KR101759595B1 - System for protecting contact with ac line and dc line of transmission line - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a transmission line contact protection system for a transmission line, and more particularly, to a transmission line having an AC line and a DC line enclosed therein, by detecting an inductive component by the AC line included in the DC line, It is possible to detect and prevent the line-to-line contact between the line and the DC line, and to prevent and protect line contact of the AC line and the transmission line connected to the DC line to increase the safety of the DC transmission system AC line and DC line, which have the effect of improvement of insulation problem, reduction of transmission loss and efficiency, which are advantages of DC transmission method, Line contact protection system.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a line contact protection system for an AC line and a DC line,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a transmission line contact protection system for a transmission line, and more particularly, to a transmission line having an AC line and a DC line enclosed therein, This invention relates to a line-to-line contact protection system for a transmission line in which a line and a DC line are connected.

A common transmission system is AC transmission.

The AC transmission method is advantageous in that the structure and the power generation method of the generator are simple and power conversion is freely performed. On the other hand, the AC transmission method has advantages such as frequency control, difficulty in insulation due to high voltage, induction phenomenon, .

On the other hand, the DC transmission method is advantageous in that loss reduction, efficiency increase, ease of insulation, and frequency control are unnecessary, which can solve the problem of the AC transmission method. However, because the power conversion is not free, Has been a major player in transmission systems.

As the power semiconductor technology has been developed, the problem of power conversion, which is the biggest disadvantage of the DC transmission system, has been solved, and the DC transmission system is expected to gradually replace the existing AC transmission system. For example, Long-haul submarine transmission of applied smart grid.

The DC transmission method is characterized in that AC power generated in a power plant is converted into DC through a rectifier to be transmitted in the form of DC power and converted into AC through an inverter during power distribution. AC and DC are transmitted simultaneously for operational convenience.

Hereinafter, a transmission line in which an AC line and a DC line are bundled will be described with reference to FIG.

1 is a circuit diagram showing a transmission line in which an AC line and a DC line are connected.

As shown in FIG. 1, the transmission line having the AC line and the DC line bundled therein is composed of an AC BUS at a transmission end and a reception end, and a transmission line through which AC power is supplied from an AC BUS at the transmission end, Includes an AC line 10 for transmitting AC power and a DC line 20 for transmitting DC power converted from AC power supplied from the AC BUS of the transmission terminal.

The DC power is converted into DC power through the rectifier, AC power is transmitted through the DC line 20, and AC power is again converted from the inverter at the previous stage.

The AC line 10 and the DC line 20 are connected to one transmission line so that a line contact may occur between the AC line 10 and the DC line 20, An AC induction phenomenon occurs in the DC line 20 due to the AC power flowing in the AC line 10 and an induction component of the AC line 10 may be included in the DC line 20. [

The waveform of the DC power flowing to the DC line 20 may be changed or a frequency may be generated or the rms value of the DC power may be varied by the inductive component, The AC conversion operation of the inverter installed at the preceding stage can not be performed properly due to the distorted waveform and the operation of the installed protective device, measuring instrument, control equipment, and system operation equipment can not be performed properly And the cable is subjected to the rated voltage or rated current more than the rated voltage or current of the cable, thereby causing damage and insulation problems to the cable, The efficiency of the entire transmission line may be lowered.

In addition, a short-circuit accident may occur between the AC line 10 and the DC line 20, whereby the AC line 10 and the AC line 20, which supply power to the AC line 10 and the DC line 20, A problem due to an overcurrent accident can be spread to the entire system as well as the power supply front end supplied with power from the power line 10 and the DC line 20 and the equipment installed in the system and the transmission line may malfunction or break, A power failure may occur throughout the system.

Therefore, in order to solve the problems of the prior art, the line contact protection system of the transmission line with the AC line and the DC line enclosed in this specification detects the induced component by the AC line included in the DC line, A system is provided for detecting contact between a line and the DC line, and preventing any line contact between the AC line and the DC line from interrupting any one of the AC line and the DC line when the lines are in contact with each other .

According to an embodiment of the present invention, there is provided a line contact protection system for a transmission line in which an AC line and a DC line are bundled, the system comprising: a contact detecting unit for detecting contact between the AC line and the DC line, Thereby blocking one of them.

In the embodiment, the line contact protection system detects contact between the AC line and the DC line by detecting an induced component of the AC line included in the DC line.

In the embodiment, the line-to-line contact protection system may detect the inductive component by comparing a magnitude of a specific frequency domain value of current or voltage data measured by the DC line with a reference set value.

In the embodiment, the line contact protection system detects contact between the AC line and the DC line by detecting an induced component of the DC line included in the AC line.

In the embodiment, the line contact protection system may include a circuit breaker provided on the AC line and / or the DC line, a measurement unit that measures data on the DC line, and an AC line And a control unit for controlling the operation of the circuit breaker in accordance with the detection result of the detection unit.

In the embodiment, the measurement unit may further include a frequency meter capable of measuring the frequency of the DC line.

In an embodiment, the DC line is characterized in that a super-high voltage DC voltage of 100 KV to 800 KV converted from an AC voltage is transmitted.

The line contact protection system of the transmission line having the AC line and the DC line enclosed therein detects a contact between the AC line and the DC line by detecting an induced component of the AC line included in the DC line, It is possible to prevent line contact between the AC line and the transmission line connected to the DC line by preventing any one of the AC line and the DC line at the time of line-to-line contact.

In addition, by preventing and protecting the line contact between the AC line and the DC transmission line, it is possible to increase the safety of the DC transmission system and improve the insulation problem, reduction of transmission loss and increase of efficiency And further, it is possible to expand the generation of new and renewable energy and to operate a useful system.

Fig. 1 is a circuit diagram showing a transmission line in which an AC line and a DC line are connected. Fig.
2 is a block diagram for inductive component detection according to an embodiment of a line-to-line contact protection system of a transmission line in which an AC line and a DC line are combined, disclosed herein.
3 is a block diagram according to an embodiment of a line contact protection system of a transmission line in which an AC line and a DC line are bundled.
4 is a circuit configuration diagram of a line contact protection system of a transmission line in which an AC line and a DC line are connected, according to a specific embodiment of the present disclosure.

The techniques disclosed herein can be applied to DC transmission systems. However, the technology disclosed in this specification is not limited to this, and can be applied to all system systems, long distance link systems, and other renewable energy generation systems to which the technical idea of the above technology can be applied. In particular, renewable energy generation is an environmentally friendly development using renewable energy including, for example, solar power generation, biomass generation, small hydro power generation, marine energy generation, waste energy generation, geothermal generation, wind power generation, can do.

It is noted that the technical terms used herein are used only to describe specific embodiments and are not intended to limit the scope of the technology disclosed herein. Also, the technical terms used herein should be interpreted as being generally understood by those skilled in the art to which the presently disclosed subject matter belongs, unless the context clearly dictates otherwise in this specification, Should not be construed in a broader sense, or interpreted in an oversimplified sense. In addition, when a technical term used in this specification is an erroneous technical term that does not accurately express the concept of the technology disclosed in this specification, it should be understood that technical terms which can be understood by a person skilled in the art are replaced. Also, the general terms used in the present specification should be interpreted in accordance with the predefined or prior context, and should not be construed as being excessively reduced in meaning.

Also, the singular forms "as used herein include plural referents unless the context clearly dictates otherwise. In this specification, the terms "comprising ", or" comprising ", etc. should not be construed as necessarily including the various elements or steps described in the specification, Or may be further comprised of additional components or steps.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings, wherein like reference numerals denote like or similar elements, and redundant description thereof will be omitted.

Further, in the description of the technology disclosed in this specification, a detailed description of related arts will be omitted if it is determined that the gist of the technology disclosed in this specification may be obscured. It is to be noted that the attached drawings are only for the purpose of easily understanding the concept of the technology disclosed in the present specification, and should not be construed as limiting the spirit of the technology by the attached drawings.

First, the construction of a line-to-line contact protection system (hereinafter referred to as a line-to-line contact protection system) of a transmission line in which an AC line and a DC line are bundled will be described.

The line contact protection system detects contact between the AC line and the DC line, and blocks any one of the AC line and the DC line at the time of line-to-line contact.

The AC line and the DC line may be connected to the same transmission terminal and the same number front end. The AC line is capable of transmitting AC power supplied from the transmission terminal. The DC line can transmit the DC power converted by the AC power supplied from the power supply end through the rectifier installed at the front end of the DC line. That is, the AC line and the DC line may be formed in the form of a parallel connection.

The DC line can transmit DC voltage of 100KV to 800KV converted from an AC voltage.

The AC line and the DC line may be connected to one AC line and the DC line. The line-to-line contact may occur when the AC line and the DC line are elongated due to aging of the AC line and the DC line, or a change in the surrounding environment. When the AC line and the DC line are in contact with each other, an AC induction phenomenon occurs in the DC line due to the AC power flowing in the AC line, and the DC line can include an induction component by the AC line.

The inductive component can be derived in the form of an AC with a frequency, and at a frequency of 60 Hz, which is the fundamental frequency of the AC power. Due to the inductive component, the DC power flowing to the DC line may fluctuate. If the inductive component is included in the DC power, the waveform of the DC power may change or a frequency may be generated, or the rms value of the DC power may be varied.

If the waveform of the DC power is changed or the frequency is generated and the distortion is generated, the AC conversion operation of the inverter installed at the preceding stage may not be performed due to the distorted waveform. In addition, the distorted waveform may prevent proper operation of the protective device, the measuring instrument, the control equipment, and the system operation equipment installed on the DC line. In addition, the distorted waveform may damage the cable of the DC line and cause an insulation problem.

For example, when the cable is DC-only, it is impossible to accommodate the AC-type inductive component, so that the cable may be damaged or the dielectric strength may be deteriorated due to the inductive component.

Even when the effective value of the DC power fluctuates, the rated voltage or rated current or more of the cable is conducted to the cable, so that damage and insulation problems may occur in the cable. Also, in the case where the effective value of the DC power fluctuates, the operation of the inverter installed at the front end, the protective device installed at the front end, the measuring instrument, the control equipment, and the grid operating device This can be done without effect. Also, when the waveform of the DC power changes, a frequency occurs, or an effective value of the DC power fluctuates, power that does not match the cable rating may flow, thereby reducing the efficiency of the entire transmission line.

If a line-to-line contact occurs between the AC line and the DC line, a short circuit between the AC line and the DC line may occur. If an AC line and the DC line are short-circuited, an overcurrent exceeding the rated current of the AC line and the DC line flows and all the equipment, equipment, and line cables connected to the AC line and the DC line are damaged There may be problems.

In addition, a problem due to an over-current accident can be spread throughout the system as well as the power receiving end that receives power from the AC line, the AC line, and the DC line, which supply power to the AC line and the DC line. As a result, the system and the devices installed in the transmission line may be malfunctioned or damaged, and a power failure may occur in the entire system.

Therefore, in order to prevent line-to-line contact between the AC line and the DC line, it is possible to prevent line-to-line contact between the AC line and the DC line by detecting an induced component of the AC line included in the DC line.

That is, the line contact protection system can detect the contact between the AC line and the DC line by detecting the induced component of the AC line included in the DC line. The line contact protection system may detect the inductive component by comparing a magnitude of a specific frequency domain value of current or voltage data measured by the DC line with a reference set value.

Hereinafter, with reference to FIG. 2, the inductive component detection according to the embodiment of the line contact protection system of the transmission line in which the AC line and the DC line are combined will be described in detail.

2 is a block diagram for inductive component detection according to an embodiment of a line contact protection system of a transmission line in which an AC line and a DC line are bundled.

As shown in Fig. 2, the inductive component detection can convert and calculate DC current and DC voltage data detected in the DC line into frequency domain values.

The conversion into the frequency domain value may be performed by an FFT (Fast Fourier Transform) method that converts a function in the time domain into a function in the frequency domain. In this case, the calculation of the frequency domain value may be calculated to be 60 Hz, which is a commercial frequency of AC power flowing through the AC line. That is, the magnitude of the induced component due to the AC line included in the DC line can be calculated.

The calculation result is represented by an effective value, and can be compared with the reference set value through a comparator. The reference set value may be a reference value for judging whether or not the induction component is included in the DC line by the AC line with an arbitrary set value which is compared based on the effective value.

If the RMS value is equal to or greater than the reference set value, it is determined that the DC line includes the induced component by the AC line, and the induced component can be detected. The induction component detects the line contact between the AC line and the DC line through the detection of the inductive component since the inductance component of the AC line is included in the DC line due to the line contact between the AC line and the DC line. And protect it.

The line contact protection system may also detect contact between the AC line and the DC line by detecting an induced component of the DC line included in the AC line. In this case, it is possible to detect the inductive component by the DC line based on the current and voltage data of the AC line, to detect the inductive component by the DC line included in the AC line, DC line can be detected.

Hereinafter, a concrete embodiment of the line contact protection system of the transmission line in which the AC line and the DC line are combined will be described with reference to FIG. 3 and FIG.

3 is a block diagram according to an embodiment of a line contact protection system of a transmission line in which an AC line and a DC line are bundled.

4 is a circuit diagram of a line contact protection system of a transmission line in which an AC line and a DC line are bundled according to a specific embodiment of the present disclosure.

Referring first to FIG. 3, there is shown a block diagram of an exemplary configuration of the line contact protection system.

3, the line-to-line contact protection system 30 detects the inductive component based on the data measured by the circuit breaker 31, the measurement unit 32 and the measurement unit 32 And the control unit 34 for controlling the operation of the circuit breaker 31 in accordance with the detection result of the detection unit 33. [

Hereinafter, a specific embodiment of the line contact protection system will be described with reference to FIG.

4, the line-to-line contact protection system 30 includes a line breaker 31a provided on the AC line 10 and / or the DC line 20 at a transmission line where an AC line and a DC line are bundled, A measuring unit 32 for measuring the data of the DC line 20 and a detector 31 for detecting an induced component of the AC line 10 included in the DC line 20 based on the data, And a control unit 34 for controlling the operation of the circuit breakers 31a and 31b according to the detection result of the detection unit 33. [

The circuit breakers 31a and 31b are capable of opening and closing the AC line and the DC line, and the operation of the circuit breakers 31a and 31b can be controlled by the control unit 34. [ The breakers 31a and 31b may be any one of a current operation type, a current operation type, and a power operation type, and may be electronic or mechanical.

The measuring unit 32 may include a voltmeter and an ammeter capable of measuring the current and voltage of the DC line 20. [ The current and voltage data of the DC line 20 may be measured by the ammeter and the voltmeter included in the measurement unit 32 and the data may be sent to the detector 33. [ The measuring unit 32 may further comprise a frequency meter capable of measuring the frequency of the DC line 20. [ It is possible to quickly detect the inductive component by the AC line 10 included in the DC line 20 through the frequency system, thereby making it easier to detect the inductive component. For example, when the inductance component of the AC line 10 included in the DC line 20 is a frequency of 60 Hz, the frequency system detects the frequency of 60 Hz included in the DC line 20, Line contact prevention and protection operation of the line contact protection system 30 can be performed quickly.

The detecting unit 33 is configured to convert the data into a frequency domain value, compare the frequency domain value with the reference set value, and detect the inductive component when the frequency domain value becomes equal to or greater than the reference set value .

The inductive component detection can convert and calculate DC current and DC voltage data detected by the DC line 20 into frequency domain values. The conversion into the frequency domain value may be performed by an FFT (Fast Fourier Transform) method that converts a function in the time domain into a function in the frequency domain. In this case, And can be calculated as a commercial frequency of electric power of 60HZ. That is, the magnitude of the induced component by the AC line 10 included in the DC line 20 can be calculated.

The calculation result is represented by an effective value and can be compared with the reference set value. The reference set value may be a reference value for judging whether or not the AC line 10 includes an inductive component in the DC line 20 with an arbitrary set value that is compared based on the effective value. If the RMS value is equal to or greater than the reference set value, it is determined that the DC line 20 includes the inductive component by the AC line 10, and the inductive component can be detected.

The control unit 34 can control the blocking operation of the circuit breakers 31a and 31b when the detection unit 33 detects the inductive component. In this case, the control unit 34 can control the shut-off operation of any one or more of the circuit breaker 31a provided on the AC line 10 and the circuit breaker 31b provided on the DC line 20. [

For example, when it is determined that the AC line 10 needs to be shut off as a result of the detection of the detection unit 33, the control unit 34 controls the AC line 10 such that the circuit breaker 31a provided on the AC line 10 is blocked, The circuit breaker 31a provided on the AC line 10 can be controlled. Alternatively, when it is determined that it is necessary to shut off the DC line 20 as a result of the detection of the detection unit 33, the control unit 34 controls the DC line 20 so that the circuit breaker 31b provided on the DC line 20 is blocked, It is possible to control the circuit breaker 31b provided on the line 20. [ Or when it is determined that it is necessary to shut off both the AC line 10 and the DC line 20 as a result of the detection by the detection unit 33, the control unit 34 controls the AC line 10 and the DC line 20, The breakers 31a and 31b can be controlled such that the breakers 31a and 31b provided on the main body 20 are completely blocked.

Embodiments of the line contact protection system of the transmission line in which the AC line and the DC line are combined can be implemented by being programmed into the system operation program and applied in a software manner.

Embodiments of the line-to-line contact protection system of the transmission line in which the AC line and the DC line are bundled are disclosed in the present specification to monitor the operation of the output control device of the power generation facility, the input / output control device of the substation, the electronic switch, the protection relay, And a monitoring device.

Embodiments of the line-to-line contact protection system of the transmission line in which the AC line and the DC line are combined can be applied to a system operation system that integrally operates the power system.

Embodiments of the line-to-line contact protection system of the transmission line in which the AC line and DC line disclosed in this specification are combined can be implemented by being applied to the power control apparatus.

Embodiments of the line contact protection system of the transmission line in which the AC line and the DC line are bundled as described in the present specification can be applied to control units and protective devices of all distribution facilities used for residential, building, utility, industrial, And the like.

The line contact protection system of the transmission line having the AC line and the DC line enclosed therein detects a contact between the AC line and the DC line by detecting an induced component of the AC line included in the DC line, It is possible to prevent line contact between the AC line and the transmission line connected to the DC line by preventing any one of the AC line and the DC line at the time of line-to-line contact.

In addition, by preventing and protecting the line contact between the AC line and the DC transmission line, it is possible to increase the safety of the DC transmission system and improve the insulation problem, reduction of transmission loss and increase of efficiency And further, it is possible to expand the generation of new and renewable energy and to operate a useful system.

It will be apparent to those skilled in the art that various modifications and changes can be made in the present invention without departing from the spirit or scope of the present invention as defined by the appended claims. It will be appreciated that such modifications and variations are intended to fall within the scope of the following claims.

10: AC line 20: DC line
30: Line contact protection system 31: Circuit breaker
31a: a breaker installed in the AC line 31b: a breaker installed in the DC line
32: measuring unit 33: detecting unit
34:

Claims (8)

A line-to-line contact protection system for a transmission line in which an AC line and a DC line are connected,
A circuit breaker provided on at least one of the AC line and the DC line;
A detector for comparing a frequency value detected by the AC line or the DC line with a reference set value; And
And a control unit for controlling at least one of the AC line and the DC line by controlling the breaker if the frequency value is equal to or greater than the reference set value. The method according to claim 1,
Wherein:
Wherein at least one of a current or a voltage measured by the AC line or the DC line is converted from a time domain to a frequency domain to calculate the frequency value. 3. The method of claim 2,
And a measuring unit for measuring at least one of a current or a voltage in the AC line or the DC line. delete The method according to claim 1,
And a measurement unit for measuring the frequency value on the AC line or the DC line. The method of claim 3,
Wherein the measuring unit comprises:
A voltmeter, an ammeter and a voltmeter. 6. The method of claim 5,
Wherein the measuring unit comprises:
A system comprising a frequency meter. The method according to claim 1,
The DC line includes:
A system for transmitting an ultra high voltage DC voltage of 100KV to 800KV converted from an AC voltage.

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