Wind Power Determination for Maximum Power Point Tracking in Lab-scale Multi-MW Wind Energy Systems

Authors

  • Gregorio Martínez Author
  • Luis Parras Author
  • Mario J. Durán Author
  • C. Pino Author

DOI:

https://doi.org/10.24084/repqj11.585

Keywords:

Wind energy systems, blade design, maximum power point tracking, fullpower system

Abstract

The low voltage ride through (LVRT) grid code requirements are pushing the new era of multi MW wind energy conversion systems (WECS) to full power topologies. Lab scale emulation of such multi MW systems usually substitutes the wind energy conversion by a torque producing emulator (e.g. DC machine). Nevertheless, the complete study of the wind energy system is more insightful and allows a better analysis of the WECS. This work focuses on the design of the blades and the wind power calculation for lab scale emulation of multi MW wind energy systems. Theoretical analysis for the design of the lab scale system is presented and experimental results show the wind power characteristic curves for maximum power point tracking of variable speed generators.

Author Biographies

  • Gregorio Martínez

    Department of Fluid Mechanics 
    E.T.S.I.I., University of Málaga 
    C/ Doctor Ortiz Ramos S/V, 49071 Málaga (Spain) 

  • Luis Parras

    Department of Fluid Mechanics 
    E.T.S.I.I., University of Málaga 
    C/ Doctor Ortiz Ramos S/V, 49071 Málaga (Spain) 

  • Mario J. Durán

    Department of Electrical Engineering 
    E.T.S.I.I., University of Málaga 
    C/ Doctor Ortiz Ramos S/V, 49071 Málaga (Spain) 

  • C. Pino

    Department of Fluid Mechanics 
    E.T.S.I.I., University of Málaga 
    C/ Doctor Ortiz Ramos S/V, 49071 Málaga (Spain) 

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Published

2024-01-24

Issue

Vol. 11 No. 8 (2013)

Section

Articles