KR102082488B1 - Apparatus and method for supplying emergency power of wind power generation system - Google Patents

Abstract

The present invention relates to an emergency power supply apparatus and method for a wind power generation system that enables the emergency power supply to the wind power generation system integrated in one emergency generator installed in the substation of the wind farm when the system power is lost.
To this end, the present invention provides an emergency generator for transmitting a system power loss signal to the wind generator side, while the system power is lost; And a plurality of wind generators that transmit a power request signal for requesting power to the emergency generator when emergency power is required in a state in which system power is lost, wherein the emergency generator is turned off. Receiving a power request signal from the wind generator, the power generation unit (ON) to produce and supply the power required by the wind generator, if the power required by the plurality of wind generators exceeds the rated output of the emergency generator, wind power It is desirable to supply emergency power in accordance with the priority of power required by the generator.
Accordingly, the present invention does not need to install the emergency generator in each wind generator, it is possible to apply a low protection class to the emergency generator, to reduce the installation cost, and to install one emergency generator in the substation of the wind farm By supplying emergency power to the wind power generation system, the load ratio of the emergency generator can be increased, and maintenance costs such as fuel supply can be reduced.

Description

Emergency power supply and method of wind power generation system {APPARATUS AND METHOD FOR SUPPLYING EMERGENCY POWER OF WIND POWER GENERATION SYSTEM}

The present invention relates to an emergency power supply device and method of the wind power generation system, in particular, when the system power is lost, it is possible to supply the emergency power to the wind power generation system integrated in one emergency generator installed in the substation of the wind farm An emergency power supply and method for a wind power generation system.

Wind power generation system that obtains wind energy by natural wind is a system that converts the kinetic energy of wind into mechanical energy by using various types of windmills, and obtains power by driving generator with mechanical energy. Renewable energy sources have many advantages, including the use of resources.

Such a wind power generation system generally generates electric power by forming a large-scale complex in which wind generators are connected in parallel, and operates the power generation system in connection with a power grid.

On the other hand, if the grid power is lost due to a system failure, power cannot be supplied to main loads such as yaw, hydraulic unit, and control unit. The load may increase.

Therefore, there is a need for an emergency power supply capable of supplying power to the main load of the wind power generation system even when the system power is lost.

1 is a view schematically showing the configuration of an emergency power supply of a wind power generation system according to the prior art.

As shown in FIG. 1, conventionally, emergency power is supplied to a wind power generation system when the system power is lost by using the emergency generator 1 implemented as a diesel generator. Since the generator 5 is installed on the external platform of the lower structure, the load of the external platform is increased due to the weight of the emergency generator 1, and there is a problem that a high degree of protection is required because it is directly exposed to seawater sea wind.

In addition, due to the emergency generator (1) for each wind generator (5) has a problem in that the load ratio is low because the average amount of power used compared to the maximum amount of power supply can be low, so that the over-installation of the required load amount is required.

Korean Patent Publication No. 10-1358276

The present invention has been made to solve the above problems, when the system power is lost, it is possible to supply emergency power to the wind power generation system integrated in one emergency generator installed in the substation of the wind farm, It is an object of the present invention to provide an emergency power supply apparatus and method for a wind power generation system that can perform emergency power supply control according to the power demand between the wind power generation systems.

Emergency power supply apparatus for a wind power generation system according to an embodiment of the present invention for achieving the above object, an emergency generator for transmitting a system power loss signal to the wind generator side, while the system power is lost; And a plurality of wind generators that transmit a power request signal for requesting power to the emergency generator when emergency power is required in a state in which system power is lost, wherein the emergency generator is turned off. Receiving a power request signal from the wind generator, the power generation unit (ON) to produce and supply the power required by the wind generator, if the power required by the plurality of wind generators exceeds the rated output of the emergency generator, wind power It is desirable to supply emergency power in accordance with the priority of power required by the generator.

On the other hand, the emergency power supply method of the wind power generation system according to an embodiment of the present invention, the process of transmitting the system power loss signal to the wind generator side, while the loss of the system power in the emergency generator; Transmitting an electric power request signal requesting electric power to the emergency generator when an emergency power source is required in the wind power generator which senses the loss of the system power; Confirming, by the emergency generator, whether the amount of power required by the plurality of wind generators exceeds the rated output of the emergency generator; And when the amount of power required by the plurality of wind generators exceeds the rated output of the emergency generator, the power supplying power only to the wind generators, which should be supplied preferentially according to the priority of the power required by each wind generator. It is preferable to include a supply process.

According to the emergency power supply device and method of the wind power generation system of the present invention, it is not necessary to install the emergency generator in each wind generator, it is possible to apply a low degree of protection to the emergency generator, it is possible to reduce the installation cost.

In addition, by using an emergency generator installed in the substation of the wind farm, emergency power is supplied to the wind power generation system and power supply control is performed to increase the load ratio of the emergency generator and to maintain maintenance costs such as fuel supply. Can be saved.

1 is a view schematically showing the configuration of an emergency power supply of the wind power generation system according to the prior art.
Figure 2 is a schematic view showing the configuration of an emergency power supply of the wind power generation system according to an embodiment of the present invention.
Figure 3 is a schematic view showing the electrical configuration of the emergency power supply of the wind power generation system according to an embodiment of the present invention.
4 is a view for explaining the operation of the emergency power supply of the wind power generation system according to an embodiment of the present invention.
5 to 7 is a process for explaining the emergency power supply method of the wind power generation system according to an embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings will be described in detail with respect to the emergency power supply and method of the wind power generation system according to an embodiment of the present invention.

2 is a view schematically showing the configuration of the emergency power supply of the wind power generation system according to an embodiment of the present invention, Figure 3 is an electrical power of the emergency power supply of the wind power generation system according to an embodiment of the present invention Figure is a schematic view of the configuration.

2 and 3, the emergency generator 10 detects when the system power is lost, and starts transmitting the grid power loss signal (Grid Loss Signal) to the wind generator 20 side.

The above-described system power loss signal is a signal transmitted from the emergency generator 10 to the wind generator 20 until the system power is restored from the moment when the system power loss is detected, and when the system power is lost, the emergency generator ( 10) is a signal sent to prevent the power supply to the wind generator 20 side is incorrectly recognized as grid power. Accordingly, when power is supplied while the system power loss signal is being applied from the emergency generator 10, the wind generator 20 determines that the power is the power supplied from the emergency generator 10.

The emergency generator 10 described above includes a communication unit 11, a system power loss detection unit 13, a memory unit 15, a power generation unit 17, and a control unit 19.

The communication unit 11 is responsible for communication with the wind generators 20 under the control of the control unit 19, and is connected to the communication units 21 of the respective wind generators 20 through a communication network.

Such a communication unit 11 is preferably driven by receiving power from a battery (not shown).

The system power loss detecting unit 13 detects that the system power is lost and notifies the control unit 19 that the system power is lost.

The memory unit 15 includes information on priority of power to be supplied to the wind generator 20 and generator identification information uniquely assigned to each wind generator 20 (for example, the first wind generator-0001, 2nd wind power generator-0002, 3rd wind power generator-0003, 4th wind power generator-0004, ..., and required electric power identification information which shows the electric power used by the wind power generator 20 side where electric power will be used (for example, Battery charge power-01, yawing motor drive power-02, hydraulic device drive power-03, heater drive power-04, ...).

The power generation unit 17 is driven under the control of the control unit 19 to produce electric power.

When the system power loss detection is detected through the system power loss detecting unit 13, the control unit 19 switches the current state of the emergency generator 10 to the 'system power loss' state, and through the communication unit 11, the wind power generator ( 20) and start transmitting the system power loss signal. When the power generation unit 17 is turned off and receives a power demand signal from the wind power generator 20, the power generation unit 17 is turned on to turn on the power generation unit 17. Produce and supply the power needed by the

In addition, when the controller 19 receives a power request signal from the plurality of wind generators 20, when the amount of power required by the plurality of wind generators 20 exceeds the rated output of the emergency generator 10, the wind generator ( According to the priority of the power required by the 20) side, power is supplied to some wind generators 20 first, and the other wind generators 20 are standby and supply power. That is, the controller 19 selects the wind generator 20 that should be supplied with power first and the wind generator 20 that may later supply power according to the priority of the power requested by the wind generator 20. To supply.

For example, assuming that the priority of the power is in the order of battery charging power, yawing motor driving power, hydraulic device driving power, heater driving power, the first wind power generator 20 requires the yawing motor driving power, When the second wind power generator 20 requires the battery charging power and the third wind power generator 20 requires the heater driving power, the second wind power generator 20 and the first wind power generator 20 according to the priority of the electric power. ), The third wind power generator 20 in order to supply power, the rated output of the emergency generator 10 can supply power to the second wind power generator 20 and the first wind power generator 20, but the third wind power When power cannot be supplied to the generator 20, as shown in FIG. 4, a power supply signal (Connection OK signal) is transmitted to the second wind power generator 20 and the first wind power generator 20, and the third wind power. The generator 20 transmits a power wait signal.

As described above, the emergency generator 10 is preferably installed in the substation building of the wind farm, so as not to be directly exposed to sea water and sea wind.

On the other hand, the wind generator 20 needs to drive auxiliary equipment such as a yawing motor, a heater, a hydraulic unit, etc., which are difficult to drive with battery power when the system power is lost. In this case, a power request signal for requesting power is transmitted to the emergency generator 10.

The wind generator 20 described above includes a communication unit 21, a system power loss detection unit 23, a memory unit 25, a power switch 26, an auxiliary device 27, and a control unit 29.

The communication unit 21 is responsible for communication with the emergency generator 10 under the control of the control unit 29, and is connected to the communication unit 11 of the emergency generator 10 through a communication network.

Such a communication unit 21 is preferably driven by receiving power from a battery (not shown).

The system power loss detecting unit 23 detects that the system power is lost and notifies the control unit 29 that the system power is lost.

The memory unit 25 includes the generator identification information uniquely allocated to the wind generator 20 itself and the required power identification information indicating the power to be used for the emergency generator 10 (eg, battery charging power). -01, yawing motor drive power-02, hydraulic device drive power-03, heater drive power-04, ...) are stored.

The power switch 26 is opened and closed under the control of the control unit 29 to apply or cut off power supplied from the emergency generator 10 to the auxiliary device 27 such as a battery charging device, a yawing motor, a heater, a hydraulic device, and the like.

When the system power loss detection unit 23 detects a system power loss, the controller 29 checks whether an error other than the system power loss occurs, and if the other error does not occur, indicates that the current state is 'system'. The auxiliary power device 27 such as a battery charging device, a yawing motor, a heater, a hydraulic device, etc. in a state where the system power loss signal is received from the emergency generator 10, that is, the system power supply is lost. Checks whether power for driving the power supply is required, and transmits a power request signal for power to the emergency generator 10 through the communication unit 21 when power for driving the auxiliary device 27 is required. .

As described above, when transmitting the power request signal to the emergency generator 10, the control unit 29 is required power identification information indicating the power to be used by the emergency generator 10 in the power request signal and the power to be used, the wind generator (20) It is desirable to include and transmit generator identification information uniquely assigned to itself.

For example, the required power identification information indicates that the battery charging power required to charge the battery is 01, the yawing motor drive power required to drive the yawing motor is 02, the hydraulic drive power required to drive the hydraulic device is 03, the heater drive power required to drive the heater. Is set to 04, when the second wind power generator 20 requests the battery charging power to the emergency generator 10, the control unit 29 of the second wind power generator 20 is a battery to the power request signal 01 indicating the charging power and identification information (for example, 0002) of the second wind power generator 20 itself are transmitted.

In addition, when the control unit 29 transmits the power request signal to the emergency generator 10 and receives the power supply signal from the emergency generator 10, the controller 29 closes the power switch 26 and is supplied from the emergency generator 10. When power is applied to the auxiliary device 27, and when the power standby signal is received from the emergency generator 10, the power switch 26 is opened to supply power supplied from the emergency generator 10 to the auxiliary device 27. Do not

In addition, when power is supplied in a state where system power is lost, the control unit 29 checks whether a system power loss signal is being received from the emergency generator 10, and supplies a power when a system power loss signal is being received. The power to be determined is determined to be the power supplied from the emergency generator 10, and if the system power loss signal is not received, the system power is determined to be alive and performs normal operation.

On the other hand, the repeater 30 is to perform a signal relay between the emergency generator 10 and the plurality of wind generators 20, the repeater 30 receives the system power loss signal transmitted from the emergency generator 10 to the wind power generator Or transmits to the emergency generator 10 side by receiving the power request signal transmitted from the plurality of wind generators 20.

As described above, the repeater 30 may be selectively installed according to the configuration of a communication network connecting the emergency generator 10 and the plurality of wind generators 20.

On the other hand, the switch (S / W) in Figures 2 to 4 is normally open when power is normally supplied from the grid power to the wind generator 20 side, that is, in case of emergency that the grid power is not supplied to the wind generator 20 side, that is When the system power is lost, it is closed so that the power produced by the emergency generator 10 is supplied to the wind generator 20 side.

5 to 7 is a process for explaining the emergency power supply method of the wind power generation system according to an embodiment of the present invention.

First, as shown in FIG. 5, the control unit 19 of the emergency generator 10 is in the 'standby' state (S10), and when the system power loss is detected through the system power loss detecting unit 13 (S12: For example, the transmission of the system power loss signal to the wind power generator 20 through the communication unit 11 (S14), and converts the current state of the emergency generator 10 to the 'system power loss' state (S16).

Thereafter, the control unit 19 of the emergency generator 10 checks whether the system power is restored, and when the system power is restored (S18: Yes), stops transmitting the system power loss signal to the wind generator 20 (S20), The process proceeds to step S10 to switch the current state back to the 'standby' state.

If the system power is not restored (S18: No), it is checked whether a power request signal is received from at least one wind generator 20 side (S22).

If the power request signal is not received from the wind generator 20 side as a result of the checking of the step S22 (S22: No), the power generation unit 17 is continuously turned off (S24), and at least one wind generator ( When the power request signal is received from the 20) side (S22: YES), the power generation unit 17 is turned on to produce and supply the power required by the wind power generator 20 (S26).

When the power generation unit 17 is turned on according to the power request signal in step S26, the power required by the at least one wind generator 20 is produced when the power generator 17 produces and supplies the power required by the wind generator 20. If the emergency power generator 10 exceeds the rated output may occur. In this case, the controller 19 first supplies power to some of the wind generators 20 according to the priority of the power requested by the wind generator 20, and then waits for the remaining wind generator 20 to supply power. .

This will be described in more detail with reference to FIG. 6 as follows.

When a power request signal is received from at least one wind generator 20 side (S22: YES), the control unit 19 turns on the power generation unit 17 to produce the power required by the wind generator 20. (S26-1), and check whether the amount of power required by the at least one or more wind generators 20 exceeds the rated power of the emergency generator 10 (S26-2).

If the result of the check of the above step S26-2 does not exceed the rated output of the emergency generator 10 in the amount of power required by the wind generator 20 (S26-2: No), all wind generators that transmit the power request signal In step S26-3, the power supply signal is transmitted.

On the other hand, if the amount of power required by the wind generator 20 exceeds the rated output of the emergency generator 10 (S26-2: YES), the rated output of the emergency generator 10, And wind power that may be supplied later and the wind power generator 20 that must be supplied with power first according to the priority of the demand power by using the required power identification information included in the power request signal received from the wind power generator 20. Select the generator 20 (S26-4).

If the wind generator 20 to be supplied with power preferentially through the above-described process S26-4 and the wind generator 20 to supply power later are selected, the wind generator 20 to be supplied with power is selected first. The wind power generator 20 transmits a power supply signal, and transmits a power standby signal to the wind power generator 20 selected as the wind power generator 20 that may supply power later (S26-5).

For example, the priority of the power is battery charging power, yawing motor driving power, hydraulic device driving power, heater driving power, and the first wind power generator 20 requests the yawing motor driving power, and the second wind power. When the generator 20 requires the battery charging power and the third wind power generator 20 requests the heater driving power, in step S26-4, the controller 19 controls the second wind power generator according to the priority of the power. (20), the first wind power generator 20, the third wind power generator 20 in order of priority. According to the priority determined as described above and the rated output of the emergency generator 10, the second wind power generator 20 and the first wind power generator 20 may be supplied with power, but the third wind power generator 20 may supply power. If not, the power supply signal is transmitted to the second wind power generator 20 and the first wind power generator 20, and the power standby signal is transmitted to the third wind power generator 20.

Meanwhile, as shown in FIG. 7, the control unit 29 of the wind power generator 20 normally operates the wind power generator 20 (S30), and whether the system power is lost through the system power loss detection unit 23. Check (S32).

If the system power is not lost as a result of the check of the above process S32, the process proceeds to the above process S30 to operate the wind generator 20 normally, and if the system power is lost, check whether an error other than the system power loss occurs. (S34).

As a result of the check of step S34, if an error other than the loss of the system power occurs (S34; YES), all driving of the wind generator 20 is stopped (S36), and it is confirmed whether the corresponding error is recovered (S38).

If the error is not recovered (S38: No) as a result of the check of the process S38 (S38: No), and stops all driving of the wind generator 20 until the error is recovered (S36), if the error is recovered ( S38: Yes), the current state of the wind generator 20 is switched to the 'system power loss' state (S40).

On the other hand, if no error occurs other than the system power loss as a result of the check of the above step S34 (S34: No), the process proceeds to the above step S40 to change the current state of the wind power generator 20 to 'loss of system power' state. Switch.

Then, the control unit 29 of the wind generator 20 checks whether the system power is restored (S42).

In the process S42, the control unit 29 determines that the system power is restored when the system power loss signal received from the emergency generator 10 is cut off and power is supplied.

When the system power is restored (S42: YES) as a result of the check of the process S42, the process proceeds to S30 above to operate the wind generator 20 normally, and when it is confirmed that the system power is not restored (S42: NO), Check whether the situation is required to request power to the emergency generator (10) (S44).

In the process S44, the control unit 29 of the wind power generator 20 needs to drive devices that are difficult to drive with battery power, such as a battery charging device, a yawing motor, a heater, a hydraulic device, and the like. It can be judged as a situation that requires power to the side.

In the case where the check result of the process S44 does not require the power to the emergency generator 10 side (S44: No), the process proceeds to the above process S40 and the current state of the wind power generator 20 'loss of power system' Keep it in a state.

On the other hand, in the case of the situation that the power generator to request the power to the emergency generator 10 side as a result of the check in step S44 (S44: Yes), the power request signal for transmitting power to the emergency generator 10 (S46).

When the power request signal is transmitted to the emergency generator 10 in step S46, the control unit 29 requires required power identification information indicating where the power required by the emergency generator 10 is the power to be used. For example, battery charge power-01, yawing motor drive power-02, hydraulic device drive power-03, heater drive power-04, ..., and generator identification information uniquely assigned to each wind generator 20 (e.g., , First wind power generator-0001, second wind power generator-0002, third wind power generator-0003, fourth wind power generator-0004, ... is preferably included.

After transmitting the power request signal to the emergency generator 10 through the above-described process S46, and receiving the power supply signal from the emergency generator 10 (S48: Yes), by closing the power switch 26 emergency generator 10 Power supplied from the subsidiary device 27 is applied to the auxiliary device 27 (S50), and when the power standby signal is received from the emergency generator 10 (S48: No), the power switch 26 is opened to open the emergency generator 10. The power supplied from the secondary device 27 is not applied (S52).

Emergency power supply apparatus and method of the wind power generation system of the present invention is not limited to the above-described embodiment can be carried out in various modifications within the scope of the technical idea of the present invention.

10. emergency generators, 11, 21.
13. System power loss detection unit, 15. Power generation unit,
17, 23. control unit, 20. wind generator,
30. Repeater

Claims (10)

An emergency generator including a power generation unit generating power; And
It includes a plurality of wind generators,
The emergency generator transmits a system power loss signal, including a system power loss detection unit for detecting a loss of system power.
When the wind power generator needs emergency power in a state where system power is lost, the wind generator transmits a power request signal to the emergency power generator,
When the emergency power generator is turned off and receives a power request signal from the wind generator, the emergency generator turns on the power generator to produce and supply power required by the wind generator.
The emergency generator, the emergency power of the wind power generation system including a control unit for supplying emergency power according to the priority of the power required by the wind generator side, when the amount of power required by the plurality of wind generators exceeds the rated output of the emergency generator Feeding device. delete According to claim 1, wherein the emergency generator,
Communication unit in charge of communication with the wind generator; And
And a memory unit configured to store information on priority of power to be supplied to the wind generator, and required power identification information indicating where the power required by the wind generator is to be used.
The control unit,
While the system power loss is detected through the system power loss detecting unit, the system power loss signal is transmitted to the wind generator through the communication unit, and when the power request signal is received from the wind generator, the power generator is turned on to turn on the power generator. If the power required by a plurality of wind generators exceeds the rated output of the emergency generator, the wind generator to supply power preferentially in accordance with the priority of the power required by the wind generator side, and the later power. After selecting the wind power generator to supply power to the wind power generator to supply power first, the power supply signal to the wind generator to supply power later, the power standby signal of the wind power system to transmit the power standby signal. An emergency generator including a power generation unit generating power; And
It includes a plurality of wind generators,
The emergency generator transmits a system power loss signal, including a system power loss detection unit for detecting a loss of system power.
When the wind power generator needs emergency power in a state where system power is lost, the wind generator transmits a power request signal to the emergency power generator,
When the emergency power generator is turned off and receives a power request signal from the wind generator, the emergency generator turns on the power generator to produce and supply power required by the wind generator.
The wind generator,
Communication unit in charge of communication with the emergency generator;
A system power loss detecting unit detecting a system power loss when the system power is lost;
A memory unit configured to store generator identification information assigned to the wind generator and required power identification information indicating where the power required by the emergency generator is the power to be used; And
If emergency power is required, the power request signal for transmitting power to the emergency generator through the communication unit,
Emergency power supply of the wind power generation system including a control unit for transmitting the power request signal including the generator identification information and the required power identification information. The method of claim 4, wherein the control unit,
After transmitting the power request signal to the emergency generator, and receiving the power supply signal from the emergency generator, closes the power switch to apply the power supplied from the emergency generator to the auxiliary device, when receiving the power standby signal from the emergency generator, Emergency power supply in a wind turbine system that opens a switch to prevent the power supplied from the emergency generator from being applied to auxiliary equipment. The emergency power supply of claim 1, further comprising a repeater for performing signal relay between the emergency generator and the plurality of wind generators. Transmitting a system power loss signal to the wind power generator while the emergency power generator detects a loss of system power;
Transmitting an electric power request signal requesting electric power to the emergency generator when an emergency power source is required in the wind power generator which senses the loss of the system power;
Confirming, by the emergency generator, whether the amount of power required by the plurality of wind generators exceeds the rated output of the emergency generator; And
If the amount of power required by the plurality of wind generators exceeds the rated output of the emergency generator as a result of the check, the power supply for supplying power only to the wind generator that must be supplied first according to the priority of the power required by each wind generator Emergency power supply method of wind power generation system comprising a process. The method of claim 7, wherein the power request signal,
An emergency power supply method of a wind power generation system including generator identification information of a wind generator requiring electric power and demand power identification information indicating where electric power required by the emergency generator is to be used. The method of claim 7, wherein
The power supply process,
The process of selecting the wind power generator which should be supplied first according to the priority of the power demand and the wind power generator which may be supplied later using the required power identification information included in the power demand signal received from each wind power generator. ;
Transmitting a power supply signal to a wind generator that needs to supply power first, and a power standby signal to a wind generator that may supply power later; And
When the wind generator receives the power supply signal from the emergency generator, the power switch is closed to apply power supplied from the emergency generator to the auxiliary device, and when the wind generator receives the power standby signal from the emergency generator, the power switch is opened to open the power generator from the emergency generator. Emergency power supply method of the wind power generation system comprising the step of blocking the power supplied to the auxiliary device. Transmitting a system power loss signal to the plurality of wind generators while the emergency power generator is detected to lose system power;
When the wind power generator checks whether the system power is lost and switches to the system power loss state, and when the system power loss signal is received from the emergency generator, emergency power is required from the wind generator, power is supplied to the emergency generator. Transmitting a required power request signal;
The emergency generator receiving the power request signal includes the step of supplying power to the wind generators,
The wind generator is provided with a memory unit for storing the allocated power generator identification information, the required power identification information indicating where the power required by the emergency power generator is to be used,
The transmitting of the power request signal may include transmitting a power request signal for requesting power to the emergency generator and including the generator identification information and the required power identification information in the power request signal.

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