Calculation of No-Load Rotor Eddy-Current Power Loss in PM Synchronous Machines

Arfakhshand Ali Qazalbash,Suleiman M Sharkh,Richard G Wills,Neamat T Irenji,Muhammad A Abusara

doi:10.1109/tmag.2014.2318681

Calculation of No-Load Rotor Eddy-Current Power Loss in PM Synchronous Machines

Arfakhshand Ali Qazalbash, Suleiman M Sharkh + Show 3 more

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https://doi.org/10.1109/tmag.2014.2318681

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Journal: IEEE Transactions on Magnetics	Publication Date: Sep 1, 2014
Citations: 22

Affiliation: University of Southampton, General Electric (United Kingdom), University of Exeter

#Rotor Eddy-Current Loss #Equivalent Current Sheet #PM Synchronous Machines #Stator Core #Finite-element Analysis #Level Of Saturation #Eddy-Current Loss #Calculation Of Power Loss #Significant Discrepancies #Synchronous Machines

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Three analytical methods, and finite-element analysis (FEA), are used to calculate no-load flux harmonics traveling with respect to the rotor of a surface permanent magnet machine. Rotor eddy-current losses caused by each harmonic are calculated analytically using a multilayer eddy-current model of the machine, in which each harmonic is represented by an equivalent current sheet on the bore of a slotless stator. Losses are also calculated using transient time-stepping FEA coupled with the equation of motion of the rotor. Significant discrepancies are observed between the results obtained from the different methods and FEA, especially when the level of saturation in the stator core is significant.

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Calculation of No-Load Rotor Eddy-Current Power Loss in PM Synchronous Machines