• DocumentCode
    646420
  • Title

    MPC for wind power gradients — utilizing forecasts, rotor inertia, and central energy storage

  • Author

    Hovgaard, Tobias Gybel ; Larsen, Lars F. S. ; Jorgensen, John Bagterp ; Boyd, Stephen

  • Author_Institution
    Vestas Technol. R&D, Aarhus, Denmark
  • fYear
    2013
  • fDate
    17-19 July 2013
  • Firstpage
    4071
  • Lastpage
    4076
  • Abstract
    We consider the control of a wind power plant, possibly consisting of many individual wind turbines. The goal is to maximize the energy delivered to the power grid under very strict grid requirements to power quality. We define an extremely low power output gradient and demonstrate how decentralized energy storage in the turbines´ inertia combined with a central storage unit or deferrable consumers can be utilized to achieve this goal at a minimum cost. We propose a variation on model predictive control to incorporate predictions of wind speed. Due to the aerodynamics of the turbines the model contains nonconvex terms. To handle this nonconvexity, we propose a sequential convex optimization method, which typically converges in fewer than 10 iterations. We demonstrate our method in simulations with various wind scenarios and prices for energy storage. These simulations show substantial improvements in terms of limiting the power ramp rates (disturbance rejection) at the cost of very little power. This capability is critical to help balance and stabilize the future power grid with a large penetration of intermittent renewable energy sources.
  • Keywords
    convex programming; decentralised control; energy storage; power generation control; power grids; predictive control; wind power plants; wind turbines; central energy storage unit; decentralized energy storage; model predictive control; power grid; power output gradient; power quality requirements; power ramp rates; rotor inertia; sequential convex optimization method; wind power plant control; wind speed; wind turbines; Energy storage; Mathematical model; Optimization; Rotors; Wind power generation; Wind speed; Wind turbines;
  • fLanguage
    English
  • Publisher
    ieee
  • Conference_Titel
    Control Conference (ECC), 2013 European
  • Conference_Location
    Zurich
  • Type

    conf

  • Filename
    6669830