Title :
Grounding the Neutral of Electrical Systems Through Low-Resistance Grounding Resistors: An Application Case
Author_Institution :
Chu & Gassman, Middlesex, NJ
Abstract :
It seems common knowledge that three-phase short-circuit currents are the worst possible scenario for electrical systems. In reality, single-phase ground-fault currents may be significantly more intense than three-phase fault currents. With the occurrence of high single-phase fault currents, severe damage could be caused to the iron cores of electric machines included in the zero-sequence fault loop. The method of neutral low-resistance grounding will be discussed by applying a step-by-step calculation procedure to an actual case, in order to properly size the grounding resistor, thereby limiting the fault current.
Keywords :
earthing; fault current limiters; power system protection; resistors; short-circuit currents; Thevenin equivalent impedance; electrical systems grounding; electrical systems neutral; fault current limiting; ground-fault currents; low-resistance grounding resistors; short-circuit currents; step-by-step calculation; zero-sequence fault loop; Fault currents; Grounding; Impedance; Industry Applications Society; Power system faults; Power system protection; Power system relaying; Protective relaying; Resistors; Voltage; Complex numbers; Thevenin equivalent impedance; ground-fault current; low-resistance neutral grounding resistor (LRG); positive-, negative-, and zero-sequence impedance; short-circuit current;
Journal_Title :
Industry Applications, IEEE Transactions on
DOI :
10.1109/TIA.2008.2002271
