TY - JOUR
T1 - Compound ferroresonance overvoltage and fault current limiter for power system protection
AU - Heidary, Amir
AU - Radmanesh, Hamid
AU - Bakhshi, Ali
AU - Samandarpour, Sahand
AU - Rouzbehi, Kumars
AU - Shariati, Negin
PY - 2020
Y1 - 2020
N2 - Power systems are subjected to various types of faults as well as ferroresonance overvoltages. These results in the interruption of the normal operation of the power grid, failure of equipment, electrical fires, etc. To tackle these issues, this study proposes a dual function limiter to control the fault current and ferroresonance phenomenon in power systems. This compound device is a solid-state series transformer-based limiter that includes IGBT switches, capacitors, rectifiers, and a DC reactor. During the grid normal operation, the proposed limiter is not active and therefore is invisible and it operates in the instant of fault inception or ferroresonance overvoltage occurrences. Analytical studies in all operation modes are presented and assessments on the performance of the proposed ferroresonance and fault current limiter (FFCL) are conducted in Matlab. Simulation results confirm the reported analytical studies and FFCL's performance.
AB - Power systems are subjected to various types of faults as well as ferroresonance overvoltages. These results in the interruption of the normal operation of the power grid, failure of equipment, electrical fires, etc. To tackle these issues, this study proposes a dual function limiter to control the fault current and ferroresonance phenomenon in power systems. This compound device is a solid-state series transformer-based limiter that includes IGBT switches, capacitors, rectifiers, and a DC reactor. During the grid normal operation, the proposed limiter is not active and therefore is invisible and it operates in the instant of fault inception or ferroresonance overvoltage occurrences. Analytical studies in all operation modes are presented and assessments on the performance of the proposed ferroresonance and fault current limiter (FFCL) are conducted in Matlab. Simulation results confirm the reported analytical studies and FFCL's performance.
UR - http://www.scopus.com/inward/record.url?scp=85100961589&partnerID=8YFLogxK
U2 - 10.1049/iet-esi.2019.0106
DO - 10.1049/iet-esi.2019.0106
M3 - Article
AN - SCOPUS:85100961589
SN - 2516-8401
VL - 2
SP - 325
EP - 330
JO - IET Energy Systems Integration
JF - IET Energy Systems Integration
IS - 4
ER -