This paper presents a method for the design of MV underground grids of wind farms. This method formulates the design problem as binary linear optimization problem implemented in MATLAB. Both investment and operation costs are minimized while satisfying constraints on maximum admissible cable current, maximum admissible feeder voltage drop, maximum losses, and on the maximum number of cable types. Not only is the section of the cables but also the number of triplets optimized. Finally, wind farm operation is characterized by a set of power and duration scenarios deduced from the wind generators’ probability density function to take into account wind power variability. The method has been successfully tested for a 44 MW on-shore wind farm.
Palabras clave: Wind power, MV grid, optimal design.
International Colloquium on «Large Wind-Power Plants: Interaction, Control and Integration» - WINDFARMS 2017, Madrid (España). 31 Mayo - 02 Junio 2017
Fecha de publicación: mayo 2017.
L. Sigrist, I. Egido, L. Rouco, I. Campos, Optimal design of medium voltage grids of wind farms, International Colloquium on «Large Wind-Power Plants: Interaction, Control and Integration» - WINDFARMS 2017. Madrid, España, 31 Mayo - 02 Junio 2017