KR20190044298A - System for protrecting power system including phase relay - Google Patents

Abstract

The present invention relates to a protection system for a power system to which a phasing relay is applied. According to an embodiment of the present invention, the protection system for a power system comprises: a power system including a main transformer having a neutral point to which a main-use neutral point grounding element is connected, converting power supplied from a primary transmission line and supplying the power to a secondary transmission line; a grounding circuit having a switch arranged between the neutral point of the main transformer and the ground; and a phasing relay comparing a phase of a primary transformer connected to the primary transmission line and a phase of a secondary transformer connected to the secondary transmission line and opening and closing the switch.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a power system protection system using phase relays,

The present invention relates to a power system protection system to which a phase relay is applied.

The main main transformer of the substation of Korea is 154 / 22.9KV-Y neutral point direct grounding method. The above method has a problem that a ground fault occurs frequently and a fault current value at a ground fault is very high. Very high ground currents may threaten the safety of workers due to the increase of contact voltage or stride voltage, and may cause the pile transformer around the substation to explode and shorten the life span by frequent failure of substation main transformer.

The neutral point of the main transformer secondary is grounded through a neutral grounding reactor (NGR) to reduce the main transformer failure due to ground fault. However, if the Neutral Grounding Reactor is disconnected and the power distribution system of the main transformer is in a non-grounded state, the voltage of the primary circuit may rise due to failure of the 1-phase lock, which may damage the power facilities or the customer's equipment, There is a problem that the ground overcurrent relay fails to operate.

In order to solve this problem, a protective relay for detecting a disconnection of the neutral point grounding reactor according to the image voltage obtained from the secondary transmission line and generating an alarm or for interrupting the main transformer is installed. However, the protection relay may interrupt the main transformer even when the ground fault occurs in one of the power distribution lines, causing a power failure in the plurality of power distribution lines, and the secondary neutral point is separated from the ground until the main transformer is cut off. Which can damage the transmission and distribution power equipment and consumer electronic appliances.

According to an embodiment of the present invention, when the main neutral neutral grounding reactor disposed between the neutral point of the main transformer and the ground is disconnected, the circuit breaker is automatically operated using the phase relay that detects the ground fault, It is an object of the present invention to provide a protection system for a power system which can directly connect the neutral point of the main transformer to the ground or connect it to the ground through a negative earth reactor in a different path from the reactor.

The power system protection system according to an embodiment of the present invention includes a power system including a main transformer connected to a neutral point for neutral use grounding element at a neutral point and transforming power supplied from the primary transmission line to supply the secondary power to the secondary transmission line, A ground circuit having a switch disposed between a neutral point of the main transformer and a ground and a phase of a primary transformer connected to the primary transmission line and a phase of a secondary transformer connected to the secondary transmission line, And a phase relay for opening and closing the phase relay.

According to an embodiment of the present invention, when the neutral neutral point of the main neutral transformer disposed between the neutral point of the main transformer and the ground is disconnected, the neutral point of the main transformer is connected to the neutral neutral grounding element connected to the ground, It is possible to prevent electric power from being supplied in a state where the neutral point is opened.

1 is a diagram illustrating a power system protection system according to an embodiment of the present invention.
2 and 3 are timing charts according to an embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Reference will now be made in detail to the present invention, examples of which are illustrated in the accompanying drawings, wherein specific embodiments in which the invention may be practiced. These embodiments are described in sufficient detail to enable those skilled in the art to practice the invention. It should be understood that the various embodiments of the present invention are different, but need not be mutually exclusive. For example, certain features, structures, and characteristics described herein may be implemented in other embodiments without departing from the spirit and scope of the invention in connection with an embodiment. It is also to be understood that the position or arrangement of individual components within each disclosed embodiment may be varied without departing from the spirit and scope of the present invention. The following detailed description is, therefore, not to be taken in a limiting sense, and the scope of the present invention is to be limited only by the appended claims, along with the full scope of equivalents to which such claims are entitled, if properly explained. In the drawings, like reference numbers may refer to the same or similar functions throughout the several views.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings, so that those skilled in the art can easily carry out the present invention.

1 is a diagram illustrating a power system protection system according to a first embodiment of the present invention.

A power system protection system according to an embodiment of the present invention may include a power system 1 and a power system protection apparatus 2. [

The power system 1 includes a primary side transformer 9, a primary side transmission line 10, a main transformer 11, a secondary side transmission line 15, a primary side connecting the primary side transmission line 10 and the main transformer 11, A breaker 12, a secondary side breaker 13 for connecting the main transformer 11 and the secondary side power transmission line 15, and the like. The primary-side transformer 9 transforms the electric power delivered from the power plant and provides it to the primary-side power transmission line 10. The primary transmission line 10 may be a 154KV bus and the secondary transmission line 15 may be a 22.9KV bus. The main transformer 11 may be a Y-Y-? 3 winding transformer of the Y neutral point direct ground type, and may be formed by combining three single-phase transformers. The main transformer 11 can be grounded via the neutral point grounded element for use. As an example, the ground may be connected to the mesh ground network.

The power system protection device 2 may include an overcurrent relay 14, a secondary transformer 18, overvoltage relays 19 and 20, and a ground circuit 23. The protection device of the power system may be configured to directly connect the neutral point of the main transformer 11 to the ground with a path different from the path in which the main-use grounding element is formed when the neutral point of the main transformer 11 and the neutral- It can be connected to the ground through an additional grounding element.

Each of the above-described injecting neutral grounding element and the additional neutral point grounding element may include at least one of a neutral point grounding reactor and a neutral grounding resistance. Hereinafter, for convenience of explanation, it is assumed that each of the main use neutral-point grounding element and the auxiliary neutral-point grounding element includes a main-use grounding reactor NGR_1 and an additional-use neutral-grounding grounding reactor NGR_2.

The overcurrent relay 14 is an over current ground relay, and can protect the secondary transmission line 15 from ground fault overcurrent that occurs when a ground fault occurs. When a current equal to or larger than the reference set value is detected by the ground fault, the overcurrent relay 14 operates the primary side breaker 12 and the secondary side breaker 13 so that the main transformer 11 can be shut off. A plurality of overcurrent relays 14 may be provided and a plurality of overcurrent relays 14 may be respectively disposed on power distribution lines 16 and 17 connected to the secondary transmission line 15. [ As an example, the overcurrent relay 14 may be a 51G relay.

The secondary transformer 18 is located on the secondary transmission line 15 to generate the image voltage. The voltage level of the image voltage outputted from the secondary transformer 18 may rise when a phase failure occurs between phases of the secondary transmission line 15 or when a ground fault occurs in a state where the neutral point grounding reactor is disconnected. The secondary transformer 18 may be a transformer whose secondary side is open-delta-connected.

A plurality of overvoltage relays 19 and 20 may be provided and may include a first overvoltage relay 19 and a second overvoltage relay 20.

The first overvoltage relay 19 is an overvoltage ground relay for alarm. When an image voltage equal to or higher than the first set value is detected, the first overvoltage relay 19 closes the contact 21 of the alarm circuit and sends an alarm . For example, the first overvoltage relay 19 may be a 59GA relay, and the first overvoltage relay 19 may operate when an unbalance between phases of the secondary transmission line 15 occurs due to disconnection of the neutral point grounding reactor.

The second overvoltage relay 20 is a ground fault overvoltage relay for tripping. When a video voltage equal to or higher than a second set value is detected, the second overvoltage relay 20 closes the contact 22 of the trip circuit to transmit a trip signal to the breaker, The primary side breaker 12 and the secondary side breaker 13 operate by the trip signal so that the main transformer 11 can be shut off. For example, the second overvoltage relay 20 may be a 59GT relay, and the second overvoltage relay 20 may operate when a ground fault occurs while the neutral point grounding reactor is disconnected. At this time, the first set value for operating the first overvoltage relay 19 may be lower than the second set value for operating the second overvoltage relay 20.

When the neutral point grounding reactor is disconnected, the first overvoltage relay 19 is operated. If a ground fault occurs subsequently, the second overvoltage relay 20 is operated. That is, the first overvoltage relay 19 and the second overvoltage relay 20 operate sequentially. Accordingly, even when the first overvoltage relay 19 operates, power is supplied to the power distribution lines 16 and 17 while the neutral point of the main transformer 11 is disconnected from the ground until the second overvoltage relay 20 operates This may lead to a failure in the distribution line system.

According to an embodiment of the present invention, when the main neutral neutral reactor NGR_1 disposed between the neutral point of the main transformer 11 and the ground is disconnected, the first overvoltage relay The neutral point of the main transformer 11 can be connected to the neutral point neutral reactor NGR_2 connected to the ground or directly connected to the ground by the operation of the neutral point neutralizer 19 to prevent the neutral point from being opened. In other words, the neutral point of the main transformer 11 can be connected to the ground through the negative-going grounding reactor NGR_2 in a path different from the path in which the main-use grounding reactor NGR_1 is formed.

Referring to Fig. 1, the ground circuit 23 may include a switch SW and an auxiliary neutral point grounding reactor NGR_2 connected to the ground, and may include a neutral point neutral reactor NGR_2 connected to ground, The switch SW may be disposed between the neutral points of the switch 11.

In the normal operation, the neutral point of the main transformer 11 and the main use neutral-point grounding reactor NGR_1 are directly connected and operated. The second switch SW2 is operated in an off-state so that the neutral-point neutral reactor NGR_2, So that the neutral point of the battery 11 can be disconnected. However, when the main neutral-point grounding reactor NGR_1 is disconnected, the first overvoltage relay 19 turns on the switch SW by applying the video voltage equal to or higher than the first set value to the main neutral-grounding reactor NGR_2 and the main neutral- The neutral point of the transformer 11 can be connected.

According to an embodiment of the present invention, the main neutral-point grounding reactor NGR_1 is disconnected to connect the non-grounded main transformer 11 to the neutral-use neutral-grounding reactor NGR_2 so that the main transformer 11 has a neutral point It is possible to prevent power supply from being disconnected from the ground.

1, the ground circuit 23 is shown as including a switch SW and an auxiliary neutral neutral ground reactor NGR_2, but according to an embodiment, the ground circuit 23 is connected to the neutral point of the main transformer 11, And only the switch SW disposed between the grounds.

2 and 3 are timing charts according to an embodiment of the present invention.

Referring to FIG. 2, when the main neutral-point grounding reactor is disconnected from the main transformer at the timing (1) in the steady state, the first overvoltage relay operates by the image voltage equal to or higher than the first set value, and the neutral- It is connected to the main transformer. However, if power is supplied from the neutral neutral grounding reactor after disconnected from the neutral neutral grounding reactors before connection to the neutral neutral grounding reactor, phase unbalance may occur between the secondary transmission lines, and due to overvoltage, There may be a problem of damaging the equipment of the customer.

3, when the injecting neutral point grounding reactor NGR_1 disposed between the neutral point of the main transformer 11 and the ground is disconnected, the first overvoltage relay is set to the first setting Disconnection of the neutral-use neutral-point grounding reactor NGR_1 is detected by the operation of the phase relay that compares the phases of the primary-side power transmission line 10 and the secondary-side power transmission line 15, A neutral grounding reactor (NGR_1) may be connected to the main transformer.

1 has a three phase phase of the primary transformer 9 connected to the primary side of the main transformer 11 and a secondary phase of the secondary side transformer 18 connected to the secondary side of the main transformer 11. [ ) Can be compared with each other.

The phase relay 25 compares each of the A phase, B phase and C phase of the primary transformer 9 with each of the A phase, B phase and C phase of the secondary transformer 18, When the phases of the three phases of the secondary transformer 18 are different from each other, it is determined that the primary neutral-point grounding reactor NGR_1 connected to the neutral point of the main transformer 11 is disconnected and the switch SW is controlled to be turned on . Therefore, the neutral point of the main transformer 11 and the negative neutral point grounding reactor NGR_2 can be connected.

Since the phases of some of the three phases of the primary transformer 9 and the secondary transformer 18 are changed when the neutral point is changed due to a ground fault or the like other than the neutral point of the main transformer 11, , It is judged that the neutral point of the main transformer is separated when the phases of the three phases other than a part of the three phases are all different, so that the neutral point can be precisely detected.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but many variations and modifications may be made without departing from the scope of the present invention. It will be understood that the invention may be practiced.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, Those skilled in the art will appreciate that various modifications, additions and substitutions are possible, without departing from the scope and spirit of the invention as disclosed in the accompanying claims.

Therefore, the spirit of the present invention should not be construed as being limited to the above-described embodiments, and all of the equivalents or equivalents of the claims, as well as the following claims, I will say.

1: Power system
9: Primary transformer
10: primary transmission line
11: Main transformer
12: primary side breaker
13: secondary side breaker
14: Overcurrent Relay
15: Secondary transmission line
18: Secondary transformer
19, 20: Overvoltage relay
21, 22: Contact
23: Ground circuit
25: Phase Relay

Claims (8)

A power system including a main transformer to which a neutral point is connected to a neutral point and a neutral transformer ground element is connected to transform the power provided from the primary transmission line and supply the secondary power to the secondary transmission line;
A ground circuit having a switch disposed between the neutral point of the main transformer and ground; And
A phase relay for comparing the phase of the primary transformer connected to the primary transmission line and the phase of the secondary transformer connected to the secondary transmission line to open and close the switch; And the power system protection system.
The phase-locked loop according to claim 1,
And determines that the neutral point of the main transformer and the main use neutral point ground element are disconnected when the phases of the three phases of the primary transformer and the phases of the three phases of the secondary transformer are different from each other.
The phase-locked loop according to claim 1,
And when the phases of the three phases of the primary transformer and the phases of the three phases of the secondary transformer are different from each other, the switch is turned on.
2. The circuit according to claim 1,
And an additional use neutral ground element connected in series with the switch.
The method according to claim 1,
An additional use neutral grounding element is a power system protection system comprising an in-use neutral point grounding reactor.
The method according to claim 1,
An overvoltage relay for opening / closing the switch according to a video voltage outputted from the secondary transformer; Further comprising the steps of:
7. The overvoltage relay according to claim 6,
When the phase voltage of the main transformer is different from the phase of the three phases of the secondary transformer when the phase voltage of the primary transformer and the phase of the three phases of the secondary transformer are different from each other, Power system protection system.
8. The overvoltage relay according to claim 7,
And turns on the switch when a video voltage equal to or higher than the set value is detected.

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