KR102612557B1 - Apparatus and method for managing customer participation type new power rate system and renewable energy sharing community power service - Google Patents

Abstract

A management device is provided. The management device includes an acquisition unit that acquires user identification information; It may include a management unit that manages power services that can be provided to the user using the identification information.

Description

Apparatus and method for managing customer participation type new power rate system and renewable energy sharing community power service {Apparatus and method for managing customer participation type new power rate system and renewable energy sharing community power service}

The present invention relates to an apparatus and method for managing various electric tariff plans and various electric power services.

Recently, due to the rise in temperature due to global warming, the introduction of new and renewable energy has been promoted to reduce national greenhouse gases. In particular, we aim to reduce a large amount of carbon dioxide by improving facility efficiency and expanding the supply of new and renewable energy for residential and commercial buildings.

Accordingly, urban private solar power is being spread around the world, and small-scale power brokerage projects are also being actively promoted to increase household profits. However, regardless of the purpose of promotion, indiscriminate installation and inappropriate expansion of new and renewable energy facilities for the distribution of new and renewable energy is being carried out.

In addition, in the power brokerage business, the supply of power is focused on the same supply as before, and as new and renewable energy facilities must be installed in each building, a large amount of initial capital is required, resulting in a large economic burden. Additionally, there are limits to individual management due to individually installed renewable energy facilities.

Therefore, technology is needed to achieve more efficient renewable energy operation and energy independence through integrated management rather than individual management.

Korean Patent Publication No. 2050967 calculates the charging/discharging ratio of the optimized energy storage device based on the results of comparing and analyzing the peak value for the predicted demand power and the actual accumulated peak value, and based on this, the charging/discharging operation of the energy storage device is calculated. Technology for controlling is being disclosed.

Korean Patent Publication No. 2050967

The present invention is intended to provide a management device and method for managing power tariff plans in which customers can participate and managing power services that share renewable energy.

The management device of the present invention includes an acquisition unit that acquires user identification information; It may include a management unit that manages power services that can be provided to the user using the identification information.

The management method of the present invention includes an acquisition step of obtaining user identification information; It may include a management step of managing power services that can be provided to the user using the identification information.

According to the present invention, a server can be provided that manages a customer participation-type power rate plan or manages a community power service that shares production and storage facilities of new and renewable energy.

The management device installed on the server can provide various management services in the form of an Internet site. As an example, the management device may recommend a customer-participatory or customer-adaptive power plan to the user.

According to the management device, users can be provided with an environment where they can select the rate plan they want from among various rate plans such as time-based rate plan, demand management rate plan, and green rate plan, such as selecting a mobile phone rate plan, in addition to the existing progressive rate plan. At this time, the providing device may be configured to recommend a fee plan that is financially advantageous to the user.

Additionally, according to the present invention, users can be provided with an environment in which they can jointly secure solar panels that were difficult to secure individually. Solar power generated through solar panels can be used to reduce power bills for individual users.

In some cases, selling power produced through solar power generation to power resellers may be considered.

Electric power resellers use power supplied from community new and renewable power generation operators and power sales operators. They provide estimated usage/rates, comparisons between neighbors, and optimal rate recommendation services to households and public areas in complexes, and support solar panel installation and savings effects. It can provide additional services such as participation in the national DR (Demand Response) market, participation in eco-mileage, and energy transaction services within apartment complexes.

According to the present invention, power supplied from new and renewable energy resources and ESS (Energy Storage System) resources established by existing renewable power generation resources or shared communities as new and renewable power generation operators is offset to the consumer generation without going through the power market. A service that brokers transactions may be provided.

According to the present invention, new and renewable power generation operators or household consumers, who are users, can directly trade generated power through distribution or subscription and receive the benefit of reduced rates through optimal production/consumption operation.

The management device of the present invention can provide a virtual power trading service between renewable power generation operators and consumers using a distribution and subscription platform based on virtual net metering and power generation/consumption prediction services.

The management device of the present invention can provide a service for offsetting the power produced by a renewable power generation business to the consumer generation by establishing a distribution/subscription platform based on virtual net metering.

1 is a schematic diagram showing a management device of the present invention.
Figure 2 is a block diagram showing a management unit.
Figure 3 is a schematic diagram showing a power-related menu provided by the management unit.
Figure 4 is a schematic diagram showing the power generation menu.
Figure 5 is a schematic diagram showing the operation of the guide unit.
Figure 6 is a flowchart showing the management method of the present invention.
7 is a diagram illustrating a computing device according to an embodiment of the present invention.

Below, with reference to the attached drawings, embodiments of the present invention will be described in detail so that those skilled in the art can easily implement the present invention. However, the present invention may be implemented in many different forms and is not limited to the embodiments described herein. In order to clearly explain the present invention in the drawings, parts that are not related to the description are omitted, and similar parts are given similar reference numerals throughout the specification.

In this specification, duplicate descriptions of the same components are omitted.

Also, in this specification, when a component is mentioned as being 'connected' or 'connected' to another component, it may be directly connected or connected to the other component, but may be connected to the other component in the middle. It should be understood that may exist. On the other hand, in this specification, when it is mentioned that a component is 'directly connected' or 'directly connected' to another component, it should be understood that there are no other components in between.

Additionally, the terms used in this specification are merely used to describe specific embodiments and are not intended to limit the present invention.

Also, in this specification, singular expressions may include plural expressions, unless the context clearly dictates otherwise.

In addition, in this specification, terms such as 'include' or 'have' are only intended to designate the presence of features, numbers, steps, operations, components, parts, or combinations thereof described in the specification, and one or more It should be understood that this does not exclude in advance the presence or addition of other features, numbers, steps, operations, components, parts, or combinations thereof.

Also, in this specification, the term 'and/or' includes a combination of a plurality of listed items or any of the plurality of listed items. In this specification, 'A or B' may include 'A', 'B', or 'both A and B'.

Additionally, in this specification, detailed descriptions of well-known functions and configurations that may obscure the gist of the present invention will be omitted.

Figure 1 is a schematic diagram showing a management device 100 of the present invention. Figure 2 is a block diagram showing the management unit 130.

The management device 100 shown in FIG. 1 may include an acquisition unit 110 and a management unit 130.

The acquisition unit 110 may acquire the user's identification information. As an example, the acquisition unit 110 may be provided with a communication module that communicates wired or wirelessly with the user's terminal 10. The acquisition unit 110 may receive the user's identification information from the corresponding terminal 10. As an example, the user's terminal 10 may include a mobile communication terminal 10 such as a smartphone or a personal computer.

The user's identification information may include at least one of a name, ID, phone number, and address that can distinguish a specific user from other users.

The acquisition unit 110 may request specific power usage information corresponding to the identification information from the power server 90 where the user's power usage information is stored.

When specific power usage information matching the identification information is received from the power server 90, the acquisition unit 110 may transmit the specific power usage information to the management unit 130.

When the identification information is obtained, the acquisition unit 110 may request authentication of the acquisition of the identification information from the previously stored terminal 10 in response to the identification information before requesting specific power usage information from the power server 90. there is.

Only when authentication for obtaining identification information from the terminal 10 is completed, the acquisition unit 110 can request specific power usage information from the power server 90.

The management unit 130 can manage power services that can be provided to users using identification information.

For example, the power service includes a service that recommends a rate plan suitable for the user among multiple power rate plans, a service that allows participation in the production of new and renewable energy, a service that allows participation in national DR (Demand Response), and a transaction that allows trading power. May include at least one of the services.

Management of the power service performed by the management unit 130 may include transmitting or displaying various information corresponding to the power service to the user's terminal 10. Alternatively, management of power service may include calculating the user's power use information (including power use patterns, etc.) through analysis of the user's identification information. Alternatively, management of power services may include searching or extracting various services applicable to power usage information.

Figure 3 is a schematic diagram showing a power-related menu provided by the management unit 130. Figure 4 is a schematic diagram showing the power generation menu.

The management unit 130 may provide a power-related menu m matching the identification information to the user's terminal 10.

At this time, the power-related menu m may include at least one of a recommendation menu m1, a power generation menu m2, a saving menu m3, and a transaction menu m4.

The recommended menu m1 provided to the user's terminal 10 may include a menu recommending a specific rate plan among a plurality of electricity rate plans.

As an example, multiple electricity rate plans may include a progressive rate plan, an hourly rate plan, and a green premium rate plan.

A progressive rate system may be a rate system in which the unit price of electricity charges increases as usage increases.

The hourly rate plan (time-to-hour rate plan) may be a rate plan in which the unit price of electricity (electricity fee) is set differently for each time zone. For example, the electricity rate during peak hours, when overall power consumption is high, out of 24 hours a day, may be set at a higher price than the electricity rate during other times.

The green premium rate plan may be a rate plan adjusted by the unit price of solar electricity. Green premium can be cheaper or more expensive than regular commercial power.

Recommended menu m1 may include descriptions of the progressive rate plan, hourly rate plan, and green premium rate plan.

The recommended menu m1 may include the power usage pattern of the user's identification information.

Recommended menu m1 may include a specific rate plan selected according to the power usage pattern among the progressive rate plan, hourly rate plan, and green premium rate plan.

For example, for certain users whose power usage is charged at a progressive rate, but who do not use power during peak hours, an hourly rate rather than a progressive rate may be advantageous in terms of cost savings. This power usage pattern is analyzed by the analysis unit 131, and as a result of the analysis, a rate plan recommendation based on the analysis result may be included in the recommendation menu m1.

The power generation menu m2 may include a menu that displays the amount of power generation for each set cycle of renewable energy related to identification information.

The power generation menu m2 provided to the user's terminal 10 may include at least one of a subscription application menu n1, a subscription inquiry menu n2, a subscription status menu n3, and a real-time power generation menu n4, as shown in FIG. 4 . For example, when the power generation menu m2 is selected, a detailed menu n2 including at least one of the subscription application menu n1, subscription inquiry menu n2, subscription status menu n3, and real-time power generation menu n4 is provided to the user terminal 10, and the terminal ( 10) can be displayed through the display.

The subscription application menu n1 may include an application menu for allocating a specific solar power generation facility. According to the management device 100 of the present invention, an environment can be provided in which general users can be assigned and use at least a portion of solar power generation facilities installed at a specific location. At this time, a problem arises as to who to allocate solar power generation facilities to, and as a way to solve this problem, the management unit 130 can utilize the subscription application menu n1.

The subscription inquiry menu n2 may include a menu that displays the progress of the subscription application. You can check whether you have won the subscription through the subscription inquiry menu n2.

Subscription status menu n3 may include a menu that displays the real-time subscription status of a specific solar power generation facility. For example, Cheongyang status menu n3 may display the number of subscribers, subscription competition rate, etc.

Real-time power generation menu n4 may include a menu that displays the real-time solar power generation amount of a specific solar power generation facility. For example, the real-time power generation amount menu n4 can display the real-time power generation amount of a specific solar power generation facility that the user is subscribing to or has won a subscription for. Of course, depending on the user's settings, the real-time solar power generation amount of solar power generation facilities in other locations unrelated to the user's subscription may be displayed.

Going back to FIG. 3, the saving menu m3 may include a menu for participating in national DR (Demand Response). 'DR (Demand Response)', which means 'demand response', is a system in which consumers receive compensation when they reduce their electricity use during times when electricity use is concentrated.

Transaction menu m4 may include a menu for trading power. As an example, a menu for trading the amount allocated through subscription among the power generation of solar power generation facilities may be included in the transaction menu m4 by the management unit 130 and displayed through the terminal 10.

The management unit 130 may be provided with an analysis unit 131, a recommendation unit 133, a guide unit 135, and a transaction unit 137. The recommendation unit 133 may generate the recommendation menu m1 itself or various types of information included in the recommendation menu m1. The guide unit 135 may generate the power generation menu m2 itself or the saving menu m3 itself. Alternatively, the guide unit 135 may generate various information included in the power generation menu m2 or various information included in the saving menu m3. The transaction unit 137 may generate the transaction menu m4 itself or various information included in the transaction menu m4.

The recommendation unit 133 may recommend a plurality of power tariff plans that the user can select. Alternatively, the recommendation unit 133 may recommend at least one of a plurality of power tariff plans to the user. The rate plan may include the progressive rate plan, hourly rate plan, green premium rate plan, etc. described above.

The recommendation unit 133 may recommend a power rate plan applicable to the user based on power usage information corresponding to the identification information.

The analysis unit 131 may analyze power usage information corresponding to the user's identification information.

The analysis unit 131 may use the power usage information to determine at least one of the user's hourly power usage, future power usage, and the type of power that can be provided to the user.

The recommendation unit 133 may recommend a power tariff plan applicable to the user from among a plurality of power tariff plans based on the information identified by the analysis unit 131.

The analysis unit 131 can predict the user's future power usage through analysis of the user's hourly power usage.

The analysis unit 131 can distinguish whether the power source that the user can utilize is commercial power provided by Korea Electric Power Corporation (KEPCO) or power produced using renewable energy such as solar power generation.

The analysis unit 131 can analyze various types of electrical energy that can be used by a specific user. If the analysis unit 131 determines that a specific user has an environment in which power generated from solar power generation facilities cannot be provided, the recommendation unit 133 may exclude the green premium rate plan from the recommended rate plans provided to the user. there is.

The analysis unit 131 can identify external power generation facilities available to the user using power usage information. As an example, power usage information may include the location where the user uses power. The analysis unit 131 can search for external power generation facilities existing in the vicinity based on the location.

The analysis unit 131 may additionally analyze power generation information of external power generation facilities.

The recommendation unit 133 may recommend a power rate plan that applies both power use information and power generation information as a condition of using external power generation facilities.

For example, a power rate plan that provides discount benefits when using external power generation facilities may be established. In this case, the rate plan can be recommended to users who can be allocated electricity produced by external power generation facilities through subscription, etc.

The analysis unit 131 may analyze the usage amount of external power generation facilities and the power generation amount corresponding to the power produced by the external power generation facilities allocated to the user. The amount of power generation may correspond to the current trading price of the generated power.

The analysis unit 131 can calculate the renewable energy amount corresponding to the difference between the usage amount and the power generation amount.

The recommendation unit 133 may give the user a reduction option to reduce the renewable amount.

When an option that reduces the amount of renewable energy from the power bill to be charged to the user is applied, the recommendation unit 133 recommends to the user a power rate plan that additionally provides other power saving benefits that are distinct from the power rate reduction due to the option itself. can do. In other words, according to the recommendation unit 133, an electricity rate plan that allows users to enjoy additional financial benefits excluding the effect of the renewable energy amount itself can be recommended to the user.

In reality, the cost of using external solar power generation facilities may be greater than the amount of power generation due to various factors such as initial facility costs and climate. According to this, the amount of renewable energy can actually be a factor that increases the original electricity price. According to this, it is clear that investment in solar power generation facilities by users will be limited. To solve this problem, additional discounts on power bills may be granted when paying for the use of solar power generation facilities at the public agency, government, or local government level. The additional discount benefit granted in this way may correspond to another power saving benefit that is distinct from the power bill reduction due to the option itself, where the renewable amount is reduced.

The analysis unit 131 may analyze the first power usage information corresponding to the identification information and determine the user's address and the user's first power usage using the first power usage information.

The analysis unit 131 is located within a set distance from the identified address and can additionally determine the second power usage of the subject for which power charges are charged.

At this time, the recommender 133 may provide the second power usage and the first power usage to the user terminal 10 together.

The recommender 133 may extract a second power usage that is lower than the first power usage from among the second power usage collected from a plurality of charging targets.

The recommendation unit 133 may recommend to the user a power rate plan that can achieve the extracted average value of the second power usage.

In general, most users do not know how much power is appropriate for their living environment. However, in many cases, they only have a vague power use plan to limit power use as much as possible, recognizing the need to reduce power bills and protect the natural environment. However, if the user expects to have a similar living environment to his or her own and determines the expected power consumption of the house next door, the house above him, or the house below him, he can clearly determine whether his own power consumption is high or low by comparing it with those. However, since the standard is not fair enough to only compare the power usage of specific neighbors, there are concerns about privacy infringement on specific neighbors. In order to solve these problems all at once, only the second power usage that is lower than the first power usage can be extracted from among the plurality of imposition objects existing nearby, and the average value of the extracted second power usage can be presented to the user. In addition, the recommender 133 may recommend to the user a power rate plan that is advantageous for the user with the first power usage to achieve the corresponding average value. From the user's perspective, the motivation to save power can be improved by checking the average value of neighbors' power usage (only neighbors who currently use less power than the user). Additionally, you can be recommended a power rate plan that is advantageous for achieving the average value.

Figure 5 is a schematic diagram showing the operation of the guide unit 135.

The analysis unit 131 may analyze the user's facility 50 using the user's identification information.

The analysis unit 131 may analyze the installable capacity corresponding to the capacity of the solar panel that can be installed in the owned facility 50 through the analysis of the owned facility 50.

The guide unit 135 can calculate the expected power generation amount according to the installable capacity and calculate the expected savings in power bills based on the expected power generation amount.

As shown in FIG. 5, the guide unit 135 displays the area s where the solar panel is installed in the owned facility 50 on the terminal 10, and at the same time displays the expected amount of power generation and the expected savings amount on the user terminal 10. can do.

According to this embodiment, the user can intuitively determine, for example, how much power generation will be generated by installing a solar panel of what size and location in what area on the roof of his or her house.

As an example, the analysis unit 131 may extract an installation area s where solar panels can be installed in the owned facility 50 through analysis of images taken by the owned facility 50. The analysis unit 131 may calculate the area of the installation area s through image analysis.

The analysis unit 131 may analyze the type of standard of the solar panel that can be installed in the installation area s of the calculated area and the expected power generation amount according to the type of standard.

The guide unit 135 may provide the terminal 10 with augmented reality data showing the installation area s on the image, as well as the standard type of solar panel that can be installed in the installation area s and the expected power generation amount according to the standard type. Augmented reality data provided to the terminal 10, the type of solar panel standard, expected power generation, etc. may be displayed through the display.

The analysis unit 131 may analyze the amount of power generation from solar power generation facilities jointly operated by a plurality of users including a specific user with identification information. Each user can participate in solar power generation facilities through the subscription mentioned above. Alternatively, each user may participate in solar power generation facilities installed inside or outside the complex in a communal housing unit such as an apartment complex. The analysis unit 131 may analyze the amount allocated to the user's identification information among the power generation amount.

The guide unit 135 may calculate the expected savings in electricity bills based on the quota. The guide unit 135 may display the quota and expected savings amount on the terminal 10 of a specific user.

According to the guide unit 135, the estimated savings amount due to the operation of joint solar power generation facilities can be accurately provided for each user. According to this embodiment, an environment can be created in which solar power generation facilities, which are difficult for individuals to install alone, can be installed through joint collaboration.

The analysis unit 131 may analyze the storage amount of an ESS (Energy Storage System) jointly operated by a plurality of users including a specific user with identification information. At this time, the ESS can be installed inside or outside the apartment complex. The analysis unit 131 may analyze the amount allocated to identification information among the storage amount of the ESS.

At this time, the guide unit 135 may calculate the expected savings in electricity bills based on the quota. The guide unit 135 may display the quota and expected savings amount on the terminal 10 of a specific user. According to this embodiment, an environment can be created in which ESS equipment, which is difficult for an individual to install alone, can be installed through joint collaboration.

The analysis unit 131 may analyze power usage information of each household in an apartment complex using a progressive rate system, for example.

At this time, the trading unit 137 can trade power between each generation using power usage information.

The transaction unit 137 can automatically perform power transactions between the progressive generation and the saving generation if both the progressive generation that has achieved the progressive system section of the progressive rate system and the saving generation that have not achieved the progressive system section exist.

After achieving the progressive system section, a progressive fee charged for excess power usage of the progressive generation can be defined.

At this time, the transaction unit 137 may provide the progressive generation with a first menu that transfers the first usage amount corresponding to at least a portion of the excess usage amount to the saving generation in exchange for a first amount.

The transaction unit 137 may provide a second menu for receiving a first amount of money and a first usage amount to the saving household.

The transaction unit 137 includes a second amount corresponding to the profit that the progressive generation can obtain through deduction of the first usage amount, and an input menu for entering the first amount within the range of the second amount in the first menu. You can do it.

The transaction unit 137 may extract a specific saving generation in which the amount of increase in electricity bill due to an increase in first usage is determined within the range of the first amount from among one or more saving households.

The transaction unit 137 may provide the second menu only to specific savings households.

The transaction unit 137 can perform power trading only when permission information is obtained through the second menu.

Figure 6 is a flowchart showing the management method of the present invention.

The management method of FIG. 6 may be performed by the management device 100 shown in FIG. 1.

The management method may include an acquisition step (S 510) and a management step (S 520).

In the acquisition step (S510), user identification information may be acquired. The acquisition step (S510) may be performed by the acquisition unit 110.

The management step (S520) may manage power services that can be provided to users using identification information. The management step (S520) may be performed by the management unit 130.

7 is a diagram illustrating a computing device according to an embodiment of the present invention. The computing device TN100 of FIG. 7 may be a device described herein (eg, management device 100, etc.).

In the embodiment of FIG. 7, the computing device TN100 may include at least one processor TN110, a transceiver device TN120, and a memory TN130. Additionally, the computing device TN100 may further include a storage device TN140, an input interface device TN150, an output interface device TN160, etc. Components included in the computing device TN100 may be connected by a bus TN170 and communicate with each other.

The processor TN110 may execute a program command stored in at least one of the memory TN130 and the storage device TN140. The processor TN110 may refer to a central processing unit (CPU), a graphics processing unit (GPU), or a dedicated processor on which methods according to embodiments of the present invention are performed. Processor TN110 may be configured to implement procedures, functions, and methods described in connection with embodiments of the present invention. The processor TN110 may control each component of the computing device TN100.

Each of the memory TN130 and the storage device TN140 can store various information related to the operation of the processor TN110. Each of the memory TN130 and the storage device TN140 may be comprised of at least one of a volatile storage medium and a non-volatile storage medium. For example, the memory TN130 may be comprised of at least one of read only memory (ROM) and random access memory (RAM).

The transceiving device TN120 can transmit or receive wired signals or wireless signals. The transmitting and receiving device (TN120) can be connected to a network and perform communication.

Meanwhile, the embodiments of the present invention are not only implemented through the apparatus and/or method described so far, but may also be implemented through a program that realizes the function corresponding to the configuration of the embodiment of the present invention or a recording medium on which the program is recorded. This implementation can be easily implemented by anyone skilled in the art from the description of the above-described embodiments.

Although the embodiments of the present invention have been described in detail above, the scope of the present invention is not limited thereto, and various modifications and improvements made by those skilled in the art using the basic concept of the present invention defined in the following claims are also possible. It falls within the scope of invention rights.

10...terminals 50...owned facilities
90...Power Server 100...Management Unit
110...acquisition unit 130...management unit
131...Analysis Department 133...Recommendation Department
135...Guide Department 137...Trade Department

Claims (20)

an acquisition unit that acquires user identification information;
It includes a management unit that manages power services that can be provided to the user using the identification information,
An analysis unit is provided to analyze first power usage information corresponding to the identification information,
The analysis unit determines the user's address and the user's first power usage using the first power usage information,
The analysis unit determines the second power usage of a subject located within a set distance from the address and subject to a power fee,
A recommendation unit is provided to provide both the second power usage and the first power usage to the user terminal,
The recommendation unit extracts a second power usage that is lower than the first power usage from the second power usage collected from the plurality of charging targets,
Presenting the average value of the extracted second power usage to the user,
The recommendation unit is a management device that recommends to the user a power plan that can achieve the average value.
According to paragraph 1,
The management unit provides a power-related menu matching the identification information to the user terminal,
The power-related menu includes at least one of a recommendation menu, a power generation menu, a savings menu, and a transaction menu,
The recommendation menu includes a menu recommending a specific rate plan among a plurality of electricity rate plans,
The power generation menu includes a menu displaying the amount of power generation for each set cycle of renewable energy related to the identification information,
The savings menu includes a menu that participates in national DR (Demand Response).
The transaction menu is a management device including a menu for trading power.
According to paragraph 1,
The management unit provides the user terminal with a recommendation menu that recommends a specific rate plan among a plurality of electricity rate plans,
Multiple electricity tariff plans include progressive tariffs, hourly tariffs, and green premium tariffs.
The progressive rate system is a rate system in which the unit price of electricity increases as usage increases,
The hourly rate system is a rate system in which the unit price of electricity is set differently depending on the time period,
The green premium rate plan is a rate plan adjusted by the unit price of solar electricity,
The recommended menu includes a description of the progressive rate plan, the hourly rate plan, and the green premium rate plan,
The recommended menu includes a power usage pattern of the identification information,
The recommended menu includes a specific rate plan selected according to the power usage pattern among the progressive rate plan, the hourly rate plan, and the green premium rate plan.
According to paragraph 1,
The management unit provides a power generation menu to the user terminal that displays the power generation amount for each set cycle of renewable energy related to the identification information,
The power generation menu includes at least one of a subscription application menu, a subscription inquiry menu, a subscription status menu, and a real-time power generation menu,
The subscription application menu includes an application menu for allocating a specific solar power generation facility,
The subscription inquiry menu includes a menu that displays the progress of the subscription application,
The subscription status menu includes a menu that displays the real-time subscription status of a specific solar power generation facility,
The real-time power generation menu is a management device including a menu that displays the real-time solar power generation amount of a specific solar power generation facility.
According to paragraph 1,
The acquisition unit requests specific power usage information corresponding to the identification information from the power server where the user's power usage information is stored,
When the specific power usage information is received from the power server, the acquisition unit transmits the specific power usage information to the management unit.
According to clause 5,
When the identification information is obtained, the acquisition unit requests authentication of the acquisition of the identification information from a terminal previously stored in response to the identification information before requesting the specific power usage information from the power server,
The acquisition unit is a management device that requests the specific power usage information from the power server only when authentication for obtaining the identification information from the terminal is completed.
delete delete delete According to paragraph 1,
The analysis unit uses the first power usage information to identify external power generation facilities available to the user,
The analysis unit further analyzes power generation information of the external power generation facility,
The recommendation unit is a management device that recommends a power rate plan to which the first power use information and the power generation information are applied together under the condition of using the external power generation facility.
According to clause 10,
The analysis unit analyzes the usage amount of the external power generation facility and the power generation amount corresponding to the power produced by the external power generation facility to the user,
The analysis unit calculates a renewable amount corresponding to the difference between the usage amount and the power generation amount,
The recommendation unit grants the user a reduction option to reduce the renewable amount,
When an option in which the renewable energy amount is reduced from the power bill to be charged to the user is applied, the recommender provides the user with a power rate plan that additionally provides other power saving benefits that are distinct from the power rate reduction due to the option itself. Recommended management device.
delete delete According to paragraph 1,
The analysis unit analyzes the facility owned by the user using the identification information,
The analysis unit analyzes the installable capacity corresponding to the capacity of solar panels that can be installed in the owned facility through analysis of the owned facility,
A guide unit is provided to calculate the expected power generation amount according to the installable capacity and calculate the expected savings in power bills based on the expected power generation amount,
The guide unit displays the area where the solar panel is installed in the owned facility on the user terminal, and simultaneously displays the expected power generation amount and the expected savings amount on the terminal.
According to clause 14,
The analysis unit extracts an installation area where the solar panel can be installed in the owned facility through analysis of images taken of the owned facility,
The analysis unit calculates the area of the installation area through analysis of the image,
The analysis unit analyzes the expected power generation according to the standard type and type of solar panel that can be installed in the installation area of the calculated area,
The guide unit is a management device that provides the terminal with augmented reality data showing the installation area on the image, the standard type of solar panel that can be installed in the installation area, and the expected power generation amount according to the standard type.
According to paragraph 1,
The analysis unit analyzes the amount of power generation from solar power generation facilities jointly operated by a plurality of users including a specific user with the identification information,
The analysis unit analyzes the amount allocated to the identification information among the power generation amount,
A guide unit is prepared to calculate the expected savings in electricity bills based on the quota,
The guide unit is a management device that displays the quota and the expected savings amount on the terminal of the specific user.
According to paragraph 1,
The analysis unit analyzes the storage amount of an ESS (Energy Storage System) jointly operated by a plurality of users including a specific user with the identification information,
The analysis unit analyzes the allocation amount allocated to the identification information among the storage amount,
A guide unit is prepared to calculate the expected savings in electricity bills based on the quota,
The guide unit is a management device that displays the quota and the expected savings amount on the terminal of the specific user.
According to paragraph 1,
The analysis unit analyzes the power usage information of each household in an apartment complex using a progressive rate system,
A trading unit is established to trade power between households using the power usage information.
The transaction unit is a management device that performs power trading between the progressive generation and the saving generation when both a progressive generation that has achieved the progressive system section of the progressive rate plan and a saving generation that has not achieved the progressive system section exist.
According to clause 18,
When the progressive rate imposed on excess power usage of the progressive generation is defined after the achievement of the progressive system section,
The transaction unit provides the progressive generation with a first menu for transferring the first usage corresponding to at least a portion of the excess usage to the saving generation for a first amount,
The transaction unit receives the first amount and provides a second menu for receiving the first usage amount to the saving generation,
The transaction unit provides a second amount corresponding to the profit that the progressive generation can obtain through deduction of the first usage amount, and an input menu for entering the first amount within the range of the second amount. Include it in,
The transaction unit extracts a specific saving generation in which the increase in electricity bill due to an increase in the first usage amount is determined within the range of the first amount from among one or more saving households,
The transaction department provides the second menu only to the specific saving generation,
The transaction unit is a management device that performs the power transaction only when permission information is obtained through the second menu.
In a management method performed by a management device,
An acquisition step of obtaining user identification information;
A management step of managing power services available to the user using the identification information,
The management step is,
Analyzing first power usage information corresponding to the identification information,
Using the first power usage information, determine the user's address and the user's first power usage,
Identify the second power usage of the subject located within a set distance from the address and subject to power charges,
The second power usage and the first power usage are provided together to the user terminal,
Extracting a second power usage that is lower than the first power usage from the second power usage collected from the plurality of charge targets,
Presenting the average value of the extracted second power usage to the user,
A management method for recommending to the user a power rate plan that can achieve the average value.

Images