An important barrier to the adoption and acceptance of synchronous reluctance (SyR) machines in different applications lies in its non-standardized design procedure. The conflicting requirements incurring at high speeds among electromagnetic torque and structural and thermal limitations can significantly influence the machine performance, leading to a real design challenge. Analytical models used for design purpose lack in accuracy and force the designer to heavily rely on finite element analysis (FEA), at least during the design refinement stage. This becomes even more computational expensive as the speed increases, as the evaluation of the rotor structural behaviour is required. This work presents a computational efficient hybrid analytical-FE design process able to consider all the main limiting design aspects of SyR machine incurring at high speed, namely structural and thermal. As a vessel to investigate the proposed design routine accuracy, several high speed SyR machines have been designed for a wide range of operational speeds (up to 70krpm). The thermal and mechanical factors limiting the high speed operation are deeply analyzed aiming at maximize the mechanical output power. The proposed design approach is then validated by comparison against experimental measurements on a 5kW-50krpm SyR prototype.

High Speed Synchronous Reluctance Machines: Modeling, Design and Limits / Gallicchio, Gianvito; Di Nardo, Mauro; Palmieri, Marco; Marfoli, Alessandro; Degano, Michele; Gerada, Chris; Cupertino, Francesco. - In: IEEE TRANSACTIONS ON ENERGY CONVERSION. - ISSN 0885-8969. - STAMPA. - 37:1(2022), pp. 585-597. [10.1109/TEC.2021.3086879]

High Speed Synchronous Reluctance Machines: Modeling, Design and Limits

Gianvito Gallicchio;Mauro Di Nardo;Marco Palmieri;Francesco Cupertino
2022-01-01

Abstract

An important barrier to the adoption and acceptance of synchronous reluctance (SyR) machines in different applications lies in its non-standardized design procedure. The conflicting requirements incurring at high speeds among electromagnetic torque and structural and thermal limitations can significantly influence the machine performance, leading to a real design challenge. Analytical models used for design purpose lack in accuracy and force the designer to heavily rely on finite element analysis (FEA), at least during the design refinement stage. This becomes even more computational expensive as the speed increases, as the evaluation of the rotor structural behaviour is required. This work presents a computational efficient hybrid analytical-FE design process able to consider all the main limiting design aspects of SyR machine incurring at high speed, namely structural and thermal. As a vessel to investigate the proposed design routine accuracy, several high speed SyR machines have been designed for a wide range of operational speeds (up to 70krpm). The thermal and mechanical factors limiting the high speed operation are deeply analyzed aiming at maximize the mechanical output power. The proposed design approach is then validated by comparison against experimental measurements on a 5kW-50krpm SyR prototype.
2022
High Speed Synchronous Reluctance Machines: Modeling, Design and Limits / Gallicchio, Gianvito; Di Nardo, Mauro; Palmieri, Marco; Marfoli, Alessandro; Degano, Michele; Gerada, Chris; Cupertino, Francesco. - In: IEEE TRANSACTIONS ON ENERGY CONVERSION. - ISSN 0885-8969. - STAMPA. - 37:1(2022), pp. 585-597. [10.1109/TEC.2021.3086879]
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11589/228621
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