Optimal reactive power control in transmission network with a large wind farm connection

Abstract: In a weak network where the reactive power capability is not able to satisfy the demand of wind farm based on squirrel-cage induction generator (SCIG), flexible AC transmission system such as static VAR compensator (SVC) is used. Traditionally, the SVC device and other network reactive power facilities are used in optimal way by the network operator, for optimal voltage profile and loss minimization, during different steady-state operations caused by wind resource changes. In this paper, the SVC reactive power… Show more

“…SVC and TCSC 3number, 3MW WT equipped with capacitor bank SVC and TCSC under fault condition and give LVRT capacity to wind farm [40]. SVC-RPR,SCIG PSO algorithm wind power penetration 45% SVC-RPR is effective at low power generation and poor at its high power generation [41]. SVC,DFIG IEEE 14-Buses test system Two time domain SVC model considered and compared in presence of grid fault [42].…”

“…The researchers [39,42,44,45] have successfully used Static VAR Compensator for reactive power management of large scale and small scale wind farm. It is effectively managing reactive power support and grid voltage when in use with different type of wind power generation system, however the performance is not better in the case of high wind power generation [41]. The SVC used in conjunction with other device say TCSC, STATCOM, and PSS maintain stability, support LVRT and increase damping capacity [40,43].…”

A critical review of voltage and reactive power management of wind farms

“…SVC and TCSC 3number, 3MW WT equipped with capacitor bank SVC and TCSC under fault condition and give LVRT capacity to wind farm [40]. SVC-RPR,SCIG PSO algorithm wind power penetration 45% SVC-RPR is effective at low power generation and poor at its high power generation [41]. SVC,DFIG IEEE 14-Buses test system Two time domain SVC model considered and compared in presence of grid fault [42].…”

“…The researchers [39,42,44,45] have successfully used Static VAR Compensator for reactive power management of large scale and small scale wind farm. It is effectively managing reactive power support and grid voltage when in use with different type of wind power generation system, however the performance is not better in the case of high wind power generation [41]. The SVC used in conjunction with other device say TCSC, STATCOM, and PSS maintain stability, support LVRT and increase damping capacity [40,43].…”

A critical review of voltage and reactive power management of wind farms

Towards optimal wind power plant connecting line dimmensioning

Bibliography of FACTS applications for grid integration of wind and PV solar power systems: 2010–2013 IEEE Working Group report