KR101830359B1 - Control system for power plant - Google Patents

Abstract

According to an embodiment of the present invention, a power plant control system controls the power generated from first and second generators by using fuels. The power plant control system includes: a first storage unit storing power generated from the first power generator; a second storage unit storing power generated from the second power generator; a preprocessing unit which receives the power stored in the first and second storage units to preprocess the fuels; and a control unit which receives the power stored in the first and second storage units to supply the power to the preprocessing unit. The preprocessing unit maintains the solid fuels in a slurry state. The control unit realizes a first mode of not supplying the power to the preprocessing unit from the second storage unit when the power is received from the first storage unit to be supplied to the preprocessing unit and a second mode of not supplying the power to the preprocessing unit from the first storage unit when the power is received from the second storage unit and is supplied to the preprocessing unit.

Description

Control system for power plant

The present invention relates to a power plant control system, and more particularly, to a power plant control system that uses fuel to control power generated from a first generator and a second generator.

Generally, the power generated by a power plant is used to power and maintain the power plant.

The power plant has a plurality of generators, and uses power generated from one of the plurality of generators as power for maintaining and operating the power plant.

However, there is a problem in that the power supply for maintaining and operating the power plant is interrupted when the generator that supplies power for maintaining and operating the power plant fails or needs to be repaired.

To solve this problem, when the generator is interrupted, a separate temporary generator is activated or a power cable is temporarily installed in another generator in operation.

However, the temporary generator is expensive and there is a problem that the user must operate the temporary generator artificially.

In addition, provision of a temporary cable also requires a lot of manpower to be input, and it takes a long time to work.

An object of the present invention is to provide a power plant control system that stably supplies power for maintaining and operating a power plant even if the power generator is shut down.

It is to be understood that the present invention is not limited to the above-described embodiments and that various changes and modifications may be made without departing from the spirit and scope of the present invention as defined by the following claims .

According to an aspect of the present invention, there is provided a power plant control system for controlling power generated from a first generator and a second generator using fuel, comprising: a first storage for storing power generated from the first generator; A second storage unit for storing power generated from the second generator; A pretreatment unit for pre-treating the fuel by receiving electric power stored in the first storage unit or the second storage unit; And a control unit that receives power stored in the first storage unit and the second storage unit and supplies power to the pretreatment unit, wherein the pretreatment unit maintains the solid fuel in a slurry state, and the control unit A first control mode in which power is not supplied from the second storage unit to the preprocessing unit when power is supplied from the first storage unit to the preprocessing unit based on a predetermined control condition, And a second control mode in which when power is supplied from the storage unit to the preprocessor, power is not supplied from the first storage unit to the preprocessor.

According to the power plant control system according to an embodiment of the present invention, power can be stably supplied to maintain and operate the power plant even if the power generator is shut down.

The effects of the present invention are not limited to the above-mentioned effects, and the effects not mentioned can be clearly understood by those skilled in the art from the present specification and the accompanying drawings.

1 is a schematic configuration view of a power plant control system according to an embodiment of the present invention;

Hereinafter, specific embodiments of the present invention will be described in detail with reference to the drawings. It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the inventive concept. Other embodiments falling within the scope of the inventive concept may readily be suggested, but are also considered to be within the scope of the present invention.

The same reference numerals are used to designate the same components in the same reference numerals in the drawings of the embodiments.

A power plant control system according to an embodiment of the present invention controls a power generated from a first generator and a second generator using fuel, the system comprising: a first storage unit for storing power generated from the first generator; A second storage unit for storing power generated from the second generator; A pretreatment unit for pre-treating the fuel by receiving electric power stored in the first storage unit or the second storage unit; And a control unit that receives power stored in the first storage unit and the second storage unit and supplies power to the pretreatment unit, wherein the pretreatment unit maintains the solid fuel in a slurry state, and the control unit A first control mode in which power is not supplied from the second storage unit to the preprocessing unit when power is supplied from the first storage unit to the preprocessing unit based on a predetermined control condition, And a second control mode in which when power is supplied from the storage unit to the preprocessor, power is not supplied from the first storage unit to the preprocessor.

The predetermined control condition is a condition in which the second control mode is implemented when the operation of the first generator is interrupted during operation of the first generator and the second generator, The first control mode can be realized.

The predetermined control condition is a condition that the second control mode is implemented after a first time period after the first generator and the second generator are stopped while the first generator and the second generator are stopped, And the first control mode is implemented after the first time after the operation of the first control mode is stopped.

Also, the control unit implementing the first control mode implements the second control mode or the control unit implementing the second control mode inputs a control command for controlling the control unit from the user to implement the first control mode And an input receiving unit.

When the control command to be converted into the first control mode is input by the input unit while the first generator is in operation and the second control mode is being implemented, Wherein when the control unit receives the control command to switch to the second control mode while the first control mode is being implemented due to the interruption of the operation of the second generator, Mode is implemented.

It is preferable that the predetermined control condition is set such that, after the second time period from the time when the second control mode is implemented, while the second control mode is being implemented due to the interruption of the operation of the first generator, Wherein the first control mode is implemented when the control command for converting the control mode into the control mode is input and the second control mode is implemented by stopping the operation of the first generator, And the second control mode is implemented when the control command to be converted into the first control mode is input by the input unit a second time before the start of the first control mode.

It is preferable that the predetermined control condition is set such that the second control mode is implemented while the first generator is in operation and the second control mode is implemented, And the first control mode is implemented when the control command for converting into the control mode is inputted at least twice.

It is preferable that the predetermined condition is satisfied when the second control mode is implemented while the first generator is stopped and the first control is performed by the input unit before the second control mode is implemented, Mode, and when the control command to be converted into the first control mode is input again after the third time from the time when the control command is input, the first control mode is implemented .

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

BRIEF DESCRIPTION OF THE DRAWINGS The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and, together with the description, serve to explain the principles of the invention.

1, a plant control system according to an embodiment of the present invention may be configured to control the power generated from the first generator G1 and the second generator G2 using fuel (10) .

The power plant may include the first generator (G1) and the second generator (G2) that produce power by operation.

For example, the first generator G1 and the second generator G2 may be generators using thermal power.

For example, the first generator G1 and the second generator G2 may produce power when operated and may not produce power when the operation is interrupted.

For example, the fuel may be coal, gypsum, or other materials necessary for producing electric power.

The power plant control system according to an embodiment of the present invention includes a first storage unit 100 for storing power generated from the first generator G1 and a second storage unit 100 for storing power generated from the second generator G2 And a second storage unit (200)

The first storage unit 100 and the second storage unit 200 may store at least a part of the power generated from the first generator G1 and the second generator G2, respectively.

Here, the power plant control system according to an embodiment of the present invention may include (10) a pre-processing unit 300 for pre-processing the fuel by receiving power stored in the first storage unit 100 or the second storage unit 200, And a controller 400 that receives power stored in the first storage unit 100 and the second storage unit 200 and supplies power to the preprocessing unit 300.

For example, the pretreatment unit 300 may be configured to maintain the solid fuel in a slurry state.

For example, the pretreatment unit 300 may be an agitator and / or a circulator to maintain solid state gypsum in a slurry state.

For example, the fuel pretreated in the pre-processing unit 300 may be a material that is supplied to the first generator G1 and the second generator G2 to produce electric power.

For example, the control unit 400 may receive power from the first storage unit 100 and the second storage unit 200, and may further receive power from the first storage unit 100 and the second storage unit 200 200 to the preprocessing unit 300.

Here, when the control unit 400 receives power from the first storage unit 100 and supplies power to the pre-processing unit 300 based on a predetermined control condition, the control unit 400 controls the second storage unit 200, A first control mode in which power is not supplied from the first storage unit 100 to the preprocessing unit 300 and a second control mode in which power is supplied from the second storage unit 200 to the preprocessing unit 300, (Not shown) to the pre-processing unit 300. In this case,

That is, the controller 400 may selectively implement the first control mode based on the predetermined control condition, or may implement the second control mode.

When the first control mode is implemented, the second control mode is not implemented, and when the second control mode is implemented, the first control mode may not be implemented.

The predetermined control condition may be a condition for the control unit 400 to select whether to implement the first control mode or the second control mode.

That is, the control unit 400 may implement the first control mode based on the predetermined control condition, or may implement the second control mode.

Here, the predetermined control condition is a condition in which the second control mode is implemented when the operation of the first generator G1 is interrupted while the first generator G1 and the second generator G2 are operating, And may be a condition in which the first control mode is implemented when the operation of the second generator G2 is interrupted.

More specifically, the predetermined control condition is that when the first generator (G1) and the second generator (G2) are in operation and the first generator (G1) And may be a condition for receiving power from the second storage unit 200 and supplying power to the pre-processing unit 300.

Conversely, the predetermined control condition is that when the operation of the second generator G2 is stopped during the operation of the first generator G1 and the second generator G2, the control unit 400 controls the first storage unit And may be a condition for supplying power to the preprocessing unit 300 by receiving power from the power supply 100.

That is, the predetermined control condition is a condition for determining whether to implement the first control mode or the second control mode according to whether or not the operation of the first generator G1 and the second generator G2 is stopped Lt; / RTI >

Here, for example, the predetermined control condition may be a control condition that the first and second electric motors G1 and G2 are operated after the first time period after the first generator G1 is stopped, A condition in which the control mode is implemented and a condition in which the first control mode is implemented after the first time after the operation of the second generator G2 is stopped.

When the operation of the first generator G1 is stopped at a specific point in time during the operation of the first generator G1 and the second generator G2, The second control mode is not implemented immediately at a specific point in time when the operation of the generator G1 is stopped but the second control mode is started after a certain time point when the operation of the first generator G1 is stopped, Can be implemented.

Since the first storage unit 100 stores predetermined power for operating the pre-processing unit 300 even if the first generator G1 is shut off, The control unit 400 may implement the second control mode based on the predetermined control condition.

Similarly, when the operation of the second generator G2 is stopped at a certain point in time of the operation of the first generator G1 and the second generator G2, the controller 400 controls the second generator G2, The second control mode may be implemented after the first time from the point in time when the operation of the second generator G2 is stopped, rather than immediately implementing the first control mode at a specific point in time when the operation of the second generator G2 is stopped .

The first time may be an arbitrary time determined by the user's selection and may be automatically set based on the amount of power stored in the first storage unit 100 and / It may be.

Here, the power plant control system according to an embodiment of the present invention may be configured such that the control unit 400 implementing the first control mode implements the second control mode or the control unit 400 implementing the second control mode May further include an input unit 500 receiving a control command for controlling the controller 400 from the user to implement the first control mode.

That is, the control unit 400 may selectively implement the first control mode and the second control mode based on the predetermined control condition, and may further receive the control command from the input unit 500, The control mode and the second control mode.

The input unit 500 may be configured to allow the controller 400 to change from the first control mode state to the second control mode state through the control command input by the user, State.

Here, the predetermined control condition may include a control command to be converted into the first control mode by the input unit 500 while the first generator G1 is stopped and the second control mode is implemented And the second control mode is implemented by the input unit 500 while the second generator G2 is stopped and the first control mode is implemented, And the second control mode is implemented when the control command is received.

That is, when the first generator G1 is stopped and the control unit 400 implements the second control mode, the control unit 400 controls the control unit 400 to switch to the first control mode through the input unit 500 The controller 400 prioritizes the control command input through the input unit 500 so that the first generator G1 is stopped in the second control mode even if the first generator G1 is shut down, 1 control mode.

This is to give priority to the intention of the user who grasps the situation of the site, and to provide an opportunity to cope with the emergency situation.

In the same manner, when the second generator G2 is stopped and the controller 400 implements the first control mode, the control unit 400 controls the input unit 500 to switch to the second control mode The control unit 400 prioritizes the control command input through the input unit 500 so that the operation of the second generator G2 is stopped in the second control mode, 2 control mode.

In addition, for example, the predetermined control condition may be set such that, after a second time from the time when the second control mode is implemented, while the second control mode is being implemented because the operation of the first generator G1 is stopped, When the control command to be converted into the first control mode is input by the input unit 500, the first control mode is implemented. When the first generator G1 is stopped and the second control mode is activated When receiving the control command to be converted into the first control mode by the input unit 500 before the second time from the time when the second control mode is implemented, Lt; / RTI >

In more detail, when the first generator G1 is stopped and the controller 400 implements the second control mode from a specific point in time, the input unit 500 controls the first control mode The control unit 400 determines whether or not the second control mode has been entered from the specific point of time when the control command for converting the first control mode into the second control mode has been received, Or may implement the first control mode according to the control command.

For example, when the first generator G1 is stopped and the control unit 400 is implementing the second control mode from a specific point of time, when the user stops operating the first generator G1 It may be possible to input the control command to switch to the first control mode by operating the input unit 500 without recognizing the first control mode.

Therefore, in order to prevent this, the controller 400 controls the first generator G1 and the second generator G2 based on the predetermined control condition so that, after the second generator G1 is stopped and the second control mode is implemented, The first control mode can be implemented only when the control unit 500 receives the control command to switch to the first control mode.

The second time may be arbitrarily determined by the user's choice.

Likewise, the predetermined control condition may be such that, after the first control mode is implemented and the second control mode is implemented while the second generator G2 is stopped and the first control mode is implemented, When the control command to be converted into the second control mode is input by the input unit 500, the second control mode is implemented,

The second generator G2 is stopped and the first control mode is implemented so that the input unit 500 can be operated in the second control mode before the second time before the first control mode is implemented And the first control mode is implemented when the control command to be converted is input.

In addition, for example, the predetermined control condition may be one of a time period from the time when the second control mode is implemented to the second time period before the second control mode is implemented due to the interruption of the operation of the first generator G1, And may be a condition in which the first control mode is implemented when the control unit 500 receives the control command to be converted into the first control mode at least twice.

More specifically, when the first generator G1 is stopped and the control unit 400 implements the second control mode, the control unit 400 starts the second control mode, When the user inputs the control command to be converted into the first control mode through the input unit 500, the controller 400 ignores the control command and transmits the control command to the second control mode However, if the control command to be converted into the first control mode through the input unit 500 is inputted at least twice, the control unit 400 may submit the control command to the first control mode Can be implemented.

Likewise, the predetermined control condition may be a control condition that the first control mode is implemented while the second generator G2 is stopped and the first control mode is implemented, 500 may be a condition that the second control mode is implemented when the control command to be converted into the second control mode is input at least twice.

In addition, for example, the predetermined condition may be a condition that the second control mode is implemented while the first generator G1 is stopped and the second control mode is implemented, The control unit 500 receives the control command to be converted into the first control mode and converts the control command into the first control mode by the input unit 500 after a third time from the input of the control command. When the command is input again, the first control mode may be implemented.

To be more specific, when the first generator G1 is stopped and the controller 400 implements the second control mode from a specific point in time, The control unit 500 receives the control command that the user first switches to the first control mode through the input unit 500 at a specific point in time before the second time and then repeats the control command from the input unit 500 The control unit 400 may change the control mode from the second control mode to the first control mode when receiving the control command to convert the control mode into the first control mode.

If the user receives the control command to be converted into the first control mode through the input unit 500 for a first time at a specific point of time and repeats the control command from the control command through the input unit 500 When receiving the control command to switch to the first control mode, the controller 400 may ignore the control command and continue the second control mode.

This is because when the user does not recognize that the first generator G1 has stopped operating and inputs the control command to switch to the first control mode repeatedly within a very short time via the input unit 500, To prevent the controller 400 from switching to the first control mode.

The third time may be arbitrarily determined by the user's choice.

Likewise, the predetermined condition may be satisfied when the second generator G2 is stopped and the first control mode is implemented, before the second time before the first control mode is implemented, ) Receives the control command to be converted into the second control mode by the input unit (500) and converts the control command to the second control mode by the input unit (500) after the third time after receiving the control command And may be a condition in which the second control mode is implemented when receiving the input again.

For example, the control unit 400 may include a memory unit (not shown) for storing the predetermined control condition, a display unit for displaying whether the first control mode is currently implemented or whether the second control mode is implemented, (Not shown).

While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, It will be apparent to those skilled in the art that changes or modifications may fall within the scope of the appended claims.

100: First storage unit
200: second storage unit
300:
400:
500: input unit

Claims (8)

1. A power plant control system for controlling power generated from a first generator and a second generator using fuel, comprising:
A first storage unit for storing power generated from the first generator;
A second storage unit for storing power generated from the second generator;
A pretreatment unit for pre-treating the fuel by receiving electric power stored in the first storage unit or the second storage unit; And
And a controller for receiving power stored in the first storage unit and the second storage unit and supplying power to the preprocessor,
The pre-
Wherein the controller is configured to maintain the fuel in the solid state in a slurry state by receiving power from the controller,
Wherein,
Based on predetermined control conditions,
A first control mode in which power is not supplied from the second storage unit to the preprocessing unit when power is supplied from the first storage unit to the preprocessing unit,
A second control mode in which power is not supplied from the first storage unit to the preprocessor when power is supplied from the second storage unit to the preprocessor,
Wherein the predetermined control condition includes:
Wherein, during operation of said first generator and said second generator,
Wherein the second control mode is implemented when the first generator is stopped,
Wherein the first control mode is implemented when the operation of the second generator is interrupted,
Wherein the predetermined control condition includes:
Wherein, during operation of said first generator and said second generator,
Wherein the second control mode is implemented after a first time after the first generator is stopped,
And the first control mode is implemented after the first time after the operation of the second generator is stopped.
Power Plant Control System.
delete delete The method according to claim 1,
Wherein the control unit implementing the first control mode implements the second control mode or the control unit implementing the second control mode inputs a control command for controlling the control unit from the user to implement the first control mode, ≪ / RTI > further comprising:
Power Plant Control System.
5. The method of claim 4,
Wherein the predetermined control condition includes:
Wherein the first control mode is implemented when the control unit receives the control command to be converted into the first control mode by the input unit while the first control unit is in operation and the second control mode is being implemented,
And the second control mode is implemented when the control unit receives the control command to be converted into the second control mode by the input unit while the first control mode is being implemented due to the interruption of the operation of the second generator As a result,
Power Plant Control System.
6. The method of claim 5,
Wherein the predetermined control condition includes:
Wherein the first control mode is switched to the first control mode by the input unit after a second time from when the second control mode is implemented while the second control mode is being implemented due to the interruption of the operation of the first generator Wherein the first control mode is implemented when an input is received,
Wherein the first control mode is switched to the first control mode by the input unit a second time before the second control mode is implemented while the second control mode is being implemented due to the interruption of the operation of the first generator Wherein the first control mode is a condition in which the second control mode is implemented when an input is received,
Power Plant Control System.
The method according to claim 6,
Wherein the predetermined control condition includes:
Wherein the first control mode is changed from the time point when the second control mode is implemented to the first control mode by the input unit while the second control mode is being implemented due to the interruption of the operation of the first generator, Wherein the first control mode is implemented when at least two inputs are received.
Power Plant Control System.
8. The method of claim 7,
The predetermined condition is that,
Wherein the first control mode is changed from the time point when the second control mode is implemented to the first control mode by the input unit while the second control mode is being implemented due to the interruption of the operation of the first generator, And the first control mode is implemented when the control command to be converted into the first control mode is input again by the input unit after a third time from when the control command is received ,
Power Plant Control System.

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