TY - GEN
T1 - Performance Testing of Different Grounding Systems
AU - Saleh, S.
AU - Jewett, D.
AU - Cardenas, J.
AU - Al-Durra, A.
AU - Kanukollu, S.
AU - Valdes, M.
AU - Panetta, S.
N1 - Publisher Copyright:
© 2022 IEEE.
PY - 2022
Y1 - 2022
N2 - This paper presents a performance comparison of the solid, low impedance, high impedance, frequency-selective, and isolated grounding systems. A grounding system (for any power system component) is designed as an impedance (ZG) that connects the neutral point to the ground. The impedance ZG is constructed using a combination of R, L, and C elements. The values and combination type (series or parallel) of R, L, C, determine the possible influence of ZG on ground currents and potentials. Each grounding system is related to a system voltages level, a specific combination of R, L, C, and a range of R, L, C values. The solid, low impedance, high impedance, frequency-selective, and isolated grounding systems are designed for laboratory 3φ transformer and 3φ synchronous generator in order to compare their influences on ground currents and potentials during ground faults. The transformer and generator are tested for line-to-ground and double line-to-ground faults with all designed grounding systems. Test results show that some grounding systems can reduce ground currents only, while others can reduce ground potentials only. Such capabilities can be used to fulfill certain system and operation requirements (e.g. service continuity, ground capacity, etc.).
AB - This paper presents a performance comparison of the solid, low impedance, high impedance, frequency-selective, and isolated grounding systems. A grounding system (for any power system component) is designed as an impedance (ZG) that connects the neutral point to the ground. The impedance ZG is constructed using a combination of R, L, and C elements. The values and combination type (series or parallel) of R, L, C, determine the possible influence of ZG on ground currents and potentials. Each grounding system is related to a system voltages level, a specific combination of R, L, C, and a range of R, L, C values. The solid, low impedance, high impedance, frequency-selective, and isolated grounding systems are designed for laboratory 3φ transformer and 3φ synchronous generator in order to compare their influences on ground currents and potentials during ground faults. The transformer and generator are tested for line-to-ground and double line-to-ground faults with all designed grounding systems. Test results show that some grounding systems can reduce ground currents only, while others can reduce ground potentials only. Such capabilities can be used to fulfill certain system and operation requirements (e.g. service continuity, ground capacity, etc.).
KW - and power system protection
KW - grounding system designs
KW - power system ground faults
KW - power system grounding
UR - http://www.scopus.com/inward/record.url?scp=85130709364&partnerID=8YFLogxK
U2 - 10.1109/ICPS54075.2022.9773920
DO - 10.1109/ICPS54075.2022.9773920
M3 - Conference contribution
AN - SCOPUS:85130709364
T3 - Conference Record - Industrial and Commercial Power Systems Technical Conference
BT - 2022 IEEE/IAS 58th Industrial and Commercial Power Systems Technical Conference, I and CPS 2022
PB - Institute of Electrical and Electronics Engineers Inc.
T2 - 58th IEEE/IAS Industrial and Commercial Power Systems Technical Conference, I and CPS 2022
Y2 - 2 May 2022 through 5 May 2022
ER -