KR20180102903A - Reactive power compensation device - Google Patents

Abstract

A reactive power compensating device of the present invention includes a plurality of STATCOM containers for receiving a compensation command received from a power system and outputting a reactive power compensation value corresponding to the received compensation command, and a controller which selects a STATCOM container to perform an operation corresponding to the compensation command based on a priority among the plurality of STATCOM containers when the reactive power compensation value is less than a reference value, and controls the operation of the selected STATCOM container to output the reactive power compensation value. It is possible to improve the operation efficiency of the container.

Description

REACTIVE POWER COMPENSATION DEVICE [0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a reactive power compensation apparatus, and more particularly, to a reactive power compensation apparatus for operating a plurality of containers for compensating for reactive power in a power system according to priority.

The high voltage direct current (HVDC) system converts high voltage AC power generated by a power plant into high voltage direct current power using a power converter and then converts it into AC power using a power converter at the desired power receiving side. .

In this way, when DC power is transmitted, both the DC transmission system and the AC transmission system require compensation of the reactive power.

Reactive power is power that actually does nothing and does not consume heat. Reactive power can not actually be used because it is only generated when the power source and the electric equipment are reciprocated and no energy is generated.

If the grid voltage fluctuates according to the reactive power fluctuation in the system, it may cause malfunction and minor motion of the load, and the problem caused by the failure of the apparatus may cause a small power outage or a large-scale power outage have. Therefore, in order to prevent the above situation from occurring, appropriate compensation such as supplying reactive power required by the system to a separate device or absorbing excessive reactive power is required.

For this purpose, the Flexible Alternating Current Transmission System (FACTS) is used in the transmission system.

The flexible transmission system has a parallel compensation device connected in parallel with a series compensation device connected in series to the system, and a serial parallel compensation device that combines the advantages and disadvantages of the two devices.

A series compensation device is a compensation device such as a TCSC.

The parallel compensator is composed of a parallel reactor using a mechanical switch, a static var compensator (SVC) using a thyristor configured to enable transient characteristics and linear control instead of a mechanical switch with parallel capacitors and power semiconductor devices There is a static synchronous compensator (STATCOM) using an insulated gate bipolar transistor (IGBT) element.

 The dual STATCOM system can be installed in each of a plurality of containers constituting system such as valve, cooling system and controller using IGBT to feed into system and supply or absorb reactive power.

However, the conventional container type STATCOM system does not require a lot of reactive power compensation values in the power system. Therefore, even if only some of the system configuration containers are operated, all STATCOM containers are operated in a standby state.

As a result, the lifetime of all STATCOM containers is shortened and a waste of power consumption required to operate in a standby state occurs indispensably. In addition, there was the inconvenience of having to maintain all STATCOM containers at regular inspection.

As a result, all the STATCOM containers have to be maintained, resulting in a waste of time and manpower required for maintenance.

The present invention is directed to solving the above-mentioned problems and other problems.

An object of the present invention is to provide a reactive power compensator capable of improving operation efficiency of a container by operating only a part of a plurality of STATCOM containers for compensating for reactive power according to a priority order.

In order to compensate for reactive power, instead of operating all the plurality of containers constituting the STATCOM system, only some of the containers are operated according to the priority order, thereby reducing the power consumption required to operate in the standby state, Thereby reducing the maintenance time of the system.

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 precise form disclosed. It can be understood.

The reactive power compensating apparatus according to an embodiment of the present invention includes a plurality of STATCOM containers for receiving a compensation command received from a power system and outputting a reactive power compensation value corresponding to a received compensation command, Selecting a STATCOM container to perform an operation corresponding to the compensation command on the basis of the priority among the plurality of STATCOM containers and outputting the reactive power compensation value to the selected STATCOM container And a controller for controlling the controller.

The controller may control to operate only the selected STATCOM container among the plurality of STATCOM containers and not operate the remaining STATCOM containers.

The priority may be set based on at least one of operation time information of each STATCOM container and status information of submodules included in each STATCOM container.

The operation time information of each STATCOM container is a total operation time operated by the STATCOM container to compensate for reactive power in the power system,

The plurality of STATCOM containers may be prioritized in order of decreasing total operation time.

Wherein the status information of the sub-modules included in each STATCOM container is the number of failed sub-modules among the sub-modules included in the STATCOM container, and the controller assigns priority to the plurality of STATCOM containers in order of the number of failed sub- Ranking can be given.

The controller may prioritize the plurality of STATCOM containers based on the total operating time of each STATCOM container and the number of failed submodules in each STATCOM container.

Wherein the controller is configured to, if the priority change condition is satisfied, assign a priority to the plurality of STATCOM containers based on at least one of operation time information of the respective STATCOM containers and status information of submodules included in each STATCOM container Can be changed.

The number of the plurality of STATCOM containers is three and the controller can operate only one of the three plurality of STATCOM containers based on the priority when the reactive power compensation value is less than the first reference value .

The controller may operate two of the three plurality of STATCOM containers based on the priority if the reactive power compensation value is greater than or equal to the first reference value and less than the second reference value.

The controller may operate all of the plurality of STATCOM containers regardless of the priority if the reactive power compensation value is equal to or greater than the second reference value.

The reference value may be a reactive power value serving as a reference for selecting the number of containers to be operated among the plurality of STATCOM containers.

A reactive power compensation apparatus according to another embodiment of the present invention includes a plurality of STATCOM containers for receiving a compensation command received from a power system and outputting a target voltage value corresponding to a received compensation command, Selects a STATCOM container to output the target voltage value based on a priority among the plurality of STATCOM containers when a voltage adjustment range in which one STATCOM container is operable is less than a reference voltage adjustment range rate, And a controller for controlling the operation of the selected STATCOM container to output a value of the voltage value.

Wherein the number of the plurality of STATCOM containers is three, and the controller, when the voltage adjustment range in which one STATCOM container is operable for outputting the target voltage value is less than the first voltage adjustment range rate, Only one of the plurality of STATCOM containers can be operated.

The controller may operate two of the three plurality of STATCOM containers based on the priority if the voltage adjustment range is greater than or equal to the first voltage adjustment range rate and less than the second voltage adjustment range rate .

The controller can operate all of the plurality of STATCOM containers regardless of the priority when the voltage adjustment range is equal to or greater than the second voltage adjustment range rate.

The reference voltage adjustment range rate may be a ratio of the voltage adjustment range serving as a reference for selecting the number of containers to be operated among the plurality of STATCOM containers.

According to the embodiment of the present invention, since only a part of the plurality of STATCOM containers is operated according to the priority order, the operation efficiency of the container can be improved.

Further, according to the embodiment of the present invention, as only a part of the plurality of STATCOM containers is operated according to the priority order, the lifetime of each container can be increased.

In addition, only STATCOM containers that have been driven for many hours in priority order can be maintained, shortening the time required for maintenance, and reducing input labor and costs.

1 is a block diagram illustrating a configuration of a reactive power compensating apparatus according to an embodiment of the present invention.
FIG. 2 is a view showing a detailed configuration of a reactive power compensation apparatus according to the embodiment of FIG.
3 is a flowchart illustrating an operation method of a reactive power compensation apparatus according to an embodiment of the present invention.
FIG. 4 is a view for explaining an example of setting priorities based on the total operation time of each STATCOM container according to an embodiment of the present invention. FIG.
FIG. 5 is a view for explaining an example of setting a priority based on the number of sub-modules included in the STATCOM container according to an embodiment of the present invention.
6 is a diagram illustrating an example of setting priorities based on the total operation time and the penalty value of the STATCOM container according to an embodiment of the present invention.
7 is a diagram illustrating an example in which priority is changed based on the total operation time of the STATCOM container according to an embodiment of the present invention.
8 is a diagram illustrating an example in which priority is changed based on the number of failed submodules included in the STATCOM container according to an embodiment of the present invention.
9 is a diagram illustrating an example in which priority is changed based on the total operation time of the STATCOM container and the number of failed submodules included in the STATCOM container according to an embodiment of the present invention.
10 is a flowchart for explaining an operation method of the reactive power compensation apparatus according to another embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. However, the technical spirit of the present invention is not limited by the embodiments described below, and other degenerative inventions such as addition, change and deletion of another constituent element and other embodiments included in the technical idea of the present invention Examples can be easily suggested.

The terms used in the present invention are selected as general terms that are widely used in connection with the present technology as much as possible. However, in some cases, there are some terms selected arbitrarily by the applicant. Therefore, it should be understood in advance that the present invention should be grasped as a meaning of a term that is not a name of a simple term. In the following description, the word 'comprising' does not exclude the presence of other elements or steps than those listed.

FIG. 1 is a block diagram illustrating a configuration of a reactive power compensating apparatus according to an embodiment of the present invention, and FIG. 2 is a diagram illustrating a detailed configuration of a reactive power compensating apparatus according to an embodiment of FIG.

Referring to FIGS. 1 and 2, a reactive power compensating apparatus 100 according to an embodiment of the present invention may include a power system monitoring unit 110, a STATCOM container set 130, and a controller 150.

The power system monitoring unit 110 may monitor the power system 10. [

The power system monitoring unit 110 may measure at least one of voltage, current, and frequency of the power system 10. [

The power system monitoring unit 110 can measure the voltage of the power system 10 using a voltage meter (not shown) connected to the primary bus line. The voltage meter may be a power transformer (PT) that converts an alternating voltage into a direct voltage proportional thereto.

The power system monitoring unit 110 can measure the current of the power system 10 using the current meter 111 connected to the primary bus. A current transformer (CT) can be used to convert an alternating current into a direct current proportional thereto.

The power system monitoring unit 110 measures the frequency of the power system 10 by using a frequency meter (not shown) connected to the primary side bus or measures the frequency of the voltage measured by the power converter, The frequency can be measured. .

The STATCOM container set 130 may include a plurality of STATCOM containers 131, 132, and 133.

Each of the plurality of STATCOM containers 131, 132, and 133 may output the reactive power compensation value under the control of the controller 150.

Each of the plurality of STATCOM containers 131, 132, 133 may comprise a plurality of sub-modules.

Each sub-module 131a, 132a, 133a may include four switching elements and a capacitor.

The switching device may include an insulated gate bipolar transistor (IGBT) and a diode.

Each of the sub modules 131a, 132a and 133a may have a full bridge type using four switching elements or a half bridge type using two switching elements.

Each of the plurality of STATCOM containers 131 to 133 may include a plurality of submodules and may supply active power or reactive power to the power system 10 through operation of a plurality of submodules.

The controller 150 can control the overall operation of the reactive power compensation apparatus 100. [

The controller 150 may obtain a compensation command for reactive power compensation from the power system 10. [

The controller 150 can determine whether the reactive power compensation value corresponding to the compensation command is less than the reference value.

The controller 150 may select a STATCOM container to perform the operation corresponding to the compensation command among the plurality of STATCOM containers based on the priority, when the compensation value is less than the reference value.

The controller 150 may control the operation of the STATCOM container selected so that the selected STATCOM container outputs the compensation value.

The controller 150 may change the priority of each STATCOM container if the priority change condition that changes the priority of each STATCOM container is satisfied.

The controller 150 may control the plurality of STATCOM containers 131 to 133 to output the compensation value corresponding to the compensation command when the compensation value corresponding to the compensation command is equal to or greater than the reference value.

The plurality of STATCOM containers 131 to 133 may output the compensation value corresponding to the compensation command under the control of the controller 150. [

Details of the operation of the controller 150 will be described later in detail.

The controller 150 may further include a memory (not shown) for storing information about each STATCOM container.

Information about each STATCOM container includes at least one of the total operating time of the STATCOM container, the number of submodules contained in the STATCOM container, the number of failed submodules among the total number of submodules contained in the STATCOM container, and the operation priority of the STATCOM container . ≪ / RTI >

The reactive power compensating device 100 may further include a transformer 170 having a Y-delta (?) Shaped connection.

Transformer 170 may be located between power system 10 and STATCOM container set 130.

The transformer 170 lowers or raises the voltage of the power system 10 to match the STATCOM container set 130 and allows the regulated voltage to be induced in the STATCOM container set 130. To the STATCOM container set 130.

3 is a flowchart illustrating an operation method of a reactive power compensation apparatus according to an embodiment of the present invention.

In particular, FIG. 3 illustrates a plurality of STATCOM containers 131-133 using priority assigned to each STATCOM container, depending on whether the reactive power compensation value required by the power system 10 is above or below a reference value. As shown in Fig.

Referring to FIG. 3, the controller 150 of the reactive power compensating apparatus 100 acquires a compensation command for compensating reactive power from the power system 10 (S301).

In one embodiment, the compensation command may include a compensation command to be compensated for in the power system 10. [ The compensation value may be a reactive power value or a target voltage value to be compensated for in the power system.

In one embodiment, the controller 150 may obtain the compensation value through a reactive power measurement unit (not shown) included in the power system monitoring unit 110.

In yet another embodiment, the controller 150 may obtain a compensation value from the power system 10.

The controller 150 determines whether the reactive power compensation value corresponding to the compensation command is less than the first reference value (S303).

The reference value may be a reactive power value serving as a reference for selecting the number of containers to be operated among a plurality of STATCOM containers.

In one embodiment, the first reference value may be a reactive power value that is a reference for operating one of the plurality of STATCOM containers 131, 132, 133.

If the compensation value is less than the first reference value, the controller 150 selects one STATCOM container to perform the operation corresponding to the compensation command among the plurality of STATCOM containers based on the priority (S305).

In one embodiment, each of the plurality of STATCOM containers 131, 132, and 133 may be assigned a priority indicating the order of performing the operation corresponding to the compensation command.

For example, the first STATCOM container 131 may have a first priority, the first STATCOM container 132 may have a second priority, and the third STATCOM container 133 may have a third priority .

In this case, when the reactive power compensation value is less than the first reference value, the controller 150 can operate only the STATCOM container 131 having the first priority.

In one embodiment, the priority may be set based on one or more of the operating time information of each STATCOM container, and status information of the submodules contained in each STATCOM container.

As an example, the operating time information of the STATCOM container may be the total time the STATCOM container has operated to compensate the reactive power in the power system 10. [

As another example, the operation time information of the STATCOM container may be a period from the time when the STATCOM container is set to the first priority to the present time.

The controller 150 may assign a priority to each of the plurality of STATCOM containers 131, 132, and 133 based on the total operation time of each STATCOM container.

This will be described with reference to FIG.

FIG. 4 is a view for explaining an example of setting priorities based on the total operation time of each STATCOM container according to an embodiment of the present invention. FIG.

The controller 150 may count the total operating time of each of the plurality of STATCOM containers 131, 132, 133. To this end, the controller 150 may include a counter (not shown).

4, the total operating time of the first STATCOM container 131 is 0.3 years, the total operating time of the second STATCOM container 132 is 0.5 years, the total operating time of the third STATCOM container 131 is It can be one year.

The controller 150 can set priorities in the order of smaller total operation time. Accordingly, a first priority in the first STATCOM container 131, a second priority in the second STATCOM container 132, and a third priority in the third STATCOM container 133 may be set.

3 will be described again.

In another embodiment, the controller 150 may assign a priority to each of the plurality of STATCOM containers 131, 132, 133 based on the status information of the submodules contained in each STATCOM container.

The status information of submodules contained in the STATCOM container may include the number of failed submodules in the STATCOM container.

The controller 150 may assign a priority to each of the plurality of STATCOM containers 131, 132, and 133 according to the number of failed submodules.

This will be described with reference to FIG.

FIG. 5 is a view for explaining an example of setting a priority based on the number of sub-modules included in the STATCOM container according to an embodiment of the present invention.

5, the number of failed submodules among the submodules included in the first STATCOM container 131 is 1, and the number of failed submodules among the submodules included in the second STATCOM container 132 is 2 And the number of failed submodules among the submodules included in the third STATCOM container 133 may be three.

The controller 150 can set priorities in the ascending order of the number of failed submodules. Accordingly, a first priority in the first STATCOM container 131, a second priority in the second STATCOM container 132, and a third priority in the third STATCOM container 133 may be set.

3 will be described again.

In another embodiment, the controller 150 may assign priority to each of the plurality of STATCOM containers 131, 132, 133 based on the total operating time of each STATCOM container and the status information of the submodules contained in each STATCOM container Can be assigned.

The status information of the submodules contained in the STATCOM container may include a penalty value corresponding to the number of failed submodules in the STATCOM container.

In one embodiment, the penalty value may be the number of failed submodules contained in each STATCOM container.

In yet another embodiment, the penalty value may be the total operating time of non-failed submodules among the submodules included in each STATCOM container.

The controller 150 may assign a priority to each of the plurality of STATCOM containers 131, 132, 133 based on the sum of the total operation time and the penalty value of each STATCOM container.

This will be described with reference to FIG.

6 is a diagram illustrating an example of setting priorities based on the total operation time and the penalty value of the STATCOM container according to an embodiment of the present invention.

6, the sum of the total operation time and penalty value of the first STATCOM container 131 is A, the sum of the total operation time and penalty value of the second STATCOM container 132 is B, The sum of the total operating time and the penalty value of the battery 133 may be C.

Here, since the unit of the total operation time and the penalty value may be different, a conversion formula for unifying the units may be applied to A, B, and C.

In addition, the priority for the sum of the total operation time and the penalty value can also be set through a conversion equation.

Here, it is assumed that A is smaller than B and B is smaller than C.

The controller 150 can set priorities in the order of decreasing total operation time and penalty value of each STATCOM container. Accordingly, a first priority in the first STATCOM container 131, a second priority in the second STATCOM container 132, and a third priority in the third STATCOM container 133 may be set.

3 will be described again.

The priority may be changed based on one or more of the operating time information of each STATCOM container and the status information of the submodules contained in each STATCOM container. This will be described later.

The controller 150 controls the selected one STATCOM container to output the compensation value (S307).

The controller 150 may operate only one STATCOM container selected to output the compensation value and not operate the remaining two STATCOM containers.

In one embodiment, the controller 150 may send a control signal to the selected one STATCOM container to output the reactive power compensation value corresponding to the compensation command.

In another embodiment, controller 150 may send a control signal to two STATCOM containers of the next order if one of the selected STATCOM containers fails to output the reactive power compensation value corresponding to the compensation command.

Thus, the STATCOM container of the second order can output the difference between the reactive power compensation value and the maximum compensation value that can be output by the STATCOM container of the first priority. In another embodiment, The difference between the reactive power compensation value and the output maximum compensation value of the STATCOM container of the first priority can be evenly distributed.

The selected one STATCOM container outputs a compensation value corresponding to the compensation command under the control of the controller 150 (S309).

The selected one STATCOM container can generate a reactive power value corresponding to the reactive power compensation value according to the control signal received from the controller 150 and deliver the generated reactive power value to the power system 10. [

As such, each STATCOM container is prioritized and, when operated, the fatigue associated with the operation of all STATCOM containers can be reduced.

In addition, the administrator can perform maintenance on only the containers having a high priority, so that the time and cost required for the regular inspection can be reduced.

Thereafter, when the priority change condition for changing the priority of each STATCOM container is satisfied (S311), the controller 150 changes the priority of each STATCOM container (S313).

In one embodiment, the controller 150 can determine whether the priority change condition is satisfied based on at least one of operation time information of each STATCOM container and state information of submodules included in each STATCOM container.

For example, when the total operation time of each STATCOM container is changed, the controller 150 may determine that the priority change condition is satisfied.

As another example, when the number of failed submodules included in each STATCOM container is changed, the controller 150 can determine that the priority change condition is satisfied.

As another example, when the total operation time of each STATCOM container and the number of failed submodules included in each STATCOM container are changed, the controller 150 can determine that the priority change condition is satisfied.

As another example, on the other hand, the priority corresponding to each of the plurality of STATCOM containers 131 to 133 can be set or changed through manual input of an administrator managing the reactive power compensating apparatus 100. [

The administrator can manually set the priority of each STATCOM container at each periodic check.

Steps S311 and S313 will be described with reference to Figs. 7 to 9. Fig.

7 is a view for explaining an example in which priority is changed based on the total operation time of the STATCOM container according to an embodiment of the present invention.

In order to illustrate FIG. 7, reference is made to FIG. 4 which includes the contents of the prior priorities.

Based on the current time point, the total operating time of the first STATCOM container 131 was changed from 0.3 years to 1 year, the total operating time of the second STATCOM container 132 was changed from 0.5 years to 0.7 years, The total operating time of the third STATCOM container 133 was changed from one year to 1.5 years.

Controller 150 may re-prioritize each STATCOM container in order of increasing total operating time.

In other words, the controller 150 changes the priority of the second STATCOM container 132 from the second to the first rank, the priority of the first STATCOM container 131 from the first rank to the second rank, The priority of the container 132 may be changed from the second rank to the first rank.

Since the total operating time of the third STATCOM container 133 is still the highest, the priority can be maintained in the third order.

As such, priorities may change as the total operating time changes, reducing the fatigue of the operation on a particular STATCOM container.

Next, Fig. 8 will be described.

8 is a diagram illustrating an example in which priority is changed based on the number of failed submodules included in the STATCOM container according to an embodiment of the present invention.

To illustrate Fig. 8, reference is made to the contents of Fig. 5 which includes the contents of the prior priorities.

The number of failed submodules included in the first STATCOM container 131 is changed from one to five based on the current point of view and the number of failed submodules included in the second STATCOM container 132 is changed from two 4, and the number of failed submodules included in the third STATCOM container 133 is three, which is unchanged.

Controller 150 may re-prioritize each STATCOM container in order of decreasing number of failed submodules.

That is, the controller 150 can change the priority of the third STATCOM container 133 from the third rank to the first rank, and the priority of the first STATCOM container 131 from the first rank to the third rank .

The priority of the second STATCOM container 132 remains unchanged.

Thus, as the number of failed submodules is changed, the priorities are changed so that the fatigue of the operation on a particular STATCOM container can be reduced.

9 is a diagram illustrating an example in which priority is changed based on the total operation time of the STATCOM container and the number of failed submodules included in the STATCOM container according to an embodiment of the present invention.

Particularly, FIG. 9 is a diagram for explaining an example in which priority is changed based on a penalty value selected according to the total operation time of the STATCOM container and the number of failed submodules included in the STATCOM container.

To illustrate FIG. 9, reference is made to FIG. 6, which includes the contents of the prior priorities.

The sum of the total operating time and penalty value of the first STATCOM container 131 has changed from A to D and the sum of the total operating time and penalty value of the second STATCOM container 132 has changed from B to E, and the sum of the total operation time and the penalty value of the third STATCOM container 133 was changed from C to F. [

Where E is greater than F and D is greater than E.

The controller 150 may re-assign priority to each STATCOM container in the order of the sum of the total operation time and the penalty value being small.

That is, the controller 150 can change the priority of the third STATCOM container 133 from the third rank to the first rank, and the priority of the first STATCOM container 131 from the first rank to the third rank .

The priority of the second STATCOM container 132 remains unchanged.

As such, the priorities are changed as the total operating time and penalty values change, so that the fatigue of the operation in a particular STATCOM container can be distributed.

Thereafter, the controller 150 performs step S305 and subsequent steps in accordance with the changed priority order.

That is, when the reactive power compensation value requested by the power system 10 is less than the reference value, the controller 150 controls the plurality of STATCOM containers 131, 132, 133 to output the reactive power compensation value according to the changed priority order can do.

Meanwhile, the controller 150 determines whether the compensation value corresponding to the compensation command is equal to or greater than the first reference value and less than the second reference value (S315). If the compensation value corresponding to the compensation command is equal to or greater than the first reference value, If it is less than the 2 reference value, two STATCOM containers among the plurality of STATCOM containers are selected (S317).

In one embodiment, the controller 150 may select two STATCOM containers based on the priority assigned to each STATCOM container.

For example, if the compensation value corresponding to the compensation command is equal to or greater than the first reference value and less than the second reference value, the controller 150 can select the STATCOM container of the first priority and the STATCOM container of the second priority have.

The controller 150 controls the selected two STATCOM containers to output the compensation value (S319).

The controller 150 may operate only two STATCOM containers selected to output the compensation value and not operate the remaining one STATCOM container.

The controller 150 can control two selected STATCOM containers to distribute and output the compensation values evenly.

In one embodiment, the controller 150 may send a control signal to the two selected STATCOM containers to output the reactive power compensation value corresponding to the compensation command.

In another embodiment, the controller 150 may send a control signal to the remaining one STATCOM container if two selected STATCOM containers fail to output the reactive power compensation value corresponding to the compensation command.

Accordingly, the remaining one STATCOM container can output the difference between the reactive power compensation value and the maximum compensation value that can be output by the STATCOM container of the first and second priorities.

The two selected STATCOM containers output a compensation value corresponding to the compensation command under the control of the controller 150 (S321).

Thereafter, when the priority change condition for changing the priority of each STATCOM container is satisfied (S311), the controller 150 changes the priority of each STATCOM container (S313).

Meanwhile, if the compensation value corresponding to the compensation command is equal to or greater than the second reference value, the controller 150 controls the three STATCOM containers 131 to 133 to output the compensation value corresponding to the compensation command (S323).

The controller 150 can control all three STATCOM containers 131 to 133 to output the reactive power irrespective of the priorities when the reactive power compensation value corresponding to the compensation command is equal to or greater than the second reference value .

This is to output a compensation instruction value within a short time because an accident has occurred in the power system 10 when the compensation instruction value exceeding the second reference value is applied.

The plurality of STATCOM containers 131 to 133 output the compensation value corresponding to the compensation command under the control of the controller 150 (S325).

10 is a flowchart for explaining an operation method of the reactive power compensation apparatus according to another embodiment of the present invention.

In particular, FIG. 10 illustrates a method of controlling the operation of a plurality of STATCOM containers 131 to 133 using priority assigned to each STATCOM container, depending on whether the voltage regulation range of the STATCOM container exceeds a constant voltage regulation range rate Fig.

Further, in the embodiment of FIG. 10, an example of controlling the operation of the STATCOM container based on the priority may be applied to the embodiment of FIG. 3 to FIG.

10, the controller 150 of the reactive power compensating apparatus 100 acquires a compensation command for compensating reactive power from the power system 10 (S1001).

The compensation command may include a compensation command value to be compensated for in the power system (10). The compensation command value may be a target voltage value to be compensated in the power system 10. [

The controller 150 determines whether the voltage adjustment range operable in one STATCOM container is less than the first voltage adjustment range ratio for outputting the target voltage value corresponding to the compensation command (S1003).

The voltage regulation range rate may be a ratio of a voltage adjustment range that is a reference for selecting the number of containers to be operated among the plurality of STATCOM containers.

The first voltage regulation range rate may be between 50% and 70% of the voltage regulation range operable with one STATCOM container.

The controller 150 can determine whether the voltage adjustment range operable in one STATCOM container is less than the first voltage adjustment range ratio to output the target voltage value corresponding to the compensation command.

If the voltage adjustment range for outputting the target voltage value corresponding to the compensation command is less than the first voltage adjustment range rate, the controller 150 performs the operation corresponding to the compensation command among the plurality of STATCOM containers One STATCOM container to be executed is selected (S1005).

That is, when the voltage adjustment range is less than the first voltage regulation range rate, the controller 150 selects one STATCOM container to perform the operation to compensate the target voltage value among the plurality of STATCOM containers based on the priority order can do.

The controller 150 controls the selected one STATCOM container to output the target voltage value (S1007).

The selected one STATCOM container outputs the target voltage value corresponding to the compensation command under the control of the controller 150 (S1009).

On the other hand, the controller 150 determines whether the voltage adjustment range operable in one STATCOM container is equal to or greater than the first voltage adjustment range ratio and less than the second voltage adjustment range ratio for outputting the target voltage value corresponding to the compensation command S1015). If the voltage adjustment range is equal to or greater than the first voltage adjustment range rate and less than the second voltage adjustment range rate, two STATCOM containers among the plurality of STATCOM containers are selected (S1017).

In one embodiment, the controller 150 may select two STATCOM containers based on the priority assigned to each STATCOM container.

For example, the controller 150 may select the STATCOM container of the first priority and the STATCOM container of the second priority.

The controller 150 controls the two selected STATCOM containers to output the target voltage value (S1019).

The controller 150 may operate only two STATCOM containers selected to output the target voltage value and not operate the remaining one STATCOM container.

The controller 150 can control two selected STATCOM containers so that the target voltage value can be distributed equally and output.

In one embodiment, the controller 150 may send a control signal to the two selected STATCOM containers to output the target voltage value corresponding to the compensation command.

The selected two STATCOM containers output the target voltage value corresponding to the compensation command under the control of the controller 150 (S1021).

Thereafter, the controller 150 changes the priority of each STATCOM container (S1013) when the priority changing condition for changing the priority of each STATCOM container is satisfied (S1011).

On the other hand, when the voltage adjustment range in which one container is operable for outputting the target voltage value corresponding to the compensation command is equal to or greater than the second voltage adjustment range rate, the controller 150 sets the target voltage value And controls the three STATCOM containers 131 to 133 of the server 100 (S1023).

The controller 150 controls the plurality of three STATCOM containers 131 to 133 to output the voltage regardless of the priorities when the target voltage value corresponding to the compensation command is equal to or greater than the second voltage regulation range rate .

This is to output the compensation command value within a short time because an accident has occurred in the power system 10 when the compensation command value exceeding the second voltage regulation range rate is delivered.

The plurality of STATCOM containers 131 to 133 output the target voltage value corresponding to the compensation command under the control of the controller 150 (S1025).

The present invention described above can be embodied as computer-readable codes on a medium on which a program is recorded. The computer readable medium includes all kinds of recording devices in which data that can be read by a computer system is stored. Examples of the computer readable medium include a hard disk drive (HDD), a solid state disk (SSD), a silicon disk drive (SDD), a ROM, a RAM, a CD-ROM, a magnetic tape, a floppy disk, .

The foregoing detailed description should not be construed in all aspects as limiting and should be considered illustrative. The scope of the present invention should be determined by rational interpretation of the appended claims, and all changes within the scope of equivalents of the present invention are included in the scope of the present invention.

Claims (22)

A reactive power compensating apparatus comprising:
A plurality of STATCOM containers for receiving a compensation command received from the power system and outputting a reactive power compensation value corresponding to the received compensation command; And
Selecting a STATCOM container to perform an operation corresponding to the compensation command based on a priority among the plurality of STATCOM containers when the reactive power compensation value is less than a reference value, And a controller for controlling operation of the selected STATCOM container
Reactive power compensation device. The method according to claim 1,
The controller
Only the selected STATCOM container among the plurality of STATCOM containers is operated, and the remaining STATCOM containers are controlled not to be operated
Reactive power compensation device. The method according to claim 1,
The priority is
The operation time information of each STATCOM container, and the status information of the sub-module included in each STATCOM container
Reactive power compensation device. The method of claim 3,
The operation time information of each STATCOM container is the total operation time operated by the STATCOM container to compensate the reactive power to the power system,
The controller
And prioritizing the plurality of STATCOM containers in order of decreasing total operating time
Reactive power compensation device. The method of claim 3,
The status information of the sub-modules included in each STATCOM container is the number of failed sub-modules among the sub-modules included in the STATCOM container,
The controller
And prioritizing the plurality of STATCOM containers in order of decreasing number of failed submodules
Reactive power compensation device. The method of claim 3,
The controller
Prioritizing the plurality of STATCOM containers based on the total operating time of each STATCOM container and the number of failed submodules in each STATCOM container
Reactive power compensation device. The method of claim 3,
The controller
The priority of the plurality of STATCOM containers is changed based on at least one of the operation time information of the respective STATCOM containers and the status information of submodules included in each STATCOM container when the priority change condition is satisfied
Reactive power compensation device. The method according to claim 1,
The number of the plurality of STATCOM containers is three,
The controller
If the reactive power compensation value is less than the first reference value, only one of the three plurality of STATCOM containers is operated based on the priority order
Reactive power compensation device. 9. The method of claim 8,
The controller
And if two or more of the three STATCOM containers are operated based on the priority, if the reactive power compensation value is greater than or equal to the first reference value and less than the second reference value
Reactive power compensation device. 10. The method of claim 9,
The controller
If the reactive power compensation value is equal to or greater than the second reference value, all of the plurality of STATCOM containers are operated regardless of the priority order
Reactive power compensation device. The method according to claim 1,
The reference value is a reactive power value serving as a reference for selecting the number of containers to be operated among the plurality of STATCOM containers
Reactive power compensation device. A reactive power compensating apparatus comprising:
A plurality of STATCOM containers receiving a compensation command received from the power system and outputting a target voltage value corresponding to the received compensation command; And
A STATCOM container for outputting the target voltage value based on a priority among the plurality of STATCOM containers when a voltage adjustment range in which one STATCOM container is operable for outputting the target voltage value is less than a reference voltage adjustment range rate; And a controller for controlling operation of the selected STATCOM container to output the target voltage value
Reactive power compensation device. 13. The method of claim 12,
The controller
Only the selected STATCOM container among the plurality of STATCOM containers is operated, and the remaining STATCOM containers are controlled not to be operated
Reactive power compensation device. 13. The method of claim 12,
The priority is
The operation time information of each STATCOM container, and the status information of the sub-module included in each STATCOM container
Reactive power compensation device. 15. The method of claim 14,
The operation time information of each STATCOM container is the total operation time operated by the STATCOM container to compensate the reactive power to the power system,
The controller
And prioritizing the plurality of STATCOM containers in order of decreasing total operating time
Reactive power compensation device. 15. The method of claim 14,
The status information of the sub-modules included in each STATCOM container is the number of failed sub-modules among the sub-modules included in the STATCOM container,
The controller
And prioritizing the plurality of STATCOM containers in order of decreasing number of failed submodules
Reactive power compensation device. 15. The method of claim 14,
The controller
Prioritizing the plurality of STATCOM containers based on the total operating time of each STATCOM container and the number of failed submodules in each STATCOM container
Reactive power compensation device. 15. The method of claim 14,
The controller
The priority of the plurality of STATCOM containers is changed based on at least one of the operation time information of the respective STATCOM containers and the status information of submodules included in each STATCOM container when the priority change condition is satisfied
Reactive power compensation device. 13. The method of claim 12,
The number of the plurality of STATCOM containers is three,
The controller
If only one STATCOM container is operable for outputting the target voltage value, and if the voltage adjustment range in which one STATCOM container is operable is less than the first voltage regulation range rate, only one of the three plurality of STATCOM containers is operated
Reactive power compensation device. 20. The method of claim 19,
The controller
And when two or more of the three STATCOM containers are operated based on the priority, when the voltage adjustment range is equal to or greater than the first voltage adjustment range rate and less than the second voltage adjustment range rate
Reactive power compensation device. 21. The method of claim 20,
The controller
And when the voltage adjustment range is equal to or greater than the second voltage regulation range rate, all of the plurality of STATCOM containers are operated regardless of the priority order
Reactive power compensation device. 13. The method of claim 12,
Wherein the reference voltage adjustment range rate is a ratio of the voltage adjustment range serving as a reference for selecting the number of containers to be operated among the plurality of STATCOM containers
Reactive power compensation device.

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