JP5781905B2 - Power adjustment amount derivation device - Google Patents

Description

  The present invention relates to a power adjustment amount derivation device for deriving a power adjustment amount corresponding to the amount of power adjusted by a consumer when a power value to be adjusted for increase or decrease is transmitted to the consumer. .

When the power consumption of a power consuming device increases in the summer, etc., a method that encourages the consumer to reduce its power consumption (that is, the power received from the power system) or automatically controls the consumer's power consumption by remote control Conventionally, a method of reducing the number has been proposed.
In Patent Document 1, information on the power that can be reduced by the power consuming device is received from a consumer (customer) in advance, and then a power reduction command is transmitted from the power supplier to the consumer as necessary. Have been described. About the electric power reduction by a consumer side, the case where a consumer side performs manually and the case where it performs automatically from the electric power supplier side are described.

JP 2002-176729 A

In Patent Document 1, it is not settled how much power is actually reduced in each of the power consuming devices to be subjected to power reduction. That is, in Patent Document 1, only the increase or decrease in the received power at the power receiving point to which the plurality of power consuming devices on the consumer side are connected, that is, the total power consumption by the plurality of power consuming devices on the consumer side is only seen. is there. Therefore, even if the power reduction according to the power reduction command is properly performed in the specific power consumption device targeted for power reduction, if the power consumption of other power consumption devices increases at the same time, the consumer side has There is a problem in that the total power consumption by the plurality of power consuming devices does not show the amount of power reduction that should have been appropriately performed by the consumer.
Further, when a consumer has a private power generation device and the private power generation device is a control target for power adjustment, the same problem occurs when trying to settle the power adjustment amount by the private power generation device. It is assumed. In other words, since a power consuming device is usually connected to the power receiving point of the consumer in addition to the private power generator, the power received by the consumer can be increased by increasing the power generated by the private power generator. Even if power adjustment is performed to reduce power consumption, if there is a change in power consumption at other power consuming devices connected to the customer's power receiving point, how much has the power received by the power generator reduced? It is difficult to know if.

  This invention is made | formed in view of said subject, The objective is to provide the electric power adjustment amount derivation | leading-out apparatus which can derive | lead-out the electric power adjustment amount by a consumer accurately.

The characteristic configuration of the power adjustment amount derivation device according to the present invention for achieving the above object is that a private power generation device provided by a consumer is connected to a power system, and a power value to be generated by the power generator. The site side command information including information on the site side power command value set on the customer side with respect to the site side power command value, and the power value that the generator should increase / decrease with respect to the field side power command value via a communication line from a remote location The generated power command value to the generator is determined and commanded to the generator based on the information on the increased / decreased power command value transmitted and the remote command information including the information on the increase / decrease adjustment time zone to be adjusted. Used in private power generation system configured with a command unit,
Information relating to the increase / decrease adjustment time zone, and an information communication unit for obtaining at least information relating to the actual amount of power generated by the generator in the increase / decrease adjustment time zone;
The power adjustment amount corresponding to the amount of power generated by the generator to be increased / decreased with respect to the on-site power command value during the increase / decrease adjustment time zone is set by the generator in the increase / decrease adjustment time zone. A derivation unit that derives information based on information on the actual power generation amount ,
The information communication unit acquires information on the increase / decrease adjustment time zone, information on the field side power command value in the increase / decrease adjustment time zone, and information on the actual power generation amount by the generator,
Power generation when the derivation unit assumes that the actual power generation amount by the generator in the increase / decrease adjustment time zone and the generator generates power according to the on-site power command value in the increase / decrease adjustment time zone The difference is that the difference from the amount of power is derived as the power adjustment amount .

  According to the above characteristic configuration, the generator is not based on the amount of power received at the power receiving point of the customer as in the past, but based on the actual amount of power generated by the generator, A power adjustment amount corresponding to the amount of power generated by the increase / decrease adjustment is derived. In other words, even if a power consuming device is connected to the power receiving point of the consumer in addition to the private power generating device and the power consumption of the power consuming device changes with time in the increase / decrease adjustment time zone, Only the power adjustment amount can be accurately derived.

In addition, whether or not the power increase / decrease adjustment is actually performed even if the power increase / decrease command value transmitted from the remote location via the communication line is commanded to the power generator regarding the power value to be increased / decreased There is a problem that it is unknown.
In order to avoid this problem, this feature configuration assumes that the actual amount of power generated by the generator during the increase / decrease adjustment time zone and the generator generated according to the on-site power command value during the increase / decrease adjustment time zone. The difference from the amount of generated power is derived. Of these, the actual amount of power generated by the generator during the increase / decrease adjustment time period is derived from the product of the actual generated power value and the length (hours) of the increase / decrease adjustment time period. It may be considered as the sum of the power value generated according to the field-side power command value set on the house side and the power value adjusted according to the increase / decrease power command value transmitted from a remote location.
Therefore, it is assumed that the generator generates power according to the power command value on the site side during the increase / decrease adjustment time period, and the actual amount of power generated by the generator during the increase / decrease adjustment time period derived by the deriving unit in this feature configuration. The difference between the power generation amount and the power generation amount is considered to correspond to the power adjustment amount that is the product of the power value adjusted according to the increase / decrease power command value and the length (time) of the increase / decrease adjustment time zone. Can do. Therefore, regardless of whether or not the generator operates according to the increase / decrease power command value transmitted from the remote location to the generator, the power adjustment amount by the consumer can be accurately derived.

Still another characteristic configuration of the power adjustment amount derivation device according to the present invention is that a private power generation device included in a consumer is a generator connected to a power system, and a consumer side with respect to a power value to be generated by the generator The site-side command information including information on the site-side power command value set in step S1 and the power value that the generator should increase / decrease with respect to the field-side power command value are transmitted from a remote location via a communication line. A command unit for determining a generated power command value for the generator and instructing the generator based on information on the increased / decreased power command value and remote command information including information on an increase / decrease adjustment time zone to be increased / decreased; Used in a private power generation system configured as
Information relating to the increase / decrease adjustment time zone, and an information communication unit for obtaining at least information relating to the actual amount of power generated by the generator in the increase / decrease adjustment time zone;
The power adjustment amount corresponding to the amount of power generated by the generator to be increased / decreased with respect to the on-site power command value during the increase / decrease adjustment time zone is set by the generator in the increase / decrease adjustment time zone. A deriving unit for deriving based on information on the actual power generation amount;
And a storage unit for storing information about the default value of the field-side power command value,
The information communication unit acquires information on the increase / decrease adjustment time zone, and information on the actual power generation amount by the generator in the increase / decrease adjustment time zone,
It was assumed that the derivation unit generated the actual power generation amount by the generator in the increase / decrease adjustment time zone and the generator generated according to the default value of the field side power command value in the increase / decrease adjustment time zone. In this case, the difference from the generated power amount is derived as the power adjustment amount.

According to the above characteristic configuration, the generator is not based on the amount of power received at the power receiving point of the customer as in the past, but based on the actual amount of power generated by the generator, A power adjustment amount corresponding to the amount of power generated by the increase / decrease adjustment is derived. In other words, even if a power consuming device is connected to the power receiving point of the consumer in addition to the private power generating device and the power consumption of the power consuming device changes with time in the increase / decrease adjustment time zone, Only the power adjustment amount can be accurately derived.
Also, if the generator is also instructs increase or decrease power command value transmitted via the communication line from a remote location with respect to the power value to be adjusted decrease relative to the generator, actually increases or decreases the adjustment of the street is performed There is a problem that is unknown.
Regarding this problem, in this feature configuration, the actual amount of power generated by the generator during the increase / decrease adjustment time period and the amount of power generated when it is assumed that the generator generates power according to the on-site power command value during the increase / decrease adjustment time period The difference is derived. Of these, the actual amount of power generated by the generator during the increase / decrease adjustment time period is derived from the product of the actual generated power value and the length (hours) of the increase / decrease adjustment time period. It may be considered as the sum of the power value generated according to the field-side power command value set on the house side and the power value adjusted according to the increase / decrease power command value transmitted from a remote location.
Depending on the operation mode of the generator, the site-side power command value may be always set to a predetermined default value without changing, and it can be known in advance that such an operation mode is performed.
Therefore, the actual power generation amount generated by the generator in the increase / decrease adjustment time zone, which is derived by the derivation unit in this feature configuration, and the generator generates power according to the default value of the field side power command value in the increase / decrease adjustment time zone. The difference between the power generation amount and the power generation amount when it is assumed to correspond to the power adjustment amount, which is the product of the power value adjusted according to the increase / decrease power command value and the length (time) of the increase / decrease adjustment time zone Then it can be considered. Therefore, regardless of whether or not the generator operates according to the increase / decrease power command value transmitted from the remote location to the generator, the power adjustment amount by the consumer can be accurately derived. In addition, the process of acquiring the actual field-side power command value by the information communication unit is not necessary, so that the communication load and calculation load of the power adjustment amount deriving device can be reduced.

Still another characteristic configuration of the power adjustment amount derivation device according to the present invention is that a private power generation device included in a consumer is a generator connected to a power system, and a consumer side with respect to a power value to be generated by the generator The site-side command information including information on the site-side power command value set in step S1 and the power value that the generator should increase / decrease with respect to the field-side power command value are transmitted from a remote location via a communication line. A command unit for determining a generated power command value for the generator and instructing the generator based on information on the increased / decreased power command value and remote command information including information on an increase / decrease adjustment time zone to be increased / decreased; Used in a private power generation system configured as
Information relating to the increase / decrease adjustment time zone, and an information communication unit for obtaining at least information relating to the actual amount of power generated by the generator in the increase / decrease adjustment time zone;
The power adjustment amount corresponding to the amount of power generated by the generator to be increased / decreased with respect to the on-site power command value during the increase / decrease adjustment time zone is set by the generator in the increase / decrease adjustment time zone. A derivation unit that derives information based on information on the actual power generation amount,
The information communication unit relates to the information related to the increase / decrease adjustment time zone, information related to the on-site power command value in the increase / decrease adjustment time zone, information related to the increase / decrease power command value, and the actual amount of power generated by the generator. Get information,
The derivation unit multiplies the actual power generation amount of the generator in the increase / decrease adjustment time period by the ratio of the increase / decrease power command value to the sum of the on-site power command value and the increase / decrease power command value. The obtained value is derived as the power adjustment amount.

According to the above characteristic configuration, the generator is not based on the amount of power received at the power receiving point of the customer as in the past, but based on the actual amount of power generated by the generator, A power adjustment amount corresponding to the amount of power generated by the increase / decrease adjustment is derived. In other words, even if a power consuming device is connected to the power receiving point of the consumer in addition to the private power generating device and the power consumption of the power consuming device changes with time in the increase / decrease adjustment time zone, Only the power adjustment amount can be accurately derived.
Further, in the private power generator, even if the command unit commands the generator to generate power command value (= on-site power command value + increase / decrease power command value), the actual generated power value by the generator is the command value. May not be able to follow up immediately. Even in such a case, the actual generated power value includes a constant amount of power generated according to the on-site power command value and power increased or decreased according to the increase / decrease power command value. It can be considered that it is included in the ratio.
Therefore, as in this feature configuration, the derivation unit multiplies the actual power generation amount of the generator in the increase / decrease adjustment time period by the ratio of the increase / decrease power command value to the sum of the on-site power command value and the increase / decrease power command value. By doing so, the multiplication result can be accurately derived as a power adjustment amount by the consumer.

Still another characteristic configuration of the power adjustment amount derivation device according to the present invention is that a private power generation device included in a consumer is a generator connected to a power system, and a consumer side with respect to a power value to be generated by the generator The site-side command information including information on the site-side power command value set in step S1 and the power value that the generator should increase / decrease with respect to the field-side power command value are transmitted from a remote location via a communication line. A command unit for determining a generated power command value for the generator and instructing the generator based on information on the increased / decreased power command value and remote command information including information on an increase / decrease adjustment time zone to be increased / decreased; Used in a private power generation system configured as
Information relating to the increase / decrease adjustment time zone, and an information communication unit for obtaining at least information relating to the actual amount of power generated by the generator in the increase / decrease adjustment time zone;
The power adjustment amount corresponding to the amount of power generated by the generator to be increased / decreased with respect to the on-site power command value during the increase / decrease adjustment time zone is set by the generator in the increase / decrease adjustment time zone. A deriving unit for deriving based on information on the actual power generation amount;
And a storage unit that stores information on the generated power amount of the past by the generator in the increase or decrease adjustment time period,
The information communication unit acquires information on the increase / decrease adjustment time zone, and information on the actual power generation amount by the generator in the increase / decrease adjustment time zone,
The derivation unit derives, as the power adjustment amount, a difference between the actual power generation amount by the generator in the increase / decrease adjustment time zone and the past power generation amount by the generator in the increase / decrease adjustment time zone. In the point.

According to the above characteristic configuration, the generator is not based on the amount of power received at the power receiving point of the customer as in the past, but based on the actual amount of power generated by the generator, A power adjustment amount corresponding to the amount of power generated by the increase / decrease adjustment is derived. In other words, even if a power consuming device is connected to the power receiving point of the consumer in addition to the private power generating device and the power consumption of the power consuming device changes with time in the increase / decrease adjustment time zone, Only the power adjustment amount can be accurately derived.
In addition, depending on the customer, since the operation mode of the generator is regular, the actual generated power amount in the increase / decrease adjustment time zone may be the same as the past generated power amount in the same increase / decrease adjustment time zone. Moreover, it can be known in advance that there is regularity in the operation mode of the generator.
Therefore, as in this feature configuration, the derivation unit calculates the difference between the actual power generation amount by the generator in the increase / decrease adjustment time zone and the past power generation amount by the generator in the increase / decrease adjustment time zone, The calculation result can be accurately derived as a power adjustment amount by the consumer.

  Still another characteristic configuration of the power adjustment amount derivation device according to the present invention is that the derivation unit stores the power adjustment amount and the increase / decrease power command value in the derived increase / decrease adjustment time zone in association with each other.

  According to the above characteristic configuration, the derivation unit stores the power adjustment amount in the derived increase / decrease adjustment time period and the increase / decrease power command value commanded from a remote location in association with each other. It becomes possible to confirm how the power adjustment by the house was done afterwards.

It is a figure explaining the structure of the electric power adjustment amount derivation | leading-out apparatus and the private power generation system in which it is used. It is a graph for demonstrating the derivation | leading-out example of the electric power adjustment amount in a consumer. It is a graph for demonstrating the derivation | leading-out example of the electric power adjustment amount in a consumer. It is a graph for demonstrating the derivation | leading-out example of the electric power adjustment amount in a consumer. It is a graph for demonstrating the derivation | leading-out example of the electric power adjustment amount in a consumer.

  The power adjustment amount deriving device described below has a command to increase / decrease the generated power from a remote location to a private power generation system in which a private power generation device owned by a consumer is connected to the power system. Is a device for deriving the amount of power adjustment performed by the private power generator according to the command. Hereinafter, after describing the configuration and the like of the private power generation system, each embodiment of the power adjustment amount deriving device will be described.

  FIG. 1 is a diagram for explaining the configuration of a power adjustment amount deriving device 20 and a private power generation system S in which it is used. As shown in FIG. 1, the customer 10 includes a private power generation device 12 and a power consumption device 11 connected to the power system 1. Although FIG. 1 shows an example in which one private power generation device 12 and one power consumption device 11 are connected to the service line 2 of the customer 10, the consumer 10 has a plurality of private power generation devices 12 and power consumption. The apparatus 11 may be included.

  The private power generation device 12 included in the consumer 10 includes a generator 13 and is a target of remote control from an external control center 4. Therefore, the operation of the generator 13 of the private power generator 12 is performed in combination with the control based on the field side command information on the customer 10 side and the control based on the remote command information from a remote place. That is, the private power generation device 12 has a command unit 14, and the command unit 14 includes a field-side command including information on a field-side power command value set on the customer 10 side regarding the power value to be generated by the generator 13. Information, information on the power increase / decrease command value transmitted from the remote location via the communication line 3 and the power increase / decrease adjustment time period for performing the power adjustment The generated power command value to the generator 13 is determined based on the remote command information including the information on the command to the generator 13. Further, the command unit 14 of the private power generator 12 can acquire the received power value of the consumer 10 measured at the power receiving point A, and can acquire and store the generated power value of the generator 13 measured at the connection point B. It is configured as follows.

The information on the site-side power command value included in the site-side command information includes a power command value for the generator 13 (site-side power command value) and a time zone (start time and end time) for operating the generator 13 with the power command value. )including. These pieces of information are values manually input by the customer 10 or values stored in advance by the command unit 14 as default values.
The information related to the increase / decrease power command value included in the remote command information includes the power value (increase / decrease power command value) that the generator 13 should increase / decrease with respect to the on-site power command value, and the increase / decrease adjustment time zone for performing the increase / decrease adjustment ( From the start time of the increase / decrease adjustment to the end time of the increase / decrease adjustment). These pieces of information are determined by the control center 4 and transmitted to the private power generator 12 via the communication line 3.

<First Embodiment>
The power adjustment amount derivation device 20 includes an information communication unit 21 and a derivation unit 22. Furthermore, the power adjustment amount deriving device 20 may include a storage unit 23 that stores information handled therein.
The information communication unit 21 communicates with the customer 10 and acquires at least information on the increase / decrease adjustment time zone and information on the actual power generation amount by the generator 13 in the increase / decrease adjustment time zone. The actual amount of power generated by the generator 13 in the increase / decrease adjustment time zone is derived from the product of the power generation value of the generator 13 in the increase / decrease adjustment time zone and the length (time) of the increase / decrease adjustment time zone. The “information relating to the actual amount of power generated by the generator 13 during the increase / decrease adjustment time zone” may be the power generation value of the generator 13 during the increase / decrease adjustment time zone, or the generated power amount after derivation. The derivation unit 22 determines the power adjustment amount corresponding to the amount of power generated by the generator 13 to increase / decrease with respect to the on-site power command value during the increase / decrease adjustment time zone, and the generator 13 in the increase / decrease adjustment time zone. Derived based on information on the actual amount of power generated by.

  In particular, in the power adjustment amount deriving device 20 of the first embodiment, the information communication unit 21 includes information on the increase / decrease adjustment time zone, information on the on-site power command value in the increase / decrease adjustment time zone, and actual power generation by the generator 13. It is assumed that information relating to the amount of electric power is acquired, and the derivation unit 22 generates power in accordance with the actual power generation amount by the generator 13 during the increase / decrease adjustment time zone and the generator 13 according to the on-site power command value during the increase / decrease adjustment time zone. In this case, the difference from the generated power amount is derived as a power adjustment amount.

The derivation | leading-out example of the electric power adjustment amount in the consumer 10 is demonstrated below exemplifying FIG.2 and FIG.3.
2A is a graph showing a temporal change in the generated power value measured at the connection point B, and FIG. 2B is a graph showing a temporal change in the received power value measured at the power receiving point A. is there. In this example, the increase / decrease adjustment time zone is from time t1 to time t2. As shown in FIG. 2A, before time t1, which is the start time of the increase / decrease adjustment time zone, the command unit 14 of the private power generator 12 sends the increase / decrease power command value to the private power generator 12 from the control center 4. Even if the transmission is received, the operation of the generator 13 is controlled using the on-site power command value as it is as the generated power command value. At the start time t1 of the increase / decrease adjustment time zone, the command unit 14 of the private power generator 12 determines the power value obtained by adding the increase / decrease power command value to the on-site power command value at that time t1 as the generated power command value. Then, the generator 13 is commanded. As a result, as shown in FIG. 2A, the generated power value measured at the connection point B is as described above for the generated power command value (= on-site power command value + increase / decrease power command value). In this case, since the generated power of the generator 13 is increased, the received power value measured at the power receiving point A (the power value purchased from the power system 1) as shown in FIG. Decrease. Even if the received power value decreases, the power purchase state is still maintained.

  Thereafter, the command unit 14 of the private power generator 12 determines the site-side power command value as the generated power command value at the end time t2 of the increase / decrease adjustment time zone, and commands the generator 13. As a result, as shown in FIG. 2A, the generated power value measured at the connection point B is as shown in the generated power command value (on-site side power command value). Moreover, as shown in FIG.2 (b), the received electric power value measured at the receiving point A increases.

  When adjustment of the electric energy as shown in FIG. 2 is performed by the customer 10, the adjustment of the electric energy is based on a remote command from the control center 4, so it is necessary to accurately derive the adjusted electric energy. There is. Therefore, in the power adjustment amount deriving device 20, the information communication unit 21 provides information on the increase / decrease adjustment time zone, information on the on-site power command value in the increase / decrease adjustment time zone, and information on the actual power generation amount by the generator 13. The derivation unit 22 obtains the actual amount of power generated by the generator 13 during the increase / decrease adjustment time period, and the generated power when it is assumed that the generator 13 generates power according to the on-site power command value during the increase / decrease adjustment time period. The difference from the amount is derived as a power adjustment amount.

  As shown in FIG. 2 (a), the actual amount of power generated by the generator 13 in the increase / decrease adjustment time zone can be derived by the product of the actual generated power value and the length (time) of the increase / decrease adjustment time zone. The actual generated power value includes a power value generated according to the on-site power command value set by the customer 10, and a power value adjusted according to the increase / decrease power command value transmitted from the control center 4. You can think of it as the sum of Therefore, as described above, the actual amount of power generated by the generator 13 during the increase / decrease adjustment time period derived by the derivation unit 22 and the generator 13 generated according to the on-site power command value during the increase / decrease adjustment time period. The difference from the assumed amount of generated power corresponds to the power adjustment amount, which is the product of the power value adjusted according to the increase / decrease power command value and the length (time) of the increase / decrease adjustment time zone. Can be considered. Therefore, the power adjustment amount in the generator 13 can be accurately derived regardless of whether or not the generator 13 is operated according to the increase / decrease power command value transmitted from the control center 4 to the generator 13.

Next, another power adjustment example different from that shown in FIG. 2 is shown in FIG.
3A is a graph showing a temporal change in the generated power value measured at the connection point B, and FIG. 3B is a graph showing a temporal change in the received power value measured at the power receiving point A. is there. Also in the example shown in FIG. 3A, before the start time t1 of the increase / decrease adjustment time zone, the command unit 14 of the private power generator 12 operates the generator 13 using the on-site power command value as it is as the generated power command value. I have control. When the command unit 14 of the private power generator 12 receives the power increase / decrease command value and the increase / decrease adjustment time zone (start time t1 and end time t2 of the increase / decrease adjustment) for the increase / decrease adjustment from the control center 4, the start time t1. , The power value obtained by adding the increase / decrease power command value to the field-side power command value is determined as the generated power command value and commanded to the generator 13. As a result, as shown in FIG. 3A, when the generator 13 starts increasing the generated power, the generated power value measured at the connection point B increases, and the power receiving point shown in FIG. The received power value at A decreases. However, it may be determined that the consumer 10 cannot supply the power generated by the private power generator 12 to the power system 1 (so-called reverse power flow). In such a case, the command unit 14 adjusts the generated power command value to the private power generator 12 so that the received power value at the power receiving point A is at least 0 (zero) or more. That is, the generated power command value is not determined by adding all the remotely commanded increase / decrease power command values to the on-site power command value, but the received power value at the power receiving point A is at least 0 (zero). The generated power command value is determined by adding the adjusted electric power value to the on-site command value. Therefore, in this case, the command unit 14 operates the private power generator 12 by adding the adjustment power smaller than the remotely commanded increase / decrease power command value to the field-side power command value.

  Thereafter, the command unit 14 of the private power generator 12 determines the site-side power command value as the generated power command value at the end time t2 of the increase / decrease adjustment time zone, and commands the generator 13. As a result, as shown in FIG. 3 (a), the generated power value measured at the connection point B is as shown in the generated power command value (on-site side power command value). Moreover, as shown in FIG.3 (b), the received electric power value measured at the receiving point A increases.

  When the power amount adjustment as shown in FIG. 3 is performed by the customer 10, although the power amount increase / decrease corresponding to the remotely commanded power increase / decrease command value has not been achieved, the power amount adjustment is Since it is based on a remote command from the control center 4, it is necessary to accurately derive the adjustment power amount. Also in this case, as described with reference to FIG. 2, in the power adjustment amount derivation device 20, the information communication unit 21 relates to the information related to the increase / decrease adjustment time zone and the field-side power command value in the increase / decrease adjustment time zone. The derivation unit 22 acquires the information and the information on the actual amount of power generated by the generator 13, and the derivation unit 22 uses the actual power generated by the generator 13 in the increase / decrease adjustment time zone and the on-site power in the generator 13 in the increase / decrease adjustment time zone. By deriving as a power adjustment amount the difference from the generated power amount when it is assumed that the power is generated according to the command value, the generator according to the increase / decrease power command value transmitted from the control center 4 to the generator 13 Regardless of whether or not 13 operates, the power adjustment amount in the generator 13 can be derived with high accuracy.

  Furthermore, in this embodiment, the information communication part 21 acquires the information regarding the increase / decrease power command value transmitted from the control center 4 to the customer 10 via the communication line, and the deriving part 22 derives the above increase / decrease adjustment time. The value of the power adjustment amount in the band and the increase / decrease power command value may be stored in the storage unit 23 in association with each other. Thus, the derivation unit 22 stores the power adjustment amount in the derived increase / decrease adjustment time period and the increase / decrease power command value commanded from the control center 4 to the customer 10 in association with each other, thereby increasing / decreasing power command value. On the other hand, it becomes possible to confirm later how the power adjustment by the consumer 10 has been performed.

Second Embodiment
The power adjustment amount deriving device 20 of the second embodiment differs from the first embodiment in the method of deriving the power adjustment amount by the deriving unit 22. The power adjustment amount derivation device 20 of the second embodiment will be described below, but the description of the same configuration as that of the first embodiment will be omitted.

FIG. 4 is a graph for explaining a derivation example of the power adjustment amount in the customer 10. FIG. 4 shows the temporal change (solid line) of the actual generated power value by the generator 13 in the increase / decrease adjustment time zone (the time zone between the start time t1 and the end time t2), and the field-side power in the increase / decrease adjustment time zone. A time change (broken line) of a predetermined value of the command value is shown, and both are compared in the present embodiment.
That is, the power adjustment amount derivation device 20 of the second embodiment includes a storage unit 23 that stores information related to the default value of the on-site side power command value. Then, the information communication unit 21 of the power adjustment amount derivation device 20 acquires information about the increase / decrease adjustment time zone and information about the actual power generation amount by the generator 13 in the increase / decrease adjustment time zone, and the derivation unit 22 The difference between the actual amount of power generated by the power generator 13 during the adjustment time zone and the amount of power generated when the power generator 13 is assumed to have generated power according to the default value of the on-site power command value during the increase / decrease adjustment time zone. Derived as an adjustment amount.

  The method for deriving the power adjustment amount as in the present embodiment is effective when an operation is performed in which the on-site power command value of the generator 13 is always set to a constant default value without changing. is there. If it is possible to know in advance that the generator 13 is operated in such a form, a method for deriving a power adjustment amount as in this embodiment may be employed. In the case of the present embodiment, the power adjustment amount deriving device 20 does not have to perform the process of acquiring the actual on-site power command value by the information communication unit 21 unlike the case described in the first embodiment. As a result, there is an advantage that the communication load and calculation load of the power adjustment amount deriving device 20 are reduced.

<Third Embodiment>
The power adjustment amount deriving device 20 of the third embodiment differs from the first embodiment in the method of deriving the power adjustment amount by the deriving unit 22. The power adjustment amount derivation device 20 of the third embodiment will be described below, but the description of the same configuration as that of the first embodiment will be omitted.

  In the private power generator 12, even if the command unit 14 commands the generator 13 to generate a power generation command value (= on-site power command value + increase / decrease power command value), the actual power generation value by the generator 13 is not In some cases, the generated power command value cannot be immediately followed. The method for deriving the power adjustment amount of the present embodiment is effective in such a case.

  That is, the information communication unit 21 of the power adjustment amount derivation device 20 according to the third embodiment includes information on the increase / decrease adjustment time zone, information on the field side power command value in the increase / decrease adjustment time zone, information on the increase / decrease power command value, and power generation. The information on the actual amount of power generated by the machine 13 is acquired, and the deriving unit 22 calculates the ratio of the increase / decrease power command value to the sum of the on-site power command value and the increase / decrease power command value of the generator 13 in the increase / decrease adjustment time zone. A value obtained by multiplying the actual power generation amount is derived as a power adjustment amount. Specifically, in the present embodiment, even if the actual generated power value by the generator 13 cannot immediately follow the generated power command value, the actual generated power value is set to the field side power command value. Accordingly, it is considered that the electric power generated in response to the electric power generated and the electric power increased / decreased according to the increase / decrease power command value are included at a constant ratio. Then, by multiplying the ratio of the increase / decrease power command value with respect to the sum of the on-site power command value and the increase / decrease power command value by the actual power generation amount of the generator in the increase / decrease adjustment time period, the multiplication result is obtained by the customer 10. It is determined as the power adjustment amount.

<Fourth embodiment>
The power adjustment amount deriving device 20 of the fourth embodiment differs from the first embodiment in the method of deriving the power adjustment amount by the deriving unit 22. The power adjustment amount derivation device 20 of the fourth embodiment will be described below, but the description of the same configuration as that of the first embodiment will be omitted.

FIG. 5 is a graph for explaining a derivation example of the power adjustment amount in the customer 10. FIG. 5 shows the temporal change (solid line) of the actual generated power value by the generator 13 in the increase / decrease adjustment time zone (the time zone between the start time t1 and the end time t2) and the past power generation in the increase / decrease adjustment time zone. A temporal change (broken line) in the power value is shown, and in the present embodiment, both are compared.
That is, the power adjustment amount deriving device 20 of the fourth embodiment includes a storage unit 23 that stores information on the past power generation amount by the generator 13 in the increase / decrease adjustment time zone. Then, the information communication unit 21 of the power adjustment amount derivation device 20 acquires information about the increase / decrease adjustment time zone and information about the actual power generation amount by the generator 13 in the increase / decrease adjustment time zone, and the derivation unit 22 The difference between the actual amount of power generated by the power generator 13 in the adjustment time zone and the past amount of power generated by the power generator 13 in the increase / decrease adjustment time zone is derived as the power adjustment amount.

  The method for deriving the power adjustment amount as in the present embodiment is effective when the operation mode of the generator 13 in the customer 10 has regularity. In such a case, since the operation mode of the generator 13 is regular, the actual generated power amount in the increase / decrease adjustment time zone may be the same as the past generated power amount in the same increase / decrease adjustment time zone. If it can be known in advance that the operation mode of the generator 13 has regularity, a method for deriving the power adjustment amount as in this embodiment may be adopted. Then, as described above, the derivation unit 22 calculates the difference between the actual amount of power generated by the generator 13 during the increase / decrease adjustment time period and the past amount of power generated by the generator 13 during the increase / decrease adjustment time period. The calculation result can be accurately derived as the power adjustment amount by the customer 10.

<Another embodiment>
<1>
In the above embodiment, the value of the power adjustment amount by the customer 10 derived by the power adjustment amount deriving device 20 may be transmitted from the power adjustment amount deriving device 20 to the control center 4 via the communication line 3. Further, the power adjustment amount value derived from the power adjustment amount deriving device 20 is associated with the power increase / decrease command value commanded from the control center 4 to the customer 10 regarding the power adjustment, and the power adjustment is performed. It may be transmitted from the quantity deriving device 20 to the control center 4 via the communication line 3. As a result, the control center 4 can know how much the customer 10 corresponds to the transmitted increase / decrease power command value. Then, the control center 4 may calculate a consideration according to the degree of the correspondence at the customer 10 and give the consideration to the customer 10.

<2>
In the said embodiment, although the information communication part 21 demonstrated the example which acquires the information regarding the field side electric power command value in the increase / decrease adjustment time slot | zone from the consumer 10, the information communication part 21 is, You may modify | change so that the information regarding the field side electric power command value in the increase / decrease adjustment time slot | zone and the information regarding the increase / decrease adjustment time slot | zone may be acquired from the control center 4.

  INDUSTRIAL APPLICABILITY The present invention can be used for a power adjustment amount deriving device that can accurately derive a power adjustment amount by a consumer.

DESCRIPTION OF SYMBOLS 1 Power system 3 Communication line 4 Control center 10 Consumer 11 Power consumption apparatus 12 Private power generation apparatus 13 Generator 14 Command part 20 Power adjustment amount derivation apparatus 21 Information communication part 22 Derivation part 23 Storage part S Private power generation system

Claims (5)

Site-side command information including information on a power-supply value that is set on the customer-side with respect to a generator connected to a power grid, and a power value to be generated by the generator. And information on the power increase / decrease command value transmitted from a remote location via the communication line and the increase / decrease adjustment time zone for performing the increase / decrease adjustment with respect to the power value to be increased / decreased by the generator with respect to the field power command value Used in a private power generation system configured to have a command unit that determines a generated power command value to the generator based on remote command information including information and commands the generator,
Information relating to the increase / decrease adjustment time zone, and an information communication unit for obtaining at least information relating to the actual amount of power generated by the generator in the increase / decrease adjustment time zone;
The power adjustment amount corresponding to the amount of power generated by the generator to be increased / decreased with respect to the on-site power command value during the increase / decrease adjustment time zone is set by the generator in the increase / decrease adjustment time zone. A derivation unit that derives information based on information on the actual power generation amount ,
The information communication unit acquires information on the increase / decrease adjustment time zone, information on the field side power command value in the increase / decrease adjustment time zone, and information on the actual power generation amount by the generator,
Power generation when the derivation unit assumes that the actual power generation amount by the generator in the increase / decrease adjustment time zone and the generator generates power according to the on-site power command value in the increase / decrease adjustment time zone A power adjustment amount deriving device that derives a difference from the power amount as the power adjustment amount. Site-side command information including information on a power-supply value that is set on the customer-side with respect to a generator connected to a power grid, and a power value to be generated by the generator. And information on the power increase / decrease command value transmitted from a remote location via the communication line and the increase / decrease adjustment time zone for performing the increase / decrease adjustment with respect to the power value to be increased / decreased by the generator with respect to the field power command value Used in a private power generation system configured to have a command unit that determines a generated power command value to the generator based on remote command information including information and commands the generator,
  Information relating to the increase / decrease adjustment time zone, and an information communication unit for obtaining at least information relating to the actual amount of power generated by the generator in the increase / decrease adjustment time zone;
  The power adjustment amount corresponding to the amount of power generated by the generator to be increased / decreased with respect to the on-site power command value during the increase / decrease adjustment time zone is set by the generator in the increase / decrease adjustment time zone. A deriving unit for deriving based on information on the actual power generation amount;
A storage unit for storing information on a predetermined value of the on-site power command value,
  The information communication unit acquires information on the increase / decrease adjustment time zone, and information on the actual power generation amount by the generator in the increase / decrease adjustment time zone,
  It was assumed that the derivation unit generated the actual power generation amount by the generator in the increase / decrease adjustment time zone and the generator generated according to the default value of the field side power command value in the increase / decrease adjustment time zone. A power adjustment amount deriving device that derives a difference from the generated power amount as a power adjustment amount.   Site-side command information including information on a power-supply value that is set on the customer-side with respect to a generator connected to a power grid, and a power value to be generated by the generator. And information on the power increase / decrease command value transmitted from a remote location via the communication line and the increase / decrease adjustment time zone for performing the increase / decrease adjustment with respect to the power value to be increased / decreased by the generator with respect to the field power command value Used in a private power generation system configured to have a command unit that determines a generated power command value to the generator based on remote command information including information and commands the generator,
  Information relating to the increase / decrease adjustment time zone, and an information communication unit for obtaining at least information relating to the actual amount of power generated by the generator in the increase / decrease adjustment time zone;
  The power adjustment amount corresponding to the amount of power generated by the generator to be increased / decreased with respect to the on-site power command value during the increase / decrease adjustment time zone is set by the generator in the increase / decrease adjustment time zone. A derivation unit that derives information based on information on the actual power generation amount,
The information communication unit relates to the information related to the increase / decrease adjustment time zone, information related to the on-site power command value in the increase / decrease adjustment time zone, information related to the increase / decrease power command value, and the actual amount of power generated by the generator. Get information,
  The derivation unit multiplies the actual power generation amount of the generator in the increase / decrease adjustment time period by the ratio of the increase / decrease power command value to the sum of the on-site power command value and the increase / decrease power command value. A power adjustment amount deriving device that derives the obtained value as the power adjustment amount.   Site-side command information including information on a power-supply value that is set on the customer-side with respect to a generator connected to a power grid, and a power value to be generated by the generator. And information on the power increase / decrease command value transmitted from a remote location via the communication line and the increase / decrease adjustment time zone for performing the increase / decrease adjustment with respect to the power value to be increased / decreased by the generator with respect to the field power command value Used in a private power generation system configured to have a command unit that determines a generated power command value to the generator based on remote command information including information and commands the generator,
  Information relating to the increase / decrease adjustment time zone, and an information communication unit for obtaining at least information relating to the actual amount of power generated by the generator in the increase / decrease adjustment time zone;
  The power adjustment amount corresponding to the amount of power generated by the generator to be increased / decreased with respect to the on-site power command value during the increase / decrease adjustment time zone is set by the generator in the increase / decrease adjustment time zone. A deriving unit for deriving based on information on the actual power generation amount;
A storage unit that stores information on the amount of power generated in the past by the generator in the increase / decrease adjustment time zone;
  The information communication unit acquires information on the increase / decrease adjustment time zone, and information on the actual power generation amount by the generator in the increase / decrease adjustment time zone,
  The derivation unit derives, as the power adjustment amount, a difference between the actual power generation amount by the generator in the increase / decrease adjustment time zone and the past power generation amount by the generator in the increase / decrease adjustment time zone. Power adjustment amount derivation device. 5. The power adjustment amount derivation device according to claim 1 , wherein the derivation unit associates and stores the derived power adjustment amount and the increase / decrease power command value in the derived increase / decrease adjustment time period.

Images