JP6782724B2 - Power suppression device, program and method for request to activate demand response - Google Patents

Description

The present invention relates to a technique for suppressing electric power in response to a request for invoking a demand response (DR) for each consumer.

The retail electricity company plans the electricity demand in advance and procures the electricity from the power generation company and the electricity market according to the plan. The power transmission and distribution business operator adjusts the difference (imbalance) between the preliminary plan and the actual demand performance using the adjusting power supply, while the cost required for the adjustment is collected from the retail electric power company as an imbalance fee. To. One of the imbalance avoidances that retail electric power companies can take is "negawatt trading" (see, for example, Non-Patent Document 1). This is for the retail electric power company to procure the demand restraint amount when the actual demand is predicted to exceed the planned electric power demand.
Here, in order to procure the amount of demand restraint, there is a form in which an "aggregator (electric power intermediary company)" intervenes between the retail electric power company and the consumer.

FIG. 1 is a system configuration diagram which is an example of negawatt trading via an aggregator.

According to FIG. 1, the aggregator bundles a plurality of consumers and trades the demand restraint amount with the retail electric power company.

There is a "demand response" as a mechanism by which an aggregator requests consumers to reduce power consumption. Demand response means "changing the power consumption pattern so that the consumer side suppresses the use of electricity in response to the setting of the electricity rate price or the payment of incentives when the market price rises or the grid reliability declines." To say.

When the electricity demand exceeds the plan (when the electricity demand is expected to be tight), the retail electric power company demands the aggregator to suppress the electricity.
On the other hand, the aggregator extracts a plurality of consumers who request power suppression, and sends a demand response activation request to each consumer.
Each consumer who receives the activation request returns the request response of the demand response including the decision result of permission / refusal to the request to the aggregator.
If the sum of the power suppression amounts of all the licensed consumers is less than the required suppression amount, the aggregator searches for a new customer again and sends an activation request to each customer. Ultimately, the aggregator searches for consumers until the required power curtailment is met and responds to the retail electricity provider with the possible curtailment. After that, when the start time of the request period is reached, the equipment of the consumer who has granted the activation request is controlled so as to start suppressing the electric power.

Japanese Patent No. 6220556

Agency for Natural Resources and Energy, "Guidelines for negawatt trading", [online], page 6, type 1, [search on March 19, 2018], Internet <URL: http://www.meti.go.jp/press /2016/09/20160901003/20160901003-1.pdf ＞ Central Research Institute of Electric Power Industry, "Demand Response Control Test II in the Office", [online], [Search on February 28, 2018], Internet <URL: http://criepi.denken.or.jp/jp/kenkikaku/ report / leaflet / Y10040.pdf ＞ NHK Broadcasting Culture Research Institute, "2015 National Life Time Survey Report", [online], [Search on February 28, 2018], Internet <URL: https://www.nhk.or.jp/bunken/ research / yoron / pdf / 20160217_1.pdf ＞

Conventionally, when the customer is an office, the thermal comfort is impaired by the control of the air conditioner after the request to activate the demand response, and the rate of the office worker canceling the control of the air conditioner during the request period increases. , There is a report of the empirical result (see, for example, Non-Patent Document 2).

On the other hand, for the purpose of facilitating the cooperation of consumers when power suppression is required, an evaluation device that evaluates the degree of disadvantage suffered by consumers during the past request period for power reduction is used. There is also a technique for selecting a consumer to be subject to power suppression (see, for example, Patent Document 1).

For consumers in which a plurality of users live, even one consumer may feel comfortable depending on the individual user. In addition, the power consumption of a consumer also depends on the living behavior of the users who make up the consumer and how to use the equipment. However, according to the technique described in Patent Document 1, there is a problem that different comforts for each user in the same customer and different usage of equipment for each user are not taken into consideration.

Therefore, an object of the present invention is to provide a power suppression device, a program, and a method capable of controlling power suppression in consideration of the comfort of a user in a consumer.

According to the present invention, in a power suppression device that suppresses electric power in response to a request for invoking a demand response for an equipment device that can be changed to an optimum set value by a consumer user.
For each combination of the pre-request setting value of the equipment at the start of the request period and the post-request setting value of the equipment after the request period is completed, a record table that stores the number of completed requests for the number of activation requests, and
When receiving an activation request, a setting numerical value determining means for determining a post-request setting value in which the number of completed requests for the number of activation requests satisfies a predetermined condition with respect to the pre-request setting value of the equipment using the performance table.
The equipment is characterized by having a set numerical value changing means for changing to a set numerical value after a request.

According to another embodiment of the power suppression device of the present invention.
The equipment is an air conditioner,
The set value is the set temperature,
It is also preferable that the number of completed requests in the performance table is the number in which the activation request is permitted and the set temperature changed based on the activation request is completed without being canceled by the consumer.

According to another embodiment of the power suppression device of the present invention.
It is also preferable that the cancellation of the set temperature is a case where the user of the consumer feels uncomfortable with respect to the set temperature of the air conditioner and changes the set temperature.

According to another embodiment of the power suppression device of the present invention.
A setting numerical value acquisition means that acquires the pre-request setting numerical value at the start of the activation request request period from the equipment and records it in the actual table, and
It is also preferable to further have an environmental numerical value acquisition means for acquiring an environmental numerical value indicating the operation of the equipment from the equipment and recording it in a performance table.

According to another embodiment of the power suppression device of the present invention.
The performance table is generated for each predetermined time zone,
It is also preferable that the set numerical value determining means determines the set numerical value after the request by using the actual result table corresponding to the time zone corresponding to the activation request.

According to another embodiment of the power suppression device of the present invention.
It is also preferable that the predetermined condition of the set numerical value determining means is a predetermined threshold value based on "number of completed requests / number of activation requests".

According to another embodiment of the power suppression device of the present invention.
The performance table further records the number of requests granted for the number of activation requests for each combination of the pre-request setting value and the post-request setting value.
It is also preferable that the predetermined condition of the set numerical value determining means is a predetermined threshold value based on "number of completed requests / number of licensed requests".

According to another embodiment of the power suppression device of the present invention.
For each combination of the pre-request set value and the post-request set value, a power difference table that associates the power difference of the equipment is further provided.
The activation request includes the suppression request power,
It is also preferable that the set numerical value determining means determines the set numerical value after the request, which has a larger power difference than the suppressed requested power.

According to another embodiment of the power suppression device of the present invention.
It also has a power value acquisition means for acquiring the power value for each set value in the equipment.
It is also preferable that the power difference based on the actual power value is overwritten in the power difference table for each combination of the pre-request set value and the post-request set value.

According to another embodiment of the power suppression device of the present invention.
It is also preferable to further have a request response means for returning as a request response a power difference that can be suppressed from the pre-request set value to the post-request set value determined by the set value determining means using the power difference table.

According to another embodiment of the power suppression device of the present invention.
The function of the power suppression device is incorporated in the HEMS (Home Energy Management System) gateway.
It is also preferable that the HEMS gateway changes the set value of the equipment by receiving the activation request from the aggregator (electric power intermediary company).

According to another embodiment of the power suppression device of the present invention.
The power suppression device is installed on the aggregator side,
It is also preferable that the power suppression device changes the set value of the equipment device via the HEMS gateway.

According to the present invention, in a program for operating a computer mounted on a device that suppresses electric power in response to a request for invoking a demand response for an equipment device that can be changed to an optimum set value by a consumer user.
For each combination of the pre-request setting value of the equipment at the start of the request period and the post-request setting value of the equipment after the request period is completed, a record table that stores the number of completed requests for the number of activation requests, and
When receiving an activation request, a setting numerical value determining means for determining a post-request setting value in which the number of completed requests for the number of activation requests satisfies a predetermined condition with respect to the pre-request setting value of the equipment using the performance table.
It is characterized in that a computer functions as a means for changing a set numerical value to be changed to a set numerical value after a request is made to the equipment.

According to another embodiment of the program of the present invention, the functionality of the program is incorporated as a mobile terminal application possessed by the consumer.
It is also preferable that the mobile terminal functions the computer so as to change the set numerical value of the equipment device via the HEMS gateway by receiving the activation request from the aggregator.

According to the present invention, in the power suppression method of the device that suppresses the power in response to the request for invoking the demand response for the equipment that can be changed to the optimum set value by the user of the consumer.
The device is
For each combination of the pre-request setting value of the equipment at the start of the request period and the post-request setting value of the equipment after the request period is completed, there is a record table that stores the number of completed requests for the number of activation requests.
The device is
At the time of receiving the activation request, the first step of determining the post-request setting value in which the number of completed requests for the number of activation requests satisfies a predetermined condition with respect to the pre-request setting value of the equipment using the performance table.
It is characterized by executing a second step of changing the set value after the request to the equipment.

According to the power suppression device, program and method of the present invention, the power suppression can be controlled in consideration of the comfort of the user in the consumer.

It is a system configuration diagram which becomes an example of negawatt trading through an aggregator. It is a plurality of system block diagram which installed the power suppression device of this invention in a different place. It is a functional block diagram of the power suppression device in this invention. It is a sequence diagram which shows the use | use of this invention. It is a table of information acquired by the power suppression device for each activation request. This is the first example of the performance table in the present invention. This is the second example of the performance table in the present invention. This is a power difference table based on the initial state. It is a table in which an actual table and a power difference table are mixed based on the actual value.

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.

The power suppression device of the present invention suppresses the power of the equipment 5 which can be changed to the optimum set value by the user of the consumer in response to the demand response activation request received from the aggregator business equipment 2.
The equipment in the customer may be, for example, an air conditioner. This is because the air conditioner has the greatest effect on the comfort of the user in the customer. Of course, the device is not limited to an air conditioner, and may be a hot water supply facility or an IH (Induction heating) device. It may also be various equipment used in offices and factories.

FIG. 2 is a plurality of system configuration diagrams in which the power suppression device of the present invention is installed at different locations.

In response to a request for power suppression from the aggregator business equipment 2, the power suppression device 1 communicates with the equipment device 5 installed in the customer via the customer's HEMS gateway (Home Energy Management System) 3 (equipment device). Instruct to change the setting of 5).
The "HEMS gateway" refers to a device that communicates with an equipment device (for example, an air conditioner) or a smart meter in a customer and controls a set numerical value (for example, a set temperature) of the equipment device in order to suppress power consumption.
The HEMS gateway 3 and the equipment 5, and the HEMS gateway 3 and the smart meter 6 communicate with each other via, for example, the ECHONET Lite protocol.

According to FIG. 2A, the power suppression device 1 is installed on the aggregator side. The power suppression device 1 acquires set numerical values and environmental numerical values from the equipment device 5 and electric energy measurement values from the smart meter 6 via the customer's HEMS gateway 3. When the aggregator requests the consumer to suppress the power, the power suppression device 1 should be set in the equipment 5 of each customer by using these acquired values in response to the request from the aggregator business equipment 2. The numerical value and the power that can be suppressed when the numerical value is set are calculated, and the response is made to the aggregator business facility 2. Based on the response regarding each consumer, the aggregator business facility 2 selects a plurality of consumers that contribute to the amount of suppression of the electric power demand required of the aggregator. The power suppression device 1 communicates with the equipment device 5 (instructs the setting change of the equipment device) via the HEMS gateway 3 of the selected consumer.
According to FIG. 2B, the function of the power suppression device 1 is incorporated in the HEMS gateway 3. The function of the power suppression device 1 of the HEMS gateway 3 communicates with the equipment device 5.
According to FIG. 2C, the function of the power suppression device 1 is incorporated in the home gateway 4. The function of the power suppression device 1 of the home gateway 4 communicates with the equipment device 5 via the HEMS gateway 3.
According to FIG. 2D, the function of the power suppression device 1 is incorporated in the smartphone 7 possessed by the user. The function of the power suppression device 1 of the smartphone 7 communicates with the equipment device 5 via the HEMS gateway 3.

The power suppression device 1 can change the set numerical value (for example, the set temperature of the air conditioner) of the facility device 5 via the HEMS gateway 3 in response to the demand response activation request received from the aggregator business facility 2.
Here, the power suppression device 1 of the present invention calculates a set value that can be suppressed according to the comfort of the user in the consumer. Then, the power suppression device 1 responds to the aggregator business facility 2 with a request response to the request for invoking the demand response. The request response may include suppressable power in addition to permission / rejection for the activation request.

FIG. 3 is a functional configuration diagram of the power suppression device according to the present invention.
FIG. 4 is a sequence diagram showing the usage of the present invention.

According to FIG. 3, the power suppression device 1 includes a request receiving unit 101, a request response unit 102, an actual table 11, a set numerical value determining unit 12, a set numerical value changing unit 13, and a set numerical value acquiring unit 14. It has an environmental numerical value acquisition unit 15, a power difference table 16, and a power value acquisition unit 17. These functional components are realized by executing a program that makes the computer mounted on the device function. Further, the processing flow of these functional components can be understood as a method of suppressing power of the device.

In the following, after explaining the usage in FIG. 4, each function of the power suppression device 1 in FIG. 3 will be described in detail.

According to FIG. 4, the equipment device 5 in the customer is an air conditioner, and a sequence for controlling a set temperature (set numerical value) of the cooling device in summer is shown.
(S1) It is assumed that the set temperature of the air conditioner 5 is 26 ° C and the room temperature (environmental value) is 26 ° C in the customer. The power suppression device 1 collects these numerical values via the HEMS gateway 3.
(S2) At this time, it is assumed that the power suppression device 1 receives the demand response activation request from the aggregator business facility 2 (see the request receiving unit 101 described later).
(S3) The power suppression device 1 determines the set temperature according to the comfort of the user in the consumer (see the setting numerical value determining unit 12 described later). Here, it is assumed that the set temperature is determined to be 29 ° C, for example, in order to suppress the electric power. Further, the power suppression device 1 returns a request response to the effect that the demand response is permitted to the aggregator business facility 2.
(S4) At the start time of the requested period of the requested and licensed demand response, the power suppression device 1 changes the set temperature of the air conditioner 5 to 29 ° C via the HEMS gateway 3 (change of the set numerical value described later). See part 13).
(S5) The indoor temperature inside the customer gradually rises. The power suppression device 1 records that the room temperature has reached 27 ° C.
(S6) The power suppression device 1 records that the room temperature has reached 28 ° C.
(S7) The power suppression device 1 records that the room temperature has reached 29 ° C.
(S8) At this time, it is assumed that the user in the consumer feels unpleasant "heat" and changes the set temperature of the air conditioner 5 to 27 ° C. to cancel the power suppression. The power suppression device 1 records that the set temperature of the air conditioner 5 has been changed to 27 ° C.
(S9) After that, the power suppression device 1 records that the room temperature has reached 27 ° C.
(S10) It is assumed that the power suppression device 1 again receives a demand response activation request from the aggregator business facility 2.
(S11) The power suppression device 1 determines a set numerical value. It is assumed that the set temperature is set to 28 ° C, for example, in order to suppress the electric power by referring to the past performance table for users in the consumer. At this time, the power suppression device 1 returns a request response to the effect that the demand response has been permitted to the aggregator business facility 2.
(S12) At the start time of the requested and licensed demand response request period, the power suppression device 1 changes the set temperature to 28 ° C to the air conditioner 5 via the HEMS gateway 3.
(S13) The indoor temperature inside the customer gradually rises. The power suppression device 1 records that the room temperature has reached 28 ° C. Even in this case, it can be said that the users in the consumer are likely to accept the set temperature of 28 ° C, saying that the comfort is "not hot".

The above-mentioned sequence represents a case where the equipment device 5 is a cooling air conditioner, and the higher the set temperature, the lower the power consumption. On the contrary, the equipment device 5 may be a heating air conditioner, and the lower the set temperature, the lower the power consumption. That is, according to the present invention, the set numerical value is determined so that the user of the consumer can maintain the power saving to the extent that the power suppression is not canceled.

[Request receiving unit 101]
The request receiving unit 101 receives a demand response activation request from the aggregator business facility 2. Then, the setting numerical value determination unit 12 is notified that the activation request has been received.
The activation request includes a request period and may also include a power suppression amount.

[Set numerical value acquisition unit 14]
In the set numerical value acquisition unit 14, the setting numerical value determination unit 12 estimates the "pre-request setting value at the start of the request period" of the activation request, and the setting numerical value determination unit 12 determines the request completion result when the request period is completed. In addition, the set numerical value is acquired from the equipment device 5 via the HEMS gateway 3. The set value is the set temperature when the equipment device 5 is an air conditioner. The acquired pre-request setting numerical value is output to the actual result table 11.

[Environmental value acquisition unit 15]
The environmental numerical value acquisition unit 15 acquires the "environmental numerical value" in the customer from the equipment 5 via the HEMS gateway 3. Of course, it may be acquired from the HEMS gateway 3. The environmental value is the room temperature when the equipment device 5 is an air conditioner. The acquired environmental numerical values are output to the actual table 11.

FIG. 5 is a table of information acquired by the power suppression device for each activation request.

According to the table of FIG. 5, the request date and the request period are specified in the activation request.
The set numerical value acquisition unit 14 acquires the pre-request set numerical value (set temperature before the request). In addition, the set numerical value acquisition unit 14 acquires the set numerical value of the equipment device 5 at the time when the request period for the activation request is completed.
The environmental numerical value acquisition unit 15 acquires the environmental numerical value (room temperature).
The set numerical value determination unit 12 determines the set numerical value after the request (set temperature after the request) and the response record (permission / rejection) to the activation request. In addition, the setting numerical value determination unit 12 determines the request completion record (completion / cancellation) of the activation request.
The set numerical value changing unit 13 changes the equipment device 5 (air conditioner) with the set numerical value after the request (set temperature after the request).
"Request completed" means that the power suppression is completed without being canceled by the user after the set value is changed by the activation request.
Cancellation with respect to the set value (set temperature) means that the user of the consumer feels uncomfortable with respect to the set temperature of the air conditioner 5 and consumes more power (in summer, when the equipment 5 is an air conditioner). , Lower temperature) means the case of changing the set temperature.
The power value acquisition unit 17 acquires and records the pre-request power and the post-request power from the smart meter via the HEMS gateway. At this time, the power difference between the pre-request power and the post-request power is also recorded. The pre-request power and the post-request power may be the power value (W: watt value) acquired from the smart meter at a predetermined timing before the start of the request period and after the completion of the request period, or before the start of the request period and after the request period is completed. It may be a value obtained by dividing the power consumption (Wh: watt-hour value) for a predetermined time after the completion of the requested period by a predetermined time.

[Achievement table 11]
The actual table 11 shows the "number of completed requests for the number of activation requests" for each combination of the "pre-request setting value of the equipment at the start of the request period" and the "post-request setting value of the equipment after the completion of the request period". Remember.

FIG. 6 is a first example of a performance table in the present invention.

According to FIG. 6, “columns” are arranged with the pre-request setting values of the equipment at the start of the request period, and “rows” are the post-request setting values of the equipment after the request period is completed.
In each "cell" of the matrix, "number of completed requests / number of activation requests, request completion probability (%)" is recorded.
The "request completion number" is the number at which the activation request is permitted and the set temperature (set numerical value) changed based on the activation request is completed without being canceled by the consumer. The request completion probability is the ratio of the number of requests completed to the number of activation requests.

According to FIG. 6, for example, when the set temperature is 25 ° C before the request and the set temperature is changed to 27 ° C after the request, the number of completed requests is 5 times for 5 activation requests. The request completion probability is 100%.
On the other hand, for example, even if the set temperature is 25 ° C before the request, if the set temperature changes to 28 ° C after the request, the number of completed requests will be 4 for 6 activation requests. The request completion probability is 67%.
As described above, when the equipment device 5 is a cooling device in the summer, the higher the set temperature due to the power suppression, the lower the request completion probability.

Further, according to FIG. 6, the performance table is created in a predetermined time zone (every time width, every day, every day of the week, every weekday / holiday, every month, every season, etc.). This is because the number of users and attributes (children / adults / elderly, etc.) of the users in the room differ depending on the time of day. That is, the comfort of the user and the number of completed requests differ depending on the number and attributes of the users in the room. For example, there is a report in which the user's living behavior and home situation are investigated from the viewpoint of time zone (see, for example, Non-Patent Document 3).

FIG. 7 is a second example of the performance table in the present invention.

Compared with the performance table of FIG. 6, the performance table of FIG. 7 further records the "request permission number" for the number of activation requests for each combination of the pre-request setting value and the post-request setting value.

According to FIG. 7, for example, when the set temperature is 25 ° C before the request and the set temperature is changed to 27 ° C after the request, the number of requested licenses for 5 activation requests is 5 times. The number of completed requests is 5, and the probability of completed requests is 100% based on the number of licensed requests.
On the other hand, for example, even if the set temperature is 25 ° C before the request, if the set temperature changes to 28 ° C after the request, the request is completed for the number of permission 5 requests in 6 activation requests. The number is four, and the request completion probability is 80% based on the number of requested licenses.

[Set numerical value determination unit 12]
First, the set numerical value determining unit 12 estimates the set numerical value of the equipment at the start time of the request period included in the activation request as the pre-request set numerical value. For estimation, the following two values are compared. The first is the current set value of the equipment 5 acquired by the set value acquisition unit 14 (when the activation request is received). The second is the "request" in the performance table 11 corresponding to the activation request date and the predetermined time zone corresponding to the request period (every time width, every day, every day, every weekday / holiday, every month, every season, etc.). For each column of "Before / Set value", after all requests / Before request / Set value that maximizes the total number of requests over the range of set value (Before request / Set value is 24 ° C in the example of Fig. 6) In this case, the total number of requests is 23, which is the maximum). These are compared and one of them is adopted as the pre-request setting value of the equipment at the start of the request period included in the activation request. For example, when an activation request for which the request period starts in the near future about 10 minutes later is received, the current set value is adopted as the pre-request set value, and conversely, the request is made in the distant future (after several hours or more). When the activation request for which the period starts is received, the corresponding value may be adopted from the pre-request / set numerical values in the actual table 11 of the time zone, and the appropriate values may be used according to the content of the activation request.
Next, the actual result table 11 is used to determine the post-request set value in which the number of completed requests for the number of activation requests satisfies the "predetermined condition" with respect to the pre-request set value of the equipment.
Here, the predetermined conditions may be, for example, the following two cases.
(1) Predetermined threshold (for example, 80%) or more based on "number of completed requests / number of activation requests" (2) Predetermined threshold (for example, 80%) or more based on "number of completed requests / number of licensed requests" This is the equipment 5 However, in a cooling air conditioner, the higher the set temperature, the lower the power consumption. According to the present invention, the set value is determined so that the user of the consumer can maintain the power saving to the extent that the power suppression is not canceled, that is, to the extent that the comfort is not impaired.

Further, when a plurality of actual result tables 11 are created according to the "time zone", the setting numerical value determination unit 12 uses the actual result table 11 corresponding to the time zone corresponding to the activation request, and sets the numerical value after the request. To determine.

The setting numerical value determination unit 12 described above is premised on the fact that sufficient past data has been acquired in the actual table 11. Here, a case where the data in the actual result table 11 is not sufficient will also be described.

(When the achievement table 11 is in the initial state)
Determined by a fixed set value that does not depend on the customer.
(Method 1) Fixed value (for example, the upper limit is + 2 ° C with respect to the environmental value (room temperature) before the request)
(Method 2) Determine using the existing thermal index (for example, the upper limit is the temperature when PMV (Predicted Mean Vote) is +0.5).
PMV is an evaluation index of a thermal environment that combines the heat load of the human body with the feeling of warmth and coldness of a human being.

(When only the set value can be obtained from the equipment)
If the past set value of the equipment can be obtained, it is determined by the upper limit of the range of the set value in the time zone.

[Request Response Unit 102]
In response to the activation request, the request response unit 102 returns a "request response" including permission / rejection of the request to the aggregator business facility 2.
Specifically, the power suppression device 1 may inquire the user for permission / rejection of the activation request via the HEMS gateway 3 or the smartphone 7. Of course, in response to the demand response activation request from the aggregator, the power suppression device 1 automatically returns the request response to the aggregator, and it is set in advance that the inquiry for permission / refusal to the user is omitted. It may be. The present invention functions effectively only when it is licensed in response to the activation request.

[Setting value change unit 13]
The set numerical value changing unit 13 changes the set numerical value to the set numerical value after requesting the equipment device 5 via the HEMS gateway 3. When the equipment device 5 is an air conditioner, the temperature is changed to the determined set temperature.

[Power value acquisition unit 17]
The electric power value acquisition unit 17 acquires the electric power value consumed before and after changing the set value of the equipment device 5 from the smart meter 6 via the HEMS gateway 3. The acquired power value is output to the table of FIG.
Further, in order to calculate the initial value of the power difference table described later, the power value acquisition unit 17 acquires the rated power consumption from the equipment device 5 (for example, the air conditioner) via the HEMS gateway 3.

[Power difference table 16]
The power difference table 16 is associated with the “power difference of the equipment” for each combination of the “pre-request set value” and the “post-request set value”.
In particular, when the demand response activation request includes the "suppression request power", the setting numerical value determination unit 12 can determine the post-request set value having a larger power difference than the suppression request power.

FIG. 8 is a power difference table based on the initial state.

According to FIG. 8, the power consumption that can be suppressed is represented for each combination of the “pre-request set value” and the “post-request set value”. Here, the power suppression device 1 can return a rejected request response when the suppressable power consumption cannot satisfy the suppression power required by the demand response activation request. In addition, the request response may include the suppressable power consumption or the value of the suppressable power consumption multiplied by the time for which the suppression is requested, in the licensed request response.
Further, the power difference table of FIG. 8 is created in a predetermined time zone (every time width, every day, every day of the week, every weekday / holiday, every month, every season, etc.) in the same manner as the actual table 11 of FIG. ing.
In FIG. 8, parentheses () mean initial values based on the equipment 5. Specifically, it is an approximate value of the power consumption difference when the set temperature is changed by 1 ° C., which is calculated by using the value of the rated power consumption acquired from the equipment device 5 (for example, the air conditioner). For example, it is set to 8% of the rated power consumption (in the case of the rated power consumption of 500 W, the power consumption difference due to a 1 ° C change is 40 W). ECHONET Lite can be used to obtain the rated power consumption.

FIG. 9 is a table in which an actual result table and a power difference table are mixed based on the actual value.

According to FIG. 9, the power difference table is overwritten with the power difference based on the actual power value for each combination of the pre-request set value and the post-request set value. The actual power value can be obtained from the equipment 5 via the HEMS gateway 3, for example, using the ECHONET Lite protocol.
In FIG. 9, the marks * indicate the actual values of the power consumption difference. As the acquired actual value increases, the power difference in parentheses () is overwritten by the power difference marked with *.

By using the power difference table 16, the request response unit 102 can return as a request response a power difference that can be suppressed from the pre-request set value to the post-request set value determined by the set value determination unit 12. it can.

As described in detail above, according to the program, apparatus and method of the present invention, it is possible to control the power suppression in consideration of the comfort of the user in the consumer.

From the consumer's point of view, it is less likely that the power suppression will be canceled due to user discomfort after granting the request to activate the demand response. In particular, if a consumer is penalized for being canceled during the power suppression request period, the occurrence of the penalty can be suppressed in advance. As a result, the power consumption can be suppressed within a range that is comfortable for the user, the number of licenses for the demand response activation request can be increased, and the reward from the aggregator can be expected to increase.

From the perspective of the power supplier and the aggregator, it is possible to increase the probability that the request for invoking the demand response will be granted, and it is possible to smoothly adjust the power demand. In addition, the probability that the consumer user himself / herself cancels during the power suppression period for which the activation request is permitted is reduced, and the aggregator can suppress the penalty paid to the power supply company.

With respect to the various embodiments of the present invention described above, various changes, modifications and omissions within the scope of the technical idea and viewpoint of the present invention can be easily made by those skilled in the art. The above explanation is just an example and does not attempt to restrict anything. The present invention is limited only to the scope of claims and their equivalents.

1 Power suppression device 101 Request receiving unit 102 Request response unit 11 Actual table 12 Setting numerical value determination unit 13 Setting numerical value changing unit 14 Setting numerical value acquisition unit 15 Environmental numerical value acquisition unit 16 Power difference table 17 Power value acquisition unit 2 Aggregator business equipment 3 HEMS Gateway 4 Home gateway 5 Equipment, air conditioning equipment 6 Smart meter 7 Smartphone

Claims (15)

In a power suppression device that suppresses power in response to a demand response activation request for equipment that can be changed to the optimum set value by the consumer user.
For each combination of the pre-request setting value of the equipment at the start of the request period and the post-request setting value of the equipment after the request period is completed, a record table that stores the number of completed requests for the number of activation requests, and
When the activation request is received, the setting numerical value determining means for determining the post-request setting numerical value in which the request completion number for the activation request number satisfies a predetermined condition with respect to the pre-request setting numerical value of the equipment using the performance table.
A power suppression device, characterized in that the equipment has a set value changing means for changing the set value after the request. The equipment is an air conditioner and
The set numerical value is a set temperature.
Claim 1 is characterized in that the number of completed requests in the performance table is the number at which the activation request is permitted and the set temperature changed based on the activation request is completed without being canceled by the consumer. The power suppression device described in. The power suppression according to claim 2, wherein the cancellation of the set temperature is a case where the user of the consumer feels uncomfortable with respect to the set temperature of the air conditioner and changes the set temperature. apparatus. A setting numerical value acquisition means that acquires a pre-request setting numerical value at the start of the activation request request period from the equipment and records it in the actual result table, and
The invention according to any one of claims 1 to 3, further comprising an environmental numerical value acquisition means for acquiring an environmental numerical value representing the operation of the equipment and the equipment and recording the environmental numerical value in the performance table. Power suppression device. The performance table is generated for each predetermined time zone, and is generated.
The item according to any one of claims 1 to 4, wherein the set numerical value determining means determines a set numerical value after the request by using the actual result table corresponding to the time zone corresponding to the activation request. Power suppression device. The power suppression device according to any one of claims 1 to 5, wherein the predetermined condition of the set numerical value determining means is a predetermined threshold value based on "number of completed requests / number of activation requests". The performance table further records the number of requests granted for the number of activation requests for each combination of the pre-request setting value and the post-request setting value.
The power suppression device according to any one of claims 1 to 5, wherein the predetermined condition of the set numerical value determining means is a predetermined threshold value based on "number of completed requests / number of licensed requests". For each combination of the pre-request set value and the post-request set value, a power difference table that associates the power difference of the equipment is further provided.
The activation request includes the suppression request power,
The power suppression device according to any one of claims 1 to 7, wherein the set numerical value determining means determines a post-request set value having a larger power difference than the suppressed requested power. Further having a power value acquisition means for acquiring the power value for each set value in the equipment.
The power suppression device according to claim 8, wherein the power difference table is overwritten with a power difference based on an actual power value for each combination of the pre-request set value and the post-request set value. It is characterized by further having a request response means for returning as a request response a power difference that can be suppressed from the pre-request set value to the post-request set value determined by the set value determining means using the power difference table. The power suppression device according to claim 8 or 9. The function of the power suppression device is incorporated in the HEMS (Home Energy Management System) gateway.
The electric power according to any one of claims 1 to 10, wherein the HEMS gateway changes a set numerical value of the equipment device by receiving the activation request from an aggregator (electric power intermediary company). Suppressor. The power suppression device is installed on the aggregator side,
The power suppression device according to any one of claims 1 to 11, wherein the power suppression device changes a set value of the equipment device via a HEMS gateway. In a program that activates a computer installed in a device that suppresses power in response to a demand response activation request for equipment that can be changed to the optimum set value by the consumer user.
For each combination of the pre-request setting value of the equipment at the start of the request period and the post-request setting value of the equipment after the request period is completed, a record table that stores the number of completed requests for the number of activation requests, and
When the activation request is received, the setting numerical value determining means for determining the post-request setting numerical value in which the request completion number for the activation request number satisfies a predetermined condition with respect to the pre-request setting numerical value of the equipment using the performance table.
A program characterized in that a computer functions as a means for changing a set numerical value to be changed to a set numerical value after the request for the equipment. The functions of the program are incorporated as applications of mobile terminals owned by consumers.
13. The program according to claim 13, wherein the mobile terminal causes the computer to function by receiving the activation request from the aggregator so as to change the set numerical value of the equipment device via the HEMS gateway. In the power suppression method of the device that suppresses the power in response to the request to activate the demand response for the equipment that can be changed to the optimum set value by the user of the consumer.
The device
For each combination of the pre-request setting value of the equipment at the start of the request period and the post-request setting value of the equipment after the request period is completed, there is a record table that stores the number of completed requests for the number of activation requests.
The device
At the time of receiving the activation request, the first step of determining the post-request setting value in which the number of completed requests for the number of activation requests satisfies a predetermined condition with respect to the pre-request setting value of the equipment using the performance table.
A method for suppressing power of an equipment, which comprises executing a second step of changing the equipment to a set value after the request.

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