KR20180003055A - Power system and control method thereof - Google Patents

Abstract

The present invention relates to a power system and a controlling method thereof. The power system and the controlling system thereof connected with a power storing apparatus and a power plant, even without extra control of the power plant, make a maximum profit and a balance in a market business only with controlling of the power storing apparatus in four systems, such as 1) a power consumer hourly rate system, 2) a reception power rate system of a reception power source, 3) a unit cost of generating power of a steam supply and power generator, and 4) an hourly backhaul unit cost according to a backhaul to a backhaul source and the like, of a district electric operator. According to an embodiment of the present invention, the power system comprises: a power plant for generating power; and a power storing apparatus for comparing a generation amount of the power plant with a demand amount of a power consumer, and charging and discharging power by comparing a reception power purchasing cost of a reception power source provided with system power, a backhaul selling cost of selling power to a backhaul source, an own unit cost of generating power, and an unit cost of generating power of the power plant.

Description

POWER SYSTEM AND CONTROL METHOD THEREOF BACKGROUND OF THE INVENTION 1. Field of the Invention [0001]

The present invention relates to a power system for supplying, selling, and backing power, and a control method thereof.

In the case of a power plant generating and supplying electric power, there is a case in which the maximum profit by time and the minimum price supply timing do not coincide with each other when selling electric power, so that even if the electric power is produced and sold, a loss trading structure may occur.

Particularly, a cogeneration power plant is a power generation plant that simultaneously generates heat and electricity. However, since the zone electric power company prioritizes the column-following operation, the power generation profile is dependent on the heat and is generated. Therefore, There are many cases where the lowest price supply timing does not coincide with each other.

Accordingly, there is a need for an electric power system capable of balancing market transactions and generating power revenues of a power plant by controlling the power storage device in conjunction with an energy storage system (ESS).

Korean Patent Publication No. 10-2016-0023620 Korean Patent Publication No. 10-2015-0079311 Korean Patent Publication No. 10-2014-0004309

According to one embodiment of the present invention, the electric power storage device and the power plant are connected to each other so that the electric power consumer can pay for the electric power of the electric power company, Power system and control method thereof, which maximize profit and market transaction balance by controlling power storage device under four systems including power consumption, unit price, and 4) reverse unit price by time zone in accordance with the return to power source Song.

According to an aspect of the present invention, there is provided a power system comprising: a power generation unit for generating power; a power generation unit for comparing a power generation amount of the power generation unit with a demand amount of a power supply; And a power storage device for charging / discharging electric power by comparing the power generation price of the power plant with the power generation price of the power plant.

A method of controlling a power system according to an embodiment of the present invention includes a first step of determining whether a power plant generates power, a second step of comparing a power generation amount of the power plant with a demand amount of a power consumer, a comparison result of the power generation amount and the demand amount A third step of comparing the power generation cost of the power storage device charging and discharging the power with the power supply price of the power water power source or the backward price of the power source, A fourth step of comparing the power generation cost of the power plant with the power purchase price or the power generation cost of the power storage device according to the result of comparison between the price of the power storage device and the price of the power source, A comparison result of the purchasing price or the back-selling price of the electric power source Song, or the power generation price of the power plant, A fifth step of determining a charging state of the power storage device according to a comparison result of a power storage unit price of the power storage device, and a fifth step of charging / discharging the power storage device according to the charging state of the power storage device, And a sixth step of charging / discharging the power storage device according to the charged state of the power storage device.

According to an embodiment of the present invention, there is an effect that the maximum profit and market transaction balance can be achieved only by controlling the power storage device without the separate control of the power plant in conjunction with the power storage device and the power plant.

1 is a schematic configuration diagram of a power system according to an embodiment of the present invention.
2 is a flowchart illustrating a control operation of a power storage device of a power system 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, in order that those skilled in the art can easily carry out the present invention.

1 is a schematic configuration diagram of a power system according to an embodiment of the present invention.

Referring to FIG. 1, a power system 100 according to an embodiment of the present invention may include a power plant 110 and a power storage device 120.

The power plant 110 may generate power, and the power plant 110 may be a combined heat and power plant (CHP), for example. The cogeneration power plant can supply the power generated by driving the power generation turbine or can be sold back to the power transmission source (B).

The power storage device 120 can charge the power from the power water power source A or the power station 110 or discharge the charged electric power to supply it to the electric power source C or to sell it to the electric power source B have.

The power storage unit 120 includes a power conversion unit 121 for converting supplied power to charge the battery 122 or converting the power charged in the battery to supply the power to the power supply C or to the power supply source B And may include a control unit 123 for controlling the charging and discharging operation of the power converting unit 121. [

The control unit 123 compares the power generation amount of the power plant 110 with the demand amount of the power supply C and determines that the power purchase of the power number power source A to which the grid power is supplied sells the power to the power source transmission source B The charging and discharging operation of the power conversion unit 121 can be controlled by comparing the power generation unit price of the power storage unit 120 and the power generation unit price of the power generation unit 110. [ The control unit 123 may be an Energy Management System (EMS) or may be internal or external to the power storage device 120.

2 is a flowchart illustrating a control operation of a power storage device of a power system according to an embodiment of the present invention.

2, the controller 123 of the power storage device 120 of the power system 100 according to an exemplary embodiment of the present invention first determines whether power generation of the power plant 110 (CHP) (S1).

When the power plant produces electric power (S11), the controller 123 of the electric power storage device 120 can compare the electric power generated by the power plant 110 with the electric power demanded by the electric power consumer C (S2).

The control unit 123 of the power storage device 120 may compare the power generation cost of the power storage device 120 with the power purchase price of the power supply power source A or the back sale price of the power transmission source B at step S3.

More specifically, when the power generation amount of the power generation plant 110 is less than the demanded power amount of the power supply C (S21), the control unit 123 of the power storage device 120 sets the power generation cost of the power storage device 120, The control unit 123 of the power storage device 120 compares the power purchase price of the power source A with the power purchase price of the power source A (S31 and S32), and if the power generation amount of the power generation station 110 is equal to or more than the demanded power amount of the power supply C The power generation unit price of the storage device 120 and the reverse selling price of the power source B can be compared (S33, S34). In addition, when the power plant 110 does not produce power (S12), the control unit 123 of the power storage device 120 compares the power generation cost of the power storage device 120 with the power purchase price of the power water power supply A (S35, S36).

The control unit 123 of the power storage device 120 may compare the power generation cost of the power plant 110 with the power purchase price of the power supply power source A or the power generation cost of the power storage device 120 at step S4.

More specifically, if the power generation amount of the power generation plant 110 is equal to or greater than the demanded power amount of the power supply C (S22) and the power generation unit price of the power storage device 120 is less than the back- The control unit 123 of the device 120 can compare the power generation cost of the power plant 110 with the power purchase price of the power water power source A (S41, S42). If the power purchase price of the power consumption power source A is less than the power generation unit price of the power storage device 120 (S36), the controller 110 of the power storage device 120 123 can compare the power generation cost of the power storage device 120 with the power generation cost of the power plant 110 (S43, S44).

Next, the control unit 123 of the power storage device 120 may compare the charging state of the power storage device 120 (S5).

The control unit 123 of the power storage device 120 sets the amount of the charged electric power charged in the battery 122 to the electric power of the electric power storage device 120 (step S31) It can be compared with the difference between the demanded power amount of the customer C and the power generation amount of the power station 110 (S51 and S52).

If the price of the power supply A is lower than the price of the power storage device 120 (S32), or if the price of the power supply source B is less than the price of the power storage device 120 (S34 Or the power plant 110 does not produce the electric power (S12), and the faucet purchase price of the power water power supply A is less than the power supply price of the power storage device 120 If the power generation unit price of the power storage apparatus 120 is lower than the power generation unit price of the power storage apparatus 120 (S36) and the power generation unit price of the power storage apparatus 120 is equal to or higher than the power generation unit price of the power generation plant 110 (S43), the control unit 123 of the power storage apparatus 120 It is possible to determine whether or not the electric power charged in the battery 122 of the storage device 120 is full (S53, S54, S55, S56, S59, S60).

On the other hand, if the power plant 110 does not produce power (S12) and the power purchase price of the power supply power source A is equal to or higher than the power generation unit price of the power storage device 120 (S35) Can compare the amount of power charged in the battery 122 of the power storage device 120 with the amount of power demanded in the power consumer C (S57, S58)

Thereafter, the control unit 123 of the power storage device 120 may check whether the main power demand time zone is in accordance with the charged state of the power storage device 120 (S6).

That is, if the power plant 110 does not produce electric power (S12) and the faucet purchase price of the power water power source A is equal to or higher than the power generation unit price of the power storage device 120 (S35) The control unit 123 of the power storage device 120 can confirm whether or not the power main demand time zone is present (S61, S62). For example, the control unit 123 of the power storage device 120 sets the power main demand time zone in which the power consumer C mainly uses electricity from 11:00 to 23:00, Time can be set outside.

In addition, if the power generation cost of the power storage device 120 is less than the power generation cost of the power storage device 120 (S36) and the power generation cost of the power storage device 120 is less than the power generation cost of the power storage device 120 (S43), the controller 123 of the power storage device 120 may check whether the power main demand time zone is present (S63, S64).

The control unit 123 of the power storage device 120 may control the charging and discharging operations of the power conversion unit 121 of the power storage device 120 according to the charging state of the power storage device 120, Can be controlled.

That is, if the amount of charge electric power charged in the battery 122 is equal to or greater than the difference between the amount of electric power demanded by the electric power receiver C and the amount of electric power generated by the power generating unit 110 (S51), the control unit 123 of the electric power storage device 120 The electric power corresponding to the difference between the electric power demanded by the electric power consumer C and the electric power generated by the power plant 110 may be discharged to the electric power consumer C in step S71.

The control unit 123 of the power storage device 120 controls the power supply of the battery 122 to charge the battery 122 to the battery 122. When the amount of charge electricity charged in the battery 122 is less than the difference between the demanded power amount of the power supply C and the power generation amount of the power generation station 110 The entire charged electric power amount can be discharged and supplied to the electric power source C (S72).

(S53) of the power storage device 120 (step S32) if the power supply price of the power supply power source A is less than the power generation unit price of the power storage device 120 (S32) 123 can control the power conversion unit 121 to receive power from the power water power source A and charge the battery 123 with power (S73).

(S53) of the electric power storage device 120 is completed (S32) and the charged electric energy charged in the battery 122 is full (S53), the controller 123 of the electric power storage device 120 May control the power conversion unit 121 to wait for operation (S74).

On the other hand, if the reverse selling price of the power source B is equal to or higher than the power generation unit price of the power storage device 120 (S33), or if the power purchase price of the power source power source A is more than the power generation unit price of the power generation station 110 The charging power amount of the power source A is less than the power generation unit price of the power station 110 or the charging power amount charged in the battery 122 is less than the demand amount (S60), or when the charging power amount charged in the battery 122 is full (S60), or when the power generation unit price of the power storage device 120 is less than the power generation unit price of the power plant 110 (S44) (S745, S77, S78, S81S83, S85), the control unit 123 of the power storage device 120 can control the power conversion unit 121 to wait for operation.

If the value of the faucet purchase price of the power water power source A is equal to or greater than the power generation unit price of the power plant 110 (S41) and the charged power amount of the battery 123 is less than full charge (S55), the control unit 123 of the power storage device 120 The converting unit 121 can receive power from the power plant 110 and control the charging of the battery 123 (S76).

If the power generation unit price of the power storage device 120 is higher than the power generation unit price of the power plant 110 (S43) and the charge power amount of the battery 123 is less than full charge (S59), the control unit 123 of the power storage device 120 The conversion unit 121 can receive power from the power water power source A and charge the battery 123 (S82).

The control unit 123 of the power storage device 120 determines whether or not the power supply A's power supply purchase price is equal to or higher than the power generation unit price of the power plant 110 (S35) The power corresponding to the demanded power amount among the charged power amount charged in the battery 122 can be discharged and supplied to the power reception C (S79).

It is determined whether or not the electricity purchase price of the power water power source A is equal to or higher than the power generation unit price of the power plant 110 (S35), the charge power amount of the battery 123 is less than the demand power amount (S58) The control unit 123 of the power storage device 120 determines whether or not the power generation amount of the battery 120 is less than the power generation unit price of the power generation unit 110 (S44) And supplies the electric power to the electric power source C (S80, S84).

As described above, according to the present invention, it is possible to achieve maximum profit and market transaction balancing only by controlling the electric power storage device without any separate control of the power plant in conjunction with the power storage device and the power plant.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory and are not intended to limit the invention to the particular forms disclosed. It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

100: Power system
110: Power station
120: Power storage device
121: Power conversion section
122: Battery
123:

Claims (16)

A power plant generating electricity; And
A comparison is made between the power generation amount of the power generation plant and the demand amount of the power generation customer and the power purchase price of the power supply power supplied with the grid power is compared with the power generation cost of the power generation plant, Power storage device for charging and discharging electric power
≪ / RTI >
The method according to claim 1,
Wherein the power plant is a cogeneration plant.
The method according to claim 1,
Wherein the power storage device compares a power generation amount of the power generation plant with a demand amount of the power supply to compare the power generation cost of the power generation plant with the power generation cost of the power plant, .
The method of claim 3,
The power storage device discharges electric power corresponding to the difference when the demand amount exceeds the power generation amount, the faucet purchase price is equal to or greater than the power generation cost of the self power generation charge amount, and the charge power amount is equal to or greater than the difference between the demand amount and the power generation amount, Is less than a difference between the demanded amount and the generated power, discharges the entire charged electric power.
The method of claim 3,
Wherein the power storage device is supplied with power from the power number power supply when the demand amount exceeds the power generation amount, the power supply purchase price is less than the power generation price of the power generation device itself, and the charging power amount is less than full charge, Power system.
The method of claim 3,
Wherein the power storage device waits for operation when the demanded quantity is equal to or less than the power generation amount and the back sale price is equal to or greater than the power generation unit price of the self-
Charging the power of the power plant according to whether the demand amount is equal to or less than the power generation amount and the back sale price is less than the power generation price of the power generation unit itself and the power supply purchase price is more than the power generation unit price of the power generation plant, And if the power generation unit is less than the power generation unit price of the power plant.
The method according to claim 1,
Wherein the power storage unit compares the power purchase price with the power generation unit price of the power generation unit when the power generation unit does not generate power and charges and discharges power according to the main power demand time zone.
8. The method of claim 7,
The power storage device discharges electric power corresponding to a difference between the charged electric power amount and the demanded electric power when the electric power purchasing price is equal to or greater than the electric power generating price of the electric power generating company and the charged electric power amount is equal to or greater than the demanded amount, A power system that discharges or waits for all of the charged power according to the demand time zone.
8. The method of claim 7,
The power storage device receives power from the power number power supply or waits for operation depending on whether the power supply price is less than the power generation unit price of the power generation unit itself and the power generation unit price of the power generation unit is more than the power generation unit price of the power generation plant, The power system discharging or waiting for the entire electric power charged according to the main electric power demand time zone if the power generation unit price is less than the power generation unit price of the power plant.
A first step of determining whether or not the power generation of the power plant is generated;
A second step of comparing the power generation amount of the power plant with the demand amount of the power consumer;
A third step of comparing the power generation price of the power storage device for charging / discharging the power according to the comparison result between the power generation amount and the demanded amount,
The fourth step of comparing the power generation price of the power plant with the power purchase price or the power generation cost of the power storage device according to the comparison result of the power generation price of the power storage device and the back- step;
The power generation cost of the power storage device and the power purchase price of the power supply power source or the reverse selling price of the power transmission source or the comparison result of the power generation unit price of the power generation purchase price or the power generation cost of the power storage device A fifth step of determining a state of charge of the power storage device; And
A sixth step of charging / discharging the power storage device according to a charged state of the power storage device, or charging / discharging the power storage device according to a charged state of the power storage device during a main power use time period
/ RTI >
11. The method of claim 10,
Wherein the third step compares the power purchase price with the power generation unit price of the power plant if the power plant generates power and the power generation amount of the power plant is less than the demand amount, Comparing the power generation cost of the power storage device and comparing the power purchase price with the power generation cost of the power storage device when the power plant does not generate power.
12. The method of claim 11,
The fourth step compares the power purchase price and the power generation unit price of the power plant when the back sale price is less than the power generation stage of the power storage device, A step of comparing a power generation unit price of the power storage device with a power generation unit cost of the power plant.
[Claim 11]
If the power generation amount of the power plant is less than the demand amount and the power reception purchase price is more than the power generation cost of the power storage apparatus, comparing the difference between the charging power amount, the demand amount and the power generation amount of the power storage apparatus,
If the power generation amount of the power plant is less than the demand amount and the power reception purchase price is less than the power generation cost of the power storage device,
If the power generation amount of the power generation plant is equal to or greater than the demand amount, the reverse transportation sales price is less than the power generation cost of the power storage apparatus, and the power supply purchase price is equal to or greater than the power generation cost of the power plant,
Comparing the charge amount of the power storage device with the demand amount if the power purchase price is not equal to or greater than a power generation cost of the power storage device,
Which is a step of confirming whether the power storage device is full when the power generating station does not generate power and the power receiving purchase price is less than a power generation unit price of the power storage device and the power generation unit price of the power storage device is more than a power generation unit price of the power generation plant, Method of controlling the system.
The method of claim 13,
The sixth step is to confirm whether or not the main power demand time zone if the power generating unit does not generate power and the faucet purchasing price is equal to or higher than a power generation unit price of the power storage device and the charge power amount of the power storage device is less than the demand amount,
Wherein the step of confirming whether or not the power plant is not generating power and whether the power receiving price is less than the power generation unit price of the power storage apparatus and the power generation unit price of the power storage apparatus is less than the power generation unit price of the power plant, / RTI >
The method of claim 13,
The sixth step discharges electric power corresponding to the difference when the amount of charge electric power of the electric power storage device is equal to or greater than the difference between the demanded amount and the electric power generation amount,
If the power storage device is under a low load, the power from the power number power source or the power from the power source is charged,
Wherein the power storage device is in a standby state when the power reception purchase price is less than a power generation price of the power plant.
The method of claim 14,
Wherein the step (c) discharges all of the power stored in the power storage device when the main power demand time zone is present, and if the power storage device is out of the main power demand time zone, the power storage device waits for operation.

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