Title :
High Wind Power Penetration in Isolated Power Systems—Assessment of Wind Inertial and Primary Frequency Responses
Author :
Ye Wang ; Delille, G. ; Bayem, Herman ; GUILLAUD, XAVIER ; Francois, B.
Author_Institution :
R&D, EFESE Dept., EDF, Clamart, France
Abstract :
Grid operational challenges are significant to increase securely the wind penetration level. New embedded control functions are therefore required in order to make participate wind generators in power system management. In this paper the implementation of inertial response and primary frequency control in a wind turbine controller are investigated. Main factors affecting the performances of the frequency regulation are identified and characterized. The influence of control parameters and the turbine operating point on the inertial response are analyzed through obtained performances in an islanded power system. The combined control scheme using both controllers is also developed and the potential of the obtained grid service at partial load is discussed.
Keywords :
AC generators; distributed power generation; frequency control; power generation control; power grids; power system management; wind turbines; frequency regulation; grid service; high wind power penetration level; inertial response implementation; islanded power system; isolated power system; power system management; primary frequency control; primary frequency responses; wind generators; wind inertial system assessment; wind turbine controller; Frequency control; Frequency response; Power system dynamics; Rotors; Wind power generation; Wind turbines; Droop controller; frequency response; inertial response; isolated power systems; primary frequency control; rate of change of power;
Journal_Title :
Power Systems, IEEE Transactions on
DOI :
10.1109/TPWRS.2013.2240466
