KR102009683B1 - Method of Energy Trading System based on Distributed Energy Resource Type - Google Patents

Abstract

The present invention relates to power trading, and more particularly, to a power trading method in consideration of characteristics for each distributed power source. According to an aspect of the invention, the step of receiving the metadata about the type and characteristics of distributed power supply, receiving the sales condition of the distributed power supply, optimizing the selling conditions based on the type and characteristics of the distributed power supply A distributed power supply method for each distributed power source includes a step of performing a bidding according to an optimized selling condition and controlling the distributed power supply to supply power to a consumer who participates in the bidding.

Description

{Method of Energy Trading System based on Distributed Energy Resource Type}

The present invention relates to power trading, and more particularly, to a power trading method in consideration of characteristics for each distributed power source.

By far the most important factor in power trading is selling price, capacity and time. Traditional electricity trade is mostly dealt with between large power plants and operators with grids, so there is no need to consider complex environments.

However, in the current situation where the demand resource market is expanding and the market for small distributed power sources is also being considered, there is a problem when trading without considering these characteristics of distributed power sources. For example, assuming that an emergency generator or a commercial generator sells electricity in units of hours, if there is an unsold time, it is advantageous to continuously turn on and generate power because the generator needs uptime and downtime. In this case, the situation in which the product is not sold in the middle becomes disadvantageous. Suppose you are selling at 50,000 won from 13:00 to 14:00, 40,000 won from 15:00 to 16:00, 30,000 won from 17:00 to 18:00, and 100,000 won from 13:00 to 18:00. The former is advantageous in terms of price, but considering the start-up and shutdown of the generator, the latter is more advantageous in terms of fuel consumption and equipment efficiency. This would be the more favorable form of electrons in demand, and in the case of renewables, consideration should be given to pricing and winning in the market, including considerations of whether to go through the energy storage system, including power generation forecasts. It is not easy to make a policy for a seller who wants to sell in consideration of characteristics of each distributed power source. Therefore, in order to solve these problems, it is necessary to change the sales method and the successful bidding method for each distributed power source in the energy trading market.

As described above, from the viewpoint of power trading, the exchange simply sells, bids, and bids on the basis of price, but from the seller's point of view, the seller sells considering the characteristics and efficiency of each device. You can only take advantage. Therefore, an object of the present invention is to provide a method of maximizing the seller's profit by varying the selling method and the successful bidding method in consideration of characteristics of distributed power sources when trying to sell energy in the energy trading market.

The present invention is to maximize the seller's profit when the successful bid in the energy trading market in consideration of the characteristics of each distributed power in the power trading. To do this, input the characteristics of distributed power when registering distributed power, specify only the time, capacity, and lowest price that the seller wants to sell, and the trading system classifies time and capacity in consideration of the characteristics of the distributed power, registers the sale, and wins a bid. The city provides a method for selling by considering the operational efficiency of each distributed power source, not just the price standard.

According to an aspect of the invention, the step of receiving the metadata about the type and characteristics of distributed power supply, receiving the sales condition of the distributed power supply, optimizing the selling conditions based on the type and characteristics of the distributed power supply A distributed power supply method for each distributed power source includes a step of performing a bidding according to an optimized selling condition and controlling the distributed power supply to supply power to a consumer who participates in the bidding.

In the present invention, in order to improve the inefficiency that occurs when performing sales registration, bidding, and bidding by considering only the price in the energy trade, the energy trading market receives sales registration, bidding, and bidding by considering the characteristics of distributed power resources. Promote the energy trading market and maximize the profits of energy sellers.

In the following, the invention is described with reference to the embodiments shown in the accompanying drawings. For clarity, the same components have been assigned the same reference numerals throughout the accompanying drawings. Configurations shown in the accompanying drawings are merely exemplary embodiments to illustrate the present invention, but are not intended to limit the scope of the present invention.
1 is a diagram illustrating an example of a power transaction system of a distributed power source.
2 is a diagram exemplarily illustrating a method of inputting characteristics of a distributed power supply.
3 is a diagram exemplarily illustrating a configuration of an energy trading system.
4 is a diagram exemplarily illustrating an energy transaction method in consideration of characteristics of a distributed power supply.

The present invention may be variously modified and have various embodiments, and specific embodiments will be illustrated in the drawings and described in detail with reference to the accompanying drawings. However, this is not intended to limit the present invention to specific embodiments, it should be understood to include all modifications, equivalents, and substitutes included in the spirit and scope of the present invention.

1 is a diagram illustrating an example of a power transaction system of a distributed power source.

Referring to FIG. 1, a distributed power supply trading system includes an energy trading system 100, one or more distributed power sources 110, one or more energy consumers 120, and a power grid 130.

The energy trading system 100 mediates energy trading through the power grid 130. The energy trading system 100 provides an interface for a seller to sell the generated power to register distributed power and input initial sales conditions. The energy trading system 100 also provides an interface through which the energy consumer 120 can purchase power by bidding. Here, the energy trading system 100 proceeds with the bid by optimizing the initial sales conditions input by the seller in consideration of the characteristics of the registered distributed power supply.

The distributed power supply 110 produces power and supplies the power to the consumer 120 through the power grid 130. The distributed power source 110 may produce electric power in various ways such as, for example, an emergency generator, a commercial generator, a demand resource, solar power, wind power, tidal power, hydropower, and geothermal power.

The consumer 120 consumes the power supplied by the distributed power supply 110. The consumer 120 receives power from the distributed power supply 110 through the energy transaction system 100.

2 is a diagram exemplarily illustrating a method of inputting characteristics of a distributed power supply.

When the seller registers distributed power in the energy trading system 100, the seller may input the characteristics of the distributed power. As an example, as illustrated in FIG. 2, the seller may register the type 200 of distributed power generation, the amount of power generation 210, the generation efficiency 220, the driving characteristics 230, and the generation time 240. . The menu selectable by the seller is configured in stages, and the type and / or order of the menus displayed in the next stage may vary according to the user's selection. In FIG. 2, when the seller selects a photovoltaic generator as a type of distributed power source, the power generation amount 210, the power generation efficiency 220, and the driving characteristic 230 are displayed to reflect the characteristics of the general photovoltaic generator, and the seller is displayed. From the menu, select the characteristics of your solar generator. If a time is selected in the driving characteristic 230, the seller may select a power generation time 240. Meanwhile, although not shown in FIG. 2, when an emergency generator or a commercial generator is selected, a menu for selecting generation fuel may be additionally displayed. The metadata for the characteristic input in this manner is a profile of the corresponding distributed power source, and the energy trading system 100 manages it. In another embodiment, the seller may directly enter metadata on the characteristics of the distributed power supply.

3 is a diagram exemplarily illustrating a configuration of an energy trading system.

Referring to FIG. 3, the energy trading system 300 includes a distributed power supply profile management unit 310, a seller source registration unit 320, a bid processing unit 330, and a power supply control unit 340.

The distributed power supply profile manager 310 provides an interface through which the seller can input metadata regarding characteristics of the distributed power supply, and manages the input metadata. The distributed power source profile manager 310 may classify and manage profiles according to types of distributed power sources.

Merchant member registration unit 320 provides an interface for the seller to enter the initial sales conditions. The seller source register 320 optimizes the initial sales conditions. The optimized sales conditions are registered and then used for bidding in which consumers participate.

The bid processing unit 330 selects a successful bidder among one or more consumers according to the optimized selling condition. To this end, the bid processing unit 330 provides an interface for consumers to look up the optimized sales conditions, and participate in the bid.

The power supply control unit 340 controls the distributed power supply and the electric power grid to supply power to the successful consumer. According to the bidding result determined by the bid processing unit 330, the power supply control unit 340 notifies the distributed power supply to sell power to supply power, and controls the power grid so that the successful bidder can receive power. At this time, the power supply control unit 340 may monitor whether power is supplied as determined by the successful bid result.

4 is a diagram exemplarily illustrating an energy transaction method in consideration of characteristics of a distributed power supply.

Referring to FIG. 4, the seller accesses an energy trading system and selects and registers a type of distributed power source (400). At the time of registering the distributed power supply, as shown in FIG. 2, registration of metadata regarding characteristics such as power generation amount, power generation efficiency, operating characteristics, power generation time, and the like is simultaneously performed.

The energy trading system derives characteristics of each resource based on the registered distributed power supply type and the registered metadata (410). For example, emergency generators or commercial generators have the advantage of continuously producing power without interruption. Renewable energy such as photovoltaic generators and tidal generators have predictable characteristics over time. Energy storage system (Energy Storage System) has the characteristics to consider the charging and discharging efficiency. The consumer source has the characteristic of not requiring driving and downtime.

The seller inputs the selling conditions, such as selling time, selling price, and selling capacity, into the energy trading system to sell energy (420).

If a plurality of distributed power sources are registered based on the registered resources of the seller, the energy trading system performs an optimization process to satisfy the selling price for each corresponding resource (430). For example, when an emergency generator or a commercial generator is included, the seller does not cut off the time and sells the sales time registered by the seller as one sale product and registers the sale. On the other hand, in the case of ESS or demand resource, the selling time registered by the seller according to the SMP price forecast of the market is divided into minimum units such as 15 minutes and 1 hour, and the sales price is re-registered based on the predicted SMP price. . In addition, the renewable energy is registered to sell so that the sales can be smoothly calculated by calculating the time available for sale at the same time as the power generation in consideration of weather and environmental factors.

The energy trading system selects a successful bidder based on the highest bid when there are several consumers participating in the bid based on the sales registration registered in consideration of characteristics of distributed power sources (440). Here, the successful bidding process is performed based on the operating efficiency and fuel consumption of the distributed power supply in consideration of factors such as energy efficiency for each distributed power supply. For example, in consideration of driving efficiency and fuel consumption, a capacity that maximizes driving efficiency may be sold to a consumer, rather than a consumer who wants to purchase a full capacity.

When the successful bid is completed, the energy transaction system issues an operation instruction to each distributed power source and checks whether power generation, discharge, and consumption reduction are performed as much as the capacity sold by the distributed power source (450). Here, the driving instruction may be applied in various ways such as online, offline, notification to the seller.

The foregoing description of the present invention is intended for illustration, and it will be understood by those skilled in the art that the present invention may be easily modified in other specific forms without changing the technical spirit or essential features of the present invention. will be. Therefore, it should be understood that the embodiments described above are exemplary in all respects and not restrictive.

The scope of the present invention is shown by the following claims rather than the detailed description, and all changes or modifications derived from the meaning and scope of the claims and their equivalents should be construed as being included in the scope of the present invention. .

Claims (10)

Receiving metadata regarding types and characteristics of distributed power supplies;
Receiving sales conditions of the distributed power supply;
Optimizing the selling condition based on the type and characteristic of the distributed power supply;
Proceeding with the bidding according to the optimized sales condition; And
And controlling the distributed power supply to the successful bidder by participating in the bidding.
The optimizing step
In consideration of at least one of selling time and selling capacity based on the type and characteristics of the distributed power supply, the seller sets a selling price that satisfies the seller. In the case of ESS or demand resource, the seller sets the selling price by dividing the selling time registered by the seller in minimum units according to the SMP price forecast of the market.
The optimization is
The power distribution method according to the distributed power source, characterized in that corresponding to setting the sales conditions of the distributed power supply to a value that can maximize the profit of the seller.
The method according to claim 1,
Receiving the metadata is
Decentralized power trading method comprising a step-by-step menu that can be selected by the seller selling the distributed power, based on the interface to sequentially provide the next menu by the seller's selection . The method according to claim 2,
The interface is
A menu for selecting the type of distributed power supply is provided first, and a menu for selecting at least one of generation amount, power generation efficiency, operation characteristics, and generation time based on the type of distributed power supply selected when the type of distributed power supply is selected. Distributed power-specific power transaction method characterized in that it provides. The method according to claim 2,
The interface is
When any one of the emergency generator and the commercial generator is selected as the type of distributed power source, a power supply transaction method for each distributed power source, characterized in that for providing a menu for selecting the generation fuel. The method according to claim 2,
The optimizing step
And performing sales registration for the distributed power source according to a set selling price. The method according to claim 1,
The bidding process is
And determining a successful bid in consideration of at least one of a bid, operating efficiency of the distributed power source, and fuel consumption of the distributed power source. A distributed power supply profile manager configured to receive metadata regarding types and characteristics of distributed power supplies;
A seller source registration unit for receiving the sales conditions of the distributed power supplies and optimizing the sales conditions based on types and characteristics of the distributed power supplies;
A bid processing unit for performing a bid according to the optimized sales condition; And
A power supply control unit for controlling the distributed power supply to the successful bidder participating in the bid
Including,
The seller source register
In consideration of at least one of selling time and selling capacity based on the type and characteristics of the distributed power supply, the seller sets a selling price that satisfies the seller. In the case of ESS or demand resource, the seller sets the selling price by dividing the selling time registered by the seller in minimum units according to the SMP price forecast of the market.
The optimization is
Energy trading system based on the distributed electricity trade for each of the distributed power, characterized in that corresponding to setting the selling conditions of the distributed power to a value that can maximize the profit of the seller. The method according to claim 7,
The distributed power profile management unit
Including a step-by-step menu that can be selected by the seller to sell the distributed power, based on the interface for providing the next menu by the seller in order to receive the metadata based on the power transaction for each distributed power source Energy trading system. The method according to claim 8,
The interface is
A menu for selecting the type of distributed power supply is provided first, and a menu for selecting at least one of generation amount, power generation efficiency, operation characteristics, and generation time based on the type of distributed power supply selected when the type of distributed power supply is selected. Energy trading system based on distributed power-specific power transactions, characterized in that to provide a. The method according to claim 7,
The seller source register
The energy trading system based on the distributed power for each distributed power supply, characterized in that the sales registration is performed for the distributed power according to the set selling price.

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