WO2023191150A1 - System for managing energy in group units and method for managing same - Google Patents

Abstract

This system for managing energy comprises: a target amount setup unit for setting up a target amount of energy use during a first period for each of a plurality of component units constituting a group; and a management unit for managing the energy usage of each component unit in the unit of a second period during the first period and predicting, for each of the component units, the possibility of achieving the target amount set by the target amount setup unit, wherein the management unit re-predicts the possibility of achieving the target amount if each component unit is predicted to be unlikely to achieve the target amount on the basis of the current energy usage, by assuming a reduction in the operation intensity of an energy consuming device of which the operation intensity can be adjusted step by step.

Description

Group-level energy management system and its management method

The present invention relates to a group-level energy management system and its management method.

Energy management for small-scale units such as a single house or office can be achieved relatively easily using monitoring information from IoT devices.

However, through energy management in community units such as communities, there will be a need to encourage more energy saving by providing incentives to constituent units included in one community unit and allowing them to be traded.

*Prior art literature

Republic of Korea Patent Publication No. 10-2019-0057676: Autonomous community energy management system and method (published on May 29, 2019).

The present invention is an invention aimed at solving the technical problems described above, and can encourage energy conservation by granting incentives to constituent units included in one community unit and allowing them to be traded. The purpose is to provide a group-level energy management system and management method.

The energy management system of the present invention includes: a target amount setting unit that sets a target amount of energy use during a first period for each of a plurality of structural units constituting one group; and a management unit that manages the energy usage of each unit in the second period during the first period and predicts the possibility of achieving the target amount set by the target amount setting unit. Specifically, if the management unit predicts that the target amount cannot be achieved according to the current energy usage of each component, the target amount can be achieved by assuming that the operation intensity of the energy consuming device whose operation intensity can be adjusted step by step is lowered. It is characterized by re-predicting.

In addition, the energy management system of the present invention, in order to achieve the group-level target amount, is used in a unit for which the management unit determines that the target amount cannot be achieved, and the operation intensity of the energy consumption device can be adjusted step by step. It is preferable to further include an adjustment unit capable of downwardly adjusting. When adjusting the operation intensity level of an energy consuming device capable of step-by-step adjustment of the operation intensity in use in each component unit, the adjustment unit uses a preset degree of decrease in satisfaction due to the downward adjustment of the corresponding component unit to adjust the operation intensity level. The method is characterized by lowering the level of operation intensity of the energy consuming device by selecting the energy consuming device whose level is to be adjusted downward.

In addition, the energy management system of the present invention further includes a user setting unit that sets information on energy consuming devices that disable adjustment by the adjusting unit among energy consuming devices whose operation intensity can be adjusted in stages, wherein the adjusting unit , Among energy consuming devices whose operation intensity set in the user setting unit can be adjusted step by step, for energy consuming devices that cannot be adjusted in the adjustment stage, the operation intensity level of the energy consuming device is not adjusted downward. It is characterized by

In addition, the energy management system of the present invention further includes a compensation unit that grants incentives and incentives to each component unit, wherein the compensation unit is one of the energy consumption devices capable of step-by-step adjusting the operation intensity set in the user setting unit. , when an energy consuming device is set that makes adjustment by the adjustment unit impossible, it is desirable to grant a preset penalty related to the energy consuming device to the corresponding component.

In addition, when the management department determines based on the energy usage of each component unit, if it is expected that the next progressive rate step will be applied to the electricity price of the corresponding component unit according to the electricity rate progressive system for each component unit, the management unit may determine that the next progressive rate step will be applied to the corresponding component unit. It is characterized by suggesting the possibility of trading energy with. In addition, when energy transactions are made between constituent units, the compensation unit grants incentives in return for sales to the constituent units that sold energy, and grants incentives in return for purchase to the constituent units that purchased energy. do.

Preferably, the user setting unit is capable of setting special event information for each structural unit, and the target amount setting unit is configured to set the energy use target amount for the current first period when the special event information is set by the user setting unit. The target amount is adjusted so that energy saved by the corresponding structural unit can be added and used during at least one previous first period of the corresponding structural unit.

In addition, when special event information is set by the user setting unit, the adjustment unit does not perform a downward adjustment of the operation intensity level for energy consuming devices capable of step-by-step adjustment of the operation intensity set in the user setting unit. desirable. In addition, the compensation unit, when special event information is set by the user setting unit, allows the corresponding unit to conduct energy trading with a smaller incentive compared to the case where special event information is not set from other units. It is characterized by:

Preferably, if an amount exceeding a certain amount is accumulated in the corresponding group after completion of settlement for each constituent unit for the granted incentives and incentives, at least a portion of the amount is allocated according to a rule preset for each constituent unit. It is characterized by distribution.

The energy management method of the present invention includes a target amount setting step of setting a target amount of energy use during a first period for each of a plurality of units constituting one group; and a management step of managing the energy usage of each constituent unit for each constituent unit in the second period during the first period and predicting the possibility of achieving the target amount set in the target amount setting step. Specifically, in the management step, if it is predicted that each component unit cannot achieve the target amount according to the current energy usage, the target amount is achieved by assuming that the operation intensity of the energy-consuming device whose operation intensity is adjustable in stages is lowered. It is characterized by re-predicting possibilities.

In addition, the energy management method of the present invention is to adjust the operation intensity of the energy consumption device whose operation intensity can be adjusted step by step, in use in the unit for which the target amount is determined to be unachievable by the management step, in order to achieve the target amount on a group basis. It is characterized in that it further includes an adjustment step capable of adjusting the level downward. In addition, in the adjustment step, when lowering the level of operation intensity of an energy-consuming device that can adjust the operation intensity in use in each component step by step, using the preset degree of decrease in satisfaction due to downward adjustment of the corresponding component unit, It is desirable to select an energy consuming device whose operation intensity level is to be adjusted downward and to adjust the operation intensity level of the energy consuming device downward.

In addition, the energy management method of the present invention further includes a user setting step of setting information on energy consuming devices that cannot be adjusted in the adjusting step among energy consuming devices whose operation intensity can be adjusted in stages, but the adjusting step. Among energy consuming devices whose operation intensity set in the user setting step can be adjusted step by step, for energy consuming devices that cannot be adjusted in the adjustment step, the operation intensity level of the energy consuming device is not adjusted downward. It is characterized by not

Preferably, the energy management method of the present invention further includes a compensation step of granting incentives and incentives to each component unit, wherein in the compensation step, the operation intensity set in the user setting step can be adjusted step by step. Among the consuming devices, when an energy consuming device that does not allow adjustment by the adjustment step is set, a preset penalty related to the energy consuming device is given to the corresponding unit.

In addition, in the above management step, when judging by the energy usage of each component unit, if the next progressive rate step is expected to be applied to the electricity price of the corresponding component unit according to the electricity rate progressive system for each component unit, the next progressive rate step is expected to be applied to the corresponding component unit. The possibility of trading energy with units can be proposed.

In addition, in the compensation stage, when energy transactions are made between constituent units, incentives are granted in return for sales to the constituent units that sold energy, and incentives are granted in return for purchase to constituent units that purchase energy. Do it as

Preferably, in the user setting step, special event information can be set for each structural unit, and in the target amount setting step, when special event information is set in the user setting step, energy use during the current first period The target amount is adjusted to be usable by adding the energy saved by the corresponding structural unit during at least one previous first period of the corresponding structural unit to the target amount.

In addition, in the adjustment step, when special event information is set in the user setting step, the operation intensity level is not adjusted downward for energy consuming devices that can adjust the operation intensity set in the user setting step step by step. desirable. Additionally, in the compensation step, when special event information is set in the user setting step, the corresponding unit can conduct energy trading with a smaller incentive compared to the case where special event information is not set from other units. It is characterized by:

Preferably, in the compensation step, if a certain amount or more is accumulated in the group after completion of settlement for each component for the granted incentives and incentives, at least a portion of the amount is distributed according to the rules preset for each component. It is characterized by distribution by.

According to the group-level energy management system and management method of the present invention, energy conservation can be encouraged by providing incentives to constituent units included in one community unit and allowing them to trade.

1 is a configuration diagram of an energy management system according to a preferred embodiment of the present invention.

Figure 2 is a flow chart of an energy management method according to a preferred embodiment of the present invention.

Hereinafter, a group-level energy management system and its management method according to an embodiment of the present invention will be described in detail with reference to the attached drawings. Of course, the following examples of the present invention are only intended to embody the present invention and do not limit or limit the scope of the present invention. Anything that can be easily inferred by an expert in the technical field to which the present invention belongs from the detailed description and examples of the present invention will be interpreted as falling within the scope of the rights of the present invention.

First, Figure 1 shows a configuration diagram of an energy management system 100 according to a preferred embodiment of the present invention.

For reference, the energy management system 100 of the present invention can be implemented using a computing device such as a server. In addition, the energy management system 100 of the present invention groups a plurality of structural units into one management group and serves to manage energy use of the plurality of management groups. A structural unit of the present invention may be, for example, a house or an office.

As can be seen from Figure 1, the energy management system 100 according to a preferred embodiment of the present invention includes a user setting unit 10, a demand prediction unit 20, a target amount setting unit 30, and a management unit 40. ), an adjustment unit 50, and a compensation unit 60.

The user setting unit 10 serves to receive input from a terminal provided in each component and set information on energy consuming devices that cannot be adjusted by the adjusting unit 50 among energy consuming devices whose operation intensity can be adjusted in stages. do. Examples of energy-consuming devices whose operation intensity can be adjusted in stages include electric heaters, refrigerators, and electric blankets.

In addition, the user setting unit 10 can receive and set special event information for each component unit.

Special event information is events that are different from usual. For example, whether any of the personnel using the unit are sick; Whether there are guests; and whether your child has a trial period; etc. can be said to be special event information.

Specifically, the demand prediction unit 20 learns for each component using time information, sensor information installed for each component including one management group, weather information, and occupancy information for each component. It serves to predict energy demand by predicting energy demand for a first period preset for each energy consuming device and each constituent unit. The demand prediction unit 20 may, for example, use a learning model using artificial intelligence such as machine learning or deep learning. The first period unit can be set in various ways, such as weekly, monthly, or seasonal units. In addition, the demand prediction unit 20 can predict the energy demand for the first period by dividing and predicting the energy demand by second period units and summing the demand predicted by a plurality of second period units.

The second period can be set in various ways, such as daily, weekly, etc. However, the second period is a unit for dividing the first period into several sections, and it is preferable that it is a sub-unit with a shorter period than the first period. do.

Time information, sensor information installed for each structural unit including one management group, weather information, and occupancy information for each structural unit are preferably updated in preset time units.

That is, the demand prediction unit 20 predicts demand for each energy-consuming device in use for each component unit, adds up the demand prediction results for each energy-consuming device, and predicts energy demand for each component unit. .

Examples of sensor information include illuminance, temperature, and humidity. Weather information includes fine dust, ultrafine dust, degree of weather clearness, temperature, and humidity. Occupancy information refers to the presence or absence of a person within the corresponding unit.

An energy consuming device is a device that consumes energy of one of electricity, gas, and water. That is, in the present invention, it is possible to predict and manage demand not only for electricity, but also for gas including city gas and LPG gas, and water using water.

The target amount setting unit 30 serves to set the energy use target amount of each structural unit for the first period using the demand predicted by the demand prediction unit 20. That is, the target amount setting unit 30 sets a target amount of energy use during the first period for each of a plurality of structural units constituting one group.

In addition, the target amount setting unit 30 sets the energy use target amount for each second period, and sets the energy use target amount for the first period by adding up a plurality of energy use target amounts set for the second period units. .

For reference, the demand prediction unit 20 and the target amount setting unit 30 convert the consumption of power, gas, and water into a common display value so that power, gas, and water, which are different types of energy, can be integrated and managed. It is desirable to manage it with a common value. That is, in order to manage the consumption of power, gas, and water with a common conversion value, conversion coefficients need to be set in advance for each of power, gas, and water. This conversion factor is set based on rates for electricity, gas, and water.

In addition, the demand prediction unit 20 and the target amount setting unit 30 may convert one of the consumption of power, gas, and water into another of the consumption of power, gas, and water and display it. Conversion and conversion coefficients between the consumption of power, gas, and water can also be used. In addition, it is preferable that the demand forecasting and target amount setting by the demand forecasting unit 20 and the target amount setting unit 30 are performed in preset period units and second period units, and are calculated for the first period by adding up. do.

When special event information is set by the user setting unit 10, the target amount setting unit 30 sets the energy use target amount for the current first period to the corresponding component for at least one previous first period of the corresponding structural unit. The target amount can be adjusted so that the energy saved by the unit can be added and used. That is, when one first period elapses, the target amount setting unit 30 sets the target amount again for the next first period. In other words, the target amount setting unit 30 sets the target amount in units of first periods, and can adjust the target amount during the first period of the current stage using the energy saved during at least one first period of the past stage. .

The management unit 40 serves to manage the energy usage of each structural unit for each structural unit in the second period during the first period and predict the possibility of achieving the target amount set by the target amount setting unit 30. That is, if the first period is one month and the second period is one week, the management unit 40 updates the actual energy usage information of each constituent unit every week and predicts the possibility of achieving the target amount.

Additionally, it is desirable for the management unit 40 to manage the actual energy usage of each component unit.

In addition, if it is predicted that each component unit cannot achieve the target amount according to the current energy usage, the management unit 40 assumes that the operation intensity of the energy consuming device whose operation intensity is adjustable in stages is lowered to achieve the target amount. It is characterized by re-predicting possibilities.

In addition, when judging based on the energy usage of each component unit, the management unit 40 determines that if the next progressive rate step is expected to be applied to the electricity price of the component unit according to the progressive electricity rate system for each component unit, It is characterized by suggesting the possibility of trading energy with constituent units. At this time, the management unit 40 recommends to the corresponding unit another unit that is not only capable of achieving the target amount set by the target amount setting unit 30 but also has room for the target amount compared to the actual usage amount.

In the case of domestic electricity rates, when the progressive rate level changes, you end up paying a higher rate compared to the previous progressive rate level. However, the progressive rate level can be avoided through energy trading. By taking advantage of these progressive tariff levels, it is possible to encourage the participation of many constituent units in group-level energy management.

In order to achieve the group-level target amount, the adjusting unit 50 lowers the level of operation intensity of energy-consuming devices whose operation intensity can be adjusted step by step, being used in units for which the target amount is determined to be unachievable by the management unit 40. It can be adjusted.

Specifically, when lowering the level of operation intensity of an energy-consuming device that can adjust the operation intensity in use in each component unit step by step, the adjustment unit 50 uses a preset degree of decrease in satisfaction resulting from the downward adjustment of the corresponding component unit. Thus, the operation intensity level of the energy consuming device is selected to be adjusted downward by selecting an energy consuming device whose operation intensity level is to be adjusted downward. In other words, it is preferable that the adjustment unit 50 adjusts the operation intensity level downward, starting from energy-consuming devices with a low degree of decrease in satisfaction due to downward adjustment. However, it is preferable that the degree of reduction in each level of satisfaction is set by the user setting unit 10 each time each level of operation intensity is adjusted downward for one energy consuming device.

For example, when adjusting an electric blanket from level 5 to level 4, the decrease in satisfaction is 3, when adjusting an electric blanket from level 4 to level 3, the decrease in satisfaction is 5, and when adjusting an electric blanket from level 5 to level 3, the decrease in satisfaction is 5. When adjusting to level 4, let's say the level of decrease in satisfaction is 4. In this case, the adjustment unit 50 adjusts the electric blanket from level 5 to level 4, and if it is impossible to achieve the target amount, adjusts the electric heater from level 5 to level 4, and then adjusts the electric blanket from level 4 to level 3. do.

However, if there are a plurality of energy-consuming devices that show the same degree of decrease in satisfaction, the adjusting unit 50 adjusts the consuming device with a large energy saving amount due to the adjustment.

The adjusting unit 50 adjusts the operating intensity of the energy consuming device for energy consuming devices that cannot be adjusted by the adjusting unit 50 among the energy consuming devices that can adjust the operation intensity set in the user setting unit 10 step by step. It is characterized by not performing downward adjustment of the level.

In addition, when special event information is set by the user setting unit 10, the adjusting unit 50 adjusts the operation intensity set in the user setting unit 10 downward in stages by adjusting the operation intensity of the energy consuming device. It is advisable not to do this.

The compensation unit 60 serves to grant incentives and incentives to each component unit.

Specifically, when the user setting unit 10 sets an energy-consuming device that cannot be forcibly adjusted step by step for each component, the compensation unit 60 grants a preset penalty related to the energy-consuming device to the corresponding component. It is characterized by:

In addition, when an energy transaction is made between constituent units by the energy trading department (not shown), the compensation unit 60 grants incentives in return for the sale to the constituent units that sold energy, and to the constituent units that purchased energy It is desirable to give a discount in return for purchase. That is, the compensation unit 60 provides incentives and incentives as compensation for selling and purchasing energy.

In addition, when special event information is set by the user setting unit 10, the compensation unit 60 allows the corresponding unit to trade energy by a smaller discount compared to the case where special event information is not set from another unit. It is characterized by carrying out.

In addition, the compensation unit 60, when the energy usage of the corresponding unit is high during the first period compared to the target amount set by the target amount setting unit 30, grants a discount to the unit, and provides a discount to the unit in the first period compared to the target amount. If the energy consumption of the corresponding unit is low, it is desirable to provide incentives to the unit.

The compensation unit 60 distributes at least a portion of the amount according to preset rules for each constituent unit when a certain amount or more is accumulated in the corresponding group after completion of settlement for each constituent unit for the granted incentives and incentives. It is desirable to do so.

In other words, the discount given to each constituent unit is a monetary accumulation from the perspective of the group. If this accumulated amount is more than a certain amount, all units belonging to the group can be distributed according to preset rules.

Figure 2 is a flowchart of an energy management method according to a preferred embodiment of the present invention.

Since the energy management method according to a preferred embodiment of the present invention uses the above-described energy management system 100, it goes without saying that it includes all the features of the above-described energy management system 100 even without separate explanation. In addition, the energy management method of the present invention may be implemented in the form of a computer program implemented by the energy management system 100, which is a computing device.

As can be seen from Figure 2, the energy management method according to a preferred embodiment of the present invention includes a user setting step (S10), a demand prediction step (S20), a target amount setting step (S30), a management step (S40), It includes an adjustment step (S50) and a compensation step (S60).

In the user setting step (S10), among energy consuming devices whose operation intensity can be adjusted in stages, information on energy consuming devices that cannot be adjusted in the adjusting step (S50) is input and set, and special event information is input for each component unit. It plays a role in receiving and setting.

In the demand prediction step (S20), each structural unit is learned by using time information, sensor information installed for each structural unit including one management group, weather information, and occupancy information for each structural unit. Energy demand for a preset first period is predicted for each energy-consuming device and component unit.

In addition, in the target amount setting step (S30), a target amount of energy use during the first period is set for each of a plurality of units constituting one group using the demand predicted in the demand prediction step (S20).

Specifically, in the target amount setting step (S30), when special event information is set in the user setting step (S10), the energy use target amount for the current first period corresponds to the energy use target amount for at least one previous first period of the corresponding structural unit. The target amount can be adjusted so that the energy saved by the constituent units can be added and used.

In the management step (S40), it manages the energy usage of each constituent unit for each constituent unit in the second period during the first period and predicts the possibility of achieving the target amount set in the target amount setting step (S30).

In addition, in the management step (S40), if it is predicted that each component unit cannot achieve the target amount according to the current energy usage, it is assumed that the operation intensity of the energy consuming device whose operation intensity can be adjusted in stages is lowered to reach the target amount. It is characterized by re-predicting the possibility of achievement.

In addition, in the management step (S40), when judging by the energy usage of each component unit, if the next progressive rate step is expected to be applied to the electricity price of the corresponding component unit according to the electricity rate progressive system for each component unit, It is desirable to propose the possibility of trading energy with other constituent units.

In the adjustment step (S50), the operation intensity of the energy consumption device whose operation intensity can be adjusted step by step is used in the unit for which the target amount is determined to be unachievable in the management step (S40) in order to achieve the group target amount. can be adjusted downward.

Specifically, in the adjustment step (S50), when lowering the level of operation intensity of an energy-consuming device that can adjust the operation intensity in use in each component unit step by step, the degree of decrease in satisfaction due to the downward adjustment of the preset corresponding component unit is determined. Using the method, an energy consuming device whose operation intensity level is to be adjusted downward is selected and the operation intensity level of the energy consuming device is adjusted downward.

In addition, in the adjustment step (S50), among energy consuming devices that can adjust the operation intensity set in the user setting step (S10) step by step, for energy consuming devices that cannot be adjusted in the adjusting step (S50), the energy consuming device is It is characterized by not performing downward adjustment of the level of operation intensity. In addition, in the adjustment step (S50), when special event information is set in the user setting step (S10), an energy management method characterized by an energy consumption device that can step by step adjust the operation intensity set in the user setting step (S10).

In the compensation step (S60), incentives and incentives are granted to each constituent unit.

In the compensation step (S60), if an energy-consuming device that cannot be forcibly adjusted step by step is set for each component in the user setting step (S10), a preset penalty related to the energy-consuming device is given to the corresponding component. Do it as

In addition, in the compensation step (S60), when energy transactions are made between constituent units, incentives are granted in return for sale to the constituent units that sold energy, and incentives are granted in return for purchase to constituent units that purchased energy. It is characterized by In addition, in the compensation step (S60), when special event information is set in the user setting step (S10), the corresponding component performs energy transactions with a smaller penalty compared to the case where special event information is not set from other component units. It is desirable to implement it. In addition, in the compensation step (S60), if the energy usage of the corresponding component unit is high during the first period compared to the target amount set by the target amount setting step (S30), a discount is given to the corresponding component unit, and the energy usage of the corresponding unit is high compared to the target amount set in the first period If the energy consumption of the corresponding unit is low, it is desirable to provide incentives to the unit.

In the compensation stage (S60), if a certain amount or more is accumulated in the group after the settlement is completed for each component for the granted incentives and incentives, at least a portion of the amount is distributed according to preset rules for each component. It is characterized by:

As described above, according to the group-based energy management system 100 and its management method of the present invention, incentives, etc. are granted to constituent units included in one community unit and allow them to be traded, thereby generating energy It can be seen that saving can be encouraged.

Claims (24)

1. In the energy management system,

   a target amount setting unit that sets a target amount of energy use during a first period for each of a plurality of units constituting one group; and

   An energy management unit that manages the energy usage of each unit in the second period during the first period and predicts the possibility of achieving the target amount set by the target amount setting unit. system.
2. According to paragraph 1,

   The management department,

   If it is predicted that each component unit cannot achieve the target amount according to the current energy usage, the possibility of achieving the target amount is re-predicted assuming that the operation intensity of the energy-consuming device whose operation intensity is adjustable in stages is lowered. energy management system.
3. According to paragraph 2,

   The energy management system is,

   In order to achieve the group-level target amount, it further includes an adjustment unit capable of lowering the level of operation of an energy-consuming device whose operation intensity is adjustable in stages, being used in a unit for which the management unit predicts that the target amount cannot be achieved. An energy management system characterized by:
4. According to paragraph 3,

   The adjustment department,

   When adjusting the operation intensity level of an energy-consuming device that can adjust the operation intensity in use in each component step by step, the operation intensity level can be adjusted downward using the preset degree of decrease in satisfaction due to the downward adjustment of the corresponding component unit. An energy management system that selects an energy consuming device and lowers the operation intensity level of the energy consuming device.
5. According to paragraph 3,

   The energy management system is,

   Among energy consuming devices whose operation intensity can be adjusted in stages, it further includes a user setting unit for setting information on energy consuming devices that make adjustment by the adjusting unit impossible,

   The adjustment department,

   Among energy consuming devices whose operation intensity set in the user setting unit can be adjusted step by step, for energy consuming devices that cannot be adjusted by the adjustment unit, the operation intensity level of the energy consuming device in question is not adjusted downward. Features an energy management system.
6. According to clause 5,

   The energy management system is,

   It further includes a compensation department that grants incentives and incentives to each component unit,

   The compensation department,

   Among the energy consuming devices whose operation intensity set in the user setting unit can be adjusted step by step, if an energy consuming device that does not allow adjustment by the adjusting unit is set, a preset penalty related to the energy consuming device is given to the corresponding unit. An energy management system characterized by:
7. According to clause 6,

   The management department,

   Judging by the energy usage of each constituent unit, if the electricity price of that constituent unit is expected to be subject to the next progressive rate tier according to the progressive electricity rate system for each constituent unit, the possibility of energy trading for that constituent unit with other constituent units. An energy management system characterized in that it proposes an energy management system.
8. In clause 7,

   The compensation department,

   An energy management system characterized by granting incentives in return for sales to units that sold energy, and granting incentives in return for purchase to units that purchased energy, when energy transactions are made between units.
9. According to clause 6,

   The user settings unit,

   Special event information can be set for each unit,

   The target amount setting unit,

   If special event information is set by the user setting unit, the energy saved by the corresponding structural unit during at least one previous first period of the corresponding structural unit can be added to the energy usage target amount for the current first period and used. An energy management system characterized by adjusting the target amount so as to
10. According to clause 9,

    The adjustment department,

    An energy management system characterized in that, when special event information is set by the user setting unit, the operation intensity level is not adjusted downward for energy consuming devices that can adjust the operation intensity set in the user setting unit in stages. .
11. According to clause 9,

    The compensation department,

    When special event information is set by the user setting unit, energy is characterized in that the corresponding unit can conduct energy trading with a smaller penalty compared to the case where special event information is not set from other units. Management system.
12. According to clause 6,

    The compensation department,

    Energy management characterized by distributing at least a portion of the amount to each constituent unit according to preset rules when a certain amount or more is accumulated in the group after completion of settlement for each constituent unit for the granted incentives and incentives. system.
13. In the energy management method,

    A target amount setting step of setting a target amount of energy use during a first period for each of a plurality of units constituting one group; and

    A management step of managing the energy usage of each component for each component in the second period during the first period and predicting the possibility of achieving the target amount set in the target amount setting step. Energy management comprising a. method.
14. According to clause 13,

    In the above management stage,

    If it is predicted that each component unit cannot achieve the target amount according to the current energy usage, the possibility of achieving the target amount is re-predicted assuming that the operation intensity of the energy-consuming device whose operation intensity is adjustable in stages is lowered. How to manage energy.
15. According to clause 14,

    The energy management method is,

    In order to achieve the target amount on a group basis, an adjustment step of downwardly adjusting the operation intensity of an energy consumption device whose operation intensity can be adjusted step by step, used in a component predicted to be impossible to achieve the target amount by the management step; An energy management method comprising:
16. According to clause 15,

    In the adjustment step,

    When adjusting the operation intensity level of an energy-consuming device that can adjust the operation intensity in use in each component step by step, the operation intensity level can be adjusted downward using the preset degree of decrease in satisfaction due to the downward adjustment of the corresponding component unit. An energy management method characterized by selecting an energy consuming device and lowering the operation intensity level of the energy consuming device.
17. According to clause 15,

    The energy management method is,

    It further includes a user setting step of setting information on energy consuming devices that cannot be adjusted in the adjustment step among energy consuming devices whose operation intensity can be adjusted in stages,

    In the adjustment step,

    Among energy consuming devices whose operation intensity set in the user setting step can be adjusted step by step, for energy consuming devices that cannot be adjusted in the adjustment step, the operation intensity level of the energy consuming device is not adjusted downward. An energy management method characterized by:
18. According to clause 17,

    The energy management method is,

    It further includes a compensation step where incentives and incentives are granted to each constituent unit,

    In the compensation stage,

    Among energy consuming devices whose operation intensity set in the user setting step can be adjusted step by step, if an energy consuming device that cannot be adjusted in the adjusting step is set, a preset penalty related to the energy consuming device is given to the corresponding unit. An energy management method characterized by:
19. According to clause 18,

    In the above management stage,

    Judging by the energy usage of each constituent unit, if the electricity price of that constituent unit is expected to be subject to the next progressive rate tier according to the progressive electricity rate system for each constituent unit, the possibility of energy trading for that constituent unit with other constituent units. An energy management method characterized by proposing.
20. According to clause 19,

    In the compensation stage,

    An energy management method characterized by granting an incentive in return for sale to the unit that sold energy, and granting a discount in return for purchase to the unit that purchased energy, when energy transactions are made between units.
21. According to clause 18,

    In the user setting step,

    Special event information can be set for each unit,

    In the target amount setting step,

    If special event information is set in the user setting step, the energy saved by the corresponding structural unit during at least one previous first period of the corresponding structural unit is added to the energy usage target amount for the current first period to enable use. An energy management method characterized by adjusting the target amount.
22. According to clause 21,

    In the adjustment step,

    When special event information is set in the user setting step, an energy management method characterized in that the operation intensity level is not adjusted downward for energy consuming devices whose operation intensity set in the user setting step can be adjusted step by step.
23. According to clause 21,

    In the compensation stage,

    Energy management, characterized in that when special event information is set in the user setting step, the corresponding unit can conduct energy trading with a smaller penalty compared to the case where special event information is not set from other units. method.
24. According to clause 18,

    In the compensation stage,

    Energy management characterized by distributing at least a portion of the amount to each constituent unit according to preset rules when a certain amount or more is accumulated in the group after completion of settlement for each constituent unit for the granted incentives and incentives. method.

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