Title :
Integrated SVC and step-down transformer model for Newton-Raphson load flow studies
Author :
Fuerte-Esquivel, C.R. ; Acha, E. ; Ambriz-Pérez, H.
Author_Institution :
Virtual FACT Res. Lab., Glasgow Univ., UK
Abstract :
This letter presents an integrated static VAr compensator (SVC) and step-down transformer model suitable for power flow studies using the Newton-Raphson method. The SVC is taken to be a continuous, variable-shunt susceptance that is adjusted automatically to satisfy a specified voltage magnitude. The step-down transformer is represented by an admittance that combines easily with the variable susceptance, representing the SVC plant. The resulting equivalent model allows for a direct SVC voltage regulation at the high-voltage side of the transformer, which does not compromise the quadratic convergence characteristics of the Newton-Raphson method.
Keywords :
Newton-Raphson method; electric admittance; load flow; power transformers; static VAr compensators; Newton-Raphson load flow; admittance; continuous variable-shunt susceptance; direct SVC voltage regulation; equivalent model; high-voltage side; quadratic convergence characteristics; static VAr compensator model; step-down transformer model; voltage control; Admittance; Circuits; Cities and towns; Joining processes; Load flow; Load flow analysis; Load modeling; Newton method; Static VAr compensators; Voltage control;
Journal_Title :
Power Engineering Review, IEEE
