JP2015163010A - demand control method and demand control system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a demand control method and a demand control system for controlling power supply to an apparatus so that a maximum demand power value by an apparatus on the user side does not exceed a target value.SOLUTION: A demand control method including a target power value group composed of a plurality of target power values differing from each other includes the steps of: executing demand control in the case that a total power consumption value of apparatuses at a future time point predicted from a total power consumption value at a current time point within a demand time limit exceeds a target power value that is selected from the target power value group and set in advance; setting another target power value larger than the target power value set in advance instead of the target power value, when demand control continuing for a predetermined period or longer is executed the predetermined plural number of times within a plurality of predetermined demand time limits; and setting another target power value smaller than the target power value set in advance instead of the target power value, when no demand control continuing for the predetermined period or longer is executed within the plurality of predetermined demand time limits.

Description

  The present invention relates to a demand control method and a demand control system for controlling power supply to a device so that a maximum demand power value by a device on a customer side does not exceed a target value in order to level a load and suppress peak power. Is.

Various conventional techniques are known in the field of peak power demand monitoring and control as described below.
For example, FIG. 6 is a configuration diagram of a power demand monitoring apparatus described in Patent Document 1.
In FIG. 6, a power demand monitoring apparatus 500 includes an input unit 501 connected to a consumer-side power meter, a used power amount calculating unit 502 that calculates a used power amount at a constant period from a power measurement value that is an output thereof. The setting unit 503 for the operator to set the contract target value based on the contract power and the arbitrary target value different from the contract target value, the storage unit 504 for storing the contract target value and the arbitrary target value, and the arbitrary target value are changed. A change unit 505 that performs prediction, a prediction unit 506 that predicts power demand based on the amount of power used, a determination unit 507 that determines whether the predicted power amount exceeds a contract target value or an arbitrary target value, and the determination result An alarm output unit 508 that outputs an alarm in response, a blocking unit 509 that outputs a load blocking command to a local control server (LCS) or a node of the distribution line according to the determination result, and use Competence and prediction results, and a monitor controller 510 to display the determination result or the like on the monitor 511, a.

FIG. 7 is a demand monitoring curve in this prior art. (A) is a contract target value characteristic P ₁ connecting the contract power amount at the end of the demand time limit (30 minutes) and the origin, and an actual power consumption characteristic. P ₂ and shows the predicted power amount characteristic P _3, (b) optionally a target value characteristic P _4, the same amount of electric power used for properties P ₂ and predicted power amount characteristic to arbitrarily set the amount of power when demand time period ends It shows the P _3.
In this prior art, in addition to operate on the basis of the contract target value characteristic P ₁ based on the contracted power amount as shown in FIG. 7 (a), the by voluntary power saving efforts customers, shown in Fig. 7 (b) Thus, the arbitrary target value characteristic P ₄ lower than the contract target value characteristic P ₁ can be set and operated, and this arbitrary target value characteristic P ₄ can be set according to the input operation of the operator in the season, day of the week, time zone, etc. It can be changed accordingly.

Further, in Patent Document 2, a power predicted integrated value is calculated based on the actual data of the power consumption integrated value, and when the predicted integrated value falls below the target value within the demand time limit, the target value is automatically reduced. A demand control system is described that reduces the electricity bill by making it happen.
Further, in Patent Document 3, for example, the maximum demand power up to the previous day of the current month or the maximum value of the maximum demand power in each month of the previous year is set as a target power value, and this target power value is automatically set according to a change in power demand. A demand control device that is changed to the above is described.

JP 2013-188078 A (paragraphs [0012] to [0028], FIGS. 2 to 4 etc.) JP 2008-259402 A (paragraphs [0030] to [0042], FIG. 5 etc.) JP-A-2006-115699 (paragraphs [0027] to [0039], FIGS. 1 to 3 and the like)

In the prior art described in Patent Document 1, since the operator changes the target power value by performing an input operation via the changing unit, the operation is troublesome, and the mistake or change to an incorrect target power value is made. There is a risk of forgetting.
On the other hand, as in Patent Documents 2 and 3, when the target power value is automatically changed, it is possible to eliminate the complexity of the operator's operation and prevent a change mistake or forgetting to change.
However, in Patent Documents 2 and 3, in any case, since the target power value is changed based on the past power consumption integrated value, the maximum demand power value, etc., these actual data are not sufficiently accumulated. In addition, when the singular data in the cold summer or the warm winter is included in the actual data, the target power value may not be changed to the optimum value. As a result, if the target power value after the change is too low, demand control is frequently performed to hinder the operation of the device. Conversely, if the target power value is too high, the necessary demand control is not executed. Etc. had occurred.

  SUMMARY OF THE INVENTION An object of the present invention is to provide a demand control method and a demand control system that can set a target power value by automatically changing it to an optimum value without requiring an operator's operation.

In order to solve the above-described problem, the demand control method according to claim 1 uses a computer system to control power supply to the device so that the maximum demand power value by the device does not exceed a target power value equal to or less than the contract power value. In the demand control method for
A target power value group composed of a plurality of target power values having different values, and a total power consumption value at a future time predicted from a total power consumption value of the device at the present time within a demand time limit is included in the target power value group. Execute demand control when the preset target power value is exceeded from
When the demand control for a certain time or more is executed a plurality of times within a plurality of predetermined demand periods, a target power value set in advance from the target power value group is determined based on the target power value. Is also set by changing to another target power value having a larger value.

A demand control method according to claim 2 is a demand control method for controlling power supply to a device using a computer system so that the maximum demand power value by the device does not exceed a target power value equal to or less than a contract power value. ,
A target power value group composed of a plurality of target power values having different values, and a total power consumption value at a future time predicted from a total power consumption value of the device at the present time within a demand time limit is included in the target power value group. Execute demand control when the preset target power value is exceeded from
When the demand control for a predetermined time or more is not executed once within a plurality of predetermined demand time periods, a target power value set in advance from the target power value group is set to be higher than the target power value. It is set by changing to another small target power value.

The demand control method according to claim 3 uses a computer system so that the maximum demand power value by x (x is a positive integer) devices does not exceed the target power value less than or equal to the contract power value. In a demand control method for controlling power supply,
Prepare y (y is a positive integer less than or equal to x) types of target power values for x devices, and have z (z is an integer of 2 or more) types of monitoring levels consisting of the y types of target power values, With respect to z types of monitoring levels, a demand control is provided with a moderate / strict difference depending on the y types of target power values in each monitoring level,
A total power consumption value at a future time predicted from a total power consumption value of x devices at the present time within the demand time period is one of the z types of monitoring levels set in advance. Execute demand control when the target power value is exceeded,
When the demand control for a certain time or more is executed a plurality of times within a plurality of predetermined demand time periods, the one monitoring level set in advance is set to another monitoring that is more gradual than the monitoring level. The level is changed and set.

The demand control method according to claim 4 uses a computer system to apply power to the device so that the maximum demand power value by x (x is a positive integer) devices does not exceed a target power value equal to or less than the contract power value. In a demand control method for controlling power supply,
Prepare y (y is a positive integer less than or equal to x) types of target power values for x devices, and have z (z is an integer of 2 or more) types of monitoring levels consisting of the y types of target power values, With respect to z types of monitoring levels, a demand control is provided with a moderate / strict difference depending on the y types of target power values in each monitoring level,
A total power consumption value at a future time predicted from a total power consumption value of x devices at the present time within the demand time period is one of the z types of monitoring levels set in advance. Execute demand control when the target power value is exceeded,
When the demand control for a certain time or more is not executed once within a plurality of predetermined demand periods, the one monitoring level set in advance is changed to another monitoring level that is stricter than the monitoring level. Is set.

The demand control device according to claim 5 is a demand control device for controlling power supply to the device using a computer system so that the maximum demand power value by the device does not exceed a target power value equal to or less than the contract power value. ,
The computer system includes:
First means for storing a target power value group composed of a plurality of target power values having different values;
A second means for calculating a total power consumption value of the device at a current time within a demand time limit;
It is determined whether the total power consumption value predicted from the total power consumption value calculated by the second means exceeds a target power value set in advance from the target power value group. A third means;
Fourth means for executing demand control when it is determined by the third means that the total power consumption value exceeds a preset target power value from the target power value group;
When the demand control for a certain time or more is executed a plurality of times within a plurality of predetermined demand periods, a target power value set in advance from the target power value group is determined based on the target power value. And a fifth means for changing and setting to another target power value having a larger value.

A demand control device according to claim 6 is a demand control device for controlling power feeding to a device using a computer system so that the maximum demand power value by the device does not exceed a target power value equal to or less than a contract power value. ,
The computer system includes:
First means for storing a target power value group composed of a plurality of target power values having different values;
A second means for calculating a total power consumption value of the device at a current time within a demand time limit;
It is determined whether the total power consumption value predicted from the total power consumption value calculated by the second means exceeds a target power value set in advance from the target power value group. A third means;
Fourth means for executing demand control when it is determined by the third means that the total power consumption value exceeds a preset target power value from the target power value group;
When the demand control for a predetermined time or more is not executed once within a plurality of predetermined demand time periods, a target power value set in advance from the target power value group is set to be higher than the target power value. And sixth means for changing and setting to another small target power value.

According to the present invention, it is determined whether or not the target power value needs to be changed based on the number of times demand control has occurred for a certain period of time or the number of demand times when demand control does not occur, and the target power value is changed as necessary. Can be set.
For this reason, the operator does not have to bother to manually change the target power value, and it is possible to change the target power value to an appropriate target power value according to the situation of the day without being bound by past result data. Regardless of deficiencies in the data, the existence of singular data during cold summer, and warm winter, appropriate demand control can be achieved to save energy.
As a result, by optimizing the target power value, it is possible to suppress the maximum demand power and contribute to the reduction of electricity charges.

1 is an overall configuration diagram showing an embodiment of the present invention. It is a figure which shows the example of a setting of the contract electric power value and target electric power value in embodiment of this invention. It is operation | movement explanatory drawing of Example 1 of this invention. It is operation | movement explanatory drawing of Example 2 of this invention. It is operation | movement explanatory drawing of Example 3 of this invention. 1 is a configuration diagram of a power demand monitoring device described in Patent Literature 1. FIG. It is explanatory drawing of the demand monitoring curve described in patent document 1. FIG.

Hereinafter, embodiments of the present invention will be described with reference to the drawings.
FIG. 1 is an overall configuration diagram of a demand control system according to this embodiment, and this demand control system includes a demand control device 10, a demand control target device 20, and a power monitoring device group 30.

The demand control device 10 cooperates with the power monitoring device group 30 to calculate the total power consumption function 11 for calculating the total power consumption value of the demand control target device 20 (hereinafter simply referred to as the total power value), and the calculated total power value is Then, it is determined whether or not demand control is required by predicting whether or not the target power value for starting demand control is exceeded within the demand time limit (for example, 30 minutes), and the target power value is changed / set as necessary. Demand control determination function 12 to be performed, demand control function 13 for controlling power supply to the demand control target device 20 when demand control occurs, and target power value storage in which a plurality of types of target power values leveled in stages are stored Region 14. The demand control device 10 is configured by hardware and software of a computer system including, for example, a CPU, a storage device, a communication device, and the like.
Here, the total power measurement function 11 corresponds to the second means in claims 5 and 6, the demand control determination function 12 corresponds to the third, fifth and sixth means, and the demand control function 13 corresponds to the same. It corresponds to the fourth means, and the target power value storage area 14 also corresponds to the first means.

  The demand control target device 20 is a load device that is installed in a consumer and is subject to demand control, and includes, for example, a refrigerator 21, an air conditioner 22, a lighting controller 23, a showcase 24, a ventilation fan 25, and the like. Of course, it is needless to say that other load devices may be used.

  The power monitoring devices 31 to 35 constituting the power monitoring device group 30 measure the power consumption and the total power consumption in correspondence with the devices 21 to 25 of the demand control target device 20, and if necessary, the power quality Monitoring, insulation monitoring, and the like, and is composed of a watt hour meter, an AC power monitor, and the like.

  The power information collected by the power monitoring devices 31 to 35 is sent to the demand control device 10 via the communication line 40, and the demand control device 10 sends a control signal for instructing start and end of demand control to the communication line 40. Are sent to each of the devices 21 to 25. Note that the communication method using the communication line 40 may be wired or wireless.

Next, the operation of this embodiment will be described.
First, the contract power value and the target power value (target power value group) are set as shown in FIG. 2, for example, and stored in the target power value storage area 14 in advance.

In FIG. 2, Lv1 to Lv5 are monitoring levels (stepwise provided depending on whether demand control is loosened or tightened, in other words, the target power value is increased or decreased within a range equal to or lower than the contract power. Hereinafter, it is also simply referred to as a level). The contract power value is constant regardless of the levels Lv1 to Lv5, and target power values 1 to 4 are set for the respective levels Lv1 to Lv5. The target power values 1 to 4 of the level Lv1 are levels closest to the contracted power value (a loose level), and each target power value decreases stepwise as the level increases, and is a severe level.
The target power values 1 to 4 of the levels Lv1 to Lv5 are used by the demand control determination function 12 in FIG. 1 to determine whether or not demand control is necessary by comparing with the total power value of the demand control target device 20. In this embodiment, the description will be continued assuming that the level of the initial state is set to Lv3.

In this embodiment, four types of target power values 1 to 4 are set for demand control of the five devices 21 to 25, and five levels Lv1 including these four types of target power values 1 to 4 are set. To Lv5. However, the present invention generally sets y (y is a positive integer equal to or less than x) types of target power values for starting demand control for x (x is a positive integer) devices and sets the target power values from the target power values. It is only necessary to have z types (z is an integer of 2 or more).
Therefore, the present invention is also applicable to the case where there is one device to be subject to demand control and two types of monitoring levels each having one type of target power value having different values.

Furthermore, in this embodiment, the demand control target apparatus to which each target power value is applied is set as follows.
(i) Demand-controlled device with target power value 1: refrigerator 21
(ii) Demand-controlled device with target power value 2: air conditioner 22
(iii) Equipment subject to demand control with target power value 3: lighting controller 23, showcase 24
(iv) Equipment subject to demand control with target power value 4: Ventilation fan 25

In the above (i) to (iv), “demand control target device with target power value ○: device Δ” means “when the total power value of the demand control target device 20 exceeds the target power value ○, device Δ Is the target of demand control (operation stoppage, etc.).
The levels Lv1 to Lv5 satisfy the target power value 1> the target power value 2> the target power value 3> the target power value 4 at any level. For example, the total power value exceeds the target power value 2 When the target power value 1 does not exceed 1, the devices 22 to 25 other than the refrigerator 21 are subject to demand control.
Thus, in this embodiment, the target power values 1 to 4 are set in order to prioritize demand control according to the type of device.

Furthermore, here, conditions for changing the target power values (levels Lv1 to Lv5) are set as follows.
(a) Conditions for changing the target power value to loose: demand control for 5 minutes or more due to the total power value exceeding any of the target power values 1 to 4 is executed twice or more. For example, target power After demand control due to exceeding value 1 continues for more than 5 minutes, even if demand control due to exceeding target power 2 continues for more than 5 minutes, the target power value is changed to loose To do. That is, when the state where demand control continues for 5 minutes or more occurs twice, the target power value is changed to loose. More generally, when demand control for 5 minutes or more is executed over a predetermined number of times in a predetermined demand time limit, the target power value is changed to loose.
Specifically, if the predetermined number of demand periods is 2 and the number of demand control is 2, the target power value is obtained when demand control that has continued for 5 minutes or more occurs twice in succession of demand periods. Will be changed to loose. In addition, if the predetermined demand time limit is 4 and the demand control frequency is 2, the demand control that has continued for 5 minutes or more occurs in the demand period of the first time period and occurs in the demand time period of the third time period. Therefore, the target power value is changed to loose.
This is a condition for eliminating the frequent occurrence of demand control. The demand control time is not limited to 5 minutes and may be any predetermined time. Furthermore, if the number of times that demand control is executed is two times or more, it can be set to an arbitrary number.
In addition, as a modification 1, after demand control by having exceeded the target electric power value 1 continues for 5 minutes or more, demand control by having exceeded the target electric power 1 continues for 5 minutes or more, etc. When demand control in the same state occurs twice, the target power value may be changed to loose. In this case, if demand control due to exceeding the target power value 2 continues for 5 minutes or more after demand control due to exceeding the target power value 1 continues for 5 minutes or more, the target power value Will not be changed to loose.
In Modification 1, the number of times demand control occurs increases, but the power reduction effect can be increased.
Furthermore, as a second modification, after the demand control due to exceeding the predetermined target power value continues for 5 minutes or more, the demand control due to exceeding the predetermined target power value further continues for 5 minutes or more. In such a case, the target power value may be changed to a loose value.
As a specific example of the modified example 2, the predetermined target power value is set as the target power value 2, and after the demand control by exceeding the target power value 1 continues for 5 minutes or more, the target power value 2 is further set. When demand control due to exceeding has continued for more than 5 minutes, the target power value is changed to loose. In this case, if demand control due to exceeding the target power 3 continues for more than 5 minutes after demand control due to exceeding the target power value 1 continues for 5 minutes or more, the target power value is set to It will not change to loose.
Even in the second modification, the number of times demand control occurs increases, but the power reduction effect can be increased.
(b) Conditions for changing the target power value to stricter: A state where the total power value exceeds only the target power value 4 or a demand time limit where no demand control occurs occurs more than once. When the state in which the total power value exceeds only the target power value 4 or the state in which demand control does not occur is continued in a predetermined demand time limit, the target power value is changed to be strict.
Specifically, if the predetermined demand time limit is 2, when the state where the total power value exceeds only the target power value 4 or the state where demand control does not occur continues twice continuously, The target power value will be changed to stricter. Further, if the predetermined demand time limit is 3, the target power value when the total power value exceeds only the target power value 4 or the state where demand control does not occur continues three times continuously. Will be changed to stricter.
This is a condition that takes into account that the customer (demand control target device 20) has power saving capacity and there is no problem even if the target power value is reduced, and the lower limit value of the number of occurrences of demand time period in which demand control does not occur May be any number of times.

  Hereinafter, the demand control operation and the target power value changing operation in this embodiment will be described as Examples 1 to 3.

FIG. 3 according to the first embodiment is a diagram showing the total power value (solid line) and the predicted value (broken line) of the demand control target device 20 together with the target power values 1 to 4 when the target power value is changed loosely. .
In the first embodiment, the demand control device 10 is in operation from the first time period (the demand time period is set to 30 minutes), and the total power measurement function 11 receives power information from the power monitoring devices 31 to 35 at a cycle of 1 minute. Collecting and calculating the total power value of the demand control target device 20 sequentially.

Next, using the calculated total power value, the demand control determination function 12 determines whether or not the total power value exceeds the target power values 1 to 4 before the first time period ends.
In the example of FIG. 3, since the predicted value of the total power value is expected to exceed the target power values 1 to 4 by the end of the first time period at time t ₁₁ , this predicted result is output as an alarm A11. To do. Accordingly, the demand control function 13 outputs control signals to the refrigerator 21, the air conditioner 22, the lighting controller 23, the showcase 24, and the ventilation fan 25 that constitute the demand control target device 20. Stop the equipment.

Then, at time t ₁₂ has elapsed from the time t ₁₁ or 5 minutes, the predicted value of the total power value by 1 period on is completed exceeded only target power value 4, exceeds the target power value 1,2,3 Therefore, the predicted result is output as an alarm A12. At the same time, the operation of the other devices 21 to 24 excluding the ventilation fan 25 corresponding to the target power value 4 is restarted.

Further, in the 2 period on FIG. 3, at time t _21, since the predicted value of the total power value by 2 period on ends is expected to exceed the target power value 1-4, the expected results Output as alarm A21. Along with this, the demand control function 13 outputs control signals to the refrigerator 21, the air conditioner 22, the lighting controller 23, the showcase 24, and the ventilation fan 25 that constitute the demand control target device 20, and these devices 21. Stop ~ 25.
Then, at time t ₂₂ has elapsed from the time t ₂₁ or 5 minutes, the predicted value of the total power value by 2 period on is completed exceeds the target power value 2,3,4, exceeded the target power value 1 Therefore, the predicted result is output as an alarm A22. At the same time, the operation of the refrigerator 21 corresponding to the target power value 1 is resumed.

  At this time, the demand control for 5 minutes or more is executed twice, and the demand control device 10 is set in the initial state because the condition (a) for changing the target power value to loose is satisfied. The level Lv3 is changed to a level Lv2 that is looser than this. This level change starts from the third time period in FIG. 3. As is clear from FIG. 2, the target power values 1 to 4 relating to demand control after the third time period are compared with the level Lv3. 300 kW), the demand monitoring is performed according to the target power values 1 to 4 of the level Lv2.

FIG. 4 according to the second embodiment is a diagram illustrating the total power value (solid line) and the predicted value (broken line) of the demand control target device 20 together with the target power values 1 to 4 when the target power value is changed strictly. is there.
Also in the second embodiment, as in the first embodiment, the demand control device 10 is in operation from the first period, and the total power measurement function 11 collects power information from the power monitoring devices 31 to 35 at a cycle of 1 minute. Thus, the total power value of the demand control target device 20 is sequentially calculated.

Next, using the calculated total power value, the demand control determination function 12 determines whether or not the total power value exceeds the target power values 1 to 4 before the first time period ends.
In the example of FIG. 4, the demand control is not performed because the total power value does not exceed the target power values 1 to 4 until the first time period ends. In addition, even when the second period is entered, the total power value does not exceed the target power values 1 to 4, so that the situation in which demand control is not continued further.

  At this stage, since the demand time period during which the demand control is not executed continues two or more times, the condition (b) for changing the target power value to a strict level is satisfied. Therefore, the demand control device 10 changes the level Lv3 set in the initial state to a level Lv4 that is stricter than this. Note that this level change starts from the third time period in FIG. 4. As is clear from FIG. 2, the target power values 1 to 4 relating to demand control after the third time period are contract power values ( 300 kW), and the demand monitoring is performed in accordance with the target power values 1 to 4 of the level Lv4.

FIG. 5 according to the third embodiment is a diagram illustrating the total power value (solid line) and the predicted value (broken line) of the demand control target device 20 together with the target power values 1 to 4 when the target power value is not changed.
Also in the third embodiment, the demand control device 10 is in operation from the first time period as in the first and second embodiments, and the total power measurement function 11 receives power information from the power monitoring devices 31 to 35 at a cycle of one minute. Collecting and calculating the total power value of the demand control target device 20 sequentially.

Next, by using the calculated total power value, the demand control determination function 12 determines whether or not the total power value exceeds the target power value before the end of the first period.
In the example of FIG. 5, at time t _11, since the predicted value of the total power value by 1 period on ends is expected to exceed the target power value 1-4, outputs the predicted result as an alarm A11 To do. Along with this, the demand control function 13 stops these devices by outputting control signals to the refrigerator 21, the air conditioner 22, the lighting controller 23, the showcase 24, and the ventilation fan 25.

Then, at time t ₁₂ has elapsed from the time t ₁₁ or 5 minutes, the predicted value of the total power value by 1 period on is completed exceeded only target power value 4, exceeds the target power value 1,2,3 Since this is expected to improve, this is output as alarm A12. At the same time, the operation of the devices 21 to 24 excluding the ventilation fan 25 corresponding to the target power value 4 is restarted.

Further, in the 2 period on FIG. 5, at time t _21, since the predicted value of the total power value by 2 period on ends exceeds only target power value 4, and outputs it as an alarm A21, target power The operation of the ventilation fan 25 corresponding to the value 4 is stopped.
At subsequent time t _22, since the predicted value of the total power value by 2 period on ends it is expected risk is improved in excess of the target power value 4, and outputs the predicted result as an alarm A22, The operation of the ventilation fan 25 is resumed. However, this time _{t 22} is not passed five minutes from time _{t 21.}

That is, in the example of FIG. 5, since the demand control of 5 minutes or more is executed only once by the second time limit, the condition (a) for changing the target power value to loose is not satisfied, In addition, the condition (b) for changing the target power value to stricter is not satisfied. Therefore, in the third time period of FIG. 5, the demand control device 10 maintains the level Lv3 of the second time period without changing it, and performs demand monitoring according to the target power values 1 to 4 of the level Lv3.
That is, in the third embodiment, the demand control is executed twice in total in the first and second time periods, but the total power value is suppressed by the relatively short time demand control (demand control in the second time period). Therefore, even if the current target power value is maintained without changing the target power value, a desired power saving effect can be expected.

Incidentally, at time t ₃₁ the 3 period on in FIG. 5, since the 3 period on the predicted value of the total power value until the end is expected to exceed the target power value 2,3,4, an alarm A31 At time t ₃₂ after that, the predicted value of the total power value exceeds only the target power value 4 and is expected to improve exceeding the target power values 2 and 3, so that an alarm A32 is output. Will be.

As described above, in each embodiment, the demand control determination function 12 determines whether the target power value needs to be changed based on the number of executions of demand control over a predetermined time on the day, the number of times of demand control when the demand control is not executed, or the like. And the target power value is changed loosely or strictly as necessary.
For this reason, there is no hassle for the operator to manually change the target power value as in Patent Document 1, and it is not based on the presence of past performance data as in Patent Documents 2 and 3, There is no risk that proper demand control will be lost due to incomplete performance data or the existence of unique data.

10: Demand control device 11: Total power measurement function 12: Demand control determination function 13: Demand control function 14: Target power value storage area 20: Demand control target device 21: Refrigerator 22: Air conditioner 23: Lighting controller 24: Show Case 25: Ventilation fan 30: Power monitoring device group 31-35: Power monitoring device 40: Communication line

Claims (6)

In the demand control method for controlling power supply to the device so that the maximum demand power value by the device does not exceed the target power value below the contract power value using the computer system,
A target power value group composed of a plurality of target power values having different values, and a total power consumption value at a future time predicted from a total power consumption value of the device at the present time within a demand time limit is included in the target power value group. Execute demand control when the preset target power value is exceeded from
When the demand control for a certain time or more is executed a plurality of times within a plurality of predetermined demand periods, a target power value set in advance from the target power value group is determined based on the target power value. A demand control method characterized by changing to another target power value having a larger value. In the demand control method for controlling power supply to the device so that the maximum demand power value by the device does not exceed the target power value below the contract power value using the computer system,
A target power value group composed of a plurality of target power values having different values, and a total power consumption value at a future time predicted from a total power consumption value of the device at the present time within a demand time limit is included in the target power value group. Execute demand control when the preset target power value is exceeded from
When the demand control for a predetermined time or more is not executed once within a plurality of predetermined demand time periods, a target power value set in advance from the target power value group is set to be higher than the target power value. A demand control method characterized by changing and setting to another small target power value. In a demand control method for controlling power supply to a device by using a computer system so that a maximum demand power value by x (x is a positive integer) devices does not exceed a target power value equal to or less than a contract power value ,
Prepare y (y is a positive integer less than or equal to x) types of target power values for x devices, and have z (z is an integer of 2 or more) types of monitoring levels consisting of the y types of target power values, With respect to z types of monitoring levels, a demand control is provided with a moderate / strict difference depending on the y types of target power values in each monitoring level,
A total power consumption value at a future time predicted from a total power consumption value of x devices at the present time within the demand time period is one of the z types of monitoring levels set in advance. Execute demand control when the target power value is exceeded,
When the demand control for a certain time or more is executed a plurality of times within a plurality of predetermined demand time periods, the one monitoring level set in advance is set to another monitoring that is more gradual than the monitoring level. A demand control method characterized in that the level is changed and set. In a demand control method for controlling power supply to a device by using a computer system so that a maximum demand power value by x (x is a positive integer) devices does not exceed a target power value equal to or less than a contract power value ,
Prepare y (y is a positive integer less than or equal to x) types of target power values for x devices, and have z (z is an integer of 2 or more) types of monitoring levels consisting of the y types of target power values, With respect to z types of monitoring levels, a demand control is provided with a moderate / strict difference depending on the y types of target power values in each monitoring level,
A total power consumption value at a future time predicted from a total power consumption value of x devices at the present time within the demand time period is one of the z types of monitoring levels set in advance. Execute demand control when the target power value is exceeded,
When the demand control for a certain time or more is not executed once within a plurality of predetermined demand periods, the one monitoring level set in advance is changed to another monitoring level that is stricter than the monitoring level. Demand control method characterized by setting. Using a computer system, in a demand control device for controlling power supply to the device so that the maximum demand power value by the device does not exceed a target power value below the contract power value,
The computer system includes:
First means for storing a target power value group composed of a plurality of target power values having different values;
A second means for calculating a total power consumption value of the device at a current time within a demand time limit;
It is determined whether the total power consumption value predicted from the total power consumption value calculated by the second means exceeds a target power value set in advance from the target power value group. A third means;
Fourth means for executing demand control when it is determined by the third means that the total power consumption value exceeds a preset target power value from the target power value group;
When the demand control for a certain time or more is executed a plurality of times within a plurality of predetermined demand periods, a target power value set in advance from the target power value group is determined based on the target power value. A fifth means for changing and setting to another target power value having a larger value;
A demand control device comprising: Using a computer system, in a demand control device for controlling power supply to the device so that the maximum demand power value by the device does not exceed a target power value below the contract power value,
The computer system includes:
First means for storing a target power value group composed of a plurality of target power values having different values;
A second means for calculating a total power consumption value of the device at a current time within a demand time limit;
It is determined whether the total power consumption value predicted from the total power consumption value calculated by the second means exceeds a target power value set in advance from the target power value group. A third means;
Fourth means for executing demand control when it is determined by the third means that the total power consumption value exceeds a preset target power value from the target power value group;
When the demand control for a predetermined time or more is not executed once within a plurality of predetermined demand time periods, a target power value set in advance from the target power value group is set to be higher than the target power value. A sixth means for changing and setting to another small target power value;
A demand control device comprising:

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