KR20190024184A - Logic of Breaker Failure(BF) Protective Element using Apparent Power Detective Element for Generator Circuit Breaker(GCB) in Power Plant - Google Patents

Abstract

The present invention relates to a logic of a breaker failure (BF) protective element for a generator circuit breaker (GCB) in a power plant by using an apparent power detective element, which prevents a BF of a GCB by using an apparent power detective element at a low current, and prevents the BF of the GCB by using a current detective element at a high current. To this end, the logic of a BF protective element for a GCB in a power plant by using an apparent power detective element comprises a current detective element, an apparent power detective element and a BF protective element operating unit.

Description

[0001] The present invention relates to a generator breaker failure protection element logic using an apparent power detection element,

The present invention relates to a generator breaker failure protection element logic using an apparent power detection element and more particularly to a logic and a logic controller for detecting a breaker failure protection element of a generator breaker by using an apparent power detection element when the current is low, Design method.

In the event of an electrical fault in a power plant, the protection relay operation and the generator breaker opening can be used to remove the fault and protect the equipment. However, as shown in FIG. 1, when the breaker failure protection element (BF) operates, the switch yard breaker opens and closes due to the mechanical breakdown of the breaker, The fault can be eliminated.

If the tripping signal of the generator breaker is generated when the current detecting element or the breaker contact point is detected after the blocking failure start signal BFI is generated by the protective relay, the trip failure protection element continues the trip signal for 200 ms or more It is determined that the generator circuit breaker is in an openable state and operates.

Conventionally, as shown in FIG. 2, a method (type 2) of detecting the current of both ends of the breaker by itself (type 1) or simultaneously monitoring the change of state of the current detection and the breaker contacts is applied come. Such type of generator breaker open state detection logic can affect power plant operation such as generator burnout and power switch in a power plant due to a design vulnerability that does not reflect the failure characteristics of system in the plant such as failure type, .

When the current detection element is used alone, it can not be shut off due to the current detection element in case of fault such as generator motoring and stator ground fault, in which fault current less than the current detection element operation value (rated current 5%) occurs. It is not possible to protect it.

Motoring fault (rated current <1%) → Breaker trip signal sending and excitation stop → Disable breaker open → Motoring current continuous (<1%) → Current detection element inoperative with current less than set value (5% → shut-down failure of protection element operation → induction motor operation of generator → shutdown failure is not protected by overheating or damage of generator rotor.

In addition, when the current detection element and the breaker "a" contact are used in parallel, the circuit breaker can be normally operated in an open state due to a fault. However, if a fault occurs due to mechanical contact failure, Trip and power switch in the power plant can occur.

Failure → Generator Breaker Normally Open → Circuit Breaker "a" Contact Fault → Fault Interruption Failure Failure Protection Fault Operation → Main Power System Trip and Power Generator Switch Power Failure .

Therefore, there is a need for a logic that can prevent the malfunction of the generator breaker, and operate the shutdown failure protection element of the generator circuit breaker in case of high current and low current.

Korean Patent No. 10-1061446

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems of the prior art, and it is an object of the present invention to prevent mechanical breakdown by protecting a generator breaker when the breaker fails.

According to an aspect of the present invention, there is provided a failure protection element logic for protecting a shutoff failure of a generator breaker, comprising: a current detector for detecting a current at both ends of the generator breaker; Element; An apparent power detection element located inside the protection relay and receiving the apparent power from the generator power system to maintain the operating state; And a blocking failure protection element operation unit connected to the current detection element and the apparent power detection element and operated when the generator circuit breaker is not normally operated in an open state.

Here, the apparent power detection element maintains the operating state until the apparent power is removed through the normal operation of the generator circuit breaker after the apparent power input.

The apparent power detected by the apparent power detection element is less than or equal to 1% of the rated current flowing in the generator breaker.

The generator breaker failure protection element logic using the apparent power detection element according to the present invention has the following effects.

First, it prevents the generator rotor from being damaged by overheating. In the event of a fault in generator motoring or stator ground fault, a low current may be generated and the generator breaker may not operate. Accordingly, in the present invention, the appearance failure protection element can be normally operated by operating the apparent power detection element when a low current is generated. Therefore, it is possible to prevent the generator rotor from being overheated and damaged during operation of the induction motor of the generator.

Second, it prevents the malfunction of the blocking failure protection element by the mechanical contact. In the present invention, the breakdown failure of the generator breaker is protected by using the apparent power detection element when the current is low at low current, and when the current is high, the break failure is detected by using the current detection element Protects even more damage in the event of a generator failure. Thus, the blocking failure malfunction due to the failure of the mechanical contact can be prevented, so that the blocking failure protection element can operate correctly.

FIG. 1 is a diagram schematically illustrating the operation of a conventional blocking failure protection element.
Figure 2 is a schematic logic diagram of the operation of a conventional fail safe element.
3 is a schematic logic diagram of the operation of a blocking failure protection element in accordance with an embodiment of the present invention.
FIG. 4 is a diagram schematically illustrating an operation state of a blocking failure protection element according to an embodiment of the present invention. Referring to FIG.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings. However, some configurations which are not related to the gist of the present invention may be omitted or compressed, but the configurations omitted are not necessarily those not necessary in the present invention, and they may be combined by a person having ordinary skill in the art to which the present invention belongs. .

3 is a schematic logic diagram of the operation of a blocking failure protection element in accordance with an embodiment of the present invention.

3, the generator breaker failure protection element logic using the apparent power detection element according to an embodiment of the present invention may include a current detection element 100 and an apparent power detection element 200. [

The current detection element 100 is connected to the generator breaker to detect the open-circuit state of the generator breaker or the shutoff failure protection element by detecting the current across the generator breaker. If the generator breaker is normally opened, the current detection element 100 can not detect a current, so that the failure protection element can be normally closed It can be grasped as operating. This current sensing element 100 can be used to sense the current flowing in the generator breaker under high current conditions, such as a shorted state of a non-grounded system, a ground fault and a short circuit on the high voltage side in the main transformer.

Conversely, if the generator breaker is not normally open, a current is detected in the current detection element 100, and the shutdown failure protection element can be identified as not operating normally.

Here, the current detecting element 100 can be recognized as an operation value when a current of 5% or more of the rated current flowing in the generator breaker is detected.

The apparent power detection element 200 is connected to the generator breaker in the protective relay to sense the apparent power flowing into the generator circuit breaker from various equipment and generator power systems. This apparent power detection element 200 operates when the apparent power flowing into the generator breaker is less than 1% of the rated current. Therefore, the apparent power detection element 200 does not operate when the breaker is normally opened, but the apparent power is input when the breaker is not normally opened, so that the apparent power detection element 200 senses and operates.

Here, the incoming apparent power is generated by a low current in the generator motoring, the stator ground fault, and the like. Since this is less than 5% of the current flowing in the generator breaker, the current sensing element 100 can not sense this apparent power. Accordingly, the apparent power detection element 200 is operated, and the apparent power detection element 200 maintains the operation state until the generator breaker is normally opened, so that the breaker failure protection element is in a state in which the generator breaker is not normally opened .

In addition, the blocking failure protection element includes a blocking failure protection element operation part and is connected to the current detection element 100 and the apparent power detection element 200. If it is determined that the generator circuit breaker does not operate normally, Open the breaker of the additional switch yard. Accordingly, it is possible to protect the facilities in the power plant from being overheated or damaged by opening the switch-yard breaker to shut off the power flowing into the facilities in the power plant in a situation where the generator breaker does not operate.

For example, when the mechanical input energy and the generator terminal voltage are lost due to the turbine and exciter stoppage, the generator runs the induction motor, where the voltage generator and high current flow to the generator rotor, which can cause damage to the rotor.

FIG. 4 is a diagram schematically illustrating an operation state of a blocking failure protection element according to an embodiment of the present invention. Referring to FIG.

As shown in FIG. 4, the generator is provided with a generator for generating a high frequency and a generator breaker (GCB) connected to the generator, and the generator breaker is connected to the generator motoring.

In addition, a current transformer or a high-frequency current transformer is provided at one side of the generator to supply a current necessary for operating the generator, and a power transmission line is provided at the end of the motoring to supply power to each facility. Switch yard breakers (71CB, 00CB, 72CB) are provided, respectively, to prevent overcurrent from being supplied in case of failure or failure of the generator breaker.

The current detecting element 100 and the apparent power detecting element 200 are also connected to the generator breaker through the current transformer CT to detect the current flowing across the generator breaker and the apparent power flowing from the equipment.

If an electrical failure occurs in the power plant with the current detection element 100 and the apparent power detection element 200, the generator breaker is switched to the open state by the operation of the protection relay (not shown) It is possible to protect the facility by preventing the current from being supplied to various facilities any more through normal operation of the apparatus.

However, when a problem that the generator breaker does not normally operate in an open state occurs, a breakdown failure start signal (BMI) is generated and the shutdown failure protection element operating section is operated to open the breaker (not shown) of the switch yard, It is possible to cut off the current flowing to the transistor.

At this time, the blocking failure protection element can operate in two cases.

In the first case, when a fault such as a short-circuit of a non-grounded system, a ground fault at the main transformer, or a short circuit occurs, the generator and the generator power system supply a fault current several times higher than the rated current. The current sensing element 100 senses the current flowing across the generator breaker and sends a signal to the shutdown failure protection element operating section when more than 5% of the rated current flows, thereby causing the shutdown failure protection element operating section to operate, 71CB, 00CB, and 72CB are opened. The operation of this current sensing element 100 may continue until the generator breaker is normally open.

In the second case, if the generator breaker is not open when the turbine and excitation system are stopped due to generator protection relay operation in case of failure such as generator motoring and stator ground fault, the apparent power of less than 1% At this time, the current detecting element 100 can not detect such a low current and can be detected by the apparent power detecting element 200. Accordingly, the apparent power detection element 200 is maintained in an operating state, and the shutdown failure protection element determines whether the generator breaker is in an open state by determining whether the apparent power detection element 200 is in operation, The failure protection element operating section is operated to open the circuit breakers of the switch yards 71CB, 00CB and 72CB.

According to this series of processes, in the present invention, in order to prevent the generator breaker from operating normally, the shutdown failure protection element operates to prevent overheating and damage of the equipment and the system inside the power plant, The factors that have a negative effect can be blocked in advance.

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 embodiments, but, on the contrary, And additions should be considered as falling within the scope of the claims of the present invention.

100: current detection element
200: Apparent power detection element

Claims (3)

In the shutdown failure protection factor logic protecting the shutdown failure of the generator breaker,
A current detecting element for detecting a both-end current of the generator breaker;
An apparent power detection element located inside the protection relay and receiving the apparent power from the generator power system to maintain the operating state; And
And a blocking failure protection element operation unit coupled to the current detection element and the apparent power detection element and operated when the generator circuit breaker is not normally operating in an open state. Failure protection element logic.
The method according to claim 1,
Wherein the apparent power detection element maintains the operating state until the apparent power is removed through normal operation of the generator circuit breaker after the apparent power input.
The method according to claim 1,
Wherein the apparent power sensed by the apparent power detection element is less than or equal to 1% of the rated current flowing in the generator breaker.

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