Title :
Fast Energy Capture
Author :
Roscoe, George ; Papallo, Tom ; Valdes, Marcelo
Author_Institution :
GE Consumer & Ind. in Louisville, Louisville, KY, USA
Abstract :
Tests on the arc-containment device have confirmed that fast energy capture by transferring an arcing current from an open-air arc to an enclosed, controlled chamber provides a high degree of protection to LV switchgear. Tests confirmed the ability of the device to perform within the requirements of applicable IEEE standards for LV and arc resistant switchgear, without relying on special enclosures or blast-pressure conduction methods. Tests also confirmed the ability to reduce incident energy levels to less than 1 cal/cm at an 18-in working distance with no barriers between the arc source and the measurement devices. Furthermore, testing at low and high-available fault current, with larger and small arcing-fault gaps, confirmed the ability of the device to reliably function within a range of LV power-distribution fault currents and equipment arrangements that may be found in many industrial facilities.
Keywords :
arcs (electric); fault currents; power distribution faults; power distribution protection; switchgear protection; IEEE standard; LV power distribution fault current; LV switchgear protection; arc containment device test; arc resistant switchgear; arc-flash energy mitigation method; arcing current; blast pressure conduction method; chamber control; device function; equipment arrangement; fast energy capture; high available fault current; incident energy level; industrial facility; low available fault current; measurement device; open air arc source; small arcing fault gaps; Arc discharges; Circuit breakers; Circuit faults; Electrodes; Impedance; Plasmas;
Journal_Title :
Industry Applications Magazine, IEEE
DOI :
10.1109/MIAS.2010.939625
