Experimental and finite element studies of a 250 kW brushless doubly fed induction generator

Abstract

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This study studies, using experimentally verified finite element (FE) analysis, various performance measures of the brushless doubly fed induction generator (BDFIG) when magnetic wedges are used for closing stator open slots. The BDFIG is an attractive generator solution for offshore wind power and can replace doubly fed slip-ring induction generators. It is shown in this study that the use of magnetic wedges, commonly used in large induction machines, reduces the stator windings magnetising currents in a BDFIG, reflected in the values of magnetising inductances. They also increase the leakage flux in the stator slots, leading to a larger series inductance in the equivalent circuit. The series inductance significantly affects the BDFIG performance as well as the rating of its converter. The effects of magnetic wedges on BDFIG air-gap flux, synchronous torque, and stator tooth top saturation is also investigated. Two-dimensional FE analysis of an experimental 250 kW BDFIG is used in this study, verified by experimental measurements.

Keywords

• finite element analysis
• slip (asynchronous machines)
• stators
• brushless machines
• asynchronous generators
• equivalent circuits
• two-dimensional fe analysis
• experimentally verified finite element analysis
• brushless doubly fed induction generator
• magnetic wedges
• stator open slots
• offshore wind power
• doubly fed slip-ring induction generators
• induction machines
• stator windings
• magnetising inductances
• stator slots
• series inductance
• bdfig performance
• air-gap flux
• stator tooth top saturation
• power 250.0 kw