Estimation of maximum wind power penetration level to maintain an adequate frequency response in a power system

Wind energy has an immense potential to play a vital role with conventional energy sources. Therefore, integration of wind power is increasing in many power systems. Unlike synchronous generators, modern wind farms have lack of automatic frequency support capability following a disturbance. Thus, an addition of wind power does impact the frequency response of a power system. Inadequate frequency response may occur due to presence of a large wind generation. This paper proposes a methodology for estimating the maximum wind power penetration level to ensure an adequate frequency response in a power system. Frequency nadir and rate of change of frequency after an outage of the largest generator of a power system are taken into consideration. Impact of two different wind power integration strategies (direct replacement of a synchronous generator with a wind machine and 2/3 de-commitment, 1/3 re-dispatch approach) on the maximum wind power penetration level are investigated. This paper also attempts to identify a system parameter that could most significantly influence a penetration of wind power.

[1]  C. Loutan,et al.  Frequency response of California and WECC under high wind and solar conditions , 2012, 2012 IEEE Power and Energy Society General Meeting.

[2]  Kara Clark,et al.  Western Wind and Solar Integration Study , 2011 .

[3]  Tapan Kumar Saha,et al.  Frequency response with significant wind power penetration: Case study of a realistic power system , 2014, 2014 IEEE PES General Meeting | Conference & Exposition.

[4]  Ramesh C. Bansal,et al.  Fast computation of the maximum wind penetration based on frequency response in small isolated power systems , 2014 .

[5]  Hassan Ghasemi,et al.  Maximum penetration level of wind generation considering power system security limits , 2012 .

[6]  M. Ghandhari,et al.  Wind power impact on power system frequency response , 2013, 2013 North American Power Symposium (NAPS).

[7]  A. Pahwa,et al.  Effective Wind Farm Sizing Method for Weak Power Systems Using Critical Modes of Voltage Instability , 2012, IEEE Transactions on Power Systems.

[8]  Anil Pahwa,et al.  Maximizing wind penetration using voltage stability based methods for sizing and locating new wind farms in power system , 2010, IEEE PES General Meeting.

[9]  Nguyen Tung Linh Voltage stability analysis of grids connected wind generators , 2009, 2009 4th IEEE Conference on Industrial Electronics and Applications.

[10]  Weerakorn Ongsakul,et al.  Development of PSO based control algorithms for maximizing wind energy penetration , 2011, 2011 IEEE Power and Energy Society General Meeting.

[11]  A. Filios,et al.  A new computational algorithm for the calculation of maximum wind energy penetration in autonomous electrical generation systems , 2009 .