Large synchronous machines designed for high-speed operation often feature a solid rotor construction that guarantees the needed robustness against centrifugal forces. The rotor solid steel is exposed to air-gap field ripples due to stator slotting, which cause eddy currents possibly leading to overheating and efficiency issues. Milling circumferential grooves in the solid-pole surface is a common provision to limit such eddy currents. This article proposes a methodology to investigate the effect of grooving on rotor losses using either suited experimental tests or finite element analysis (FEA) of a 3-D model tailored to minimize the computational burden. Such methodology is applied to a custom prototype device, obtaining a good accordance between the results provided by the two independent approaches. This confirms the validity of the proposed solution, which can thus be used to investigate and optimize application-related designs.
Numerical and Experimental Methods to Estimate Eddy-Current Losses in Grooved Solid Rotors as Used in Synchronous Machines / Olivo, M., Ciriani, C., Mezzarobba, M., Tessarolo, A., Bolognesi, P.. - In: IEEE TRANSACTIONS ON MAGNETICS. - ISSN 0018-9464. - 61:10(2025), pp. 8103012."-"-8103012."-". [10.1109/TMAG.2025.3605077]
Numerical and Experimental Methods to Estimate Eddy-Current Losses in Grooved Solid Rotors as Used in Synchronous Machines
Olivo M.
Primo
;Ciriani C.Secondo
;Mezzarobba M.;Tessarolo A.Penultimo
;
2025-01-01
Abstract
Large synchronous machines designed for high-speed operation often feature a solid rotor construction that guarantees the needed robustness against centrifugal forces. The rotor solid steel is exposed to air-gap field ripples due to stator slotting, which cause eddy currents possibly leading to overheating and efficiency issues. Milling circumferential grooves in the solid-pole surface is a common provision to limit such eddy currents. This article proposes a methodology to investigate the effect of grooving on rotor losses using either suited experimental tests or finite element analysis (FEA) of a 3-D model tailored to minimize the computational burden. Such methodology is applied to a custom prototype device, obtaining a good accordance between the results provided by the two independent approaches. This confirms the validity of the proposed solution, which can thus be used to investigate and optimize application-related designs.| File | Dimensione | Formato | |
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IEEE_TM_Groove_Final.pdf
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Numerical_and_Experimental_Methods_to_Estimate_Eddy-Current_Losses_in_Grooved_Solid_Rotors_as_Used_in_Synchronous_Machines.pdf
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