KR20150030379A - Apparatus and method for managing ess(energy storage system - Google Patents

Abstract

Proposed is an energy storage device operating system which charges an energy storage device in a load system of a light load state by connecting a single energy storage device with a plurality of load systems and supplies power of the energy storage device to a load system of a maximum load state; and a method thereof. The proposed energy storage device operating system sets up a maximum load standard value and a minimum load standard value based on load information of the load systems which are connected with the energy storage device, and controls the energy storage device to charge power which is supplied from a charged load system if it is determined that the energy storage device is charged based on current load amounts of the charged load system and the minimum load standard value. The energy storage device operating system controls the energy storage device to discharge the power which is charged to a discharged load system if it is determined that the energy storage device is discharged based on current load amounts of the discharged load system and the maximum load standard value. The energy storage device operating system comprises a setting unit, a charge determination unit, a charge control unit, a discharge determination unit, and a discharge control unit.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an apparatus and method for operating an energy storage device,

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an apparatus and method for operating an energy storage device, and more particularly, to an apparatus and method for operating an energy storage device using an energy storage device to overload the overload equipment.

Energy storage devices are devices that are used to improve the efficiency of transmission and distribution in the power system and to improve power quality. The energy storage device performs the main functions such as leveling the intermittent output of the distributed power supply or stabilizing the frequency in grid connection. In terms of load balancing, the energy storage device utilizes a large-scale power storage function and functions to narrow the deviation of power and demand from the existing power system and various distributed power sources.

Energy storage devices are used not only for power systems but also for energy storage and use in the efficient operation of different types of energy management systems such as small scale power systems such as micro grids or industrial, building and residential energy management systems .

In addition, technologies for applying energy storage devices to power systems have been developed, but the energy storage device market is still not activated. The main reason for this is that the price is too high and it is not effective against the investment. As an alternative to overcome this problem, It uses stored energy and charges energy to the energy storage device at a time when supply price is low.

Therefore, in order for the energy storage device market to be activated more quickly, it is important to find ways to lower the production cost to such an extent that the product price is competitive and to utilize the energy storage device economically.

1 is a view for explaining a conventional power system using an energy storage device. 1, when a power system is constructed by connecting an energy storage device to a plurality of load facilities, a first transformer 12, a second transformer 14, and a second transformer 14, which are individual load facilities, (I.e., the first energy storage device 22, the second energy storage device 24, and the third energy storage device 26), which are necessary for the power storage device 16, must be separately installed and operated.

At this time, the first transformer 12, which is a light load facility, operates the first energy storage device 22 to solve the light load time period, and the second transformer 14 and the third transformer 16, which are overload facilities, The second energy storage device 24 and the third energy storage device 26 are charged as needed to reduce the load time period and the energy is discharged at the time when the maximum load is generated.

In such a case, the first transformer 12 has a problem in that the light load time period will be solved to some extent but the light load state of the first transformer 12 is still low.

Further, in the case of the second transformer 14 and the third transformer 16, an additional load is generated during the charging time of the energy storage devices 24 and 26. [

In addition, energy storage devices are required to maintain at least 20% to 80% of their energy storage capacity by operating three energy storage devices, .

Prior Art 1: Japanese Laid-Open Patent Application No. 2006-42422 (titled Power Storage System) Prior Art 2: Korean Patent No. 10-1146670 (entitled " Energy management system and control method thereof "

SUMMARY OF THE INVENTION The present invention has been proposed in order to solve the above-mentioned problems, and it is an object of the present invention to provide a single energy storage device which is connected to a plurality of load facilities to charge an energy storage device in a light- And an energy storage device operating method and apparatus for supplying power to the energy storage device.

According to an aspect of the present invention, there is provided an apparatus for operating an energy storage device, including: a maximum load reference value and a minimum load reference value based on load information of a plurality of load facilities connected to an energy storage device; A charge determination unit for determining whether the energy storage device is charged based on a current load amount and a minimum load reference value of one of the plurality of load facilities to be charged; A charge controller for controlling the energy storage device to charge the power storage device with electric power supplied from a load facility to be charged when the charge determination unit determines that the energy storage device is charged; A discharge judging unit for judging whether or not the energy storage device is discharged on the basis of a current load amount and a maximum load reference value of one of the plurality of load facilities to be discharged; And a discharge control unit for controlling the energy storage device to discharge electric power charged to the discharge target load facility when the discharge determination unit determines that the discharge of the energy storage device is determined.

The setting unit sets the target maximum load to the maximum load reference value, and resets the maximum load reference value when the peak load sum value of the load facilities exceeds the maximum load reference value.

The setting unit sets the maximum load reference value to be reset to be equal to or smaller than the peak load sum value.

The setting unit calculates the peak load sum value by summing the loads of the load facilities exceeding the set maximum load reference value.

The charge determination unit determines that the energy storage device is charged through the load facility to be charged if the current load amount of the load facility to be charged is less than the minimum load reference value.

The charge determining unit determines whether or not the charge of the energy storage device is completed based on the current load amount of the load facility to be charged and the lowest load reference value. If the current load amount of the load facility to be charged is equal to or greater than the minimum load reference value, do.

The charging control unit controls the switches provided between the energy storage device and the charging target load facility to connect the energy storage device and the path of the charging target load facility when the charging determination unit determines that the energy storage device is charged, Mode.

The discharge judging unit judges that the energy storage device discharge to the load facility to be discharged when the current load of the load facility to be discharged exceeds the maximum load reference value.

The discharge judging unit judges whether or not the discharge of the energy storage device is completed based on the current load amount and the maximum load reference value of the load facility to be discharged. If the current load amount of the load facility to be discharged is less than the maximum load reference value, do.

The discharge control unit controls the switches provided between the energy storage device and the discharge target load device to determine the discharge of the energy storage device in the discharge determination unit, thereby connecting the energy storage device and the path of the charging target load device, Mode.

And an input unit for receiving load information including a current load amount and a period load amount of the plurality of load facilities from the plurality of load facilities or the scada system.

According to an aspect of the present invention, there is provided a method of operating an energy storage device, the method comprising: setting a maximum load reference value and a minimum load reference value based on load information of a plurality of load facilities connected to an energy storage device, ; Determining whether the energy storage device is charged based on a current load amount and a minimum load reference value of one of the plurality of load facilities to be charged by the charge determination unit; Controlling the energy storage device to charge the power storage device with electric power supplied from the load facility to be charged when the charging control device determines that the energy storage device is charged in the step of determining whether the electric energy storage device is being charged; Determining whether the energy storage device is discharged based on a current load amount and a maximum load reference value of one of the plurality of load facilities to be discharged by the discharge determination unit; And controlling the energy storage device to discharge electric power charged to the discharge target load facility when it is determined by the discharge control unit that the discharge of the energy storage device is determined in the step of determining whether or not the discharge is performed.

The setting step may include setting a maximum load reference value for the target maximum load by the setting unit; Calculating a peak load sum value by summing loads of load facilities exceeding a set maximum load reference value by a setting unit; And resetting the maximum load reference value when the peak load amount sum value calculated by the setting unit exceeds the maximum load reference value.

In the step of resetting the maximum load reference value, the setting unit sets the maximum load reference value to be reset to the peak load sum value or less.

The charging determining unit determines that the energy storage device is charged through the charging target load facility when the current load amount of the charging target load facility is less than the minimum load reference value.

Further comprising the step of determining whether or not the charging of the energy storage device being charged is completed based on the current load amount and the minimum load reference value of the load equipment to be charged by the charge determination unit, , It is determined that the charging of the energy storage device being charged is terminated when the current load amount of the load facility to be charged is equal to or higher than the lowest load reference value.

The step of controlling the energy storage device to charge may include the steps of controlling the switches installed between the energy storage device and the load device to be charged when the charging control device determines that the energy storage device is charged in the step of determining whether the device is being charged, Connecting a path of a load facility to be charged; And controlling the energy storage device to operate in the charge mode by the charge control section.

In the step of determining whether or not the discharge is performed, the discharge determination unit determines that the energy storage device discharge to the discharge target load facility is made when the current load amount of the discharge target load equipment exceeds the maximum load reference value.

The method further includes determining whether the discharge of the energy storage device is completed based on the current load amount and the maximum load reference value of the discharge target load facility by the discharge determination unit, , It is judged that the discharge of the energy storage device is ended when the current load amount of the load facility to be discharged is less than the maximum load reference value.

In the step of controlling the energy storage device for discharging, if it is judged by the discharge control part that the discharge of the energy storage device is judged as the discharge of the energy storage device, the switches installed between the energy storage device and the discharge target load device are controlled, Connecting a path of a load facility to be charged; And controlling the energy storage device to operate in the discharge mode by the discharge control section.

Receiving input of load information including a current load amount and a period load amount of a plurality of load facilities from a plurality of load facilities or a scada system by an input section.

According to the present invention, an apparatus and method for operating an energy storage device can reduce the energy consumption of a single energy storage device by eliminating a light load and an overload state of a plurality of load facilities, It is possible to utilize economical energy storage device by minimizing facility investment.

In addition, the energy storage device operating method and method minimize the light load condition of the light load load facility by charging the energy storage device with the power of the light load load device and discharging the electric power charged to the energy storage device by the overload load device And the overload state of the overloaded load equipment is minimized, so that the power system can be operated stably.

Also, the apparatus and method for operating the energy storage apparatus have an effect of preventing the occurrence of additional load for charging the energy storage apparatus by charging the energy storage apparatus with the power of the light load load facility.

In addition, the energy storage device operating method and method can be realized by charging the energy storage device with the power of the light load load device and discharging the charged power to the energy storage device with the overloading load device, It is possible to increase the utilization efficiency of the energy storage device by operating the facility.

1 is a view for explaining a conventional power system using an energy storage device.
BACKGROUND OF THE INVENTION 1. Field of the Invention [0001]
3 is a block diagram illustrating a configuration of an energy storage device operating apparatus according to an embodiment of the present invention.
4 is a flowchart illustrating a method of operating an energy storage device according to an embodiment of the present invention.
5 is a flowchart for explaining the reference value setting step of FIG.
6 to 12 are views for explaining the operation of an energy storage device operating apparatus according to an embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings in order to facilitate a person skilled in the art to easily carry out the technical idea of the present invention. . In the drawings, the same reference numerals are used to designate the same or similar components throughout the drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

Hereinafter, an energy storage device operating apparatus according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings. FIG. 2 is a view for explaining an energy storage device operating apparatus according to an embodiment of the present invention, and FIG. 3 is a block diagram illustrating a configuration of an energy storage apparatus operating apparatus according to an embodiment of the present invention.

2, the included power system includes an energy storage device 300 coupled to a plurality of load facilities (e.g., first transformer 120 to third transformer 160), an energy storage device 300 And an energy storage device operating device 400 for controlling charge and discharge of the energy storage device 400.

The energy storage device 300 is composed of a plurality of cells 320 and is connected to a plurality of load facilities through a plurality of switches. Under the control of the energy storage device operating device 400, the energy storage device 300 receives and supplies power from a light load device, and supplies the charged electric power to the load device in a full load state. At this time, the energy storage device 300 can supply energy at the time of a maximum load of a plurality of overload facilities using a single energy storage device 300 having a large peak load and a different generation time, Are placed at a location which is composed of load facilities capable of storing excess energy in the energy storage device 300 when the load of the light load facilities is small. Accordingly, the energy storage device 300 is composed of facilities having a large difference between the maximum load and the minimum load compared with the average load of the target load facility candidate group, so that the size of the peak load can be reduced and the effect of increasing the light load can be obtained.

The energy storage device operating device 400 sets a reference value for charge / discharge control of the energy storage device 300. That is, the energy storage device operating device 400 sets a reference value including a maximum load reference value and a minimum load reference value. At this time, the energy storage device operating device 400 sets the maximum load reference value such that the charge capacity of the energy storage device 300 is equal to or greater than the reduction target load amount (that is, the sum of the load amounts exceeding the maximum load reference value).

The energy storage device operating device 400 controls the charging and discharging of the energy storage device 300 based on the predetermined reference value and the load of the load facilities. That is, the energy storage device operating device 400 discharges the energy storage device 300 to supply the charged power to the load equipment that is in a load state exceeding the maximum load reference value. The energy storage device operating device 400 charges the energy storage device 300 to charge the power by receiving power from the load equipment that is in a load condition less than the minimum load reference value.

3, the energy storage device operating apparatus 400 includes an input unit 410, a setting unit 420, a charge determination unit 430, a charge control unit 440, a discharge determination unit 450, And a discharge control unit 460.

The input unit 410 receives the load information. That is, the input unit 410 receives the load information directly from the target load facilities or receives the load information of the target load facilities from the Scada system (not shown). At this time, the input unit 410 receives the period load amount of the target load facilities measured for a predetermined period and the current load amount. The input unit 410 transmits the period load amount to the setting unit 420 and transmits the current load amount to the charge determination unit 430 and the discharge determination unit 450.

The setting unit 420 sets a reference value for charge / discharge control of the energy storage device 300 based on the period load amount received from the input unit 410. That is, the setting unit 420 sets the maximum load reference value and the minimum load reference value based on the period load amount. At this time, the setting unit 420 sets the predetermined maximum load in advance as the maximum load reference value in order to suppress the investment of additional equipment.

The setting unit 420 may set the maximum load reference value based on the charge capacity of the energy storage device 300. [ That is, the setting unit 420 calculates the peak load sum value of the load facilities (i.e., the sum of the load amounts of the load facilities exceeding the preset maximum load reference value). The setting unit 420 resets the maximum load reference value so that the predetermined maximum load reference value exceeds the peak load sum value, or less than the peak load sum value.

The charge determination unit 430 determines whether the energy storage device 300 is charged based on the current load amount of the load facilities and the lowest load reference value. That is, if the current load amount of each load facility is less than the minimum load reference value, the charge determining unit 430 determines that the energy storage device 300 is charged through the load facility.

The charge determination unit 430 determines whether the charge of the energy storage device 300 is completed based on the current load amount of the load facilities and the lowest load reference value. That is, the charge determination unit 430 determines that the charge of the energy storage device 300 is terminated when the current load amount of the load facility to be charged reaches the minimum load reference value.

The charge control unit 440 sets the path of the energy storage device 300 based on the determination result of the charge determination unit 430. The charge control unit 440 controls the energy storage device 300 to operate in the charge mode . That is, the charge control unit 440 controls the switches installed between the energy storage device 300 and the load facility to connect the energy storage device 300 and the path of the load facility to be charged. The charge control unit 440 controls the energy storage device 300 to operate in the charge mode when the path connection is completed.

When the charge determining unit 430 determines that the charge of the energy storage device 300 is to be terminated, the charge control unit 440 cancels the charge mode of the energy storage device 300, do.

The discharge determination unit 450 determines whether or not the energy storage device 300 is discharged based on the current load amount of the load facilities and the maximum load reference value. That is, if the current load amount of each load equipment exceeds the maximum load reference value, the discharge determination unit 450 determines that the energy storage device 300 is discharged to the load equipment.

The discharge determination unit 450 determines whether the discharge of the energy storage device 300 is completed based on the current load amount of the load facilities and the maximum load reference value. That is, the charge determination unit 430 determines that the discharge of the energy storage device 300 is ended when the current load amount of the load facility to be discharged is less than the maximum load reference value.

The discharge control unit 460 sets the path of the energy storage device 300 based on the determination result of the discharge determination unit 450. The discharge control unit 460 controls the energy storage device 300 to operate in the discharge mode . That is, the discharge controller 460 controls the switches installed between the energy storage device 300 and the load device to connect the paths of the energy storage device 300 and the discharge target load device. The discharge controller 460 controls the energy storage device 300 to operate in the discharge mode when the path connection is completed.

When the discharge determination unit 450 determines that the discharge of the energy storage device 300 is to be terminated, the discharge control unit 460 releases the discharge mode of the energy storage device 300 and opens the switch to disconnect the discharge target facility do.

Hereinafter, a method of operating an energy storage device according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings. FIG. 4 is a flowchart illustrating a method of operating an energy storage device according to an embodiment of the present invention, and FIG. 5 is a flowchart illustrating a reference value setting step of FIG.

The input unit 410 receives load information from the load facilities or the scada system (S100). At this time, the input unit 410 receives the period load amount of the target load facilities measured for a predetermined period and the current load amount. Here, the input unit 410 receives the load information directly from the target load facilities, or receives the load information collected from the target load facilities in the Scada system.

The setting unit 420 sets a reference value for charge / discharge control of the energy storage device 300 based on the previously input load information (S150). At this time, the setting unit 420 sets the maximum load reference value and the minimum load reference value based on the period load amount. This will be described in more detail with reference to FIG. 5 attached hereto.

The setting unit 420 sets the maximum load reference value and the minimum load reference value based on the period load amount (S152). That is, the setting unit 420 sets a predetermined maximum load in advance as a maximum load reference value for the purpose of suppressing the investment of the additional facility. At this time, the setting unit 420 is a level that satisfies the sum of the peak load times of the light load equipments which are equal to or more than the sum of the peak load amounts of the facilities exceeding the preset maximum load reference value, Set a reference value. Here, the setting unit 420 may further set the sorting and start time for the target facility time zone.

The setting unit 420 calculates the peak load sum value of the load facilities (S154). The setting unit 420 calculates the peak load sum value by summing the loads of the load facilities exceeding the predetermined maximum load reference value.

If the charge capacity of the energy storage device 300 is less than the peak load sum value (S156; YES), the setting unit 420 resets the maximum load reference value (S158). At this time, the setting unit 420 resets the maximum load reference value so that the maximum load reference value is equal to or less than the peak load sum value. That is, the setting unit 420 compares the reduction target load amount, which is the sum of the peak load amounts exceeding the maximum load standard value of the overload equipment, with the capacity charged in the energy storage device 300, The maximum load reference value is reset if it is greater than the charge capacity of the apparatus 300. [ The setting unit 420 corrects the maximum load reference value to a level that can sufficiently supply the peak load sum value to the energy stored in the energy storage device 300. [

The charge determining unit 430 determines whether the charge of the energy storage device 300 is controlled based on the reference value and the load information. That is, the charge determination unit 430 determines whether or not the energy storage device 300 is charged based on the current load amount of the load facilities and the lowest load reference value. At this time, if the current load amount of each load equipment is less than the minimum load reference value (S200; YES), the charge determining unit 430 determines that the energy storage device 300 is charged through the load equipment . Accordingly, the charge control unit 440 controls the energy storage device 300 to operate in the charge mode of the load facility (i.e., the load facility to be charged) (S250). That is, the charge control unit 440 controls the switches installed between the energy storage device 300 and the load facility to connect the energy storage device 300 and the path of the load facility to be charged. The charge control unit 440 controls the energy storage device 300 to operate in the charge mode when the path connection is completed.

The charge determination unit 430 determines whether the charge control of the energy storage device 300 is terminated based on the current load amount and the lowest load reference value. At this time, when the current load amount of the load facility to be charged reaches the minimum load reference value (S300; Yes), the charge determination unit 430 determines that the charging of the energy storage device 300 has ended. Accordingly, the charge control unit 440 ends the charging of the load facility to be charged (S350). That is, the charge control unit 440 cancels the charge mode of the energy storage device 300, and opens the switch to release the connection to the charging target facility.

Meanwhile, the discharge determination unit 450 determines whether or not the discharge of the energy storage device 300 is controlled based on the reference value and the load information. That is, the discharge determination unit 450 determines whether the energy storage device 300 is discharged based on the current load amount of the load facilities and the maximum load reference value. At this time, if the current load amount of the load equipment exceeds the maximum load reference value (S400; YES), the discharge determination unit 450 determines that the energy storage device 300 is discharged to the load facility. Accordingly, the discharge control unit 460 controls the energy storage device 300 to operate in the discharge mode to the load facility (i.e., the discharge target load facility) (S450). That is, the discharge controller 460 controls the switches installed between the energy storage device 300 and the load device to connect the paths of the energy storage device 300 and the discharge target load device. The discharge controller 460 controls the energy storage device 300 to operate in the discharge mode when the path connection is completed.

The discharge determination unit 450 determines whether the discharge control of the energy storage device 300 is completed based on the current load and the maximum load reference value. At this time, if the current load amount of the load facility to be discharged becomes less than the maximum load reference value (S500; YES), the discharge determination unit 450 determines that the discharge of the energy storage device 300 has ended. Accordingly, the discharge control section 460 terminates the discharge to the discharge target load facility (S550). That is, the discharge control unit 460 releases the discharge mode of the energy storage device 300 and opens the switch to release the connection to the discharge target facility.

Thereafter, when charging or discharging of the load equipment is completed, it is checked whether the next target equipment is present, and if the next target equipment exists, charging or discharging is performed to the next target equipment, and if not, If it exists, it moves to the next time zone. If there are no more next-to-next-generation facilities and there is no next time zone to move to, it is terminated.

Here, in the method of operating the energy storage device 300 according to the embodiment of the present invention, since the energy storage device 300 corresponds to the light load and the overload of the plurality of load facilities through the single energy storage device 300, You should choose a location that is appropriate for your use. For this, in the present invention, since the size of the peak load is large and the generation times are different from each other before the step S100, energy can be supplied at the time of the maximum load of a plurality of overload facilities using the single energy storage device 300, The point where the energy storage device 300 stores the energy of the excess energy when the load of the light load equipment is small is connected to the light load equipment having the large difference between the light load and the maximum load at the same time, 300) is installed. This makes it possible to reduce the size of the peak load and increase the cervical load because the system is composed of facilities having a large difference between the maximum load and the minimum load in comparison with the average load of the target load facility candidate group.

Hereinafter, the operation of the energy storage device operating apparatus according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings. 6 to 12 are views for explaining the operation of the energy storage device operating apparatus according to the embodiment of the present invention.

First, charge and discharge of the first transformer 120 to the third transformer 160 are performed using a single energy storage device 300 in a substation composed of a plurality of transformers (see FIG. 2) 7, the first transformer 120 is in the light load time zone A from 1:00 to the next day 8:00, the second transformer 140 is in the maximum load time zone B from 10:00 to 12:00, The third transformer 160 explains the operation of the energy storage device operating apparatus 400 as an example of the maximum load time period C from 14:00 to 18:00.

The energy storage device operating device 400 sets the target maximum load reference value D at 9.0 for the second transformer 140 and the third transformer 160 as the overload devices.

In the energy storage device operating apparatus 400, the peak load of the second transformer 140 having a load exceeding 9.0 is 3.4 and the peak load of the third transformer 160 is 6.1, so that the peak load sum value is 9.5.

Therefore, the energy storage device operating apparatus 400 sets the maximum load reference value D to 9.0 and the minimum load reference value E to 3.1. At this time, the energy storage device operating device 400 sets the capacity of the energy storage device 300 to be at least 9.5 or more, and the sorting of the target equipment by time period is performed by the second transformer 140, (160), and the start time zone is set to 21 hours on the day before the start of charging to the energy storage device (300).

8, the energy storage device operating system 400 is configured so that the energy storage device 300 is connected to the first transformer (not shown) because the current load is 2.7 and the current load is less than the minimum load reference value 3.1, 120) and continues charging until it is higher than the lowest load reference value (E). That is, the energy storage device operating apparatus 400 closes the first switch 210 and the fourth switch 270 to connect the paths of the energy storage device 300 and the first transformer 120, And drives the energy storage device 300 in the charge mode. When the charging is completed (that is, when the minimum load reference value is equal to or greater than the current load of the first transformer 120), the energy storage device operating device 400 stops the charging mode driving of the energy storage device 300, The switch 210 and the fourth switch 270 are opened to cut off the path of the energy storage device 300 and the first transformer 120. [

Since there is no other target facility, the movement to the next time zone is repeated. At 10 am, the current load is 9.7, which exceeds 9.0, which is the maximum load reference value (D). Therefore, The operating device 400 switches the energy storage device 300 to the second transformer 140 and then discharges energy to terminate the energy discharge at 12 when the current load exceeds the maximum load reference value D. [ That is, the energy storage device operating apparatus 400 closes the second switch 230 and the fourth switch 270 to connect the paths of the energy storage device 300 and the second transformer 140, And drives the energy storage device 300 to the discharge mode. When the discharge is completed (that is, when the current load of the second transformer 140 exceeds the maximum load reference value), the energy storage device operating device 400 stops the discharge mode driving of the energy storage device 300, The switch 230 and the fourth switch 270 are opened to cut off the path of the energy storage device 300 and the second transformer 140.

Since there is no other target facility in the same time zone, the movement is repeated in the next time zone. At 14 o'clock, the current load is 10.5 and exceeds 9.0, which is the maximum load reference value (D) The storage apparatus operating apparatus 400 switches to the third transformer 160 and discharges energy to terminate the energy discharge at 18 when the current load exceeds the maximum load reference value D. [

That is, the energy storage device operating apparatus 400 closes the third switch 250 and the fourth switch 270 to connect the paths of the energy storage device 300 and the third transformer 160, And drives the energy storage device 300 to the discharge mode. When the discharge is completed (that is, when the current load of the third transformer 160 exceeds the maximum load reference value), the energy storage device operating device 400 stops the discharge mode driving of the energy storage device 300, The switch 250 and the fourth switch 270 are opened to cut off the path of the energy storage device 300 and the third transformer 160.

11 and 12, the first transformer 120, which has been the light load unit, has the lowest load reference value E as the whole light load time period A ' (B ', C') of the second transformer 140 and the third transformer 160 having the intermittent maximum load can be reduced to the maximum load reference value D Able to know.

As described above, the apparatus and method for operating the energy storage device can reduce the energy consumption of the energy storage device by performing charge / discharge control of the single energy storage device to eliminate the light load and the overload state of the plurality of load facilities, It is possible to utilize economical energy storage device by minimizing facility investment.

In addition, the energy storage device operating method and method minimize the light load condition of the light load load facility by charging the energy storage device with the power of the light load load device and discharging the electric power charged to the energy storage device by the overload load device And the overload state of the overloaded load equipment is minimized, so that the power system can be operated stably.

Also, the apparatus and method for operating the energy storage apparatus have an effect of preventing the occurrence of additional load for charging the energy storage apparatus by charging the energy storage apparatus with the power of the light load load facility.

In addition, the energy storage device operating method and method can be realized by charging the energy storage device with the power of the light load load device and discharging the charged power to the energy storage device with the overloading load device, It is possible to increase the utilization efficiency of the energy storage device by operating the facility.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but many variations and modifications may be made without departing from the scope of the present invention. It will be understood that the invention may be practiced.

120: first transformer 140: second transformer
160: third transformer 210: first switch
230: second switch 250: third switch
270: fourth switch 300: energy storage device
320: Cell 400: Energy storage device operating device
410: input unit 420: setting unit
430 charge determination unit 440 charge control unit
450: discharge determination unit 460: discharge control unit

Claims (21)

A maximum load reference value and a minimum load reference value based on load information of a plurality of load facilities connected to the energy storage device;
A charge determination unit for determining whether the energy storage device is charged based on a current load amount of one of the plurality of load facilities to be charged and a minimum load reference value;
A charge controller for controlling the energy storage device to charge the battery with power supplied from the charging target load facility when the charge determining unit determines that the energy storage device is charged;
A discharge judging unit for judging whether or not the energy storage device is discharged based on a current load amount of one of the load facilities to be discharged and the maximum load reference value; And
And a discharge control unit for controlling the energy storage device to discharge electric power charged to the discharge target load facility when the discharge determination unit determines the discharge of the energy storage device. The method according to claim 1,
Wherein,
And sets the maximum load reference value as the target maximum load and resets the maximum load reference value when the peak load sum value of the load facilities exceeds the maximum load reference value. The method of claim 2,
Wherein,
And sets the reset maximum load reference value to be equal to or less than the peak load sum value. The method of claim 2,
Wherein,
And calculates the peak load sum value by summing loads of load facilities exceeding the set maximum load reference value. The method according to claim 1,
The charge determination unit
And determines that the energy storage device is charged through the charging object load facility when the current load amount of the charging object load facility is less than the minimum load standard value. The method according to claim 1,
The charge determination unit
Determining whether charging of the energy storage device is completed based on the current load amount of the charging target load facility and the minimum load reference value, and if the current load amount of the charging target load facility is equal to or greater than the minimum load reference value, Wherein the energy storage device is a power storage device. The method according to claim 1,
Wherein the charge control unit comprises:
And controls the switches installed between the energy storage device and the charging object load device to connect the energy storage device and the path of the charging object load device when the charge determination section determines that the energy storage device is charged, And controls the apparatus to operate in a charge mode. The method according to claim 1,
The discharge determination unit
And determines that the discharge to the discharge target load facility is the energy storage device discharge if the current load amount of the discharge target load facility exceeds the maximum load reference value. The method according to claim 1,
The discharge determination unit
And determining whether or not the discharge of the energy storage device is completed based on the current load amount of the discharge target load facility and the maximum load reference value. If the current load amount of the discharge target load facility is less than the maximum load reference value, Wherein the energy storage device is a power storage device. The method according to claim 1,
Wherein the discharge control unit comprises:
And controlling the switches provided between the energy storage device and the discharging target load device to connect the energy storage device and the path of the charging target load device by determining the discharge of the energy storage device, And controls the apparatus to operate in a discharge mode. The method according to claim 1,
Further comprising an input unit for receiving load information including a current load amount and a period load amount of the plurality of load facilities from the plurality of load facilities or the scada system. Setting a maximum load reference value and a minimum load reference value based on load information of a plurality of load facilities connected to the energy storage device by the setting unit;
Determining whether the energy storage device is charged based on the current load amount and the minimum load reference value of one of the plurality of load facilities to be charged by the charge determination unit;
Controlling the energy storage device to charge the battery pack with electric power supplied from the charging object load facility when it is determined that the energy storage device is charged in the charge control section;
Determining whether a discharge of the energy storage device is discharged based on a current load amount and a maximum load reference value of one discharge target load facility among the plurality of load facilities by a discharge determination unit; And
And controlling the energy storage device to discharge electric power charged to the discharge object load facility when it is determined by the discharge control unit that the discharge of the energy storage device is determined in the step of determining whether or not the discharge is performed How to operate an energy storage device. The method of claim 12,
Wherein the setting step comprises:
Setting the maximum load reference value to the target maximum load by the setting unit;
Calculating, by the setting unit, the peak load sum value by summing the load amounts of the load facilities exceeding the set maximum load reference value; And
And resetting the maximum load reference value by the setting unit if the calculated peak load sum value exceeds the maximum load reference value. 14. The method of claim 13,
In the step of resetting the maximum load reference value,
Wherein the setting unit sets the maximum load reference value to be reset to be equal to or less than the peak load sum value. The method of claim 12,
In the step of determining whether the battery is charged,
Wherein the charging determination unit determines that the energy storage device is charged through the charging object load facility when the current load amount of the charging object load facility is less than the minimum load standard value. The method of claim 12,
Further comprising the step of determining, by the charge determination unit, whether or not charging of the energy storage device being charged is completed based on the current load amount of the charging object load facility and the minimum load reference value,
In the step of determining whether the charging is completed,
Wherein the charge determining unit determines that charging of the energy storage device being charged is terminated when the current load amount of the charging target load facility is equal to or greater than the minimum load reference value. The method of claim 12,
Wherein the step of controlling the energy storage device to charge comprises:
Wherein the charging control unit controls switches installed between the energy storage device and the charging object load facility to determine whether the energy storage device is to be charged, Connecting the paths of the first and second paths; And
And controlling the energy storage device to operate in a charge mode by the charge control unit. The method of claim 12,
In the step of determining whether or not the discharge is performed,
Wherein the discharge determination unit determines that the energy storage device discharge to the discharge object load facility is determined to be a discharge when the current load amount of the discharge target load facility exceeds the maximum load reference value. The method of claim 12,
Further comprising the step of determining whether the discharge of the energy storage device is completed based on the current load amount of the discharge object load facility and the maximum load reference value by the discharge determination section,
In the step of determining whether the discharge is completed,
Wherein the discharge determination unit determines that the discharge of the energy storage device is terminated when the current load amount of the discharge target load facility is less than the maximum load reference value. The method of claim 12,
In the step of controlling the energy storage device to discharge,
Wherein the controller controls switches installed between the energy storage device and the discharging target load device to determine whether the discharging of the energy storage device and the charging target load device Connecting the paths of the first and second paths; And
And controlling the energy storage device to operate in a discharge mode by the discharge control unit. The method of claim 12,
Further comprising receiving, by an input unit, load information including a current load amount and a period load amount of the plurality of load facilities from the plurality of load facilities or the scada system.

Images