TWM624340U - Auxiliary service bidding and cluster management energy storage regulation system - Google Patents

Abstract

This creation provides an auxiliary service bidding and cluster management energy storage regulation system, which includes a plurality of energy storage devices, a storage module, a power data computing module, a plurality of power control switches, and a plurality of communication ports. The energy storage devices store electrical energy, respectively. The storage module stores power supply information, load information and energy storage information. The power data computing module is electrically connected to the storage module. The power control switch is electrically connected to the energy storage device, the power supply device and the load device. The communication port transmits and receives power supply information, load information and energy storage information to the power data computing module, so that the power data computing module generates the power cluster operation strategy according to the power supply information, load information and energy storage information. When the electric energy stored by the energy equipment reaches the preset value of the cluster electric energy, a power cluster operation strategy is generated, so that the power supply equipment supplies power to the energy storage equipment and the load equipment, or the energy storage equipment supplies power to the load equipment.

Description

Auxiliary service bidding and cluster management energy storage regulation system

This creation is about a decentralized power operation management system, especially about an auxiliary service bidding and cluster management energy storage regulation system.

In order to encourage large electricity users to include 10% of their electricity as the source of green energy, the government encourages users to receive partial subsidies if they invest in green energy equipment to generate electricity.

However, in addition to the expensive purchase price of green energy equipment, for a single user, the power that a single energy storage device can store is quite limited, and even if the user uses off-peak time to store power, it cannot produce greater benefits. Therefore, the development of green power cannot be effectively extended to all users.

Accordingly, how to provide an auxiliary service bidding and cluster management energy storage regulation system has become an urgent research topic.

In view of the above problems, this creation provides an auxiliary service bidding and cluster management energy storage regulation system, which includes a power cloud management center device and a plurality of power management devices. The power cloud management center equipment includes a storage module and a power data computing module. The storage module stores one statistical power supply information, one statistical load information and one statistical energy storage information of the plurality of users. The power data computing module is electrically connected to the storage module. The plurality of power management devices respectively include an energy storage device and a power control switch. and a communication port. Energy storage devices store electrical energy. The power control switch is electrically connected to the energy storage device, the power supply device and the load device. The communication port is electrically connected to the power control switch and the power data computing module, and can transmit and receive the statistical power supply information, statistical load information and statistical energy storage information of the energy storage equipment, power supply equipment and load equipment of multiple users in real time by wire or wireless to the power data computing module, and is stored in the storage module by the power data computing module, wherein the power data computing module generates a power cluster operation strategy according to the statistical power supply information, the statistical load information and the statistical energy storage information. When the electric energy stored by the energy storage devices of the power management equipment reaches a preset value of the cluster electric energy, the power data computing module generates an operation strategy of the electric cluster according to the preset electric energy value of the cluster, so that the power supply equipment of the power management equipment can be operated according to the preset value of the cluster electric energy. The operation strategy supplies power to the energy storage devices and the load devices respectively, or enables the energy storage devices of the power management devices to supply power to the load devices respectively according to the power cluster operation strategy.

As mentioned above, this creation auxiliary service bidding and cluster management energy storage regulation system collects the power of the energy storage equipment used by different users and participates in the bidding auxiliary service of the electric power company, which can take into account the user's electricity while making a profit in the bidding. The load is low in power consumption during peak hours, which further optimizes the power management and distribution among users, power cloud management center equipment and power companies.

1: Auxiliary service bidding and cluster management energy storage regulation system

1A: Power cloud management center equipment

1B: Power Management Equipment

11: Storage Module

12: Energy Storage Equipment

13: Power control switch

14: Communication port

15: Power data computing module

16: Voltage and current calculation module

E: power supply equipment

L: load equipment

L1: electricity consumption

L2: electricity consumption

L3: electricity consumption

L4: electricity consumption

Q1: Off-peak electricity regular contract capacity

Q2: Half-peak electricity consumption is often contracted capacity

Q3: Peak electricity consumption often contract capacity

Q4: Half-peak electricity consumption is often contracted capacity

A1: Power supply

A21: Power supply

A22: Power supply

A3: Power supply

A41: Power supply

A42: Power supply

E _f : load frequency

C _f : load frequency

D _f : load frequency

Of : _load frequency

L _f : load frequency

Figure 1 is a schematic block diagram of an energy storage regulation system for the creation of ancillary services for bidding and cluster management; Figure 2 is a schematic diagram of power allocation for the creation of an electric power operation strategy; and Figure 3 is a graph of the static frequency regulation and standby operation of the power company.

Please refer to FIG. 1 , which is a block diagram of the bidding and cluster management energy storage regulation system for the creation of ancillary services. Auxiliary service bidding and cluster management energy storage regulation system 1 includes a power cloud management system The management center device 1A and a plurality of power management devices 1B. The power cloud management center device 1A includes a storage module 11 and a power data computing module 15 . The storage module 11 stores a statistical power supply information, a statistical load information and a statistical energy storage information of a plurality of users. The power data computing module 15 is electrically connected to the storage module 11 . The plurality of power management devices 1B respectively include an energy storage device 12 , a power data computing module 15 , a power control switch 13 and a communication port 14 . The energy storage device 12 stores electrical energy. The power control switch 13 is electrically connected to the energy storage device 12 , the power supply device E and the load device L. The communication port 14 is electrically connected to the power control switch 13 and the power data computing module 15 to transmit and receive the statistical power supply information and statistical load of the energy storage equipment 12 , the power supply equipment E and the load equipment L of a plurality of users in real time by wire or wirelessly The information and statistical energy storage information are sent to the power data computing module 15 and stored in the storage module 11 by the power data computing module 15, wherein the power data computing module 15 is based on the statistical power supply information, statistical load information and statistical energy storage information , generating a power cluster operation strategy, wherein when the electrical energy stored by the energy storage devices 12 of the power management devices 1B reaches a cluster power preset value, the power data computing module 15 generates a power cluster operation strategy according to the cluster power preset value , so that the power supply equipment E of the power management equipment 1B respectively supplies power to the energy storage equipment 12 and the load equipment L according to the power cluster operation strategy, or the energy storage equipment 12 of the power management equipment 1B respectively supplies power to the load according to the power cluster operation strategy equipment L.

As mentioned above, the energy storage device 12 , the power control switch 13 , the communication port 14 , the power supply device E and the load device L are arranged at the user end, and the storage module 11 and the power data computing module 15 are arranged at the power cloud management center On the equipment side, the user side and the power cloud management center equipment side transmit information and signals through the communication port 14. The power supply equipment E supplies power to the load equipment L and the energy storage equipment 12 through the power control switch 13, and the power cloud management center equipment 1A Bidding for services with electricity companies through the collected electricity.

In an embodiment of the present invention, the energy storage device 12 is a green energy device, including a solar photovoltaic inverter.

In an embodiment of the present invention, the power supply device E is a commercial power device.

In an embodiment of the present invention, the power control switch 13 is an automatic transfer switch (Automatic Transfer Switch; ATS).

Please refer to FIG. 1 again. The power management device 1B of the auxiliary service bidding and cluster management energy storage regulation system 1 further includes a voltage and current calculation module 16 , which is electrically connected to the communication port 14 , the energy storage device 12 , and the load through the power control switch 13 . equipment L and power supply equipment E, and the voltage and current calculation module 16 calculates and generates real-time power supply information, real-time load information and real-time energy storage information of power supply equipment E, energy storage equipment 12 and load equipment L, and the real-time load information includes the user terminal The instantaneous power consumption of the load device L.

In addition, the voltage and current calculation module 16 further calculates the power line capacity of the power supply equipment E according to the power single-line diagram of the power supply equipment E and the equipment capacity, and transmits it to the power data calculation module 15 through the communication port 14 . The power line capacity represents the maximum capacity of the power that the power supply equipment E can transmit to the user through the power line.

As mentioned above, the statistical power supply information includes the regular contracted capacity of electricity consumption of the client, and the regular contracted capacity of electricity is regarded as the upper limit of the capacity of the electricity consumption agreed between the client and the equipment end of the power cloud management center. In addition, the preset power consumption contract capacity of the user terminal is set according to statistical power supply information, statistical load information and statistical energy storage information.

As mentioned above, when the regular contracted capacity of electricity has reached the upper limit of the capacity of the power line, it means that the power line on the hardware facility cannot be expanded, and the voltage and current calculation module 16 transmits the power line construction signal to the power through the communication port 14 The device end of the cloud management center, after receiving the signal, the device end of the power cloud management center can further evaluate whether the user end needs to add power lines.

Please refer to FIG. 2 , which is a schematic diagram of the power allocation of the power operation strategy of the present author. Statistical power supply information includes peak electricity price information and peak electricity contract capacity during peak hours in one season and non-summer, half-peak electricity price information during half-peak hours, half-peak electricity contract capacity, and off-peak electricity consumption during off-peak hours Price information and off-peak electricity contract capacity.

When the regular contracted capacity of electricity consumption does not reach the capacity of the power line, the voltage and current calculation module 16 generates a signal of increasing the contracted capacity of the power consumption through the communication port 14 to the device end of the power cloud management center, so that the device end of the power cloud management center is based on the capacity of the power line. , real-time power supply information, real-time load information and real-time energy storage information to improve the regular contract capacity of electricity consumption. Furthermore, in this creation, under the condition that the capacity of the power line can be loaded, through the power cloud management center device side, the client's regular contract capacity of electricity consumption during off-peak hours is increased as one of the strategies for power allocation.

As shown in FIG. 2 , in an embodiment of the present invention, when the power consumption is in the off-peak period (00:00~07:30), the instantaneous power consumption L1 of at least one load device L does not exceed the off-peak power consumption When the capacity Q1 is often contracted, the power data computing module 15 generates a power operation strategy according to the off-peak electricity price information, and supplies power from the power supply device E to the energy storage device 12 . Further, since the electricity price in the off-peak period is lower than that in the peak period, when the power supply equipment E still has excess power supply space, the user terminal can further target the energy storage device 12 during the off-peak period. Carry out the action of energy storage to save electricity expenses. For electricity prices during peak hours, half-peak hours and off-peak hours, please refer to the three-stage electricity price schedule set by the power company.

As shown in FIG. 2 , in an embodiment of the present invention, when the power consumption is in the peak period (10:00~17:00), the instantaneous power consumption L3 of at least one load device L exceeds the peak power consumption regular contract capacity At Q3, the power data computing module 15 generates a power operation strategy according to the peak electricity price information, and supplies power from the energy storage device 12 to at least one load device L. Further, since the electricity price during peak hours is higher than that during off-peak hours, when the power supply equipment E does not have excess power to supply the load equipment L, the user terminal can install the energy storage equipment 12 in the off-peak period. The stored electric energy during peak hours is supplied to the load equipment L to save electricity costs.

As shown in FIG. 2 , in an embodiment of the present invention, when the electricity consumption is in the half-peak period (07:30~10:00, 17:00~00:00), the instantaneous electricity consumption of at least one load device L When the quantities L2 and L4 exceed the half-peak electricity regular contract capacities Q2 and Q4, the power data computing module 15 calculates the electricity data according to the half-peak electricity price. The information generates a power operation strategy, and supplies power to at least one load device L from the energy storage device 12 . Further, since the electricity price during the half-peak period is higher than the electricity price during the off-peak period, when the power supply equipment E does not have excess power to supply the load equipment L, the user terminal can pass the energy storage equipment 12 to the load equipment L. The stored electric energy during off-peak hours is supplied to the load equipment L to save electricity costs.

As shown in FIG. 2 , in an embodiment of the present invention, when the electricity consumption is in the half-peak period (07:30~10:00, 17:00~00:00), the instantaneous electricity consumption of at least one load device L When the quantities L2 and L4 do not exceed the half-peak electricity regular contract capacities Q2 and Q4 , the power data computing module 15 generates an electricity operation strategy according to the half-peak electricity price information, and supplies power from the power supply equipment E to the energy storage equipment 12 . Further, since the electricity price during the half-peak period is lower than the electricity price during the peak period, when the power supply equipment E still has excess power supply space, the user terminal can further target the energy storage device 12 during the half-peak period. Carry out the action of energy storage to save electricity expenses.

Continuing from the above, in each of the above embodiments, when the power consumption is in the off-peak period (00:00~07:30), the power supply A1 that the power supply device E can supply to the energy storage device 12 is equivalent to the amount shown in the figure The off-peak power consumption is often the area where the contracted capacity Q1 exceeds the instantaneous power consumption L1. When the power consumption is in the peak period (10:00~17:00), the power supply amount A32 that the energy storage device 12 needs to supply power to the load device L is equivalent to the instantaneous power consumption L3 in the figure exceeding the peak power consumption regular contract capacity Q3 area size. When the power consumption is in the half-peak period (07:30~10:00, 17:00~00:00), the power supply amounts A22 and A42 that the energy storage device 12 needs to supply to the load device L are equivalent to the instantaneous power consumption in the figure. The area size of the electricity L2 and L4 exceeding the half-peak electricity regular contract capacity Q2 and Q4, and the power supply amount A21 and A41 that the power supply device E can supply to the energy storage device 12 is equivalent to the half-peak electricity regular contract capacity Q2 in the figure , Q4 exceeds the area size of instantaneous power consumption L2 and L4. Therefore, the power supply A1 reserved by the energy storage device 12 during the off-peak period can be used to fill the power supply A32 that needs to be supplied to the load device L during the peak period, or the power supply A22, A42 that needs to be supplied to the load device L during the half-peak period. Alternatively, the power supply amount A21 and A41 reserved by the energy storage device 12 during the half-peak period can also be used to fill the power supply amount A32 that needs to be supplied to the load device L during the peak period.

As mentioned above, the real-time energy storage information includes the state of charge of the energy storage device 12 . When the power state of the energy storage device 12 is between 10% and 90% of the total power, the power supply device E supplies power to the energy storage device 12 according to the power state.

In the embodiment of the present invention, the power cluster operation strategy achieves the cluster power preset value set by the power company by collecting and counting the power stored by the energy storage devices 12 of multiple users in the same area or multiple users in different regions. At this time, the power data computing module 15 generates a power cluster operation strategy according to the preset power value of the cluster, and the power cloud management center device 1A conducts power bidding with the power company, and concludes a contract with the power company after winning the bid.

As mentioned above, generally speaking, due to the high demand for electricity consumption during peak hours, through the bidding service provided by the power company, the power cloud management center device 1A can collect the predetermined amount of electricity after the electricity is collected. Participate in the bidding service, and provide electric energy to the power company after winning the bid to obtain electricity price profit, and the time period for collecting electric energy is as described in the above-mentioned embodiment of FIG. In addition, since there are many types of bidding services provided by power companies, in the embodiment of the present invention, the bidding service of frequency modulation is used as an example, but it is not limited in the present invention.

Generally speaking, it is difficult for a single energy storage device 12 used by a building and a user to be able to store up to 1 megawatt (MAGA WATT) of electricity, for example. Therefore, the present creation auxiliary service bidding and cluster management energy storage regulation system 1 can collect and store electric energy for, for example, 10 users or more users. For example, if you want to participate in the bidding service of the power company, you can collect 100 kilowatts (KW WATT) of electricity for each building's users, and 10 buildings can collect a total of 1 million watts of electricity. It should be noted that the energy storage capacity of the energy storage device 12 of each building and each user varies. Therefore, in fact, some users can store higher electric energy, and some users can store lower electric energy. The management center device 1A can manage and collect cluster power according to the actual power reserve capacity of each building and each user, and after reaching the predetermined power quota set by the power company, By participating in the bidding service, the collected electric energy is sold back to the electric power company, so as to further meet the electric power demand of the electric power company that can provide electric energy to the user's load equipment L while obtaining benefits. In addition, even if the power cloud management center device 1A cannot win the bid to obtain the benefits of the bidding service, it can still manage the charging and discharging of the collected power.

As mentioned above, the bidding service is determined based on the statistical load information of the previous day. The power cloud management center device 1A performs bidding services according to the statistical load information of each user on the previous day, that is, by calculating the load of the load device L on the previous day, it predicts how much preset value of the cluster power required today is used as the bidding. Based on this, and after winning the bid, the power company will announce the information on the winning bid of the power cloud management center equipment 1A. In the bidding service, 1 hour is used as the bidding time unit, and bidding can be done in 24 hours a day. Therefore, after the power cloud management center equipment 1A wins the bid, it must collect the information of each user according to the winning time period. The stored electrical energy is provided to the power company for use during this time period, so that the power company can use the power to supply power during this time period, so as to stabilize the power supply frequency. However, it should be noted that even if the power cloud management center equipment 1A has to provide the reserve power for the power company to use during the period after winning the bid, if the power consumption during the period does not exceed the system load, the storage The energy device 12 does not act, but only when the system load is exceeded will the energy storage device 12 provide power to the power company for use.

Please refer to FIG. 3 , which is a graph of the static frequency regulation and standby operation of the power company. In the embodiment of the present invention, the operation strategy of the power cluster is generated by performing the power supply operation in the flexible interval of the static frequency modulation and standby operation curve. In the figure, different static FM standby operation curves have different curves. The preset range formed by the operating points A, B, C, and D in the curve is set by the power company, and the static FM standby operation is formed. The elastic adjustment interval of the curve.

When the power supply frequency f of the load equipment L is lower than the load frequency C _f at point C, or lower than the load frequency D _f at point D in the preset range, the voltage and current calculation module 16 generates a stable frequency control signal to the power data calculation module Group 15, the power data computing module 15 generates a power cluster operation strategy according to the stable frequency control signal, so that the energy storage device 12 supplies power to the load device L to stabilize the power supply frequency f of the power supply device E within the preset range of the load frequency L _f .

When the power supply frequency f of the load equipment L is between the load frequency D _f at point D and the load frequency O _f at point O, the auxiliary service bidding and cluster management energy storage regulation system 1 is based on the state of charge (State Of) of the energy storage equipment 12. Charge; SOC) and the power consumption of the load device L to determine whether to charge or discharge the energy storage device 12 .

When the power supply frequency f of the load device L is within the load frequency within the preset range OEFG point, the voltage and current calculation module 16 generates a charge and discharge control signal to the power data calculation module 15, and the power data calculation module 15 controls the charge and discharge according to the charge and discharge control signal. The signal generates the power cluster operation strategy, so that the energy storage device 12 supplies power to the load device L, and the power supply device E supplies power to the energy storage device 12 .

When the power supply frequency f of the load equipment L is higher than the load frequency E _f at the preset range G point, the voltage and current calculation module 16 generates a stable frequency control signal to the power data calculation module 15, and the power data calculation module 15 according to the stability The frequency control signal generates a power cluster operation strategy, so that the energy storage device 12 supplies power to the load device L, so as to stabilize the power supply frequency f of the power supply device E within the load frequency L _f within the preset range.

In the embodiment of the present invention, the real-time load information includes the power supply frequency of the load device L, weather information and temperature information in different regions, etc., which may affect the stability of the power supply frequency of the load device L. Therefore, the real-time load is transmitted by real-time load. The information is sent to the power data computing module 15 to determine whether the power supply frequency of the load equipment L stably falls within the preset range of the load frequency L _f , and accordingly generate the power cluster operation strategy in time.

In addition, the power cloud management center device 1A can also set the charging and discharging time, charging and discharging times, and charging and discharging power of the power supply device E and the energy storage device 12 within the flexible adjustment interval of the static frequency modulation standby operation curve, so as to stabilize the load device L The load frequency L _f is sent to the storage module 11 or the cloud server for storage, and a prediction database is established according to the data. The power data computing module 15 can generate the power cluster operation strategy according to the information.

In the embodiment of the present invention, the power data computing module 15 further generates an optimized power cluster operation strategy according to the real-time power supply information, the real-time load information and the real-time energy storage information. In other words, the power cluster operation strategy generated by the statistical power supply information, the statistical load information and the statistical energy storage information is the prediction result generated according to the past statistical data, which is used as the basis for the power cluster operation strategy. When the power data computing module 15 receives various real-time information, it can revise the power cluster operation strategy according to the real-time information, so as to meet the current situation and generate an optimized power cluster operation strategy in real time.

To sum up, this creative auxiliary service bidding and cluster management energy storage regulation system collects the power of the energy storage equipment used by different users as the cluster power operation system, and participates in the bidding service of the power company. At the same time, the stability of the power load is taken into account, and the power management and distribution between users, the power cloud management center equipment and the power company are further optimized.

1: Auxiliary service bidding and cluster management energy storage regulation system

1A: Power cloud management center equipment

1B: Power Management Equipment

11: Storage Module

12: Energy Storage Equipment

13: Power control switch

14: Communication port

15: Power data computing module

16: Voltage and current calculation module

E: power supply equipment

L: load equipment

Claims (25)

An auxiliary service bidding and cluster management energy storage regulation system, comprising: a power cloud management center device, including: a storage module, which stores one statistical power supply information, one statistical load information and one statistical energy storage information of a plurality of users; and A power data computing module, electrically connected to the storage module; and a plurality of power management devices, respectively including: an energy storage device, which stores an electrical energy; a power control switch, which is electrically connected to the energy storage device and a power supply device and a load device; and a communication port, electrically connected to the power control switch and the power data computing module of the power cloud management center device, to transmit and receive the energy storage device, the power supply device and the power supply device in real time by wire or wireless The statistical power supply information, the statistical load information and the statistical energy storage information of the load equipment are sent to the power data computing module of the power cloud management center equipment, and are stored in the storage module by the power data computing module; wherein the The power data computing module generates a power cluster operation strategy according to the statistical power supply information, the statistical load information and the statistical energy storage information; wherein when the electric energy stored by the energy storage device of the power management devices reaches a cluster electric energy pre-set When setting the value, the power data computing module generates the power cluster operation strategy according to the cluster power preset value, so that the power supply equipment of the power management equipment respectively supplies power to the energy storage device and the load according to the power cluster operation strategy equipment, or the energy storage equipment of the power management equipment respectively supply power to the load equipment according to the power cluster operation strategy. The auxiliary service bidding and cluster management energy storage regulation system according to claim 1, wherein the power supply device supplies power to the load device and the energy storage device through the power control switch. The auxiliary service bidding and cluster management energy storage regulation system according to claim 1, wherein the energy storage device is a green energy device. The auxiliary service bidding and cluster management energy storage regulation system according to claim 3, wherein the green energy equipment is a solar photovoltaic inverter. The auxiliary service bidding and cluster management energy storage regulation system according to claim 1, wherein the power supply equipment is a mains equipment. The auxiliary service bidding and cluster management energy storage regulation system according to claim 1, wherein the power data computing module calculates a power line capacity according to a power one-line diagram of the power supply equipment and a device capacity. The auxiliary service bidding and cluster management energy storage regulation system according to claim 6, wherein the statistical power supply information includes a regular contracted capacity of electricity for one of the plurality of users. The auxiliary service bidding and cluster management energy storage regulation system according to claim 7, wherein the power management device further comprises a voltage and current calculation module, which is electrically connected to the communication port, the energy storage device, The load equipment and the power supply equipment calculate and generate a real-time power supply information, a real-time load information and a real-time energy storage information of the power supply equipment, the energy storage equipment and the load equipment, wherein the real-time load information includes the plurality of users The instantaneous power consumption of the plurality of load devices. The ancillary service bidding and cluster management energy storage regulation system as claimed in claim 8, wherein when the electricity regular contract capacity has reached the power line capacity, the voltage and current calculation module transmits a power line construction through the communication port signal to a power cloud management center device. The auxiliary service bidding and cluster management energy storage regulation system according to claim 8, wherein the statistical power supply information includes a peak electricity price information and a peak electricity contract capacity in a peak period in summer and a non-summer Half of peak electricity price information during peak hours and half of Peak electricity contract capacity, an off-peak electricity price information during an off-peak period, and an off-peak electricity contract capacity. The auxiliary service bidding and cluster management energy storage regulation system according to claim 10, wherein when the regular contract capacity of electricity consumption does not reach the capacity of the power line, the voltage and current calculation module generates an electricity contract through the communication port The capacity improvement signal is sent to a power cloud management center device, so that the power cloud management center device can increase the current contract capacity of electricity consumption according to the power line capacity, the real-time power supply information, the real-time load information and the real-time energy storage information. The auxiliary service bidding and cluster management energy storage regulation system according to claim 11, wherein when the instantaneous power consumption of the load equipment does not exceed the regular power consumption contract capacity during the off-peak period, the power data computing model The group generates the power cluster operation strategy according to the off-peak electricity price information, so that the power supply equipment supplies power to the energy storage equipment. The auxiliary service bidding and cluster management energy storage regulation system according to claim 11, wherein when the instantaneous power consumption of the load equipment exceeds the regular power consumption contract capacity during the peak period, the power data computing module is based on The peak electricity price information generates an operation strategy of the power cluster, so that the energy storage device supplies power to the load device. The auxiliary service bidding and cluster management energy storage regulation system according to claim 11, wherein when the instantaneous power consumption of the load equipment exceeds the regular power consumption contract capacity during the half-peak period, the power data computing module The power cluster operation strategy is generated according to the half-peak electricity price information, so that the energy storage device supplies power to the load device. The auxiliary service bidding and cluster management energy storage regulation system according to claim 11, wherein when the instantaneous power consumption of the load equipment does not exceed the regular power consumption contract capacity during the half-peak period, the power data computing model The group generates the power cluster operation strategy according to the half-peak electricity price information, so that the power supply equipment supplies power to the energy storage equipment. The auxiliary service bidding and cluster management energy storage regulation system according to claim 12 or 15, wherein the real-time energy storage information includes a state of charge of the energy storage device. The auxiliary service bidding and cluster management energy storage regulation system as described in claim 16, wherein when the state of charge of the energy storage device is between 10% and 90% of a total power, the power supply device is configured to use the power supply device according to the state of charge. supply power to the energy storage device. The auxiliary service bidding and cluster management energy storage regulation system according to claim 1, wherein the plurality of users are a plurality of users in the same area. The auxiliary service bidding and cluster management energy storage regulation system according to claim 1, wherein the plurality of users are a plurality of users in different regions. The auxiliary service bidding and cluster management energy storage regulation system according to claim 19, wherein the real-time load information includes weather information and temperature information of the different regions. The auxiliary service bidding and cluster management energy storage regulation system according to claim 12 or 15, wherein the real-time load information includes a power supply frequency of the load equipment. The auxiliary service bidding and cluster management energy storage regulation system according to claim 21, wherein when the power supply frequency of the load equipment is lower than or higher than a load frequency in a preset range, the voltage and current calculation module generates a The stable frequency control signal is sent to the power data computing module, and the power data computing module generates the power cluster operation strategy according to the stable frequency control signal, so that the plurality of energy storage devices of the plurality of power management devices respectively supply power to the plurality of load device. The auxiliary service bidding and cluster management energy storage regulation system according to claim 22, wherein the preset range is an elastic adjustment interval of a static frequency regulation and standby operation curve set by a power company. The auxiliary service bidding and cluster management energy storage regulation system according to claim 22, wherein when the power supply frequency of the load equipment is within the load frequency within the preset range, the voltage and current calculation module generates a charge and discharge control signal to the power data computing module, the power data The computing module generates the power cluster operation strategy according to the charge and discharge control signal, so that the plurality of energy storage devices of the plurality of power management devices respectively supply power to the plurality of load devices, and make the plurality of power management devices of the plurality of power management devices supply power respectively. Each power supply device supplies power to the plurality of energy storage devices respectively. The auxiliary service bidding and cluster management energy storage regulation system according to claim 8, wherein the power data computing module further generates an optimized power cluster operation according to the real-time power supply information, the real-time load information and the real-time energy storage information Strategy.

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