TW202319883A - Power demand controlling system and method thereof - Google Patents

Abstract

A power demand controlling system comprising: a power storage device; a database storing a current control upper limit value data and a first historical demand data, the first historical demand data is associated with a first time interval data; and a server accessing the database and communicatively connected to the power storage device, the server calculates a first average demand value data according to the first historical demand data, the first average demand value data is associated with the first time interval data; wherein the server adjusts the current control upper limit value data to be equal to the first average demand value data based on the current control upper limit value data being less than the first average demand value data.

Description

Power demand control system and method thereof

The present invention relates to a power demand control system and its method, in particular to a power demand control system and its method capable of adjusting the power demand control upper limit according to power usage conditions.

The traditional power supply system does not have a power demand control system, which uses a fixed power demand control upper limit to control the power consumption of users (such as enterprise users). However, under this power demand control method, when users need to consume a large amount of electricity within a specific period, they will need to pay a high overage fee because the power consumption greatly exceeds the upper limit of the power demand control. In view of this, there is a need for a power demand control system and method thereof that can adjust the power demand control upper limit according to the power usage status of users (such as enterprise users).

In order to solve the above problems, an idea of the present invention is to provide a power demand control system and method thereof capable of dynamically adjusting the upper limit of the power demand control. Another idea of the present invention is to provide a power demand control system and method thereof capable of adjusting the power demand control upper limit according to the power usage status of users (such as enterprise users).

Based on the concept disclosed above, the present invention provides a power demand control system, including: an energy storage device; a database, storing a current control upper limit value data and a first historical demand data, the first historical demand data Associated with a first time interval data; and a server, accessing the database and communicating with the energy storage device, the server calculates a first average demand value data based on the first historical demand data, The first average demand value data is associated with the first time interval data; wherein the server adjusts the current control upper limit data to It is equal to the first average demand data.

In a preferred embodiment of the present invention, the server receives a current demand value data, and stores the current demand value data into the database, wherein the database stores a demand forecast value data; wherein the The server enables the energy storage device to store energy based on the current demand value data or the demand forecast value data being less than the current control upper limit data; wherein the server bases the current demand value data or the demand The predicted value data is greater than the current control upper limit data, so that the energy storage device is discharged.

In a preferred embodiment of the present invention, the server receives a current demand value data, and stores the current demand value data into the database, wherein the database stores a demand forecast value data; wherein the The server enables the energy storage device to store energy based on the current demand value data or the demand forecast value data being less than the current control upper limit data; wherein the server bases the current demand value data or the demand The predicted value data is greater than the current control upper limit data, so that the energy storage device is discharged. Wherein the server receives a current energy storage value data from the energy storage device; wherein the server is based on the current demand value data or the demand forecast value data being less than the current control upper limit data, and the current energy storage value The data is greater than or equal to a predetermined energy storage upper limit data, so that the energy storage device stops storing energy.

In a preferred embodiment of the present invention, the server determines that the current control upper limit data is less than the first average demand value data based on the current control upper limit data being less than a predetermined multiple of the first average demand value data. demand data.

In a preferred embodiment of the present invention, the database stores a second historical demand data, the second historical demand data is associated with a second time interval data, and the second time interval data is continuous with the first A time interval data; wherein the server calculates a second average demand value data based on the second historical demand data, and the second average demand value data is associated with the second time interval data; wherein the server is based on The current control upper limit data is smaller than the second average demand value data, and the current control upper limit data is adjusted to be equal to the second average demand value data.

In a preferred embodiment of the present invention, the database stores a second historical demand data, the second historical demand data is associated with a second time interval data, and the second time interval data is continuous with the first A time interval data; wherein the server calculates a second average demand value data based on the second historical demand data, and the second average demand value data is associated with the second time interval data; wherein the server is based on The current control upper limit data is greater than or equal to the second average demand data, so that the current control upper limit data remains unchanged.

In a preferred embodiment of the present invention, the database stores an initial control upper limit data, wherein the server adjusts the current control upper limit data to be consistent with The initial control upper limit data are equal.

According to the purpose of the present invention, there is provided a power demand control method applied to a power demand control system, the power demand control system includes an energy storage device, a database and a server, the server accesses the database, and the server is connected to the energy storage device through communication. The power demand control method includes the following steps: store a current control upper limit value data and a first historical demand data in the database, and the first historical demand data The quantity data is associated with a first period interval data; the server calculates a first average demand value data according to the first historical demand data, and the first average demand value data is associated with the first period interval data and adjusting, by the server, the current control upper limit data to be equal to the first average demand value data based on the current control upper limit data being smaller than the first average demand value data.

In a preferred embodiment of the present invention, the power demand control system further includes the following steps: storing a demand forecast value data from the database; receiving a current demand value data from the server, and storing the current demand value data The demand value data is stored in the database; the server enables the energy storage device to store energy based on the current demand value data or the demand forecast value data being less than the current control upper limit data; and the server The server discharges the energy storage device based on the current demand value data or the demand forecast value data being greater than the current control upper limit data.

In a preferred embodiment of the present invention, the power demand control system further includes the following steps: storing a demand forecast value data from the database; receiving a current demand value data from the server, and storing the current demand value data The demand value data is stored in the database; the server enables the energy storage device to store energy based on the current demand value data or the demand forecast value data being less than the current control upper limit data; and the server The server discharges the energy storage device based on the current demand value data or the demand forecast value data being greater than the current control upper limit data. In addition, the power demand control system further includes the following steps: the server receives a current energy storage value data from the energy storage device; and the server based on the current demand value data or the demand forecast value data is less than The current control upper limit value data, and the current energy storage value data is greater than or equal to a predetermined energy storage upper limit value data, so that the energy storage device stops energy storage.

In a preferred embodiment of the present invention, the power demand control system further includes the following steps: the server determines based on that the current control upper limit value data is less than a predetermined multiple of the first average demand value data The current control upper limit data is smaller than the first average demand data.

In a preferred embodiment of the present invention, the power demand control system further includes the following steps: store a second historical demand data in the database, and the second historical demand data is associated with a second time interval data , and the second time interval data is continuous with the first time interval data; the server calculates a second average demand value data based on the second historical demand data, and the second average demand value data is associated with the second time interval data; and adjusting the current control upper limit data to be consistent with the second average demand value data by the server based on the current control upper limit data being smaller than the second average demand value data equal.

In a preferred embodiment of the present invention, the power demand control system further includes the following steps: store a second historical demand data in the database, and the second historical demand data is associated with a second time interval data , and the second time interval data is continuous with the first time interval data; the server calculates a second average demand value data based on the second historical demand data, and the second average demand value data is associated with the second time interval data; and the server keeps the current control upper limit data unchanged based on the fact that the current control upper limit data is greater than or equal to the second average demand value data.

In a preferred embodiment of the present invention, the power demand control system further includes the following steps: storing an initial control upper limit data by the database; and reaching a predetermined time point based on a current time point by the server , and adjust the current control upper limit data to be equal to the initial control upper limit data.

The foregoing and other aspects of the invention will become more apparent from the following detailed description of non-limiting specific examples and with reference to the accompanying drawings.

Please refer to the first figure, which illustrates the system architecture diagram of a specific embodiment of the power demand control system according to the present invention. As shown in the first figure, the power demand control system 100 includes a database 110, a server 120, and an energy storage device 130. The server 120 accesses (or communicates with) the database 110, and the server 120 communicates with the storage device. capable device 130. In different embodiments, the server 120 can communicate with the energy storage device 130 through a network (such as a wired network or a wireless network, etc.). In this way, the server 120 can transmit an energy storage command or a discharge command, so that the energy storage device 130 can store or discharge energy. In a specific embodiment, the power demand control system 100 of the present invention includes one or more processors, and the power demand control system 100 implements the database 110 and/or the server in a cooperative manner of hardware and software 120. In a specific embodiment, the power demand control system 100 of the present invention implements the energy storage device 130 in a cooperative manner of hardware and software.

In a specific embodiment, the server 120 may include an internal processing device 122 and a communication device 124, the internal processing device 122 is connected to the communication device 124 and the database 110, the database 110 is connected to the communication device 124, and the server 120 may The energy storage device 130 is connected in communication through the communication device 124 . Wherein, the server 120 can transmit various data and/or instructions to the energy storage device 130 through the communication device 124 , and the server 120 can receive various data and/or instructions from the energy storage device 130 through the communication device 124 . In addition, the server 120 processes various data or commands through the internal processing device 122 . Preferably, the server 120 includes one or more processors, and the server 120 implements the internal processing device 122 and/or the communication device 124 in a cooperative manner of hardware and software.

Please refer to the second figure, which illustrates a schematic diagram of a specific embodiment of the power demand control system according to the present invention. As in the embodiment shown in the second figure, the database of the power demand control system of the present invention stores the current control upper limit data 216 and the first historical demand data 212, and the first historical demand data 212 is associated with the first time interval data (preferably, the interval data of the first time period can also be stored in the database). Among them, the current control upper limit value data 216 indicates the current demand control upper limit value, the first time period interval data indicates the first time period interval 210 (that is, 0 minutes to 15 minutes in the second figure), and the first historical demand The quantity data 212 indicates the demand value at each time point in the first time interval 210 . The server of the power demand control system of the present invention can calculate the first average demand value data 214 according to the first historical demand data 212 , and the first average demand value data 214 is associated with the first time interval data. Wherein, the first average demand value data 214 indicates the average value of the first historical demand data 212 (that is, the average value of the demand value at each time point in the first time interval 210 ). Since the current control upper limit data 216 is smaller than the first average demand value data 214, the server can convert the current control upper limit data 216 based on the fact that the current control upper limit data 216 is smaller than the first average demand data 214. Adjust to be equal to the first average demand data 214 . In a specific embodiment, since each historical demand data may have a slight error value, or there may be a slight error in the calculation, a predetermined multiple can be set. Wherein, the server determines that the current control upper limit data 216 is smaller than the first average demand data 214 based on the current control upper limit data 216 being smaller than a predetermined multiple of the first average demand data 214 . The predetermined multiple can be, for example, 1.01 (but not limited thereto), so that the server will determine the current upper control limit only when the current control upper limit data 216 is less than 1.01 times the first average demand value data 214 Value data 216 is less than first average demand value data 214 .

In a specific embodiment, the server of the power demand control system of the present invention can continuously receive the current demand value data 200 and store the current demand value data 200 in a database. And each current demand value data previously stored in the database can be used as historical demand data. In different specific embodiments, the database of the power demand control system of the present invention can store a demand forecast value data (the demand forecast value data can be short-term demand forecast value data, for example), and the demand forecast value data can be provided by the server calculated by the device. For example, the server can calculate the demand forecast value data through a neural network or other different calculation methods. In a specific embodiment, the server of the power demand control system of the present invention can enable the energy storage device to store energy based on the current demand value data or the demand forecast value data being smaller than the current control upper limit data. In this way, when the current demand value data or demand forecast value data is less than the current control upper limit value data (that is, the current demanded electricity is lower than the current control upper limit value), the current demand can be exceeded and lower than the current demand. The electric energy of the control upper limit value is stored in the energy storage device. In a specific embodiment, the server can discharge the energy storage device based on the current demand value data or the demand forecast value data being greater than the current control upper limit data (the discharge can be, for example, to provide electric energy for use by the target device ). In this way, when the current demand value data or demand forecast value data is greater than the current control upper limit data (that is, the current required power is higher than the current control upper limit), the energy storage device can provide power to make up for the excess current demand. The required power of the upper limit of demand control can be avoided as much as possible to avoid the actual power consumption exceeding the current upper limit of demand control. In a specific embodiment, the server of the power demand control system of the present invention can receive a current energy storage value data from the energy storage device, and the current energy storage value data is associated with the energy storage device. Wherein, the current energy storage value data indicates the current stored electric energy of the energy storage device (which can be expressed in numerical value or percentage according to demand). The server can also stop the energy storage device from storing energy based on the current demand value data or the demand forecast value data being less than the current control upper limit data, and the current energy storage value data is greater than or equal to a predetermined energy storage upper limit data. able. In this way, when the energy storage device is fully charged, the energy storage can be stopped. In a specific embodiment, the server may provide an energy storage command to the energy storage device, so that the energy storage device performs energy storage. The server can also provide a discharge command to the energy storage device, so that the energy storage device is discharged.

In a specific embodiment, after the current control upper limit data is adjusted to be equal to the first average demand value data 214, the power demand control system of the present invention can store the current control upper limit data 226 in the database middle. In addition, the database of the power demand control system of the present invention also stores the second historical demand data 222, the second historical demand data 222 is associated with a second time interval data, and the second time interval data is continuous with the first time interval data After the interval data (preferably, the interval data of the second time period can also be stored in the database). Among them, the current control upper limit value data 226 indicates the current demand control upper limit value, the second time period interval data indicates the second time period interval 220 (that is, 15 minutes to 30 minutes in the second figure), and the second time period The interval 220 follows the first time interval 210 , and the second historical demand data 222 indicates the demand value at each time point in the second time interval 220 . The server of the power demand control system of the present invention can calculate the second average demand value data 224 according to the second historical demand data 222 , and the second average demand value data 224 is associated with the second time interval data. Wherein, the second average demand value data 224 indicates the average value of the second historical demand data 222 (that is, the average value of the demand values at each time point in the second time interval 220 ). Since the current control upper limit data 226 is smaller than the second average demand value data 224, the server can convert the current control upper limit data 226 based on the current control upper limit data 226 being smaller than the second average demand data 224. Adjusted to be equal to the second average demand data 224 . In a specific embodiment, since each historical demand data may have a slight error value, or there may be a slight error in the calculation, a predetermined multiple can be set. Wherein, the server determines that the current control upper limit data 226 is smaller than the second average demand data 224 based on the current control upper limit data 226 being smaller than a predetermined multiple of the first average demand data 224 . The predetermined multiple can be, for example, 1.01 (but not limited thereto), so that the server will determine the current upper control limit only when the current control upper limit data 226 is less than 1.01 times the second average demand value data 224 Value data 226 is less than first average demand value data 224 .

In a specific embodiment, after the current control upper limit data is adjusted to be equal to the second average demand value data 224, the power demand control system of the present invention can store the current control upper limit data 236 in the database middle. In addition, the database of the power demand control system of the present invention also stores the third historical demand data 232, the third historical demand data 232 is associated with a third time interval data, and the third time interval data is continuous with the second After the period interval data (preferably, the third period interval data can also be stored in the database). Among them, the current control upper limit value data 236 indicates the current demand control upper limit value, the third time period interval data indicates the third time period interval 230 (that is, 30 minutes to 45 minutes in the second figure), and the third time period The interval 230 follows the second time interval 220 , and the third historical demand data 232 indicates the demand value at each time point in the third time interval 230 . The server of the power demand control system of the present invention can calculate the third average demand value data 234 according to the third historical demand data 232 , and the third average demand value data 234 is associated with the third time interval data. Wherein, the third average demand value data 234 indicates the average value of the third historical demand data 232 (that is, the average value of the demand value at each time point in the third time interval 230 ). And because the current control upper limit data 236 is not less than (that is, greater than or equal to) the third average demand value data 234, so the server can based on the current control upper limit data 236 greater than or equal to the third average demand value data 234, And keep the current control upper limit value data 236 unchanged. In a specific embodiment, the database of the power demand control system of the present invention can store an initial control upper limit data. The server can adjust the current control upper limit data to be equal to the initial control upper limit data based on a current time point reaching a predetermined time point. In this way, the current control upper limit data can be adjusted to the initial value at a specific time point or a specific time period (such as the first day of each month, but not limited to this).

Please refer to the third figure, which illustrates a schematic diagram of a specific embodiment of the power demand control system according to the present invention. In the embodiment shown in the third figure, the server adjusts the current control upper limit data 316 to match the first average demand data 314 based on the current control upper limit data 316 being smaller than the first average demand data 314 After being equal, the power demand control system of the present invention can store the adjusted current control upper limit value data 326 in the database. In addition, the database of the power demand control system of the present invention also stores the second historical demand data 322, and the second historical demand data 322 is associated with a second time interval data (preferably, the second time interval data is also can be stored in the database). Among them, the current control upper limit value data 326 indicates the current demand control upper limit value, the second time interval data indicates the second time interval 320 (that is, 15 minutes to 30 minutes in the third figure), and the second historical demand The quantity data 322 indicates the demand quantity at each time point in the second time interval 320 . The server of the power demand control system of the present invention can calculate the second average demand value data 324 according to the second historical demand data 322 , and the second average demand value data 324 is associated with the second time interval data. Wherein, the second average demand value data 324 indicates the average value of the second historical demand data 322 (that is, the average value of the demand values at each time point in the second time interval 320 ). And because the current control upper limit data 326 is not less than (that is, greater than or equal to) the second average demand value data 324, so the server can based on the current control upper limit data 326 greater than or equal to the second average demand value data 324, And keep the current control upper limit value data 326 unchanged.

Please refer to the fourth figure, which illustrates a flow chart of a specific embodiment of the power demand control method according to the present invention. In the embodiment shown in the fourth figure, the power demand control method 400 is applied to a power demand control system. The power demand control system includes an energy storage device, a database, and a server. The server accesses the database. And the server communicates with the energy storage device. The power demand control method 400 starts at step 410, the current control upper limit data and the first historical demand data are stored in the database, and the first historical demand data is associated with the first time interval data (preferably, by The server or database correlates the historical demand data with the first time interval data). Next, step 420 is executed, the server calculates the first average demand value data according to the first historical demand data, and the first average demand value data is associated with the first time interval data (preferably, by the server Associating the first average demand value data with the first time interval data). Next, step 430 is executed, the server adjusts the current control upper limit data to be equal to the first average demand data based on the fact that the current control upper limit data is smaller than the first average demand data.

In a specific embodiment, the power demand control method 400 may further include: storing a demand forecast value data in a database, and the demand forecast value data can be calculated by a server. For example, the server can calculate the demand forecast value data through a neural network or other different calculation methods. The power demand control method 400 may further include: receiving current demand value data by the server, and storing the current demand value data in a database. The power demand control method 400 may further include: enabling the energy storage device to store energy based on the current demand value data or the demand forecast value data being smaller than the current control upper limit data by the server. In this way, when the current demand value data or demand forecast value data is less than the current control upper limit value data (that is, the current demanded electricity is lower than the current control upper limit value), the current demand can be exceeded and lower than the current demand. The electric energy of the control upper limit value is stored in the energy storage device.

In a specific embodiment, the power demand control method 400 may further include: storing a demand forecast value data in a database, and the demand forecast value data can be calculated by a server. For example, the server can calculate the demand forecast value data through a neural network or other different calculation methods. The power demand control method 400 may further include: receiving current demand value data by the server, and storing the current demand value data in a database. The power demand control method 400 may further include: the server discharges the energy storage device based on the current demand value data or the demand forecast value data being greater than the current control upper limit data. In this way, when the current demand value data or demand forecast value data is greater than the current control upper limit data (that is, the current required power is higher than the current control upper limit), the energy storage device can provide power to make up for the excess current demand. The required power of the upper limit of demand control can be avoided as much as possible to avoid the actual power consumption exceeding the current upper limit of demand control.

In a specific embodiment, the power demand control method 400 may further include: storing a demand forecast value data in a database, and the demand forecast value data can be calculated by a server. For example, the server can calculate the demand forecast value data through a neural network or other different calculation methods. The power demand control method 400 may further include: receiving current demand value data by the server, and storing the current demand value data in a database. The power demand control method 400 may further include: the server receives current energy storage value data from the energy storage device, and the current energy storage value data is associated with the energy storage device. The power demand control method 400 may further include: the server based on the current demand value data or the demand forecast value data is less than the current control upper limit data, and the current energy storage value data is greater than or equal to a predetermined energy storage upper limit value data, so that the energy storage device stops storing energy. In this way, when the energy storage device is fully charged, the energy storage can be stopped.

In a specific embodiment, because each historical demand data may have a slight error value, or there may be a slight error in the calculation, therefore, a predetermined multiple can be set (such as a predetermined value provided by the server received by the user) multiple data). The power demand control method 400 may further include: determining, by the server, that the current control upper limit data is less than the first average demand data based on the fact that the current control upper limit data is less than a predetermined multiple of the first average demand data.

In a specific embodiment, the power demand control method 400 may further include: storing a second historical demand data in the database, the second historical demand data is associated with the second time interval data, and the second time interval data Continuing from the first time interval data. The power demand control method 400 may further include: the server calculates second average demand value data according to the second historical demand data, and the second average demand value data is associated with the second time interval data. The power demand control method 400 may further include: adjusting the current control upper limit data to be equal to the second average demand data by the server based on the current control upper limit data being smaller than the second average demand data.

In a specific embodiment, the power demand control method 400 may further include: storing a second historical demand data in a database, the second historical demand data is associated with a second time interval data, and the second time interval The data is continued from the first period interval data. The power demand control method 400 may further include: calculating a second average demand value data by the server according to the second historical demand data, and the second average demand value data is associated with the second time interval data. The power demand control method 400 may further include: keeping the current control upper limit data unchanged by the server based on the current control upper limit data being greater than or equal to the second average demand value data.

In a specific embodiment, the power demand control method 400 may further include: storing an initial control upper limit data in a database. The power demand control method 400 may further include: adjusting the current control upper limit data to be equal to the initial control upper limit data by the server based on the current time point reaching a predetermined time point. In this way, the current control upper limit data can be adjusted to the initial value at a specific time point or a specific time period (such as the first day of each month, but not limited to this).

So far, the power demand control system and its method of the present invention have been described by the above description and drawings. However, it should be understood that the various specific embodiments of the present invention are only used for illustration, and various changes can be made without departing from the scope and spirit of the patent application of the present invention, and all should be included in the patent scope of the present invention. Therefore, the specific embodiments described in this specification are not intended to limit the present invention, and the true scope and spirit of the present invention are disclosed in the following claims.

100: Power demand control system 110: Database 120: server 122: Internal processing device 124: Communication device 130: Energy storage device 200: Current demand data 210: The first time interval 212: The first historical demand data 214: The first average demand data 216: Current control upper limit data 220: the second time interval 222:Second historical demand data 224: Second average demand data 226: Current control upper limit data 230: The third time interval 232: The third historical demand data 234: The third average demand data 236: Current control upper limit data 314: The first average demand data 316: Current control upper limit data 320: the second time interval 322:Second historical demand data 324: Second average demand data 326: Current control upper limit data 400: Power demand control method 410~430: Steps

The first figure is a system architecture diagram of a specific embodiment of the power demand control system of the present invention.

The second figure is a schematic diagram of a specific embodiment of the power demand control system of the present invention.

The third figure is a schematic diagram of a specific embodiment of the power demand control system of the present invention.

The fourth figure is a flowchart of a specific embodiment of the power demand control method of the present invention.

none

100: Power demand control system

110: Database

120: server

122: Internal processing device

124: Communication device

130: Energy storage device

Claims (14)

A power demand control system comprising: an energy storage device; a database storing a current control upper limit data and a first historical demand data, the first historical demand data being associated with a first time interval data; and A server accesses the database and communicates with the energy storage device. The server calculates a first average demand value data based on the first historical demand data, and the first average demand value data is associated with the first time interval data; Wherein the server adjusts the current control upper limit data to be equal to the first average demand data based on the current control upper limit data being smaller than the first average demand data. As for the power demand control system of claim item 1, wherein the server receives a current demand value data, and stores the current demand value data in the database, wherein the database stores a demand forecast value data; wherein the server enables the energy storage device to store energy based on the current demand value data or the demand forecast value data being less than the current control upper limit data; Wherein the server discharges the energy storage device based on the current demand value data or the demand forecast value data being greater than the current control upper limit data. The power demand control system according to claim 2, wherein the server receives a current energy storage value data from the energy storage device; Wherein, based on the current demand value data or the demand forecast value data being smaller than the current control upper limit data, and the current energy storage value data being greater than or equal to a predetermined energy storage upper limit data, the server makes the storage The energy device stops storing energy. The power demand control system of claim 1, wherein the server determines that the current control upper limit data is less than the first average demand value data based on the current control upper limit data being less than a predetermined multiple of the first average demand value data Average demand data. As for the power demand control system of claim item 1, wherein the database stores a second historical demand data, the second historical demand data is associated with a second time interval data, and the second time interval data is continued in the first time interval data; Wherein the server calculates a second average demand value data according to the second historical demand data, and the second average demand value data is associated with the second time interval data; Wherein the server adjusts the current control upper limit data to be equal to the second average demand data based on the current control upper limit data being smaller than the second average demand data. As for the power demand control system of claim item 1, wherein the database stores a second historical demand data, the second historical demand data is associated with a second time interval data, and the second time interval data is continued in the first time interval data; Wherein the server calculates a second average demand value data according to the second historical demand data, and the second average demand value data is associated with the second time interval data; Wherein the server keeps the current control upper limit data unchanged based on the fact that the current control upper limit data is greater than or equal to the second average demand value data. Such as the power demand control system of claim item 1, wherein the database stores an initial control upper limit value data, wherein the server adjusts the current control upper limit value data based on a current time point reaching a predetermined time point It is equal to the initial control upper limit data. A power demand control method, applied to a power demand control system, the power demand control system includes an energy storage device, a database and a server, the server accesses the database, and the server communicates Connecting the energy storage device, the power demand control method includes the following steps: The database stores a current control upper limit data and a first historical demand data, and the first historical demand data is associated with a first time interval data; calculating a first average demand value data by the server according to the first historical demand data, the first average demand value data being associated with the first time interval data; and Based on the fact that the current control upper limit data is smaller than the first average demand value data, the server adjusts the current control upper limit data to be equal to the first average demand value data. Such as the power demand control system of claim 8, further comprising the following steps: storing a demand forecast value data in the database; receiving a current demand value data from the server, and storing the current demand value data in the database; enabling the energy storage device to store energy based on the current demand value data or the demand forecast value data being less than the current control upper limit data by the server; and The energy storage device is discharged by the server based on the current demand value data or the demand forecast value data being greater than the current control upper limit data. Such as the power demand control system of claim item 9, further comprising the following steps: receiving a current stored energy value data from the energy storage device by the server; and Based on the current demand value data or the demand forecast value data being less than the current control upper limit data, and the current energy storage value data greater than or equal to a predetermined energy storage upper limit data, the server makes the storage The energy device stops storing energy. Such as the power demand control system of claim 8, further comprising the following steps: The server determines that the current control upper limit data is less than the first average demand value data based on the current control upper limit data being less than a predetermined multiple of the first average demand value data. Such as the power demand control system of claim 8, further comprising the following steps: storing a second historical demand data in the database, the second historical demand data is associated with a second time interval data, and the second time interval data is continuous with the first time interval data; calculating a second average demand value data by the server according to the second historical demand data, the second average demand value data being associated with the second time interval data; and Based on the fact that the current control upper limit data is smaller than the second average demand value data, the server adjusts the current control upper limit data to be equal to the second average demand value data. Such as the power demand control system of claim 8, further comprising the following steps: storing a second historical demand data in the database, the second historical demand data is associated with a second time interval data, and the second time interval data is continuous with the first time interval data; calculating a second average demand value data by the server according to the second historical demand data, the second average demand value data being associated with the second time interval data; and The server keeps the current upper control upper limit data unchanged based on the fact that the current upper control upper limit data is greater than or equal to the second average demand data. Such as the power demand control system of claim 8, further comprising the following steps: storing an initial control upper limit data by the database; and The server adjusts the current control upper limit data to be equal to the initial control upper limit data based on a current time point reaching a predetermined time point.

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