KR102542717B1 - Digital twin program generating flexible demand resource data - Google Patents

Abstract

The present invention relates to a digital twin program, and more specifically, a market participant participating in the electricity trading market calculates flexible demand resource information, which is information about the amount of power consumption that can be changed by the market participant according to an order for demand increase or decrease to a demand management operator. It is about a digital twin program that can continuously update and create accurate flexible demand resource information by tuning the calculation method according to the successful bid results.

Description

Digital twin program generating flexible demand resource data {Digital twin program generating flexible demand resource data}

The present invention relates to a digital twin program, and more specifically, a market participant participating in the electricity trading market calculates flexible demand resource information, which is information about the amount of power consumption that can be changed by the market participant according to an order for demand increase or decrease to a demand management operator. It is about a digital twin program that can continuously update and create accurate flexible demand resource information by tuning the calculation method according to the successful bid results.

In general, electricity trading takes a unilateral method in which electricity produced by various power plants is purchased wholesale from the power exchange and then sold to general consumers by the Korea Electric Power Corporation (KEPCO).

However, as the construction of small-scale independent power grids such as solar power, wind power, and energy storage systems (ESS) is expanding, the construction of smart grid and microgrid systems is being activated, and power in unilateral power transactions The environment is changing so that consumers can conduct electricity transactions with each other at the locations of electricity sellers or electricity buyers.

Considering the aspect of the balance between supply and demand, the most representative business model that can be promoted in a smart grid or microgrid environment is a model between market participants, demand management operators, and power exchanges. and, if there is a demand reduction order from the Korea Power Exchange, the demand management operator gives a demand reduction order to the market participant, and the market participant fulfills the demand reduction according to the order, and receives settlement money from the power exchange.

On the other hand, market participants should transmit their flexible demand resource information periodically or upon request to demand management operators. If this flexible demand resource information is not accurately calculated, not only can the balance of power supply and demand not be achieved, but also the market participant's profit There is a problem with this reduction.

1. Korean Patent Registration No. 10-2094137, 'Method of relaying electricity transaction' 2. Korean Patent Registration No. 10-1996882, 'Control method of transmission and distribution network control system for electricity transaction between power networks' 3. Korea Patent Registration No. 10-1955504, 'Power Transaction System and Method'

The present invention has been made to solve the above problems, and an object of the present invention is to accurately calculate flexible demand resource information transmitted by a market participant to a demand management operator, and when there is a difference between bidding information and successful bidding information, flexible demand It is to provide a digital twin program that can balance power supply and demand and maximize the profits of market participants by tuning the resource generation module so that accurate flexible demand resource information can be continuously updated.

In order to achieve the above object, the present invention creates and provides flexible demand resource information, which is information that can reduce or increase power consumption, to demand management operators in order for market participants to participate in the electricity trading market. As a twin program, the digital twin program includes a computer, a power usage collection module for collecting past power usage patterns of the market participants; a flexible demand resource generation module for calculating and generating the flexible demand resource information (hereinafter, referred to as 'first flexible demand resource information') from the past power usage pattern; a flexible demand resource simulator that performs virtual bidding on how much profit can be generated when market bidding is performed with the first flexible demand resource information; If there is second flexible demand resource information capable of further improving profits according to the simulation result, the first flexible demand resource information is changed to the second flexible demand resource information, and the second flexible demand resource information is bid. A bidding strategy establishment module for bidding in the electricity trading market based on information; Receive input of flexible demand resource information (hereinafter referred to as 'award information') won in the electricity trading market, calculate a difference between the successful bid information and the bidding information, and compare the calculated difference value with a predetermined error value. A bidding result verification module; a digital twin generation module for generating a flexible demand resource generation digital twin from the flexible demand resource generation module when the difference value is smaller than the error value; and a flexible demand resource generation tuning module for tuning the flexible demand resource generation module to calculate the first flexible demand resource information by reflecting the difference value when the difference value is greater than the error value. A digital twin program stored in a computer-readable recording medium is provided.

In a preferred embodiment, the flexible demand resource information is the amount of power consumption per unit time that the market participant can change in response to market demand in the present or future, and the amount of time that the amount of response per unit time can last. It includes the phosphorus response amount duration time and the total response amount which is the total response amount during the duration of the response amount.

In a preferred embodiment, the amount of action per unit time is generated as two values in a direction of decreasing power consumption (direction of decreasing demand) and a direction of increasing power consumption (direction of increasing demand).

The present invention has the following excellent effects.

First, according to the digital twin program of the present invention, the flexible demand resource generation module can be tuned according to the bidding result of the flexible demand resource to calculate the accurate flexible demand resource, thereby achieving a balance between power demand and supply and benefiting the market participants has the advantage of maximizing

In addition, according to the digital twin program of the present invention, it is possible to create flexible demand resources in the direction of reducing demand that can be reduced and increasing demand that can be consumed additionally, so the balance between demand and supply can be effectively achieved. there is

1 is a diagram for explaining a business model to which a digital twin program according to an embodiment of the present invention is applied;
2 is a diagram for explaining the function of a digital twin program according to an embodiment of the present invention.

The terms used in the present invention have been selected from general terms that are currently widely used as much as possible, but in certain cases, there are terms arbitrarily selected by the applicant. Therefore, its meaning should be understood.

Hereinafter, the technical configuration of the present invention will be described in detail with reference to preferred embodiments shown in the accompanying drawings.

However, the present invention is not limited to the embodiments described herein and may be embodied in other forms. Like reference numbers indicate like elements throughout the specification.

1 is a diagram for explaining a business model to which a digital twin program according to an embodiment of the present invention is applied.

Referring to FIG. 1 , market participants 10, demand management operators 20, and power exchanges 30 exist as entities that operate and participate in the power trading market.

The market participant 10 directly performs small-scale power generation or operates various loads, and refers to general households, factories, and small-scale power generation companies, and the demand management company 20 recruits the market participants 10 and It is an operator that relays power transactions to the power exchange 10, and the power exchange 30 is an institution capable of conducting transactions for buying and selling power.

First, the market participant 10 generates and transmits flexible demand resource information, which is resource information that it can flexibly change now or in the future.

Here, the flexible demand resource information is information about the amount of power that the market participant 10 can decrease or increase demand according to the order of the power exchange 30 .

Next, the demand management service provider 20 registers and manages flexible demand resource information transmitted from the market participant 10 in the power exchange 30 .

Next, the power exchange 30 calculates an increase or decrease in demand according to the state of power use and requests an order for an increase or decrease in demand from the demand management service provider.

Then, the demand management business operator 20 instructs the market participant 10 to increase or decrease demand, and the market participant 10 implements an increase or decrease in demand (an act of reducing or increasing power consumption) according to the instruction.

Next, the demand management business operator 20 reports the result of the increase or decrease in demand to the power exchange 30, the Jeonleok Exchange 20 pays the settlement to the demand management business operator 20, and the demand management business operator (20) pays the settlement money to the market participant (10).

On the other hand, the market participant 10 should accurately calculate information on flexible demand resources that can be changed now or in the future to maximize profits in electricity trading. Conventionally, it is difficult to accurately calculate information on flexible demand resources. there was

Therefore, the purpose of the digital twin program of the present invention is to maximize the profits of market participants by creating a digital twin that can accurately calculate flexible demand resources.

In addition, the purpose is to enable the market participant 10 to achieve balance in power trading by generating and providing information on the amount of power that can be reduced or consumed more as flexible demand resource information.

2 is a diagram for explaining the function of the digital twin program 100 according to an embodiment of the present invention.

Referring to FIG. 2, the digital twin program 100 according to an embodiment of the present invention is installed in a computer, functions the computer to generate flexible demand resources, and continuously tunes the flexible demand resource generation module according to the bidding result. This is a program that can generate accurate flexible demand resources to maximize the profits of market participants.

In addition, the digital twin program 100 may be stored and provided in a separate recording medium, and the recording medium is specially designed and configured for the present invention or is known and used by those skilled in the computer software field. It may be possible.

For example, the recording medium includes magnetic media such as hard disks, floppy disks and magnetic tapes, optical recording media such as CDs and DVDs, magneto-optical recording media capable of both magnetic and optical recording, ROM, RAM, and flash memory. etc., alone or in combination, may be a hardware device specially configured to store and execute program instructions.

In addition, the digital twin program 100 may be a program consisting of a program command, a local data file, a local data structure, etc. alone or in combination, and a computer code using an interpreter and the like as well as a machine code generated by a compiler. It can be a program written in high-level language code that can be executed by

In addition, the digital twin program 100 is stored in a server system, and the computer can download and install the digital twin program 100 in the server system, and then create flexible demand resources.

In addition, the computer is a computer in a broad sense including a general personal computer, a smart device such as a smart phone, and an embedded system specially designed for the present invention.

Hereinafter, the functions of the digital twin program 100 will be described in detail.

The digital twin program 100 uses a computer as a power consumption collection module 110, a flexible demand resource generation module 120, a flexible demand resource simulator 130, a bidding strategy establishment module 140, and a bidding result verification module 150 , the digital twin generation module 160 and the flexible demand resource tuning module 170 function.

The power usage collection module 110 collects past power usage patterns from load devices managed by market participants.

In addition, the power usage collection module 110 collects data from a measuring instrument, and the metering data is metering data (measured value of power consumption of the entire load device) or sub-metering data (measured value of power consumption of each load device). ) is measured and provided.

The flexible demand resource generation module 120 calculates and generates flexible demand resource information (hereinafter referred to as 'first flexible demand resource information') from the past power usage pattern.

In addition, the first flexible demand resource information is the amount of power consumption per unit time that the market participant 10 can change in response to market demand in the present or future, and the amount of response per unit time that can be sustained. It includes an action amount duration time, which is time, and a total action amount, which is the total amount of action during the action amount duration.

In addition, the amount of action per unit time is generated as two values in the direction of reducing power consumption (direction of demand decrease) and the direction of increasing power consumption (direction of demand increase), which are conventionally flexible demand resource information in the direction of demand decrease. Compared to the technology that generates , it also provides the amount of response in the direction of increasing demand, so it is advantageous to balance power supply and demand.

The flexible demand resource simulator 130 performs virtual bidding that can generate a certain amount of revenue when market bidding is performed using the first flexible demand resource information generated by the flexible demand resource generating module 120 .

The bidding strategy establishment module 140 has flexible demand resource information (hereinafter referred to as 'second flexible demand resource information') capable of generating more revenue according to the simulation result of the flexible demand resource simulator 130. In this case, the first flexible demand resource information is changed to the second flexible demand resource information, and the second flexible demand resource information is used as bidding information to bid in the electricity trading market (20, 30).

If there is no flexible demand resource information capable of generating more revenue, a bidding is conducted with the first flexible demand resource information.

The bidding result verification module 150 receives information on flexible demand resources (hereinafter, referred to as 'award information') that has been successfully bid in the electricity trading market, and calculates a difference between the successful bid information and the bidding information.

In addition, the bidding result verification module 150 compares the calculated difference value with a preset error value ε.

The digital twin generation module 160 converts the flexible demand resource generation module to the flexible demand resource generation digital since the currently bid flexible demand resource information is valid when the difference value calculated by the bidding result verification module 150 is smaller than the error value. It is created as a twin (digital twin), and the digital twin is used when creating flexible demand resources later.

When the difference value calculated by the bid result verification module 150 is smaller than the error value, the flexible demand resource generation tuning module 170 determines that the flexible demand resource information of the current bid is not valid. The flexible demand resource generating module 120 is tuned so that is corrected.

In addition, the tuning is a process in which the flexible demand resource generation module 120 changes a calculation formula or variables of an algorithm for calculating flexible demand resources.

Therefore, according to the digital twin program of the present invention, the flexible demand resource generation module can be tuned according to the difference between the bidding result and the successful bid result, and a digital twin capable of calculating accurate flexible demand resource information can be generated, so that market participants ( 10) can be maximized.

As described above, the present invention has been shown and described with preferred embodiments, but is not limited to the above embodiments, and to those skilled in the art within the scope of not departing from the spirit of the present invention Various changes and modifications will be possible.

10: Market participants 20: Demand management operators
30: Power Exchange
100: digital twin program 110: power usage collection module
120: flexible demand resource generation module 130: flexible demand resource simulator
140: Bidding strategy establishment module 150: Bidding result verification module
160: digital twin generation module 170: flexible demand resource tuning module

Claims (3)

As a digital twin program in which market participants create and provide flexible demand resource information, which is information that can reduce or increase electricity consumption, to demand management operators to participate in the electricity trading market,
The digital twin program is a computer,
A power usage collection module that collects past power usage patterns from the market participant's metering data (measured value of power consumption of all load devices) or sub-metering data (measured value of power consumption of each load device);
a flexible demand resource generation module for calculating and generating the flexible demand resource information (hereinafter, referred to as 'first flexible demand resource information') from the past power usage pattern;
a flexible demand resource simulator that performs virtual bidding on how much profit can be generated when market bidding is performed with the first flexible demand resource information;
If there is second flexible demand resource information capable of further improving profits according to the simulation result, the first flexible demand resource information is changed to the second flexible demand resource information, and the second flexible demand resource information is bid. A bidding strategy establishment module for bidding in the electricity trading market based on information;
Receive input of flexible demand resource information (hereinafter referred to as 'award information') won in the electricity trading market, calculate a difference between the successful bid information and the bidding information, and compare the calculated difference value with a predetermined error value. A bidding result verification module;
a digital twin generation module for generating a flexible demand resource generation digital twin from the flexible demand resource generation module when the difference value is smaller than the error value; and
When the difference value is greater than the error value, a flexible demand resource generation tuning module for tuning the flexible demand resource generation module to calculate the first flexible demand resource information by reflecting the difference value;
The flexible demand resource information includes a response amount per unit time, which is power consumption that the market participant can change in response to market demand in the present or future, a response amount duration that is a time that the response amount per unit time can last, and It includes a total amount of action, which is the total amount of action during the duration of the amount of action,
The amount of action per unit time is digitally stored in a computer-readable recording medium, characterized in that it is generated as two values in a direction of reducing power consumption (direction of demand decrease) and a direction of increasing power consumption (direction of demand increase). twin program. delete delete

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