Title :
Methods for limiting arc flash hazards while maintaining system selectivity
Author_Institution :
General Electric, USA
fDate :
March 28 2010-April 1 2010
Abstract :
Coordination studies utilize time current curves to determine the extent to which upstream overcurrent protective device pick-up and time delays must be increased to provide selectivity with downstream devices. These increases in device time delays result in increased let through energy and greater arc flash hazards. Advanced breaker trip unit technologies, including zone selective interlock, maintenance mode, and enhanced time current curve adjustment options, limit let through energy and reduce arc flash hazards without compromising system selectivity. This paper will detail how these new technologies can be utilized within cement facilities to enhance system reliability and protect personnel.
Keywords :
cement industry; current limiters; hazards; maintenance engineering; occupational safety; overcurrent protection; reliability; arc flash hazards; cement facilities; maintenance mode; overcurrent protective device; personnel protection; system reliability; system selectivity; Circuit faults; Cotton; Delay effects; Equations; Fault currents; Fires; Hazards; Personnel; Power engineering and energy; Power system protection;
Conference_Titel :
Cement Industry Technical Conference, 2010 IEEE-IAS/PCA 52nd
Conference_Location :
Colorado Springs, CO
Print_ISBN :
978-1-4244-6407-4
DOI :
10.1109/CITCON.2010.5470070
