Optimal design of q ‐axis field winding structure of dual‐excited synchronous condenser

Abstract: The dual‐excited synchronous condenser (DESC) has two field windings whose axes are located at direct and quadrature axes respectively. The DESC has more capacity of absorbing reactive power than that of the traditional synchronous condenser (TSC). However, the q‐axis field winding distributed on the d‐axis magnetic pole surface can decrease the magnetic circuit area of the rotor core of DESC, thus it may result in the increase of the total harmonic distortion (THD) of the magnetic field and the oversaturation… Show more

“…In various previous publications, DESGs have been analyzed as an important strategy for improving dynamic and steady-state stability, and increasing system reliability (Reddy et al, 2017; Xu et al, 2021). Russia in 1980s, has successively manufactured DESG with capacity from 110 up to 800 MW, and utilized them into the capital power grid with high reliability (Xu et al, 2022). The DESG can operate in low-speed wind applications with a low gearbox ratio because of its capacity to be designed with a high number of poles (D’Arco et al, 2011).…”

Investigation of LVRT capability of wind driven dual excited synchronous generator

“…In various previous publications, DESGs have been analyzed as an important strategy for improving dynamic and steady-state stability, and increasing system reliability (Reddy et al, 2017; Xu et al, 2021). Russia in 1980s, has successively manufactured DESG with capacity from 110 up to 800 MW, and utilized them into the capital power grid with high reliability (Xu et al, 2022). The DESG can operate in low-speed wind applications with a low gearbox ratio because of its capacity to be designed with a high number of poles (D’Arco et al, 2011).…”

Investigation of LVRT capability of wind driven dual excited synchronous generator

Research on Power Flow Controller Based on Dual-Excited Synchronous Machine

Structural Design and Thermal Management Efficiency Study of a High-Stability Doubly-Excited Synchronous Generator