control message generated by the power management device 110 may include a charge control message and a discharge control message. More specifically, the power management apparatus 110 may generate a charge control message when the frequency of the power system is greater than or equal to the reference range, and generate a discharge control message when the frequency of the power system is less than the reference range.

The power storage device 120 may store power supplied from the power system in the battery according to the charge control message. In addition, the power storage device 120 may discharge the power stored in the battery to the power system according to the discharge control message.

In other words, the charge/discharge control message generated by the power management device 110 may include a message for charging or discharging the battery by controlling the operating state of the power storage device 120 .

The battery of the present invention may be managed by the battery management device. More specifically, the battery management apparatus may be equipped with software for managing battery state information, and may be, for example, a Battery Management System (BMS) 310 .

The battery of the present invention may include a battery produced by a lithium ion method or a lithium polymer method, and may include a lead-acid battery. Such a battery may store direct current power.

The power storage device 120 of the present invention may convert AC power supplied from the power system into DC power. As described above, while the battery stores DC power, the power used in the power system may be AC power.

Accordingly, the power storage device 120 may convert AC power into DC power to store AC power supplied from the power system in the battery. Also, the power storage device 120 may convert DC power into AC power in order to discharge the DC power stored in the battery to the power system.

In other words, the power storage device 120 of the present invention may include an ESS (Energy Storage System) for managing power supply between the power system and the battery, and includes a PCS (Power Conversion System) for converting electrical characteristics of power. You may.

The above-described power storage device 120 may perform data communication with the power management device 110 and the battery management device 310 . Also, the above-described battery management device 310 may perform data communication with the power management device 110 and the power storage device 120 . Such data communication may be performed through wireless or wired communication. Data transmitted and received between devices will be described later.

Referring back to FIG. 3 , the communication control apparatus 130 according to an embodiment of the present invention transmits the device control message generated by the power management apparatus 110 through the first communication line to the battery management apparatus 310 or power storage. may be delivered to the device 120 . Also, the communication control device 130 of the present invention may transmit the state information of the battery management device 310 or the power storage device 120 to the power management device 110 through the first communication line.

The device control message may include a startup control message for controlling whether the power storage device 120 is started, and may include a communication control message for controlling communication with the power storage device 120 or the battery management device 310 . have. Also, the device control message may include a status request message for requesting status information of the battery management device 310 or the power storage device 120 .

Such a device control message may be transmitted/received between the power management apparatus 110 and the power storage apparatus 120 or the battery management apparatus 310 through the first communication line. The first communication line may be a communication line connecting the battery management device 310 , the power storage device 120 , or other peripheral devices 320 to the power management device 110 through the communication control device 130 .

The communication control apparatus 130 may transmit the above-described device control message to the battery management apparatus 310 , the power storage apparatus 120 , or the peripheral apparatus 320 through the first communication line. Accordingly, the battery management apparatus 310 or the power storage apparatus 120 may receive a device control message from the communication control apparatus 130 .

When the device control message is a startup control message for controlling whether to start the power storage device 120 , the power storage device 120 may be started according to the startup control message. When the power storage device 120 is started according to the startup control message, the power storage device 120 can control charging and discharging of the battery, and when the startup of the power storage device 120 is stopped according to the startup control message, the power storage device 120 may not control battery charging and discharging.

When the device control message is a communication control message for controlling communication of the power storage device 120 or the battery management device 310, the power storage device 120 or the battery management device 310 performs data communication according to the communication control message. can be done

When data communication of the power storage device 120 is stopped according to the communication control message, the power storage device 120 may not perform data communication with the battery management device 310 and the communication control device 13 . Also, when data communication of the battery management device 310 is stopped according to the communication control message, the battery management device 310 may not perform data communication with the power storage device 120 and the communication control device 130 .

When the device control message is a status request message for requesting status information of the battery management device 310 or the power storage device 120 , the power storage device 120 or the battery management device 310 receives the status information according to the status request message. can create In other words, the status information of the present invention may be a response message to the status request message.

Alternatively, the battery management device 310 or the power storage device 120 may generate its own state information at a predetermined period regardless of whether the state request message is received. In other words, the status information of the present invention may be a message generated at a certain period, not a response message to a specific message.

The state information generated by the battery management device 310 and the power storage device 120 may include device state information or communication state information. The device status information may include information about the operating status of each device and whether there is an abnormality in the device. In addition, the communication state information may include information about the data communication state of each device and whether there is a communication error.

The communication control device 130 may transmit the state information generated by the battery management device 310 or the power storage device 120 to the power management device 110 through the first communication line. Accordingly, the power management device 110 may receive status information of each device from the communication control device 130 .

Referring back to FIG. 3 , the present invention may further include a first switching module 140 connecting the communication control device 130 and the battery management device 310 or the power storage device 120 . Accordingly, the communication control device 130 transmits a device control message to the power storage device 120 or the battery management device 310 through the first switching module 140 or the state through the first switching module 140 . information can be received.

The first switching module 140 may include any module that relays data communication between the communication control device 130 , the battery management device 310 , the power storage device 120 , and other peripheral devices 320 . For example, the first switching module 140 may be a hub or a switching hub, and preferably may be a switching hub capable of controlling to transmit a received message to a specific device.

More specifically, the destination of the device control message generated by the power management apparatus 110 may be preset. For example, the destination of the startup control message may be the power storage device 120 , and the destination of the communication control message may be the battery management system. Information on the destination of the message may be included in a header of a frame constituting each message.

Accordingly, the first switching module 140 that has received the start-up control message and the communication control message from the communication control device 130 may transmit the start-up control message to the power storage device 120 with reference to the header of each message. A communication control message may be passed to the battery management system.

Meanwhile, if the device control message is a status request message as described above, the communication control device 130 receives the status information of the battery management device 310 or the power storage device 120 through the first switching module 140 . can In other words, the battery management device 310 or the power storage device 120 may transmit status information that is a response message to the status request message to the communication control device 130 through the first switching module 140 .

The communication control device 130 according to an embodiment of the present invention may stop starting the battery management device 310 or the power storage device 120 according to the received state information. For example, the state information of the battery management device 310 may include information on whether a battery is abnormal and information on a state of charge (SOC) of the battery.

The communication control device 130 may determine that an abnormality has occurred in the battery based on the state information of the battery management device 310 and may determine that the charge amount of the battery is excessively low. In this case, the communication control device 130 may stop the startup of the battery management device 310 .

In another example, the state information of the power storage device 120 may include information on whether the power storage device 120 is abnormal. The communication control device 130 may determine that an error has occurred in the operation of the power storage device 120 based on the state information of the power storage device 120 . At this time, the communication control device 130 may stop the startup of the power storage device 120 .

In other words, the startup of the battery management device 310 or the power storage device 120 of the present invention can be controlled by the startup control message generated by the power management device 110 as described above, as well as the communication control device 130 . ) can also be controlled by

The communication control device 130 according to an embodiment of the present invention may block communication with the battery management device 310 or the power storage device 120 according to the state information. For example, the state information may include information about the data communication state of the battery management device 310 or the power storage device 120 and whether there is a communication error.

The communication control device 130 may determine that the data communication state of the battery management device 310 or the power storage device 120 is poor based on the status information. In this case, the communication control device 130 may block communication with a device having a poor data communication state.

As described above, according to the present invention, by controlling the startup and communication of each device according to the state information received from the battery management device and the power storage device, it is possible to prevent malfunction of the entire system due to an abnormality in any one device.

Meanwhile, the state information of the power storage device 120 may be transmitted to the power management device 110 through a second communication line to be described later. In other words, the power management device 120 may receive the state information of the power storage device 110 through the second communication line.

Since the power management device 110 is a top-level control device, it may include all the functions of the communication control device 130 described above. Accordingly, the power management device 110 may control startup and communication of the power storage device 120 based on the state information of the power storage device 120 .

The communication control device 130 according to an embodiment of the present invention may accumulate and store state information of the battery management device 310 or the power storage device 120 . For example, the battery management device 310 or the power storage device 120 may transmit its state information to the power storage device 120 at a predetermined period. The power storage device 120 may accumulate and store state information of each device received in a predetermined period over time.

Also, the battery management device 310 or the power storage device 120 may transmit its own state information to the power storage device 120 according to the status request message generated by the third power management device 110 . As such, the transmission of the status information may not have periodicity. The power storage device 120 may accumulate and store state information received periodically as well as aperiodically received state information over time.

As described above, according to the present invention, by accumulating and storing the state information of the battery management device and the power storage device, the state history of each device constituting the system can be managed and the control tendency of the system can be grasped.

For example, according to the present invention, a change in the battery charge amount may be recognized based on the state history of the battery management device 310 . In addition, it is also possible to determine a control trend for battery charging and discharging based on the state history of the power storage device 120 .

The communication control device 130 according to an embodiment of the present invention may transmit the communication state information of the power management device 110 to the battery management device 310 or the power storage device 120 .

The power management device 110 may transmit a status message for indicating its communication status to the communication control device 130 . Alternatively, the power management apparatus 110 may include information about its own communication state in the device control message transmitted to the communication control apparatus 130 .

The communication control device 130 may determine communication state information of the power management device 110 based on the message received from the power management device 110 . The communication control device 130 may transmit the identified communication state information of the power management device 110 to the battery management device 310 , the power storage device 120 , or other peripheral devices 320 .

Accordingly, the battery management device 310 or the power storage device 120 may block communication with the communication control device 130 based on the communication state information of the power management device 110 . For example, the battery management device 310 or the power storage device 120 may determine that the communication state is bad based on the communication state information of the power management device 110 .

In this case, the battery management device 310 or the power storage device 120 may block communication with the communication control device 130 . Accordingly, the battery management apparatus 310 or the power storage apparatus 120 may not receive the device control message generated by the power management apparatus 110 and may not transmit its own state information.

As described above, according to the present invention, since each device located in the field blocks communication with the communication control device based on the communication status information of the power management device, it is possible to block in advance the entire system malfunction due to the communication status failure.

More specifically, when the communication state of the power management device 110, which is the highest control device of the present invention, is bad, a malfunction of the entire system may occur. To prevent this, the battery management device 310 and the power storage device 120 block communication with the communication control device 130 , so that data communication with the power management device 110 may not be performed.

Referring back to FIG. 3 , the power management device 110 according to an embodiment of the present invention may transmit a charge/discharge control message to the power storage device 120 through the second communication line. The second communication line may be a communication line directly connecting the power management device 110 and the power storage device 120 without going through the above-described communication control device 130 .

More specifically, the present invention may further include a second switching module 150 that directly connects the power management device 110 and the power storage device 120 . In this case, the second communication line may be a communication line connecting the power storage device 120 to the power management device 110 through the second switching module 150 .

Accordingly, the power management device 110 may transmit a charge/discharge control message to the power storage device 120 through the second switching module 150 . In other words, the power storage device 120 may directly receive the charge/discharge control message from the power management device 110 without going through the above-described communication control device 130 .

The charge/discharge control message of the present invention may include a charge command value or a discharge command value. The charge command value may include the amount of power that the power storage device 120 should charge (store) in the battery, and the discharge command value may include the amount of power that the power master device needs to discharge the battery.

The power storage device 120 according to an embodiment of the present invention may store power corresponding to the charge command value in the battery or discharge power corresponding to the discharge command value from the battery.

More specifically, the power storage device 120 may determine a charge command value or a discharge command value based on the charge/discharge control message. When the charge/discharge control message includes the charge command value, the power storage device 120 may store power corresponding to the charge command value among the power supplied from the power system in the battery.

On the other hand, when a discharge command value is included in the charge/discharge control message, the power storage device 120 may supply power corresponding to the discharge command value among the power stored in the battery to the power system. As described above, the power storage device 120 may change the electrical characteristics (AC/DC) of power to charge or discharge power to the battery.

According to the present invention as described above, by configuring the communication lines for the device control message and the charging/discharging control message differently, the reaction speed of the battery charging/discharging can be increased. More specifically, since the charge/discharge control message is transmitted directly from the power management device 110 to the power storage device 120 without going through the communication control device 130 unlike the device control message, communication delay does not occur. Accordingly, according to the present invention, there is an advantage in that the battery can be quickly charged or discharged to quickly respond to a system accident.

For those of ordinary skill in the art to which the present invention pertains, various substitutions, modifications and changes are possible within the scope of the present invention without departing from the technical spirit of the present invention. is not limited by

Claims (10)

In the grid-linked power management system for adjusting the frequency of the power system,
a power management device for generating a device control message and a charge/discharge control message according to the frequency of the power system;
The device control message generated by the power management device is transmitted to the battery management device or the power storage device through a first communication line, or the state information of the battery management device or the power storage device is transmitted through the first communication line. a communication control device that communicates to the power management device;
a first switching module for switching so that the device control message is transmitted to the battery management device or the power storage device through the first communication line; and
and a power storage device for storing power supplied from the power system in a battery or discharging the power stored in the battery to the power system according to the charge/discharge control message,
The power management device,
A second switching module for switching so that the generated device control message is transmitted to the communication control device through the first communication line, and the generated charge/discharge control message is transmitted to the power storage device through a second communication line A power management system that further includes.
delete delete According to claim 1,
The power management device
The power management system for receiving the state information of the power storage device transmitted through the second communication line through the second switching module.
According to claim 1,
The communication control device
A power management system that stops starting of the battery management device or the power storage device according to the state information.
According to claim 1,
The communication control device
A power management system that blocks communication with the battery management device or the power storage device according to the state information.
According to claim 1,
The communication control device
A power management system for accumulating and storing state information of the battery management device or the power storage device.
According to claim 1,
The communication control device
A power management system for transmitting communication state information of the power management device to the battery management device or the power storage device.
9. The method of claim 8,
The battery management device or power storage device
A power management system for blocking communication to the communication control device based on the communication state information of the power management device.
According to claim 1,
The charge/discharge control message is
including a charge command value or a discharge command value;
The power storage device is
A power management system for storing power corresponding to the charging command value in the battery or discharging power corresponding to the discharging command value from the battery.

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