KR20190003436A - Apparatus and method for collecting electricity from distributed resources - Google Patents

Abstract

Disclosed is a method for collecting electricity from a distributed electricity supply resource which enables use of the distributed electricity supply resource on a demand side without directly controlling the electricity supply resource with an electricity generation plan about the electricity supply resource. The present invention relates to a method for collecting electricity from second devices by a first device. The method comprises the steps of: transmitting a signal checking whether the electricity supply resource can supply the electricity; acquiring supply electricity, a supply time and reliability from information related to an electricity supply by receiving the information related to an electricity supply from the electricity supply resource on a demand side; selecting the electricity supply resource on a demand side based on at least two among a higher supply electricity order, a higher supply time order, and the reliability; and transmitting the signal noticing a selected result to the electricity supply resource on a demand side.

Description

[0001] APPARATUS AND METHOD FOR COLLECTING ELECTRICITY FROM DISTRIBUTED RESOURCES [0002]

The present disclosure relates to a distributed power supply device and a distributed power supply such as a demand reaction resource, a renewable energy resource, a power storage device, an electric vehicle, and the like, and receives power from the plurality of distributed power supply resources, The present invention relates to a power collecting apparatus and method.

Conventional power systems are being operated to adjust power supply to meet power demand. Various power supply control techniques such as power demand forecasting, economic dispatch, and automatic power supply control have been devised and used for this purpose. The power supply system, that is, the generator is mainly constructed on a large scale considering the economies of scale, and reliability and cost reduction are the priority operating standards. However, as power demand has increased in recent years and the linear load proportional to the frequency increases the nonlinear load like digital devices, the type of power load is changing as well. Due to site selection and large-scale investment risks, Making it difficult to build a power generation system. This has naturally focused on demand and supply of electric power and interested in demand side role in stable operation of electric power system.

Demand-side power supply resources include demand reaction resources, renewable energy resources, electric power storage devices, electric vehicles, etc. Demand response resources are devices capable of adjusting power consumption like smart home appliances. Renewable energy resources refer to photovoltaic power generation or wind power generation equipment installed at small scale in homes or areas. A power storage device is a device, such as a battery, capable of supplying power at a required time. Electric vehicles are basically the same as electric power storage devices because they use batteries, but they are distinguished from electric power storage devices that are installed in a fixed position. These demand side power supply resources meet the demand and supply of the power system by reducing power consumption when power system is under power and by increasing power consumption when power system is overpowered.

If the demand-side power supply resource unit is regarded as a home or small-scale region, the main characteristic may be a plurality, diversity, small scale, and dispersibility. However, the main feature makes it difficult to utilize demand side power supply resources. In other words, the existing large-scale power generation system can directly control the generators through the various power supply control techniques. However, since the demand side power supply resources exist in a small scale and a variety of various resources, It is not only difficult to apply but also it is practically impossible for one individual to directly control. Therefore, we are working on ways to solve the problems in terms of control that arise from the majority, diversity, small scale, and dispersive characteristics which are characteristic of demand side power supply resources while empathizing with the importance of demand side power supply resources. There is a problem that can not be done.

In the present disclosure, the control of specific demand side power supply resources is performed separately in the assumption area and the area for managing the corresponding resources, and the side that utilizes the demand side power supply resource acquires only the information necessary for utilizing the resources. To a power collecting apparatus and method.

A method of collecting power from second devices by a first device according to an embodiment of the present disclosure includes transmitting to a second device a signal inquiring about availability of a demand side power supply resource, The method comprising the steps of: receiving power supply related information from the second devices; obtaining power supply, supply time and reliability from the power supply related information; Selecting a demand side power supply resource based on a combination of at least two of the first and second devices and a signal for notifying a part of the second devices or the second devices of the demand side power supply resource based on the selected result To the mobile station.

The first device collecting power from the second devices according to the embodiment of the present disclosure transmits to the second devices a signal inquiring about availability of the demand side power supply resource to the second devices, And a control unit that acquires the supply power, the supply time and the reliability from the power supply related information, and determines at least one of the order of the higher supply power, the higher supply time, and the higher reliability Selects a demand side power supply resource based on the two combinations and transmits the signal for notifying the demand side power supply resource to the second devices or a part of the second devices based on the selected result And a control unit for controlling the display unit.

Using the method of collecting power from the distributed power supply of the present disclosure, it is possible to establish a power generation plan for a plurality of demand-side power supply resources that are practically impossible, without collecting detailed information on various demand side power supply resources, It is possible to utilize distributed demand-side power supply resources.

In addition, the present disclosure is based on the fact that a smart grid is constructed and an environment in which elements of a power system can exchange information through a wired / wireless communication network is established, and an active resource such as a demand response resource / a renewable energy resource / an electric storage device / However, it provides a technical basis for practical and effective utilization of such power system infrastructure when demand-side power supply resources are secured through continuous technological development and policy support.

BRIEF DESCRIPTION OF THE DRAWINGS Figure 1 is a diagram illustrating a power collection method according to one embodiment of the present disclosure;
FIG. 2 is a diagram for explaining a power collection method in a case where a supply power differs from a required amount according to an embodiment of the present disclosure; FIG.
FIG. 3 is a diagram for explaining a power collection method when a start time and an end time differ according to the required time according to the embodiment of the present disclosure; FIG.

Hereinafter, embodiments of the present disclosure will be described in detail with reference to the drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present disclosure rather unclear.

1 is a diagram illustrating a power collection method according to an embodiment of the present disclosure;

Referring to FIG. 1, when it becomes necessary to utilize the demand side power supply resource, the side (demand side supply resource utilization side 100) that utilizes the demand side power supply resource uses the power collection method Side power supply resources.

The demand side supply resource utilization side 100 transmits to the demand side supply resource provision side 105 a signal for inquiring whether or not the demand side power supply resource can be supplied in the first step 110. [ The demand side supply resource utilization side 100 receives from the demand side supply side resource provision side 105 the demand side supply resource related information ( Demand side supply resource related information # 1, # 2, ..., # N). The demand-side supply resource utilization side 100 may be configured to supply the demand side supply resource-related information (demand side supply resource-related information # 1, # 2, ..., # N) received in the third step 130 And supplies a signal for notifying the result selected in the fourth step 135 to the demand side supply resource providing side 105. In this case,

The supply enable inquiry signal of the demand side power supply resource transmitted by the demand side supply resource utilization side 100 in the first step 110 may include parameters expressing the necessity to utilize the demand side power supply resource. The parameters may include a start time, an end time, an incentive, a start time, an end time, and a demand level.

For example, if the need for 10 MW is generated from 1 pm to 2 pm on December 20, 2011, the 'start time' will be displayed as '2012/12/20/13: 00: 00' Time 'may be displayed as' 2012/12/20/14: 00: 00'. Here, 10MW is internal information, and it can be displayed by converting 'incentive' to '100 won / kWh' or converting 'demand level' to '3'.

The 'incentive' means the cost per unit power supplied from the demand side (A), and the larger the required amount of power, the greater the incentive. The 'demand level' is a value that represents the risk of matching the power demand and supply with the required amount of power. The larger the demand level, the greater the difference between the power demand and supply. Therefore, the larger the required amount of power, the greater the demand level.

The 'incentive' can be applied when the utilization side has to pay a certain amount of money to the provider due to the contractual relationship between the demand side supply resource utilization side 100 and the demand side supply side resource provision side 105. The 'demand level' can be utilized when the provider side needs to provide power to the utilization side without paying costs because of the trust relationship between the demand side supply resource utilization side 100 and the demand side supply side resource provision side 105 have.

The parameters included in the demand side supply resource related information that the demand side supply resource providing side 105 provides to the demand side supply resource utilization side 100 in the second stage 125-1, 125-2, 125- 'Start time', 'end time', 'supply power', and the like. This information may be different for each demand side power supply resource.

For example, the photovoltaic generator in area A has a power supply of 3 kW at 'start time = 2012/12/20/13: 10: 00', 'end time = 2012/12/20/13: 30:00' ', And the power storage device in the area B is supplied with' start time = 2012/12/20/13: 20: 00 'and' end time = 2012/12/20/13: 40: 00 ' Power = 5 kW '.

The values of the parameters do not need to be known on the side of utilizing the demand side power supply resource but can be determined individually using the details of the device on the side of managing the resources.

FIG. 2 is a view for explaining a power collecting method when a supply power differs from a required amount according to an embodiment of the present disclosure. FIG. 3 is a view for explaining a power collecting method when a start time and an end time according to an embodiment of the present disclosure are needed And a method of collecting power when there is a difference.

Referring to FIG. 2 and FIG. 3, in the third step, selecting the demand side power supply resource is to select the demand side power supply resource so as to satisfy the need to utilize the demand side power supply resource.

A method of selecting the highest power supply is selected first, a method in which the time with the longest supply time is selected first, a method in which the priority is selected according to internally determined reliability priorities, or a combination of the above three conditions And the like can be applied.

The selected demand side power supply resources may be combined to become a demand side power supply resource that is finally supplied and utilized. This is cumulative utilization of multiple resources, so there is no need to perfectly match the need to utilize the initial demand side power supply resources.

For example, if there is a need for 10MW from 1 pm to 2 pm on December 20, 2011, the supply of demand on the demand side may be slightly above or below 10 MW, It may not be a perfect match between time and end, and may be from 1:55 PM on December 20, 2011 to 1:55 PM.

Whether to accommodate the first demand-side power supply resources or not will depend on whether the supply power is accommodated in the range of + -5% or the starting and ending times Is determined according to a predetermined criterion such as " acceptance in the range of + - 5 minutes ".

The signal for notifying the demand side power supply resource in the fourth step is a signal indicating the result in the third step. Since the selected demand-side power supply resource is selected, it transmits a signal indicating that it will supply the set power at a predetermined time. The signal of the selected effect may additionally include the power supply information informed by the resource in the second step, thereby preventing an error related to the power supply. Since it is not selected for the unselected demand side power supply resource, it transmits a signal to ignore the power supply request of the first stage.

If the power collection method described so far fails to secure sufficient demand-side power supply resources, the power collection method should be repeated by raising incentives or raising demand levels. As a repetition method, a method of transmitting a signal notifying all the demand-side power supply resources not to be selected in the fourth step, raising the incentive or raising the demand level and proceeding from the first step again, There is a way to increase incentives or raise demand levels only for insufficient power not secured through the method.

For example, if the power required from the demand-side power supply resource is 10MW and the power secured by the incentive = 100won / kWh is 8MW, the incentive is increased to 200won / kWh instead of 8MW A method of securing 10 MW from the beginning can be used. Otherwise, if it is possible to vary the incentive per resource, it can be secured by raising the incentive = 200 won / kWh only for the insufficient 2MW.

On the other hand, the demand side power supply resource which is the object of the power collection method may be stored in the database of the power collection device through the registration procedure before proceeding to the first step.

Also, in the power collection method of the present disclosure, signals may be transmitted through various types of wired / wireless communication networks such as a wired / wireless public network, a private network, and a short-range wireless communication network such as Zigbee.

The power collected in the power collection method of the present disclosure has a positive value to supply or store the power consumption in the demand side power supply resource when power is insufficient, If the power supply is excessively supplied, it may have a negative value that increases the power consumption in the demand side power supply resource. That is, collecting power from demand side power supply resources includes both supplying power on demand side and supplying more power on demand side.

While the invention has been shown and described with reference to certain preferred embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention.

Therefore, the scope of the present invention should not be limited to the described embodiments, but should be determined by the scope of the appended claims, and equivalents thereof.

Claims (14)

A method of collecting power from second devices by a first device,
Transmitting, to the second devices, a signal inquiring about availability of the demand side power supply resource;
Receiving power supply related information from the second devices, acquiring power supply, supply time and reliability from the power supply related information;
Selecting a demand side power supply resource based on a combination of at least two of a higher order of supply power, a higher order of supply time, and a higher order of reliability; And
And transmitting a signal notifying the demand side power supply resource to a part of the second devices or the second devices based on the selected result.
The method according to claim 1,
Wherein the signal for inquiring about the supply availability is composed of a start time, an end time, and an incentive.
The method according to claim 1,
Wherein the signal for inquiring about the supply availability is composed of a start time, an end time, and a demand level;
Wherein the demand level is a risk for matching demand and supply of the power supply and corresponds to the reliability.
The method according to claim 1,
Wherein the power supply related information comprises a start time, an end time, and a supply power that can be individually determined and changed for a second device corresponding to each demand side power supply resource.
The method according to claim 1,
Wherein the signal for notifying the demand side power supply resource includes a request to supply a predetermined power at a predetermined time or to disregard a request for power supply included in the inquiring signal.
The method according to claim 1,
When the need for the first demand side power supply resource falls within a predetermined range even if the actual demand side power supply resource is not secured and the start time, end time, or supply power do not match, the demand side power supply resource is utilized Further comprising the step of: < RTI ID = 0.0 > determining < / RTI >
The method of claim 1, wherein the step of transmitting a signal for inquiring about the supply availability includes:
When the amount of actual demand-side power supply resources is less than the required amount of the first demand-side power supply resource, a signal notifying that all the demand-side power supply resources are not selected is transmitted, and after the demand level is increased, The method comprising the steps of:
A first device for collecting power from second devices,
A transmission / reception unit for transmitting a signal for inquiring about supply availability to demand side power supply resources to the second devices and receiving power supply related information from the second devices; And
Side power supply resource, based on a combination of at least two of a higher order, a higher order of supply time, and a higher reliability order from the power supply related information, And a control unit for controlling the transceiver to transmit a signal for notifying demand-side power supply resources to a part of the second devices or the second devices based on the selected result.
9. The method of claim 8,
Wherein the signal for inquiring about the supply availability includes a start time, an end time, and an incentive.
9. The method of claim 8,
Wherein the signal for inquiring about the supply availability is composed of a start time, an end time, and a demand level, and the demand level is a risk for matching demand and supply of the power supply, and corresponds to the reliability.
9. The method of claim 8,
Wherein the power supply related information comprises a start time, an end time, and a supply power that can be individually determined and changed for a second device corresponding to each demand side power supply resource.
9. The method of claim 8,
Wherein the signal for notifying the demand side power supply resource includes a message for requesting to supply a predetermined power at a predetermined time or for disregarding a request for power supply included in the inquiring signal.
9. The apparatus according to claim 8,
When the need for the first demand side power supply resource falls within a predetermined range even if the actual demand side power supply resource is not secured and the start time, end time, or supply power do not match, the demand side power supply resource is utilized Wherein the first device determines to do so.
9. The apparatus according to claim 8,
When the amount of actual demand-side power supply resources is less than the required amount of the first demand-side power supply resource, a signal notifying that all the demand-side power supply resources are not selected is transmitted, and after the demand level is increased, And controls the transmission / reception unit to transmit a signal for inquiring the first device.

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