A comparison of thermoset and thermoplastic arc chutes in molded-case circuit breakers under fault clearing

Author

Beema Thangarajan, R. ; Chetwani, Satish ; Shrinet, Vagish ; Oak, Milind ; Jain, Sachin

Author_Institution

Technol. Centre, Electr. R&D Assoc. (ERDA, Vadodara, India

Volume

31

Issue

2

fYear

2015

fDate

March-April 2015

Firstpage

30

Lastpage

35

Abstract

Molded-case circuit breakers (MCCB) are vital devices that are used in many distribution systems for protection from faults in the network. During a fault, a large increase in current passes through the terminals of the MCCB and the contacts open by electromagnetic actuation. On opening, a low-voltage arc is struck between the contacts, forming a high-temperature plasma of thousands of degrees Celsius. The plasma causes thermal degradation of the insulating materials and erosion of the contacts and is a source of intense UV, which may further cause degradation of the insulating materials. In the case of a polyester based MCCB, electrically conductive soot is produced, which is detrimental to the long-term performance of the device.

Keywords

circuit breakers; circuit-breaking arcs; electrical contacts; electromagnetic actuators; power distribution faults; power distribution protection; thermal insulating materials; MCCB; contact erosion; distribution protection system; electrically conductive soot; electromagnetic actuation; fault clearing; high-temperature plasma; insulating material; low-voltage arc; molded-case circuit breaker; polyester; thermal degradation; thermoplastic arc chute; thermoset arc chute; Circuit breakers; Circuit faults; Fault currents; IEC standards; Materials; Research and development; Thermoplastics; Voltage measurement; MCCB; arc chute; molded-case circuit breaker; thermoplastic; thermoset;

fLanguage

English

Journal_Title

Electrical Insulation Magazine, IEEE

Publisher

ieee

ISSN

0883-7554

Type

jour

DOI

10.1109/MEI.2015.7048135

Filename

7048135