On the modeling of a doubly-excited brushless claw pole alternator: Application to a solar-wind-wave hybrid energy conversion system

On the modeling of a doubly-excited brushless claw pole alternator: Application to a solar-wind-wave hybrid energy conversion system

Within an FP7 project proposal, the paper deals with the MEC modeling of a doubly-excited brushless claw pole alternator (DEBCPA). It consists in a claw pole concept with two excitation sources: (i) a ferrite PM in the rotor and (ii) a field winding associated to two ferrite PMs in the stator. The p...

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Bibliographic Details
Published in:2013 Eighth International Conference and Exhibition on Ecological Vehicles and Renewable Energies (EVER) pp. 1 - 9
Main Authors: Rebhi, R., Ibala, A., Masmoudi, A.
Format: Conference Proceeding
Language:English
Published: IEEE 01-03-2013
Subjects:
3D finite element analysis
Alternators
Analytical models
Atmospheric modeling
back-EMF
Claw pole alternator
Finite element analysis
Integrated circuit modeling
leakage flux
magnetic barrier
magnetic equivalent circuit
no-load characteristic
rotor-excitation
Rotors
stator-excitation
Stators
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Summary:Within an FP7 project proposal, the paper deals with the MEC modeling of a doubly-excited brushless claw pole alternator (DEBCPA). It consists in a claw pole concept with two excitation sources: (i) a ferrite PM in the rotor and (ii) a field winding associated to two ferrite PMs in the stator. The proposed MEC considers both linear and saturated magnetic circuit, with a focus on the modeling of the leakage fluxes following a 3D finite element analysis (FEA)-based investigation of their paths. The derivation of the different reluctances as well as the MEC resolution procedure are detailed. The proposed MEC is applied for the prediction of the DEBCPA no-load characteristic, which is validated by FEA.
ISBN:9781467352697
1467352691
DOI:10.1109/EVER.2013.6521547