Tuning of the PI Controller Parameters of a PMSG Wind Turbine to ImproveControl Performance under Various Wind Speeds

Article, Other literature type English OPEN
Kim, Yun-Su; Chung, Il-Yop; Moon, Seung-Il;
  • Publisher: MDPI AG
  • Journal: volume 8,issue 2 2,pages1-20issn: 1996-1073
  • Publisher copyright policies & self-archiving
  • Related identifiers: doi: 10.3390/en8021406
  • Subject: PI controller parameters | Technology | small-signal modeling | participation factor | T | participation factor; permanent magnet synchronous generator wind turbine (PMSG WT); PI controller parameters; small-signal modeling | permanent magnet synchronous generator wind turbine (PMSG WT)
    • jel: jel:Q0 | jel:Q | jel:Q4 | jel:Q47 | jel:Q49 | jel:Q48 | jel:Q43 | jel:Q42 | jel:Q41 | jel:Q40

This paper presents a method to seek the PI controller parameters of a PMSG wind turbine to improve control performance. Since operating conditions vary with the wind speed, therefore the PI controller parameters should be determined as a function of the wind speed. Sma... View more
  • References (29)
    29 references, page 1 of 3

    1. Thresher, R.; Robinson, M.; Veers, P. To capture the wind. IEEE Power Energy Mag. 2007, 5, 34-46.

    2. Goudarzi, N.; Zhu, W.D. A review on the development of wind turbine generators across the world. Int. J. Dynam. Control. 2013, 1, 192-202.

    3. Global Wind Energy Council. Global Wind Energy Outlook 2012; Global Wind Energy Council: Brussels, Belgium, 2012. Available online: http://www.gwec.net/wp-content/uploads/2012/11/ GWEO_2012_lowRes.pdf (accessed on 5 June 2013).

    4. Kim, Y.-S.; Chung, I.-Y.; Moon, S.-I. An analysis of variable-speed wind turbine power-control methods with fluctuating wind speed. Energies. 2013, 6, 3323-3338.

    5. Iglesias, R.L.; Arantegui, R.L.; Alonso, M.A. Power electronics evolution in wind turbines-A market-based analysis. Renew. Sustain. Energy Rev. 2011, 15, 4982-4993.

    6. Benelghali, S.; Benbouzid, M.E.H.; Charpentier, J.F. Comparison of PMSG and DFIG for Marine Current Turbine Applications. In Electrical Machines (ICEM); IEEE: Rome, Italy, 2010; pp. 1-6.

    7. Knospe, C. PID control. IEEE Control Systems Mag. 2006, 26, 30-31.

    8. Åström, K.J.; Panagopoulos, H.; Hägglund, T. Design of PI controllers based on non-convex optimization. Automatica 1998, 34, 585-601.

    9. Wu, F.; Zhang, X.-P.; Godfrey, K.; Ju, P. Small signal stability analysis and optimal control of a wind turbine with doubly fed induction generator. IET Gener. Transm. Distrib. 2007, 1, 751-760.

    10. Huang, H.; Mao, C.; Lu, J.; Wang, D. Small-signal modelling and analysis of wind turbine with direct driven permanent magnet synchronous generator connected to power grid. IET Renew. Power Gener. 2012, 6, 48-58.

  • Metrics
Share - Bookmark