KR102637212B1 - System for calculating trade unit cost of electric power considering renewable energy generation - Google Patents

Abstract

The present invention relates to a power unit price calculation system linked to new and renewable energy. More specifically, when an ESS business purchases power from a renewable energy power generation business or sells stored power to a customer or EV charging station, the real-time power generation amount of the power generation business is considered. This relates to a power unit price calculation system linked to new and renewable energy that can calculate the optimal purchase and sale prices.

Description

System for calculating trade unit cost of electric power considering renewable energy generation}

The present invention relates to a power unit price calculation system linked to new and renewable energy, and more specifically, when an ESS business purchases power from a renewable energy power generation business or sells stored power to a customer or EV charging station, the real-time power generation amount of the power generation business is considered. This relates to a power unit price calculation system linked to new and renewable energy that can calculate the optimal purchase and sale prices.

Due to the recent rapid expansion of Distributed Energy Resources (DER) due to the development of new and renewable energy technology, electricity consumers have changed from passive entities that simply consume electricity to energy prosumers that directly produce and consume electricity. is transforming into

P2P power trading is where energy prosumers directly exchange their surplus power with other electricity consumers through the power grid. It provides incentives for voluntary investment in distributed energy resources (DER) through profit generation for energy prosumers, while also providing incentives for energy prosumers and electricity consumers to make voluntary investments in distributed energy resources (DER). It is considered a useful means of optimizing power use and distributed resource utilization by establishing a cooperative network.

In order to activate such P2P power trading, it is very important to more accurately capture power trading opportunities between energy prosumers and electricity consumers and provide information about them to all transaction participants. In other words, from the perspective of the operator providing the P2P power trading service, it provides incentives for electricity consumers and energy prosumers to voluntarily participate in power trading by providing information in advance on the power use of all transaction participants and the power generation forecast of distributed resources. This can be said to be one of the essential conditions that can promote the activation of P2P electricity trading.

Meanwhile, the 'Renewable Energy Electricity Supply Project', which allows electricity produced using new and renewable energy to be supplied directly to users without going through the electricity market, is scheduled to be implemented, and a detailed amendment to the Enforcement Decree of the Electricity Business Act has been passed at the Cabinet meeting. Meanwhile, a framework is being laid for the separate sale of renewable energy electricity.

Therefore, there is a technical need to calculate the power unit price at which ESS operators, who are both power buyers and power sellers, can purchase power from power generation operators at the optimal purchase price and sell power at the optimal sell price.

The present invention was created to meet the above-described needs, and the purpose of the present invention is to provide a power unit price calculation system that can calculate the optimal purchase price considering the real-time power generation amount of the power generation business.

In addition, another purpose of the present invention is to provide a power unit price calculation system that can calculate the optimal selling price by comprehensively considering the real-time power generation of power generation operators, real-time demand of power consumers, and ESS power remaining amount.

In order to achieve the above object, the present invention is a power unit price calculation system for calculating the purchase price and sale price when an ESS business purchases power from a renewable energy power generation business or sells stored power at the customer price or EV charging station, The purchase unit price is calculated by adding the minimum profit guarantee unit price of the power generation business operator to the current system marginal price (SMP), and the sale unit price is calculated by adding the profit guarantee unit price of the ESS operator to the purchase unit price. Provides a power unit price calculation system that uses .

In a preferred embodiment, the minimum profit guaranteed unit price of the power generation business operator is adjusted by a real-time power generation weight that increases or decreases depending on the real-time power generation quantity of the power generation business operator.

In a preferred embodiment, the profit guarantee unit price of the ESS operator is adjusted by the real-time demand weight, which is the real-time demand compared to the real-time power generation and ESS power remaining amount.

In a preferred embodiment, the purchase price is calculated according to Equation 1 below, and the selling price is calculated according to Equation 2 below.

[Equation 1]

[Equation 2]

Here, the real-time power generation weight becomes smaller as the real-time power generation increases, and the real-time demand weight is calculated by dividing the sum of the real-time power generation and the ESS power remaining amount by the real-time demand.

In addition, the present invention further provides a power unit price calculation program stored in a computer-readable recording medium that is installed in the power unit price calculation system and calculates the purchase price and the sale price.

The present invention has the following excellent effects.

First, the power unit price calculation system of the present invention has the advantage of adjusting the purchase price according to real-time power generation to optimize the power supply of the power generation business and the power demand of the ESS business while enabling power trading without mutual loss.

In addition, according to the power unit price calculation system of the present invention, there is an advantage of maximizing the profits of ESS operators by adjusting the selling price in consideration of real-time power generation, power remaining amount of ESS, and real-time demand.

1 is a diagram showing a power unit price calculation system according to an embodiment of the present invention.

The terms used in the present invention are general terms that are currently widely used as much as possible. However, in certain cases, there are terms arbitrarily selected by the applicant, and in this case, the meaning described or used in the detailed description of the invention rather than the simple name of the term is considered. Therefore, its meaning must be understood.

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

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

Referring to FIG. 1, the power unit price calculation system 100 according to an embodiment of the present invention is operated by an ESS (Energy Storage System) business operator 20 and a renewable energy power generation business operator 10 (hereinafter referred to as a 'power generation business operator'). When purchasing electricity from a power source and selling it to large consumers (30) or EV (Electric Vehicle) charging stations (40), the demand and supply of electricity are flexibly calculated by calculating the optimal purchase and sale prices. It is a system to maximize the profits of ESS operators (20).

In addition, the power unit price calculation system 100 receives real-time power generation from the power generation business operator 10, receives the ESS power remaining amount from the ESS business operator 20, receives real-time demand from the power consumer, and KEPCO The system limit price is received from the server 50 and the purchase and sale prices of the ESS business operator 20 are calculated.

However, the system marginal price (SMP) can also be input from the power exchange server or the web server of the portal site.

In addition, the calculation of the purchase price and the sale price is substantially performed by a power unit price calculation program installed in the power unit price calculation system 100, and only the power unit price calculation program may be provided separately.

Additionally, the power unit price calculation program may be stored in a server system for program distribution and distributed through a communication network, or may be stored and provided in a separate recording medium.

Additionally, the recording medium may be one specifically designed and constructed for the present invention, or may be one known and available to those skilled in the art of computer software.

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. It may be a hardware device specially configured to store and execute program instructions, either alone or in combination.

In addition, the power unit price calculation program may be a program composed of program instructions, local data files, local data structures, etc., singly or in combination, and may be operated by a computer using not only machine code such as that created by a compiler, but also an interpreter, etc. It can be a program written in high-level language code that can be executed.

Hereinafter, a method by which the power unit price calculation system 100 calculates the purchase price and sale price will be described in detail.

Basically, the purchase unit price is calculated by adding the minimum profit guarantee unit price of the power generation business operator 10 to the current grid limit price, and the sale unit price is calculated by adding the profit guarantee unit price of the ESS operator 20 to the purchase unit price. .

This allows the power generation business operator (10) to be guaranteed the lowest profit when selling power to the ESS business operator (20) rather than selling power to the grid, and the ESS business operator (20) pays the unit price it purchased. This is to allow electricity to be sold to consumers (30) or EV charging stations (40) by adding a guaranteed profit unit price.

In addition, the minimum profit guaranteed unit price of the power generation business operator 10 is calculated taking into account the power plant operating costs of the power generation business operator 10, etc., and the power generation business operator 10 may also receive it from the power unit price calculation system 100. there is.

In addition, the profit guarantee unit price of the ESS business operator 20 is also calculated by taking into account the operating costs incurred by the ESS business operator 20 while operating the ESS.

In other words, the power unit price calculation system 100 can calculate the minimum purchase and sale prices at which the power generation business operator 10 and the ESS business operator 20 can trade power without incurring losses to each other.

Meanwhile, the power unit price calculation system 100 adjusts the purchase price by varying the guaranteed minimum profit unit price according to changes in real-time power generation of the power generation business operator 10.

The reason is to properly manage supply and demand by lowering the purchase price when sufficient capacity is developed compared to the contracted standard capacity, and raising the purchase price when insufficient capacity is developed.

In detail, the power unit price calculation system 100 calculates the purchase unit price by adjusting the minimum profit guaranteed unit price with a real-time power generation weight that increases or decreases according to the real-time power generation amount of the power generation business operator 10, and calculates the purchase unit price as shown in Equation 1 below can be calculated.

[Equation 1]

Here, the real-time power generation weight becomes smaller as the real-time power generation increases and increases as the real-time power generation decreases. For example, if the current power generation amount is the contracted capacity standard, the real-time power generation weight is '1', and as the current power generation increases beyond the standard value, the real-time power generation weight decreases to '0.9', '0.8'... And, if the current power generation decreases below the standard value, the real-time power generation weight increases to '1.1', '1.2'....

In other words, the power unit price calculation system 100 of the present invention has the advantage of being able to adjust the purchase price to maintain supply and demand based on real-time power generation.

In addition, the power unit price calculation system 100 calculates a real-time demand weight using the real-time power generation, ESS power remaining amount, and real-time demand of the ESS operator 20, and guarantees the profit of the ESS operator 20 with this real-time demand weight. By adjusting the unit price, it is decided whether to sell the power of the ESS or charge the purchased power to the ESS.

The reason is to sell at a discount when real-time power generation or ESS charging rate is high, and to sell at a high price with a premium when real-time demand is high.

In detail, the power unit price calculation system 100 can calculate the selling price through Equation 2 below.

[Equation 2]

Here, the profit guarantee unit price of the ESS business operator (20) is adjusted firstly according to the real-time power generation amount and secondly according to the real-time demand weight.

In addition, the real-time demand weight is calculated by dividing the real-time demand by adding real-time power generation and ESS power remaining.

In other words, as real-time power generation increases, the weight of real-time power generation decreases and the profit guarantee unit price of ESS operators decreases.

In addition, the profit guarantee unit price of ESS operators decreases as real-time power generation and the remaining amount of ESS power currently stored in the ESS increases, and increases as real-time demand increases.

Therefore, according to the power unit price calculation system 100 of the present invention, the selling price can be calculated by using the real-time power generation, ESS power remaining amount, and real-time demand in combination, so that profits can be generated from selling electricity while supply and demand are appropriately maintained. There is an advantage to having it.

As discussed above, the present invention has been illustrated and described with reference to preferred embodiments, but it is not limited to the above-described embodiments and is not limited to the above-mentioned embodiments, and can be understood by those skilled in the art without departing from the spirit of the invention. Various changes and modifications will be possible.

10: New and renewable energy power generation business operator 20: ESS business operator
30: Consumer 40: EV charging station
50: Korea Electric Power Server 100: Electricity unit price calculation system

Claims (5)

When an ESS business, an energy prosumer using ESS, purchases power from a renewable energy power generation business or sells stored power to a consumer price or EV charging station, it is a power unit price calculation system for calculating the purchase and sale prices,
The purchase price is calculated by adding the minimum profit guaranteed unit price of the power generation business to the current system marginal price (SMP),
The selling unit price is calculated by adding the profit guarantee unit price of the ESS business operator to the purchase unit price,
The minimum profit guaranteed unit price of the power generation business is adjusted by the real-time power generation weight that increases or decreases according to the real-time power generation of the power generation business,
The profit guarantee unit price of the ESS operator is adjusted by the real-time demand weight, which is the real-time demand compared to the real-time power generation and ESS power remaining,
A power unit price calculation system, characterized in that the purchase unit price is calculated according to Equation 1 below, and the selling unit price is calculated according to Equation 2 below.
[Equation 1]

[Equation 2]

Here, the real-time power generation weight becomes smaller as the real-time power generation increases, and the real-time demand weight is calculated by dividing the sum of the real-time power generation and the ESS power remaining amount by the real-time demand.
delete delete delete A power unit price calculation program stored in a computer-readable recording medium that is installed in the power unit price calculation system of claim 1 and calculates the purchase price and the sale price.