JP5794826B2 - Demand control system - Google Patents

Description

  The present invention relates to an improvement in a demand control system that controls facility equipment based on a demand measured from a power meter.

  2. Description of the Related Art Conventionally, there is known a demand control system that controls facility equipment so that a demand that is a power demand of a power consumer does not exceed a maximum demand based on contract power. In this system, when the demand measured from the power meter may exceed the control target, the equipment is controlled so as to suppress power, for example, the equipment is stopped to reduce the demand.

  Conventional demand control will be described with reference to FIGS. 6 and 7 are diagrams showing a conventional demand control method. In the coordinate systems shown in FIGS. 6 and 7, the x-axis is time (min) and the y-axis is demand (MW · h / day).

  The demand control method shown in FIG. 6 always controls the demand target value Dm at the final time point T of the demand interval. The demand target value Dm is a control target set in advance based on the contract power.

In this method, the demand that will be reached at the final time point T (hereinafter referred to as “predicted value”) based on the degree of increase of the measured value measured from the power meter at a predetermined measurement interval Δt, in other words, the inclination. Dy _i is predicted. The inclination of the measurements, the measured value d _i at a certain point in time t _i, the difference △ d between the measured value of d _i-1 of the time t _i-1 is the time of measurement one before this time t _i, △ Calculated by dividing by t.

As a chain line shown in FIG. 6, the inclination △ d / △ t, starting from the measured value d _i at the time t _i, by extending the remaining time, i.e., from the time t _i to the final point T, the predicted The value Dy _i is predicted. Then, the predicted value Dy _i expected, compared to the demand target value Dm, as shown in FIG. 6, if the predicted value Dy _i exceeds the demand target value Dm, the demand control over the equipment Done.

On the other hand, the demand control method shown in FIG. 7 controls the demand target line r, which is a line drawn from the start of the demand interval to the final time point T, to always be the upper limit value. The demand target line r is a control target set in advance based on the contract power, and is a line connecting a demand value d ₀ arbitrarily set at the start time of the demand interval and the demand target value Dm at the final time point T ( The diagonal broken line shown in the figure).

In this method, no measured value exceeds the demand target line r from the start of the demand interval to the time point t _i−1 . However, at the time point t _i , the measurement value d _i exceeds the demand target line r. In this way, when the measured value d _i exceeds the demand target line r, demand control is performed on the equipment.

  The following Patent Document 1 describes a demand monitoring device that records a demand transition for each time period, which is a demand interval, in a database together with the operation status of equipment in the meantime. In this device, the past cases that are most similar to the demand transition up to the present time in the current demand time period are taken out from the database, and the equipment is controlled based on the past cases taken out, thereby reducing demand. I am trying.

  Patent Document 2 below describes an air conditioning load control system that changes an operation schedule of an air conditioner based on a schedule of a use space and a lighting state of lighting.

JP 2002-27668 A Japanese Patent Laid-Open No. 2-183757

In the conventional demand control system, it is difficult to accurately grasp how the demand changes during the remaining time from the current time point to the final time point of the demand interval. Accordingly, the predicted value Dy _i or the demand target line r, which is one of the demand control determination elements, is set based on a linear function of a predetermined slope at least for the remaining time, as shown in FIGS. .

  However, the actual demand does not change with a predetermined slope, but increases while changing the degree. Then, even if the demand eventually shifts below the demand target value Dm at the final time point, the demand increase is increased at a certain point, and the demand control is performed at that point. End up. Such a control is a control that is performed even though it is not necessary to suppress power, and is a useless control. Moreover, the comfort of the building user is impaired by this control.

  The objective of this invention is providing the demand control system which can improve the precision of a demand prediction and can reduce useless control operation with respect to an installation apparatus.

The present invention relates to a demand control system that controls equipment based on demand prediction, a demand measurement unit that measures demand, and a control target for the power consumption of the entire equipment in a demand interval based on a schedule of equipment. Control target correction unit for correcting power, and a demand control unit for controlling equipment to suppress power based on the measurement value measured by the demand measurement unit and the correction control target corrected by the control target correction unit It is characterized by having.

  In addition, a demand prediction unit that predicts demand at the final point of the demand interval based on the measurement value, and the control target correction unit corrects the demand target value at the final point of demand, which is one of the control targets. The demand control unit can control the equipment to suppress power when the predicted value predicted by the demand prediction unit exceeds the corrected demand target value corrected by the control target correction unit.

  Further, the control target correction unit calculates a demand reduction amount of the equipment in a period from the latest measured value to the final time based on the schedule, and adds the demand reduction amount to the demand target value. Can be corrected as follows.

  Moreover, the demand control part can alert | report the alert to the effect that a demand may exceed a control target, when the said predicted value exceeds the said correction | amendment demand target value.

  The control target correction unit corrects a demand target line from one start point to the final point of the demand interval, which is one of the control targets, and the demand control unit corrects the latest measured value by the control target correction unit. If the corrected demand target line is exceeded, the equipment can be controlled to suppress power.

  Further, the control target correction unit calculates a demand reduction amount of the equipment in a period from the latest measured value to the final time based on the schedule, and adds the demand reduction amount to the demand target line Can be corrected as follows.

Moreover, the control target correction | amendment part can alert | report the alert to the effect that a demand may exceed a control target, when the said measured value exceeds the said correction demand target line.

  The demand control system of the present invention can improve the accuracy of demand prediction, and can reduce useless control operations for equipment.

It is a figure which shows the structure of the demand control system which concerns on this embodiment. It is a figure which shows the demand control system which concerns on this embodiment. It is a flowchart which shows an example of control operation of the demand control system which concerns on this embodiment. It is a figure which shows the demand control system of another aspect. It is a flowchart which shows an example of control operation of the demand control system of another aspect. It is a figure which shows the conventional demand control system. It is a figure which shows the demand control system of another aspect in the past.

  Hereinafter, embodiments of a demand control system according to the present invention will be described with reference to the drawings. As an example, a case in which the control target is a demand target value Dm set in advance based on contract power will be described, and a system that always controls the demand target value Dm in a directed manner will be described.

  FIG. 1 is a diagram illustrating a configuration of a demand control system according to the present embodiment. A demand control system (hereinafter simply referred to as “system”) 10 is a system that controls facility equipment 12 so that a demand, which is a power demand of a building, does not exceed a maximum demand based on contract power.

  In one aspect, the system 10 is realized by cooperation of hardware resources and software. Specifically, the functions of the system 10 are realized by reading a control program recorded on a recording medium into a main memory and executing it by a CPU (Central Processing Unit). The control program can be provided by being recorded on a computer-readable recording medium, or can be provided by communication as a data signal. However, the system 10 may be realized only by hardware. In addition, the system 10 may be physically realized by one device or may be realized by a plurality of devices. The system 10 is installed in, for example, a disaster prevention center where an administrator who manages a building is resident.

  The equipment 12 to be controlled by the system 10 is an air conditioner, a lighting device, a lifting device or the like. The plurality of facility devices 12 are connected to a facility device management apparatus 14 that manages the facility devices 12 via signal lines.

  The equipment management device 14 is installed in a disaster prevention center of a building, for example, as in the system 10. The facility device management apparatus 14 includes a schedule management unit 16 that manages the schedule of the facility device 12 and a facility device control unit 18 that controls the facility device 12 based on the schedule of the schedule management unit 16. The schedule management unit 16 manages the operation or stop of the facility device 12 in association with the date and time. The administrator inputs the schedule to the schedule management unit 16. The equipment device management apparatus 14 is connected to the system 10 via a signal line, and information related to the schedule of the equipment device 12 managed by the schedule management unit 16 is output to the system 10.

  The system 10 according to the present embodiment includes a demand measurement unit 20, a demand prediction unit 22, a control target correction unit 24, and a demand control unit 26.

The demand measuring unit 20 is connected to the wattmeter 28. The wattmeter 28 is a transaction meter of an electric power company provided in a building, and outputs a signal related to the electric energy to the demand measuring unit 20 through, for example, a pulse detector. The demand measuring unit 20 measures the demand based on the signal input from the wattmeter 28. A measurement interval Δt, which is a measurement cycle, is 3 minutes. However, the present invention is not limited to this time of 3 minutes, and the measurement interval Δt can be set to a time shorter or longer than 3 minutes.

Based on the measurement value measured by the demand measurement unit 20, the demand prediction unit 22 predicts the demand at the final time point T of the demand interval, that is, the predicted value Dy _i . The demand interval of this embodiment is 30 minutes. However, the present invention is not limited to this time of 30 minutes, and the demand interval can be set to a time shorter than 30 minutes or a longer time. Moreover, since the calculation method of the predicted value Dy _i has been described in the related art, a detailed description thereof will be omitted.

The control target correction unit 24 corrects the control target based on the schedule of the equipment 12 from the schedule management unit 16. The control target of this embodiment is the demand target value Dm as described above. Since the demand target value Dm is corrected based on the schedule of the equipment 12 scheduled for the remaining time, the predicted value Dy _i set based on a linear function of a predetermined slope is used at least for the remaining time. However, it is possible to perform demand prediction with higher accuracy. Specific functions of the control target correction unit 24 will be described later.

Based on the measured value and the correction control target corrected by the control target correction unit 24, the demand control unit 26 controls the equipment 12 to suppress power. Specifically, the demand control unit 26 compares the predicted value Dy _i predicted based on the measured value with the corrected corrected demand target value Dm _i so that the predicted value Dy _i is the corrected demand target value Dm _i. If it exceeds, demand control such as output restriction or stop is performed for the equipment.

With this control, it is possible to suppress demand and to prevent the maximum demand from being exceeded based on contract power. Moreover, the correction demand target value Dm _i as a criterion for the demand control would actually changes demand based on the schedule of the equipment 12 is considered. Therefore, even if there is a remaining time, at that time, it is possible to accurately perform demand prediction as to whether or not the demand target value Dm is exceeded at the final time T. As a result, it is possible to reduce the number of times of demand control that has been performed even though there is no need for power suppression.

In addition, when the predicted value Dy _i exceeds the corrected demand target value Dm _i , the demand control unit 26 can also notify an alarm that the demand may exceed the control target. The notification is made to the administrator by visual means such as lamp lighting, auditory means such as a buzzer, notification means for notifying a remote person via a communication line, or a combination of these means.

  Next, the control target correction unit 24 will be specifically described with reference to FIG. FIG. 2 is a diagram illustrating a demand control method according to the present embodiment. In the coordinate system shown in FIG. 2, the x-axis is time (min), and the y-axis is demand (MW · h / day).

  The demand control method shown in FIG. 2 always controls the demand target value Dm at the final time point T of the demand interval. The same elements as those in the demand control method of FIG. 6 described in the prior art are denoted by the same reference numerals, and detailed description thereof is omitted.

  And the upper part in FIG. 2 shows the relationship between the demand interval (x-axis) and the power consumption (y-axis) of the equipment 12 at that interval. The amount of power used can be calculated in advance based on the schedule of the equipment device 12. Specifically, first, the total amount of power used in a state where all the facility devices 12 are operated is calculated. And since the equipment 12 to be stopped and its time zone are managed by the schedule management unit 16, a demand reduction amount accompanying the stop is calculated. In FIG. 2, the demand reduction amount corresponds to the concave portion 30. And in the time slot | zone when the installation equipment 12 stops, the demand reduction amount corresponding to this is deleted from the whole use electric energy, and the use electric energy of the installation equipment 12 in a demand interval is computable.

The control target correction unit 24 calculates the demand reduction amount of the equipment 12 in the remaining time from a certain time t _i to the final time T based on the schedule of the equipment 12. In FIG. 2, there are three concave portions 30 corresponding to the demand reduction amount in the remaining time, and the total of these demand reduction amounts is calculated. In the present embodiment, the case where the control target correction unit 24 calculates the demand reduction amount has been described. However, the present invention is not limited to this configuration, and the equipment device management apparatus 14 uses the schedule management unit 16 based on the schedule. It is also possible to calculate a reduction amount and output it to the control target correction unit 24 as information related to the schedule.

Then, the control target correction unit 24, in addition to the demand reduction in demand target value Dm, to calculate a correction demand target value Dm _i. The operation of the control target correction unit 24, changes in the correction demand target value Dm _i in demand interval is as shown in two-dot chain line in FIG. 2.

In this way, it is possible to grasp the amount of demand reduction that will be actually reduced in the remaining time based on the schedule of the equipment 12. This demand reduction amount is not based on demand control, but is obtained by executing from a schedule. In other words, in the remaining time, it is a value that is implemented not by emergency demand control but by normal control and expected to reduce demand. Therefore, in consideration of the effect obtained by the normal control in the remaining time, the demand reduction amount can be added to the demand target value Dm as a surplus, and the corrected demand target value Dm _i calculated thereby can be determined in the demand control determination. It can be a standard. The predicted value Dy _i at the time point t _i in FIG. 2 exceeds the demand target value Dm, but does not exceed the corrected demand target value Dm _i . That is, on the basis of the predicted value Dy _i at the time point t _i , demand control is performed in the conventional system, but it is not performed in the system 10 of this embodiment. Thus, according to the present system 10, it is possible to reliably reduce the number of times of demand control while preventing the maximum demand from being exceeded. In addition, the frequency at which the user's comfort is impaired due to a decrease in the number of demand controls can be reduced.

  Next, the control operation of the system 10 of this embodiment will be described with reference to FIG. FIG. 3 is a flowchart illustrating an example of a control operation of the demand control system according to the embodiment. This flowchart is repeatedly performed at each measurement time from the start of the demand interval to the end time T.

First, in step S101, the demand measurement unit 20 measures a measurement value d _i at a certain time point t _i , and the demand prediction unit 22 predicts the predicted value Dy _i at the final time point T based on this value and the previous value. Is calculated.

In step S102, the control target correction unit 24 calculates the demand reduction amount in the remaining time based on the schedule of the equipment device 12, and then in step S103, the calculated demand reduction amount is set to the demand target value Dm. It is added, the correction demand target value Dm _i is calculated. Note that the calculations in steps S102 and S103 may be performed before this control operation.

In step S104, the demand control unit 26 compares the predicted value Dy _i with the corrected demand target value Dm _i . If the predicted value Dy _i exceeds the corrected demand target value Dm _i , it is determined that the demand may exceed the control target, and the process proceeds to step S105. On the other hand, when the predicted value Dy _i is equal to or smaller than the corrected demand target value Dm _i, it is determined that the demand does not exceed the control target, and the control operation is finished as it is.

  In step S105, an alarm is issued, and the process proceeds to step S106, where demand control, that is, power suppression or stop control of main facilities of the plurality of facility devices 12, is performed, and the control operation ends.

  Next, another aspect of the demand control system will be described. In the system 10 of this aspect, the control target is a demand target line r set in advance based on the contract power, and the demand target line r drawn from the start of the demand interval to the final time point T is always set as the upper limit value. This is an improvement of the control system. In addition, the same code | symbol is attached | subjected about the same component as the said embodiment, and detailed description is abbreviate | omitted.

Also in the system 10 of this aspect, the control target correction unit 24 corrects the control target based on the schedule of the equipment 12 and the demand control unit 26 is corrected by the control target correction unit 24 as in the above-described embodiment. Based on the corrected control target and the measured value, the demand control of the equipment is performed. However, since the control target is the demand target line r, the operations of the control target correction unit 24 and the demand control unit 26 are different from those of the above-described embodiment. Specifically, the control target correction unit 24 corrects the demand target line r based on the schedule of the equipment device 12. Then, when the measured value d _i at the current time t _i exceeds the corrected demand target line R corrected by the control target correction unit 24, the demand control unit 26 performs demand control of the equipment 12.

  With this control, as in the prior art, it is possible to suppress demand and prevent the maximum demand from being exceeded based on contract power. In addition, the demand that will actually change based on the schedule of the equipment 12 is taken into consideration in the corrected demand target line R that is a criterion for demand control. Therefore, even if there is a remaining time, at that time, it is possible to accurately perform demand prediction as to whether or not the demand target value Dm is exceeded at the final time T. As a result, it is possible to reduce the number of times of demand control that has been performed even though there is no need for power suppression.

Further, when the measured value d _i exceeds the corrected demand target line R, the demand control unit 26 can also notify an alarm that the demand may exceed the control target. The notification is made to the administrator by visual means such as lamp lighting, auditory means such as a buzzer, notification means for notifying a remote person via a communication line, or a combination of these means.

  Next, the control target correction unit 24 in this aspect will be specifically described with reference to FIG. FIG. 4 is a diagram showing another aspect of the demand control system. In the coordinate system shown in FIG. 4, the x-axis is time (min), and the y-axis is demand (MW · h / day).

  As described above, the demand control method shown in FIG. 4 is an improvement of the method for controlling so that the demand target line r drawn from the start of the demand interval to the final time point T is always set to the upper limit value. . The same elements as those in the demand control system of FIG. 7 described in the prior art are denoted by the same reference numerals, and detailed description thereof is omitted. And the upper part in FIG. 4 shows the relationship between the demand interval (x-axis) and the power consumption (y-axis) of the equipment 12 at that interval. Since this relationship is the same as that shown in FIG. 2, detailed description thereof is omitted.

The control target correction unit 24 calculates a demand reduction amount of the equipment 12 in the remaining time from a certain time t _i to the final time T based on the schedule of the equipment 12. In FIG. 4, there are three concave portions 30 corresponding to the demand reduction amount in the remaining time, and the total of these demand reduction amounts is calculated. In the present embodiment, the case where the control target correction unit 24 calculates the demand reduction amount has been described. However, the present invention is not limited to this configuration, and the equipment device management apparatus 14 may calculate the demand reduction amount. .

  Then, the control target correction unit 24 adds the demand reduction amount to the demand target line r and calculates a corrected demand target line R. Specifically, the control target correction unit 24 calculates the demand value on the demand target line r at each measurement point and the demand reduction amount in the remaining time from that point for each measurement cycle. Each demand value is calculated. A line connecting these demand values is a corrected demand target line R. By such an operation of the control target correction unit 24, the transition of the corrected demand target line R in the demand interval is shown as a two-dot chain line in FIG.

Also in the system 10 of this aspect, the demand reduction amount that will be actually reduced in the remaining time can be grasped based on the schedule of the equipment 12 as in the above-described embodiment. This demand reduction amount is not based on demand control, but is obtained by executing from a schedule. In other words, in the remaining time, it is a value that is implemented not by emergency demand control but by normal control and expected to reduce demand. Therefore, in consideration of the effect obtained by normal control in the remaining time, a demand reduction amount can be added to the demand target line r as a surplus, and the corrected demand target line R calculated thereby can be used as a criterion for demand control. It can be. The measured value d _i at the time point t _i in FIG. 4 exceeds the demand target line r, but does not exceed the corrected demand target line R. That is, on the basis of the measured value d _i at the time point t _i , demand control is performed in the system of the prior art, but it is not performed in the system 10 of this aspect. Thus, according to this system 10, the number of demand controls can be reliably reduced while preventing the maximum demand from being exceeded. In addition, the frequency at which the user's comfort is impaired due to a decrease in the number of demand controls can be reduced.

  Next, the control operation of the system 10 of this aspect will be described with reference to FIG. FIG. 5 is a flowchart illustrating an example of a control operation of the demand control system according to the embodiment. This flowchart is repeatedly performed at each measurement time from the start of the demand interval to the end time T.

  First, in step S201, the control target correction unit 24 calculates the demand reduction amount in the remaining time based on the schedule of the equipment device 12, and then in step S202, the calculated demand reduction amount is applied to the demand target line r. The corrected demand target line R is calculated by addition. The calculations in steps S201 and S202 may be performed before this control operation.

In step S203, the demand measurement unit 20 measures the measurement value d _i at a certain time point t _i . Then, the demand control unit 26 compares the measured value d _i with the corrected demand target line R. If the measured value d _i exceeds the corrected demand target line R, it is determined that the demand may exceed the control target, and the process proceeds to step S204. On the other hand, when the measured value d _i is equal to or less than the corrected demand target line R, it is determined that the demand does not exceed the control target, and the control operation is finished as it is.

  In step S204, an alarm is issued, and the process proceeds to step S205, where demand control, that is, power suppression or stop control of main facilities of the plurality of facility devices 12, is performed, and the control operation ends.

  DESCRIPTION OF SYMBOLS 10 Demand control system, 12 Equipment equipment, 14 Equipment equipment management apparatus, 16 Schedule management part, 18 Equipment equipment control part, 20 Demand measurement part, 22 Demand prediction part, 24 Control target correction part, 26 Demand control part, 28 Wattmeter , 30 concave part

Claims (7)

In a demand control system that controls equipment based on demand prediction,
A demand measuring unit for measuring demand;
A control target correction unit that corrects a control target of the amount of power used by the entire equipment in the demand interval based on the equipment equipment schedule;
A demand control unit that controls the equipment to suppress power based on the measurement value measured by the demand measurement unit and the correction control target corrected by the control target correction unit;
A demand control system comprising: The demand control system according to claim 1,
A demand prediction unit for predicting a demand at the final point of the demand interval based on the measurement value;
The control target correction unit corrects the demand target value at the final demand point, which is one of the control targets,
The demand control unit controls the equipment to suppress power when the predicted value predicted by the demand prediction unit exceeds the corrected demand target value corrected by the control target correction unit.
A demand control system characterized by that. The demand control system according to claim 2,
The control target correction unit calculates a demand reduction amount of the equipment in a period from the latest measured value to the final time based on the schedule, and adds the demand reduction amount to the demand target value. to correct,
A demand control system characterized by that. The demand control system according to claim 2 or 3,
When the predicted value exceeds the corrected demand target value, the demand control unit issues a warning that the demand may exceed the control target.
A demand control system characterized by that. The demand control system according to claim 1,
The control target correction unit corrects the demand target line, which is one of the control targets, from the start point to the final point of the demand interval,
When the latest measured value exceeds the corrected demand target line corrected by the control target correction unit, the demand control unit controls the equipment to suppress power.
A demand control system characterized by that. The demand control system according to claim 5,
The control target correction unit calculates a demand reduction amount of the equipment in a period from the latest measured value to the final time based on the schedule, and adds the demand reduction amount to the demand target line. to correct,
A demand control system characterized by that. The demand control system according to claim 5 or 6,
When the measured value exceeds the corrected demand target line, the control target correction unit issues a warning that the demand may exceed the control target.
A demand control system characterized by that.

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