KR20190082057A - Apparatus and method for intermediating electric power trade - Google Patents

Abstract

The present invention provides a power trade mediation device which can calculate an optimal purchase amount and a purchase amount electricity rate, and a method thereof to construct a system for activating power trade between individuals. The power trade mediation device comprises: an information obtaining unit obtaining a consumption power amount and a production power amount during a predetermined billing period of each of a plurality of members from a predetermined database; a purchase amount calculation unit allowing each of the plurality of members to calculate a purchase amount for purchasing a part of the consumption power amount from at least one member of the plurality of members; a purchase amount electricity rate calculation unit allowing each of the plurality of members to calculate a purchase amount electricity rate for the purchase amount based on an electricity rate and a trade cost reduced through the purchase amount; and a transmission unit transmitting the purchase amount and the purchase amount electricity rate to devices of each of the plurality of members.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001]

The present invention relates to a power trading intermediation method and apparatus, and more particularly, to a power trading intermediation apparatus and method for calculating an optimal purchase amount and a purchase amount electricity fee so that a subscriber can purchase a part of his or her consumption power from other subscribers .

Distributed generation resources such as photovoltaic and electric batteries are rapidly spreading worldwide. In the case where the generation power of distributed generation resources is generated in a home or building unit, the electric power company has conventionally settled down the electric charge based on the electric power consumption amount by subtracting the electric charge according to the production electric power amount. That is, the electric power sales company deducted the amount of electric power flowing from the consumer to the electric power network during the same period in the electric power amount inputted to the consumer from the electric power network for a predetermined charging period.

Recently, since peer-to-peer (P2P) electricity trading is allowed, individuals can trade in surplus electricity with individual mutual trading contracts. However, in calculating the trading partner and transaction volume in which individuals maximize mutual benefits There is a difficulty.

It is an object of the present invention to substantially obviate the various problems caused by the limitations and disadvantages of the related art, and it is an object of the present invention to provide a method and apparatus for controlling a subscriber, The present invention provides a power trading intermediary apparatus and method for calculating an optimal purchase amount and an electricity purchase amount charge so that the purchaser can purchase the electricity from other subscribers, and a computer readable recording medium storing a program for executing the method have.

According to an embodiment of the present invention, there is provided a power trading intermediation method comprising: obtaining an amount of power consumption and an amount of production power for a predetermined billing period of each of a plurality of subscribers from a predetermined database by an information obtaining unit; Calculating an amount of purchase for each of the plurality of subscribers to purchase a part of the power consumption amount from at least one subscriber among the plurality of subscribers by the purchase amount calculating unit; Calculating a purchase amount electricity rate for the purchase amount based on an electricity price and a transaction cost saved by the purchase electricity price calculation unit by each of the plurality of subscribers through the purchase amount; And transmitting the purchased amount and the purchased electricity rate to a device of each of the plurality of subscribers by a transmitter.

According to an embodiment of the present invention, when the predetermined billing period includes a future period, the step of acquiring the amount of power consumption and the amount of produced power may be based on the information of the previous billing period and the external environment information of the predetermined billing period And estimates the amount of power consumption and the amount of produced power.

Calculating a ratio of a total sum of the purchases of each of the plurality of subscribers to a total sum of the production power amount of each of the plurality of subscribers by a transaction production amount calculating unit according to an embodiment of the present invention; And a step of calculating the actually traded production amount by multiplying the production power amount of each of the plurality of subscribers by the ratio by the transaction production amount calculating unit.

According to an embodiment of the present invention, the transmitting unit further includes transmitting the purchase amount, the purchase amount electricity rate, and the transaction output amount to the charging unit for each of the plurality of subscribers.

According to an embodiment of the present invention, the billing unit exists in the power trading intermediary apparatus or in an external device connected to the network.

According to an embodiment of the present invention, the step of calculating the purchase amount includes calculating the purchase amount of each of the plurality of subscribers, wherein the total sum of the costs obtained by subtracting the transaction cost from the electricity bill, .

According to one embodiment of the present invention, the purchase amount is determined by the following equation.

(From here:

C _k (D): an electricity rate function for the consumption power D of the subscriber k,

T _k: Transaction cost of subscriber k,

 argmin (f (x)) is a function to obtain the x value to make the function f (x)

: 가입자 k의 구매량,

: Purchase amount of subscriber k,

S _k : the production power of subscriber k,

D _k : power consumption of subscriber k)

According to an embodiment of the present invention, the purchased electricity rate is obtained by dividing the sum of costs obtained by subtracting the transaction cost from the electricity tariffs saved by the plurality of subscribers through the purchased amount, by the sum of the purchased amount.

According to one embodiment of the present invention, the purchased electricity rate is determined by the following equation.

(From here:

C _k (D): an electricity rate function for the consumption power D of the subscriber k,

: 산출된 가입자 k의 구매량,

: The purchase amount of the calculated subscriber k,

D _k : power consumption of subscriber k,

T _k : Transaction cost of subscriber k)

According to another aspect of the present invention, there is provided a computer-readable recording medium having recorded thereon a program for performing the method.

In addition, according to an embodiment of the present invention, the power trading intermediary apparatus includes an information obtaining unit for obtaining the amount of power consumption and the amount of produced power for a predetermined billing period of each of a plurality of subscribers from a predetermined database; A purchase amount calculating unit for calculating a purchase amount for each of the plurality of subscribers to purchase a part of the power consumption amount from at least one subscriber of the plurality of subscribers; A purchase price electricity price calculation unit for calculating a purchase price electricity price for the purchase amount based on an electricity price and a transaction cost saved by each of the plurality of subscribers through the purchase amount; And a transmitter for transmitting the purchased quantity and the purchased electricity rate to a device of each of the plurality of subscribers.

According to the present invention, there is provided a power trading intermediation apparatus and method for calculating an optimal purchase amount and a purchase amount electricity charge such that a subscriber can purchase a part of his or her consumption power from other subscribers, .

The subscribers can reasonably and efficiently judge whether or not to purchase electric power from other subscribers based on the optimal purchase amount and the purchased electricity rate provided by the power trading intermediary device.

1 illustrates a power trading intermediation system according to an embodiment of the present invention.
2 is a block diagram of a power trading intermediary apparatus according to an embodiment of the present invention.
3 is a flowchart of a power trading intermediation method according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. Like reference numerals in the drawings denote like elements, and the size of each element in the drawings may be exaggerated for clarity of explanation.

1 illustrates a power trading intermediation system according to an embodiment of the present invention.

The power trading intermediation system includes a power trading intermediation device 110, a plurality of subscribers participating in power trading, a power company, and a power network supplied with power from a power company.

Each of the plurality of subscribers consumes or produces power for a predetermined billing period. A measuring device (not shown) such as a smart meter installed at home measures the amount of power consumed, which is the amount of power flowing into the subscriber from the power network during a predetermined billing period, and the amount of power produced, which is the amount of power supplied from the subscriber to the power network. The amount of power consumed by the subscriber i and the amount of produced power are defined as ( _Di , _Si ). The measuring device transmits the amount of power consumption and the amount of produced power of each of the plurality of subscribers to the server so as to be recorded in a predetermined database. It will be apparent to those skilled in the art that the server and any database may be operated by various operators, including power utilities, brokers and third parties.

The power trading intermediary apparatus 110 calculates an optimal purchase amount and an amount of purchase electricity charge such that the subscriber can purchase a part of his or her consumption power from other subscribers based on the power consumption and the production power amount of each of the subscribers acquired from the predetermined database . The power trading intermediation apparatus 110 is operated by an intermediary that mediates power trading between subscribers.

The power trading intermediary apparatus 110 transmits the calculated purchase amount and the purchase amount electricity fee to the device held by each of the plurality of subscribers.

The subscriber determines whether or not to participate in the power trading based on the purchase amount and the purchase amount electricity charge.

According to an embodiment of the present invention, when the power trading is performed, the utility charges the amount of power consumed by the power company, and the transaction fee is settled based on the amount of purchase and the amount of the transaction produced between the subscribers. Trading volume refers to the amount of production electricity actually traded out of the production capacity of a plurality of subscribers. The transaction output amount is calculated by calculating a ratio of the total of the purchased amount of each of the plurality of subscribers to the total of the produced power amount of each of the plurality of subscribers and multiplying the produced power amount of each of the plurality of subscribers by the above ratio.

In addition, according to another embodiment of the present invention, the power trading intermediary apparatus 110 notifies the power company of the purchase amount, the purchase amount electricity fee, and the transaction production amount, so that the amount of power consumed by the power company from the power company, And charges the subscriber based on one purchase amount and transaction output.

2 is a block diagram of a power trading intermediary apparatus according to an embodiment of the present invention.

The power trading intermediary apparatus 200 according to an embodiment of the present invention includes an information obtaining unit 210, a purchase amount calculating unit 230, a purchase amount electricity rate calculating unit 250, and a transmitting unit 270.

The information obtaining unit 210 obtains the amount of power consumption and the amount of production power for a predetermined billing period of each of a plurality of subscribers from a predetermined database. It will be apparent to those skilled in the art that a given database may be operated by a variety of operating entities including power utilities, brokers and third parties.

The amount of power consumption and the amount of produced power are measured by a measuring device (not shown) such as a smart meter installed at home and recorded in the predetermined database. The measuring device measures the amount of power consumed, which is the amount of power flowing into the subscriber from the power network during a predetermined billing period, and the amount of produced power, which is the amount of power supplied from the subscriber to the power network. The amount of power consumed by the subscriber i and the amount of produced power are defined as ( _Di , _Si ).

The information obtaining unit 210 estimates the amount of power consumption and the amount of produced power based on the information on the previous charging period and external environment information of the predetermined charging period when the predetermined charging period includes a future period. It is apparent to those skilled in the art that external environmental information includes temperature and humidity, but other environmental variables can be included as external environmental information. The information obtaining unit 210 obtains the information of the previous charging period of the predetermined charging period and the information of the previous charging period of the predetermined charging period, And estimates the amount of power consumption and the amount of produced power based on the information.

The purchase amount calculating unit 230 calculates the purchase amount for each of the plurality of subscribers to purchase a part of the power consumption amount from at least one subscriber among the plurality of subscribers.

를 수학식 1로 결정한다. 구매량 산출부(230)는 수학식 1을 만족하는, 복수의 가입자 각각의 최적의 구매량

를 산출한다.The purchase amount calculating unit 230 calculates the purchase amount of each of the plurality of subscribers, the sum of the costs of subtracting the transaction cost from the electricity bill saved by each of the plurality of subscribers through the purchase amount becomes the maximum. The purchase amount calculating unit 230 according to an embodiment of the present invention calculates the purchase amount of each of the plurality of subscribers

Is determined by Equation (1). The purchase amount calculating unit 230 calculates an optimal purchase amount of each of the plurality of subscribers satisfying Equation (1)

.

(From here:

C _k (D): an electricity rate function for the consumption power D of the subscriber k,

T _k: Transaction cost of subscriber k,

 argmin (f (x)) is a function to obtain the x value to make the function f (x)

: 가입자 k의 구매량,

: Purchase amount of subscriber k,

S _k : the production power of subscriber k,

D _k : power consumption of subscriber k)

Referring to the numerator portion of Equation 2 below, the numerator portion of Equation (2) is the amount of electric power according to the amount of power consumed by subscriber k, excluding the electricity fee and transaction cost according to the amount of power consumed excluding the purchase amount between subscribers of subscriber k , And the electricity cost saved by the subscriber k through the purchase amount. The optimum purchase amount of each subscriber is calculated so that the total sum of electric charges saved by each of the plurality of subscribers can be maximized, and Equation (1) is expressed by a mathematical expression. Equation (1) is an expression that minimizes the remaining negative part except for the fixed value C _k (D _k ) in Equation (2). The purchase amount of the subscriber k does not exceed the sum of the production power amounts of other subscribers and the total purchase amount of the plurality of subscribers does not exceed the total of the production power amounts of the plurality of subscribers. Also, the purchase amount of the subscriber k does not exceed the consumed power amount of the subscriber k.

As described above, when the information obtaining unit 210 estimates the amount of power consumption and the amount of production power, the C _k (D) function is based on the estimated amount of power consumption To calculate the electricity price.

It should be apparent to those skilled in the art that Equation (1) can be solved by using optimization techniques such as the Lagrange multiplier method, but not limited to a specific optimization technique.

The purchase price electricity price calculation unit 250 calculates the purchase price electricity price for the purchase amount based on the electricity price and the transaction cost saved by each of the plurality of subscribers through the purchase amount.

The purchase price electricity price calculating unit 250 calculates the purchase electricity price by dividing the sum of costs obtained by subtracting the transaction cost from the electricity charges saved by each of the plurality of subscribers through the purchase amount, by the total of the purchase amounts. The purchase amount electricity rate calculating unit 250 according to an embodiment of the present invention determines the purchase electricity price as Equation (2).

(From here:

C _k (D): an electricity rate function for the consumption power D of the subscriber k,

: 산출된 가입자 k의 구매량,

: The purchase amount of the calculated subscriber k,

D _k : power consumption of subscriber k,

T _k : Transaction cost of subscriber k)

The numerator of Equation (2) denotes a sum of costs obtained by subtracting a transaction cost from an electricity bill saved by each of a plurality of subscribers through the purchase amount, and a denominator denotes a sum of purchases of each of the plurality of subscribers. The purchase amount electricity rate calculation unit 250 calculates the purchase amount electricity rate per purchase amount unit through Equation (2).

The power trading intermediary apparatus 200 further includes a transaction production amount calculating section. The transaction output calculation unit calculates the actual transaction output among the plurality of subscribers' production electric power. The transaction production amount calculating unit may calculate the ratio of the total sum of the purchased amount of each of the plurality of subscribers to the total sum of the produced power amount of each of the plurality of subscribers and multiply the produced power amount of each of the plurality of subscribers by the ratio, The production amount is calculated.

The transmission unit 270 transmits the purchase amount and the purchase amount electricity fee to each of the plurality of subscribers. Each of the plurality of subscribers determines whether or not to participate in the power trading based on the purchase amount and the purchase amount electricity fee. The transmission unit 270 transmits the purchase amount, the purchase amount electricity rate, and the transaction production amount to the billing unit for each of the plurality of subscribers. The billing part exists in the power trading intermediary device or exists in an external device connected to the network.

According to an embodiment of the present invention, the electric power company calculates, based on the purchase amount, the purchase electric fee, and the transaction production amount acquired from the billing unit, the amount of consumed electric power purchased from the electric power company and the amount of electric power purchased / Settle and charge.

According to another embodiment of the present invention, the utility charges the amount of electric power purchased from the electric power company, and the intermediary company charges the transaction fee based on the purchase amount, the purchase amount electric fee, .

3 is a flowchart of a power trading intermediation method according to an embodiment of the present invention.

In step 310, the power trading intermediary apparatus 200 acquires the amount of power consumption and the amount of produced power for a predetermined billing period of each of a plurality of subscribers from a predetermined database by the information obtaining unit.

In step 320, the power trading intermediary apparatus 200 calculates the purchase amount for each of the plurality of subscribers to purchase a part of the power consumption amount from at least one of the plurality of subscribers by the purchase amount calculating unit. When the predetermined billing period includes a future period by the purchase amount calculating unit 200, the power trading intermediary apparatus 200 may calculate the amount of power consumption and the amount of power consumption based on the information of the previous billing period and the external environment information of the predetermined billing period Estimate the production power. It is apparent to those skilled in the art that external environmental information includes temperature and humidity, but other environmental variables can be included as external environmental information. The power trading intermediary apparatus 200 calculates the purchase amount of each of the plurality of subscribers, in which the total sum of costs obtained by subtracting the transaction cost from the electricity tariffs saved by the plurality of subscribers through the purchase amount is calculated by the purchase amount calculation unit 200 do.

In step 330, the power trading intermediary apparatus 200 calculates the purchase amount electricity rate for the purchase amount based on the electricity rate and the transaction cost saved by each of the plurality of subscribers through the purchase amount by the purchase amount electricity rate calculating unit . The purchased electricity rate is obtained by dividing the sum of costs obtained by subtracting the transaction cost from the electricity tariff saved by each of the plurality of subscribers through the purchase amount, by the sum of the purchased amount.

The power trading intermediation method according to an embodiment of the present invention includes a step of calculating a ratio of a total sum of the purchases of each of the plurality of subscribers to a total sum of the production power amounts of each of the plurality of subscribers by a transaction production amount calculating unit And a step (not shown) of multiplying the production power amount of each of the plurality of subscribers by the ratio by the transaction production amount calculating unit to calculate an actual transaction amount of production.

In step 340, the power trading intermediary apparatus 200 transmits the purchase amount and the purchase amount electric fee to the devices of the plurality of subscribers by the transmission unit.

The power trading intermediary apparatus 200 further includes transmitting, by the transmission unit, the purchase amount, the purchase amount electricity fee, and the transaction production amount to the charging unit for each of the plurality of subscribers. The billing unit is present in the power trading intermediary apparatus or in an external apparatus connected to the network.

Although the preferred embodiments of the present invention have been described in detail, the scope of the present invention is not limited thereto, and various modifications and other equivalent embodiments are possible. Accordingly, the true scope of the present invention should be determined by the appended claims.

For example, an apparatus according to an exemplary embodiment of the present invention may include a bus coupled to each unit of the apparatus as shown, at least one processor coupled to the bus, A memory coupled to the bus for storing a message or a generated message, and coupled to the at least one processor for performing the instructions as described above.

In addition, the system according to the present invention can be embodied as computer-readable codes on a computer-readable recording medium. A computer-readable recording medium includes all kinds of recording apparatuses in which data that can be read by a computer system is stored. The computer-readable recording medium includes a magnetic storage medium (e.g., ROM, floppy disk, hard disk, etc.) and an optical reading medium (e.g., CD-ROM, DVD, etc.). The computer-readable recording medium may also be distributed over a networked computer system so that computer readable code can be stored and executed in a distributed manner.

Claims (19)

An information obtaining unit for obtaining the amount of power consumption and the amount of produced power for a predetermined billing period of each of a plurality of subscribers from a predetermined database;
A purchase amount calculating unit for calculating a purchase amount for each of the plurality of subscribers to purchase a part of the power consumption amount from at least one subscriber of the plurality of subscribers;
A purchase price electricity price calculation unit for calculating a purchase price electricity price for the purchase amount based on an electricity price and a transaction cost saved by each of the plurality of subscribers through the purchase amount; And
And a transmitter for transmitting the purchase amount and the purchased electricity rate to each of the devices of the plurality of subscribers. The method according to claim 1,
Wherein the information obtaining unit estimates the amount of power consumption and the amount of produced power based on information of a previous charging period and external environment information of the predetermined charging period when the predetermined charging period includes a future period Electricity trading intermediation device. The method according to claim 1,
Calculating a ratio of a total sum of the purchase amounts of each of the plurality of subscribers to a total sum of the production power amounts of each of the plurality of subscribers and multiplying the production power amount of each of the plurality of subscribers by the ratio to calculate a transaction production amount Further comprising: a power supply unit for supplying power to the power source. The method of claim 3,
Wherein the transmission unit transmits the purchase amount, the purchase amount electricity fee, and the transaction production amount to the charging unit for each of the plurality of subscribers. 5. The method of claim 4,
Wherein the billing unit is present in the power trading intermediary apparatus or in an external apparatus connected to the network. The method according to claim 1,
Wherein the purchase amount calculation unit calculates the purchase amount of each of the plurality of subscribers, the total sum of the costs of subtracting the transaction cost from the electricity tariffs saved by the plurality of subscribers through the purchase amount, . The method according to claim 1,
Wherein the purchase amount is determined by the following equation.

(From here:
C _k (D): an electricity rate function for the consumption power D of the subscriber k,
T _k : Transaction cost of subscriber k,
argmin (f (x)) is a function to obtain the x value to make the function f (x)

: Purchase amount of subscriber k,
S _k : the production power of subscriber k,
D _k : power consumption of subscriber k) The method according to claim 1,
Wherein the purchase electricity price is calculated by dividing a sum of costs obtained by subtracting a transaction cost from an electricity tariff saved by each of the plurality of subscribers through the purchase amount, by a total sum of the purchase amounts. The method according to claim 1,
Wherein the purchased electricity rate is determined by the following equation.

(From here:
C _k (D): an electricity rate function for the consumption power D of the subscriber k,

: The purchase amount of the calculated subscriber k,
D _k : power consumption of subscriber k,
T _k : Transaction cost of subscriber k) Obtaining an amount of power consumption and an amount of production power for a predetermined billing period of each of a plurality of subscribers from a predetermined database by the information obtaining unit;
Calculating an amount of purchase for each of the plurality of subscribers to purchase a part of the power consumption amount from at least one subscriber among the plurality of subscribers by the purchase amount calculating unit;
Calculating a purchase amount electricity rate for the purchase amount based on an electricity price and a transaction cost saved by the purchase electricity price calculation unit by each of the plurality of subscribers through the purchase amount; And
And transmitting the purchase amount and the purchased electricity rate to a device of each of the plurality of subscribers by a transmission unit. 11. The method of claim 10,
Wherein the step of acquiring the amount of consumed electric power and the amount of produced electric power includes calculating the amount of electric power consumed and the amount of produced electric power based on the information of the previous charging period and the external environment information of the predetermined charging period when the predetermined charging period includes a future period And estimating the power trading intermediation. 11. The method of claim 10,
Calculating a ratio of a total sum of the purchase amounts of each of the plurality of subscribers to a total sum of the production power amount of each of the plurality of subscribers by a transaction production amount calculating unit; And
Further comprising the step of calculating a transaction production amount by multiplying the production power amount of each of the plurality of subscribers by the transaction production amount calculating unit by the ratio. 13. The method of claim 12,
Further comprising the step of transmitting, by the transmission unit, the purchase amount, the purchase amount electricity rate, and the transaction production amount to the charging unit for each of the plurality of subscribers. 14. The method of claim 13,
Wherein the billing unit is present in the power trading intermediary device or in an external device connected to the network. 11. The method of claim 10,
Wherein the step of calculating the purchase amount calculates the purchase amount of each of the plurality of subscribers in which the total sum of the costs obtained by subtracting the transaction cost from the electricity bill saved by each of the plurality of subscribers through the purchase amount is a maximum, Transaction brokerage method. 11. The method of claim 10,
Wherein the purchase amount is determined by the following equation.

(From here:
C _k (D): an electricity rate function for the consumption power D of the subscriber k,
T _k : Transaction cost of subscriber k,
argmin (f (x)) is a function to obtain the x value to make the function f (x)

: Purchase amount of subscriber k,
S _k : the production power of subscriber k,
D _k : power consumption of subscriber k) 11. The method of claim 10,
Wherein the purchase electricity price is calculated by dividing a sum of costs obtained by subtracting a transaction cost from an electricity tariff saved by each of the plurality of subscribers through the purchase amount, by the total sum of the purchase amounts. 11. The method of claim 10,
Wherein the purchase electricity rate is determined by the following equation.

(From here:
C _k (D): an electricity rate function for the consumption power D of the subscriber k,

: The purchase amount of the calculated subscriber k,
D _k : power consumption of subscriber k,
T _k : Transaction cost of subscriber k) 19. A computer-readable recording medium on which a program for performing the method according to any one of claims 10 to 18 is recorded.

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