Title :
Automating motor-operated air-breaker switches
Author_Institution :
Helwan Univ., Cairo, Egypt
fDate :
4/1/2002 12:00:00 AM
Abstract :
The detection and clearing of transformer faults are intimately connected to the primary switching that is available. Breakers are used both as locations for the current transformers to detect a fault and define the zone of protection and as a way of clearing the fault. The use of so many circuit breakers (CB) is usually not justified economically. As an alternative, motor-operated air-breaker switches (MOAB) instead of CBs are commonly used. A MOAB cannot interrupt a fault and usually can be opened only if the adjacent transmission line segment is de-energized. The growth and increased complexity of power system configurations has led to arrangements of MOABs with transformers and power transmission lines. This causes a difficult situation when relay engineers coordinate operation of relay sequence and MOABs. This article presents a solution for such a difficulty. The solution utilizes a local area supervisory protection (LASP) system to collect voltage and current data and then share data among the associated relays
Keywords :
fault location; power transformer protection; power transmission faults; relay protection; switchgear; dead-zone; line selectivity; local area supervisory protection system; motor-operated air-breaker switches automation; operation time; power transmission lines; relay engineers; relay sequence operation coordination; transformer faults clearing; transformer faults detection; transmission line segment de-energization; Circuit breakers; Circuit faults; Current transformers; Electrical fault detection; Fault detection; Power system protection; Power system relaying; Power transmission lines; Protective relaying; Switches;
Journal_Title :
Computer Applications in Power, IEEE
