Service delivery system, service delivery method, and program
The service provision system addresses the limitations of existing demand response systems by enabling flexible selection and provision of energy-related services, optimizing equipment use for financial and environmental benefits.
Patent Information
- Authority / Receiving Office
- JP · JP
- Patent Type
- Applications
- Current Assignee / Owner
- PANASONIC INTELLECTUAL PROPERTY MANAGEMENT CO LTD
- Filing Date
- 2025-06-13
- Publication Date
- 2026-06-10
- Estimated Expiration
- Not applicable · inactive patent
AI Technical Summary
Existing demand response systems lack the ability to selectively provide a variety of energy-related services to consumers, limiting their flexibility and efficiency in balancing power supply and demand.
A service provision system that includes a selection unit to choose from multiple energy-related services, such as energy-saving control, peak shaving, self-consumption of renewable energy, selling to the energy market, outputting to the grid, and sharing surplus energy, using equipment and energy regeneration equipment based on predetermined conditions.
The system can selectively provide services that maximize financial or environmental benefits to consumers, retailers, and service providers by optimizing the use of installed equipment and generation systems.
Smart Images

Figure 2026095298000001_ABST
Abstract
Description
Technical Field
[0004]
[0001] The present invention relates to an information processing method and the like for realizing adjustment of power supply and demand.
Background Art
[0002] Regarding technologies related to demand response for adjusting the amount of power consumed by consumers in response to requests from power companies in order to balance the demand (consumption) and supply (generation) of power in the power system. Patent Document 1 discloses a demand response compatible power control system.
Prior Art Documents
Patent Documents
[0003]
Patent Document 1
Summary of the Invention
Problems to be Solved by the Invention
[0004] The present invention provides a service providing system and the like that can selectively provide a plurality of services using devices installed in consumers.
Means for Solving the Problems
[0005] A service provision system according to one aspect of the present invention comprises a selection unit that selects one or more services from a plurality of energy-related services using equipment installed at a customer or energy regeneration equipment based on predetermined conditions, and an output unit that outputs information necessary for providing the selected one or more services, wherein the plurality of services include at least one of the following: (1) a first service that performs energy-saving control of the equipment; (2) a second service that performs peak shaving at the customer by controlling the equipment; (3) a third service that prioritizes self-consumption of renewable energy obtained from the energy regeneration equipment by the equipment; (4) a fourth service that sells the renewable energy or energy obtained from the equipment by control commands to the energy market; (5) a fifth service that outputs the renewable energy to the grid or performs energy-saving control of the equipment at the request of a retail electricity business operator that sells energy to the customer; and (6) a sixth service that provides surplus energy at the customer to other customers.
[0006] A service provision method according to one aspect of the present invention is a service provision method performed by a computer system, comprising a selection step of selecting one or more services from a plurality of energy-related services using equipment installed at a customer or energy regeneration equipment based on predetermined conditions, and an output step of outputting information necessary for providing the selected one or more services, wherein the plurality of services include at least one of the following: (1) a first service for performing energy-saving control of the equipment; (2) a second service for performing peak shaving at the customer by controlling the equipment; (3) a third service for prioritizing self-consumption of renewable energy obtained from the energy regeneration equipment by the equipment; (4) a fourth service for selling the renewable energy or energy obtained from the equipment by control commands to the energy market; (5) a fifth service for outputting the renewable energy to the grid or performing energy-saving control of the equipment at the request of a retail electricity business operator that sells energy to the customer; and (6) a sixth service for providing surplus energy at the customer to other customers.
[0007] A program according to one aspect of the present invention is a program for causing the computer system to execute the service provision method. [Effects of the Invention]
[0008] The service provision system of the present invention can selectively provide multiple services using equipment installed at the customer's location. [Brief explanation of the drawing]
[0009] [Figure 1] Figure 1 is a block diagram showing the functional configuration of the service provision system according to the embodiment. [Figure 2] Figure 2 is a flowchart showing an example of the operation of the service provision system according to the embodiment. [Figure 3] Figure 3 is a block diagram showing the functional configuration of the service provision system related to the modified example. [Modes for carrying out the invention]
[0010] The embodiments will be described in detail below with reference to the drawings. Note that the embodiments described below are all comprehensive or specific examples. The numerical values, shapes, materials, components, arrangement positions and connection configurations of components, steps, and the order of steps shown in the following embodiments are examples only and are not intended to limit the present invention. Furthermore, components in the following embodiments that are not described in an independent claim will be described as optional components.
[0011] Please note that each figure is a schematic diagram and not necessarily a strictly accurate representation. Furthermore, in each figure, substantially identical components are denoted by the same reference numerals, and redundant explanations may be omitted or simplified.
[0012] (Embodiment) [composition] First, the configuration of the service provision system according to the embodiment will be described. Figure 1 is a block diagram showing the functional configuration of the service provision system according to the embodiment.
[0013] The service provision system 10 is a system that can provide electricity-related services to each of the multiple customers 70 who have contracts with a particular retail electricity provider. Electricity, in other words, is energy. The retail electricity provider may be, for example, a so-called new power company, but it may also be a former general electricity provider (a major power company). Each of the multiple customers 70 may be a customer 70 corresponding to a residence, or a customer 70 corresponding to a non-residential building such as a factory. The total number of multiple customers 70 may be, for example, several hundred to several hundred thousand.
[0014] As shown in Figure 1, the service provision system 10 comprises an EMS (Energy Management System) controller 20, multiple devices 21, and power generation equipment 22 installed at each of the multiple customers 70, as well as an EMS server 30, a control server 40, and a data management server 50.
[0015] The EMS controller 20 is a device that manages the amount of power consumed at customer 70, as measured by a power measuring device (not shown) connected to the EMS controller 20. The amount of power consumed at customer 70 may include not only the total power consumption of the customer 70's facilities, but also the individual power consumption of the equipment 21 installed at customer 70. The EMS controller 20 also receives control commands transmitted by the control server 40 via the EMS server 30 and controls at least some of the multiple equipment 21 and power generation equipment 22 based on the received control commands. The EMS controller 20 communicates with the multiple equipment 21 and power generation equipment 22, for example, via a local communication network.
[0016] Equipment 21 is installed in a facility (such as a residence) corresponding to the customer 70. Equipment 21 includes at least one piece of equipment such as a battery storage system, lighting equipment, air conditioning equipment, ventilation equipment, heat pump water heater, and electric vehicle charging / discharging equipment. The equipment included in Equipment 21 is, in other words, an energy resource at the customer 70, and consumes electricity supplied from the grid 60 or the power generation equipment 22. Equipment 21 is owned by the customer 70, for example, but the battery storage system and other components may be owned by the retail electricity provider or the service provider. In other words, a form of TPO (Third-Party Ownership) may be adopted.
[0017] The power generation equipment 22 is installed in a facility corresponding to the customer 70. The power generation equipment 22 is realized, for example, by a solar power generation system and a power conditioner. The power generation equipment 22 may also be a fuel cell power generation system. The power generation equipment 22 is an example of an energy regeneration device that generates renewable energy (electricity) from sunlight. The power generation equipment 22 is permitted to output power to the grid 60. The power generation equipment 22 is owned, for example, by the customer 70, but may also be owned by a retail electricity provider or a service provider. In other words, a TPO (Telecommunications, Portfolio, and Ownership) arrangement may be adopted.
[0018] The EMS server 30 receives power data (information indicating the daily power consumption and power generation of each customer 70) transmitted by multiple EMS controllers 20 corresponding to multiple customers 70, and stores (manages) this data in association with the identification information of each customer 70 (EMS controller 20). The EMS server 30 also provides the power data to the control server 40. Furthermore, the EMS server 30 receives control commands transmitted by the control server 40 and transmits the received control commands to the EMS controllers 20. The EMS server 30 communicates with the multiple EMS controllers 20 and the control server 40 via a wide-area communication network such as the Internet.
[0019] The control server 40 selects a service to be provided to the customer 70 from among a plurality of services, and controls the devices 21 or the power generation equipment 22 under the EMS controller 20 installed in the customer 70 in order to realize the selected service. The control of the devices 21 or the power generation equipment 22 is realized by transmitting a control command. The control server 40 is a server managed and operated by a service provider. The control server 40 includes a communication unit 41, an information processing unit 42, and a storage unit 43.
[0020] The communication unit 41 is a communication circuit for the control server 40 to communicate with the EMS server 30 and the data management server 50 via a wide area communication network. The communication unit 41 performs, for example, wired communication, but may perform wireless communication. The communication standard of the communication performed by the communication unit 41 is not particularly limited.
[0021] The information processing unit 42 performs information processing related to the selection of the service to be provided to the customer 70 and the control of the devices 21 or the power generation equipment 22 for realizing the selected service. The information processing unit 42 is realized by, for example, a microcomputer, but may be realized by a processor. The information processing unit 42 includes a selection unit 44 and an output unit 45 as functional components. The functions of the selection unit 44 and the output unit 45 are realized, for example, by a microcomputer or a processor constituting the information processing unit 42 executing a computer program stored in the storage unit 43.
[0022] The storage unit 43 is a storage device that stores information necessary for realizing the above-described information processing such as a computer program executed by the information processing unit 42. The storage unit 43 is realized by, for example, a semiconductor memory.
[0023] The data management server 50 provides support data to the control server 40. For example, the data management server 50 manages power data received from the control server 40, or power data received from the retail electricity provider's server (not shown), as baseline data, and provides the control server 40 with the amount of power consumed by the customer 70 estimated from the baseline data as support data. The data management server 50 also provides the control server 40 with the electricity sales price (market sales price) when selling the power generated by the power generation equipment 22 or the power obtained from the equipment 21 by control commands to the electricity market as support data. The data management server 50 also performs the bidding process and the process of concluding contracts regarding DR (Demand Response) with retail electricity providers, as described later.
[0024] [Multiple services] The selection unit 44 of the control server 40 divides a day into 48 time slots, with a minimum unit of 30 minutes, and for each time slot, it selects the service that provides the greatest financial benefit to the consumer from among multiple services. Here, five types of services are described as examples of services included in multiple services. Note that the selection unit 44 may also choose not to provide a service, in which case all the electricity generated by the power generation equipment 22 will be sold (sold) to the retail electricity provider. The formulas for calculating financial benefits in the following service descriptions are based on the case where no service is provided (where all the generated electricity is sold to the retail electricity provider).
[0025] The first service is a service that reduces electricity costs by performing energy-saving control on equipment 21. Energy-saving control is, in other words, power-saving control. For example, the amount of electricity consumed reduced by energy-saving control multiplied by the purchase price of electricity (electricity rate) becomes the financial benefit for the customer 70. The equipment 21 that is subject to energy-saving control and how that equipment 21 is controlled are set in advance, for example.
[0026] The second service is a service that performs peak reduction at customer 70 by controlling equipment 21. If peak reduction reduces the maximum value of electricity usage in 30-minute intervals over the past year, it will result in a financial benefit for customer 70 by lowering the basic charge in the electricity rate contract between customer 70 and the retail electricity provider.
[0027] The third service is a service that maximizes (prioritizes) the self-consumption of electricity generated from the power generation equipment 22. The financial benefit for the consumer 70 is calculated as the expected self-consumption of the expected amount of power generated × (purchase price of electricity - sale price of electricity).
[0028] The fourth service is the sale of generated electricity or electricity obtained from equipment 21 via control commands to the electricity market. The expected amount of electricity generated × (market selling price - selling price) becomes the monetary profit for the consumer 70.
[0029] The fifth service is a service (DR service) that provides a surplus of electricity to the retail electricity provider at the request of the retail electricity provider with whom the customer has a contract. Specifically, the fifth service is a service that either outputs the generated electricity from the power generation equipment 22 to the grid 60, or performs energy-saving control of the equipment 21. When the generated electricity is output to the grid 60, the incentive paid by the retail electricity provider becomes the financial benefit for the customer 70. When energy-saving control is performed, the financial benefit for the customer 70 is the amount of electricity consumed reduced by the energy-saving control × the purchase price of electricity + the incentive.
[0030] The sixth service is a service that allows surplus electricity from one consumer 70 to be shared with other consumers 70. In this case, if the electricity selling price increases by α yen for the electricity supplying consumer 70, the monetary benefit for that consumer 70 will be calculated as: expected self-consumption × (purchase price - selling price) + expected surplus electricity × (selling price + α). If the electricity purchase price decreases by -β yen for the electricity receiving consumer 70, the monetary benefit for that consumer 70 will be calculated as: consumption × β.
[0031] In the following embodiment, an example is described in which the control server 40 selects a service from the five types of services described above. However, the multiple services to be selected (service candidates) may include services other than the five types described above. The multiple services to be selected only need to include at least one of the five types of services described above.
[0032] [Example of operation] Next, we will describe an example of the operation of the service delivery system 10. Figure 2 is a flowchart of an example of the operation of the service delivery system 10. For the sake of simplicity, the following description will focus on an example where a service is selected and provided (executed) for one target time slot of one target customer 70. However, in reality, service selection and provision are performed for each of the 48 time slots for multiple customers 70.
[0033] The selection unit 44 of the control server 40 predicts the amount of power generated by the power generation equipment 22 installed at the target customer 70 during the target time slot (S11). The selection unit 44, for example, communicates with a weather information management server (not shown) using the communication unit 41 to obtain solar radiation information for the area to which the customer 70 belongs during the target time slot, and predicts the amount of power generated during the target time slot based on the acquired solar radiation information and the specification information of the power generation equipment 22 (photovoltaic power generation system) (information indicating power generation efficiency, etc.) that is pre-stored in the storage unit 43.
[0034] The processing in step S11 may be performed by the data management server 50, and the selection unit 44 may obtain predicted values of power generation from the data management server by communicating with the data management server 50 using the communication unit 41.
[0035] Next, the selection unit 44 predicts the amount of power consumed by the target customer 70 during the target time slot (S12). For example, the selection unit 44 uses the communication unit 41 to communicate with a weather information management server (not shown) to obtain temperature information for the region to which the target customer 70 belongs during the target time slot.
[0036] Here, the data management server 50 manages baseline data showing the historical power consumption of the target customers 70. In the baseline data, for example, the time waveform of past power consumption is linked to information such as month, day, day of the week, whether it is a holiday or not, time, and temperature.
[0037] The selection unit 44 transmits prediction request information, including, for example, the start and end times of the target time slot, the day of the week to which the target time slot belongs, whether or not that day is a holiday, and previously acquired temperature information, to the data management server 50 using the communication unit 41. Based on the received prediction request information, the data management server 50 provides the selection unit 44 with the amount of power consumption in the time slot that is closest in conditions (highest similarity) to the target time slot from the baseline data, as the amount of power consumption in the target time slot. In other words, the selection unit 44 works in cooperation with the data management server 50 to predict the amount of power consumption at the customer 70.
[0038] Next, the selection unit 44 calculates the monetary benefit to the customer 70 assuming that each of the multiple services (the five types of services described above) is provided in the target time slot, based on the amount of power generated predicted in step S11 and the amount of power consumed predicted in step S12 (S13). Information such as the purchase price when purchasing electricity from a retail electricity provider, the selling price when selling the power generated by the power generation equipment 22 to the retail electricity provider, the amount of the incentive for the fifth service, and the amounts of α and β for the fifth service are stored in advance, for example, in the storage unit 43. The selling price when selling the power generated by the power generation equipment 22 to the electricity market (selling price to the market) is provided, for example, from the data management server 50.
[0039] Furthermore, the fifth service is applicable only during time slots predetermined by the retail electricity provider (time slots requiring demand response). If the target time slot does not fall under a predetermined time slot, the calculation of the monetary benefit to the customer 70, assuming the fifth service was provided, can be omitted.
[0040] Next, the selection unit 44 selects the service that will provide the greatest financial benefit to the customer 70 from among the multiple services (S14).
[0041] In step S14, if the fourth service is selected, bidding is performed in the electricity market. The output unit 45 transmits, for example, bidding request information to the data management server 50 using the communication unit 41. The data management server 50 performs bidding in the electricity market based on the received bidding request information and notifies the control server 40 of the agreement result. As described above, the service provision system 10 actually provides services to each of the multiple consumers 70 in the target time slot. Therefore, in the bidding process, the total amount of power generated by the multiple consumers 70 who receive the fourth service in the target time slot or power obtained from the equipment 21 by control commands is bid on (sold).
[0042] Furthermore, if the fifth service is selected in step S14, the process of concluding a contract for DR with the retail electricity provider is performed. The output unit 45, for example, transmits contract request information to the data management server 50 using the communication unit 41. The data management server 50 performs the contract conclusion process for DR with the retail electricity provider based on the received contract request information and notifies the control server 40 of the result. As described above, the service provision system 10 actually provides services to each of the multiple consumers 70 in the target time slot. Therefore, in the contract conclusion process, the total amount of electricity that the multiple consumers 70 who will receive the fifth service in the target time slot plan to reduce is the subject of the contract.
[0043] In step S14, a service may not be selected. In this case, step S15 is omitted, and the equipment 21 and power generation equipment 22 for providing the service are not controlled.
[0044] The processes described in steps S11 to S14 are performed, for example, on the day before the service is actually provided. In other words, the processes in steps S11 to S14 can be considered as planning what kind of service to provide to the target customer 70 on the following day. Note that the processes in steps S11 to S14 may also be performed on the day the service is actually provided.
[0045] Subsequently, when the start time of the target time slot arrives, the output unit 45 controls at least one of the equipment 21 and power generation equipment 22 installed at the target customer 70, corresponding to the service selected in step S14 (S15). Specifically, the output unit 45 can control at least one of the equipment 21 and power generation equipment 22 installed at the target customer 70 by transmitting (outputting) a control command to the EMS controller 20 installed at the target customer 70 using the communication unit 41. The control command is an example of the information necessary to provide the selected service.
[0046] Furthermore, if the fourth service is provided during the target time slot, the output unit 45 transmits a control command when the communication unit 41 receives a DR command transmitted from the electricity market server. If the fifth service is provided during the target time slot, the output unit 45 transmits a control command when the communication unit 41 receives a DR command transmitted from the retail electricity provider's server.
[0047] As explained above, the service provision system 10 (control server 40) includes a selection unit 44 that selects a service to be provided to the customer 70 from among a plurality of electricity-related services using the equipment 21 or power generation equipment 22 installed at the customer 70, based on predetermined conditions, and an output unit 45 that outputs information necessary for providing the selected service. The plurality of services include at least one of the first to sixth services described above. In the above example of operation, the predetermined condition is that the customer 70's monetary benefit (revenue) is maximized. In other words, the predetermined condition is a condition relating to the economic value of the customer 70, or in other words, a condition relating to the customer's revenue.
[0048] Such a service delivery system 10 can provide services that are financially beneficial to the customer 70.
[0049] [Variations under specified conditions] In the above embodiment, the predetermined conditions were conditions relating to the economic value of the consumer 70, but they may also be conditions relating to the economic value of the service provider or the retail electricity provider. In other words, the predetermined conditions may include conditions relating to the economic value of any of the consumer 70, the service provider, or the retail electricity provider. Specifically, the conditions relating to economic value are conditions relating to revenue (for example, that revenue is maximized if the service is provided).
[0050] Furthermore, the specified condition may be that the total revenue of the three parties—the customer 70, the service provider, and the retail electricity provider—is maximized, assuming the service is provided.
[0051] Furthermore, the specified conditions may be conditions relating to the environmental value of the consumer 70, the environmental value of the service provider, or the environmental value of the retail electricity provider. In other words, the specified conditions may include conditions relating to the environmental value of any of the consumer 70, the service provider, or the retail electricity provider. Specifically, the environmental value conditions are conditions relating to carbon dioxide emissions (for example, that carbon dioxide emissions are minimized if the service were provided).
[0052] Furthermore, the specified conditions may include conditions relating to the asset value of the equipment 21. For example, if the equipment 21 is a battery storage system, it is thought that controlling the equipment 21 will decrease its asset value (the battery will deteriorate). Therefore, it may be possible to quantify such asset value and set a condition that the decrease in asset value is minimized. As mentioned above, the equipment 21 may be owned by the consumer 70, the retail electricity provider, or the service provider.
[0053] Furthermore, the specified conditions may relate to two or more of the following: economic value, environmental value, and asset value. For example, the conditions may include: the revenue of customer 70 is +XX yen or more, and the carbon dioxide emissions from customer 70 are less than XXg.
[0054] Furthermore, as mentioned above, the service of outputting power generated by a solar power generation system (an example of power generation equipment 22) to the grid 60 is not effectively selected during time slots that fall within periods when power generation does not occur, such as at night. In addition, the time slots in which the fifth service can be selected are limited to time slots that fall within periods when electricity demand is high. Thus, it can be said that the specified conditions include conditions related to time periods.
[0055] [Variations in the structure] In the above embodiment, for the sake of simplicity, the service provision system 10 is assumed to include one EMS server 30, but the service provision system 10 may include multiple EMS servers 30. Figure 3 is a block diagram showing the configuration of a service provision system according to such a modified example.
[0056] More specifically, the EMS controller 20 includes a HEMS (Home Energy Management System) controller, which is an EMS controller for residential use, and a BEMS (Building Energy Management System) controller, which is an EMS controller for non-residential use. The service provision system 10a shown in Figure 3 corresponds to this distinction of EMS controllers 20 and includes an EMS server 30a that is higher level than the non-residential EMS controller 20a, in addition to the EMS server 30 that is higher level than the residential EMS controller 20.
[0057] Furthermore, the service provision system 10a includes a separate EMS server 30b, which is a higher-level EMS server for the residential EMS controller 20b manufactured and sold by Company B, in addition to the EMS server 30 for the residential EMS controller 20 manufactured and sold by Company A.
[0058] Thus, the service provision system 10a includes EMS servers 30, 30a, and 30b corresponding to each type of EMS controller 20 installed at the customer 70. Such a service provision system 10a can perform the same operations as the service provision system 10.
[0059] [Effects, etc.] The following describes examples of inventions that can be obtained from the disclosures in this specification, and explains the effects and other benefits that can be obtained from such inventions.
[0060] Invention 1 is a service provision system 10 comprising a selection unit 44 that selects one or more services from a plurality of energy-related services using equipment 21 or energy regeneration equipment installed at a customer 70 based on predetermined conditions, and an output unit 45 that outputs information necessary for providing the selected one or more services, wherein the plurality of services include at least one of the following: (1) a first service that performs energy-saving control of equipment 21; a second service that performs peak shaving at customer 70 by controlling equipment 21; (3) a third service that prioritizes self-consumption of renewable energy obtained from energy regeneration equipment by equipment 21; (4) a fourth service that sells renewable energy or energy obtained from equipment 21 by control commands to the energy market; (5) a fifth service that outputs renewable energy to the grid 60 or performs energy-saving control of equipment 21 at the request of a retail electricity business operator that sells energy to customer 70; and (6) a sixth service that provides surplus energy at customer 70 to other customers 70.
[0061] Such a service delivery system 10 can selectively provide multiple services using equipment 21 installed at the customer 70.
[0062] Invention 2 is the service provision system 10 of Invention 1, wherein the predetermined conditions include conditions relating to the economic value of any of the following: the customer 70, the service provider that provides services to the customer 70, and the retail electricity provider.
[0063] Such a service delivery system 10 can select a service and provide the selected service, taking into consideration the economic value of either the customer 70, the service provider, or the retail electricity provider.
[0064] Invention 3 is the service provision system 10 of Invention 2, wherein the conditions relating to economic value are the conditions relating to revenue.
[0065] Such a service delivery system 10 can select services and provide the selected services, taking into consideration the revenue of either the customer 70, the service provider, or the retail electricity provider.
[0066] Invention 4 is a service provision system 10 of any of Inventions 1 to 3, wherein the predetermined conditions include conditions relating to the asset value of the equipment 21.
[0067] Such a service provision system 10 can select services considering the asset value of the equipment 21 and provide the selected services.
[0068] Invention 5 is a service provision system 10 according to any of Inventions 1 to 4, wherein the predetermined conditions include conditions relating to the environmental value of any of the customer 70, the service provider that provides services to the customer 70, and the retail electricity provider.
[0069] Such a service delivery system 10 can select a service and provide the selected service, taking into consideration the environmental value of either the customer 70, the service provider, or the retail electricity provider.
[0070] Invention 6 is a service provision system 10 of any of Inventions 1 to 5, wherein the predetermined conditions include conditions relating to the time of day.
[0071] Such a service delivery system 10 can select a service considering the time period during which the service is provided, and then provide the selected service.
[0072] Invention 7 is a service provision system 10 according to any of Inventions 1 to 6, wherein the output unit 45 outputs the above information and controls at least one of the equipment 21 and energy regeneration equipment corresponding to one or more selected services.
[0073] Such a service provision system 10 can provide selected services by controlling at least one of the equipment 21 and the energy regeneration equipment.
[0074] Invention 8 is a service provision method executed by a computer system such as a service provision system 10, which includes a selection step S14 in which one or more services related to energy are selected from a plurality of services using equipment 21 or energy regeneration equipment installed at a customer 70 based on predetermined conditions, and an output step in which information necessary for providing the selected one or more services is output, wherein the plurality of services include at least one of the following: (1) a first service that performs energy-saving control of equipment 21, (2) a second service that performs peak cutting at customer 70 by controlling the equipment, (3) a third service that prioritizes self-consumption of renewable energy obtained from energy regeneration equipment by equipment 21, (4) a fourth service that sells renewable energy or energy obtained from equipment 21 by control commands to the energy market, (5) a fifth service that outputs renewable energy to the grid 60 or performs energy-saving control of equipment 21 at the request of a retail electricity business operator that sells energy to customer 70, and (6) a sixth service that provides surplus energy at customer 70 to other customers 70.
[0075] This service delivery method allows for the selective provision of multiple services using equipment 21 installed at the customer 70.
[0076] Invention 9 is a program for causing a computer system to execute the service provision method described in Invention 8.
[0077] According to such a program, the computer system can selectively provide multiple services using equipment 21 installed at customer 70.
[0078] (Other embodiments) Although embodiments have been described above, the present invention is not limited to the embodiments described above.
[0079] For example, in the above embodiment, the service provision system was implemented by multiple devices. In this case, the processing performed by the devices or systems included in the service provision system may be performed by other devices or systems. For example, some or all of the processing performed by the control server may be performed by a data management server or an EMS server. Alternatively, the service provision system may be implemented by a single device.
[0080] Furthermore, in the above embodiment, a process executed by a specific processing unit may be executed by another processing unit. Also, the order of multiple processes may be changed, or multiple processes may be executed in parallel.
[0081] Furthermore, in the above embodiment, each component may be realized by executing a software program suitable for each component. Each component may also be realized by a program execution unit such as a CPU or processor reading and executing a software program recorded on a recording medium such as a hard disk or semiconductor memory.
[0082] Furthermore, each component may be implemented by hardware. For example, each component may be a circuit (or integrated circuit). These circuits may form a single circuit as a whole, or they may be separate circuits. Also, each of these circuits may be a general-purpose circuit or a dedicated circuit.
[0083] Furthermore, general or specific embodiments of the present invention may be implemented as a system, apparatus, method, integrated circuit, computer program, or recording medium such as a computer-readable CD-ROM. Alternatively, they may be implemented as any combination of a system, apparatus, method, integrated circuit, computer program, and recording medium.
[0084] For example, the present invention may be implemented as a service provision system or control server according to the above embodiment. Furthermore, the present invention may be implemented as a method executed by a computer system such as a service provision system or control server, or as a program for causing a computer system to execute such a method. The present invention may also be implemented as a computer-readable, non-temporary recording medium on which such a program is recorded.
[0085] Furthermore, the present invention also includes forms obtained by applying various modifications to each embodiment that a person skilled in the art could conceive, or forms realized by arbitrarily combining the components and functions of each embodiment without departing from the spirit of the present invention. [Explanation of symbols]
[0086] 10, 10a Service Delivery System 20, 20a, 20b EMS controllers 21 Equipment 22 Power generation equipment 30, 30a, 30b EMS Servers 40 Control Server 41 Communications Department 42 Information Processing Unit 43 Storage section 44 Selection Section 45 Output section 50 Data Management Servers 60 lines 70 Consumer
Claims
1. A selection unit that selects one or more services from a plurality of energy-related services using equipment installed at the customer's premises or energy regeneration equipment, based on predetermined conditions. It comprises an output unit that outputs information necessary for providing the selected one or more services, The aforementioned multiple services include at least one of the following: (1) a first service for energy-saving control of the equipment; (2) a second service for peak reduction at the customer by controlling the equipment; (3) a third service for prioritizing self-consumption of renewable energy obtained from the energy regeneration equipment by the equipment; (4) a fourth service for selling the renewable energy or energy obtained from the equipment by control commands to the energy market; (5) a fifth service for outputting the renewable energy to the grid or for energy-saving control of the equipment at the request of a retail electricity business operator that sells energy to the customer; and (6) a sixth service for sharing surplus energy at the customer with other customers. Service delivery system.
2. The aforementioned predetermined conditions include conditions relating to the economic value of any of the consumers, service providers that provide services to the consumers, and retail electricity businesses. The service provision system according to claim 1.
3. The aforementioned conditions relating to economic value are conditions relating to revenue. The service provision system according to claim 2.
4. The aforementioned predetermined conditions include conditions relating to the asset value of the equipment. A service provision system according to any one of claims 1 to 3.
5. The aforementioned predetermined conditions include conditions relating to the environmental value of any of the consumers, service providers that provide services to the consumers, and retail electricity providers. A service provision system according to any one of claims 1 to 3.
6. The aforementioned predetermined conditions include conditions relating to the time period. A service provision system according to any one of claims 1 to 3.
7. The output unit outputs the information and controls at least one of the equipment and the energy regeneration equipment corresponding to the selected one or more services. A service provision system according to any one of claims 1 to 3.
8. A method of providing services performed by a computer system, A selection step in which, based on predetermined conditions, one or more services are selected from a number of energy-related services using equipment installed at the customer's premises or energy regeneration equipment, The output step includes outputting information necessary for providing the selected one or more services, The aforementioned multiple services include at least one of the following: (1) a first service for energy-saving control of the equipment; (2) a second service for peak reduction at the customer by controlling the equipment; (3) a third service for prioritizing self-consumption of renewable energy obtained from the energy regeneration equipment by the equipment; (4) a fourth service for selling the renewable energy or energy obtained from the equipment by control commands to the energy market; (5) a fifth service for outputting the renewable energy to the grid or for energy-saving control of the equipment at the request of a retail electricity business operator that sells energy to the customer; and (6) a sixth service for sharing surplus energy at the customer with other customers. Method of providing services.
9. A program for causing the computer system to execute the service provision method described in claim 8.