Multi-physics and multi-objective optimization of a permanent magnet-assisted synchronous reluctance machine for traction applications

Puglisi, Francesco; Barbieri, Saverio Giulio; Mantovani, Sara; Devito, Giampaolo; Nuzzo, Stefano

doi:10.1177/09544062241240888

Proceedings of the Institution of Mechanical Engineers, Part C:

2024

DOI: 10.1177/09544062241240888

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Multi-physics and multi-objective optimization of a permanent magnet-assisted synchronous reluctance machine for traction applications

Francesco Puglisi,

Saverio Giulio Barbieri,

Sara Mantovani

et al.

Abstract: This contribution addresses the rotor design process of a Permanent Magnet-assisted Synchronous Reluctance Machine by adopting a multi-physics and multi-objective optimization algorithm. A Finite Element (FE) approach is employed to determine the electromagnetic and structural responses during the optimization. In particular, a detailed FE structural modeling is used, which often is based on simplifications and inaccuracies in the available literature. A genetic algorithm is adopted, with the objectives being … Show more

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Cited by 3 publications

References 37 publications

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Rotor Optimization of a Synchronous Reluctance Machine for Railway Applications

Fiorito,

Murataliyev,

Carbone

et al. 2024

2024 International Conference on Electrical Machines (ICEM)

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Rotor Optimization of a Synchronous Reluctance Machine for Railway Applications

Fiorito,

Murataliyev,

Carbone

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2024 International Conference on Electrical Machines (ICEM)

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Wound Rotor Synchronous Motor Design for a Mining Application

Devito,

Nuzzo,

Barater

et al. 2024

2024 International Conference on Electrical Machines (ICEM)

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A Homogenization-Based Technique for a Simplified Numerical Finite Element Approach to Describe the Structural Behaviour of Cylindrical Cells Battery Pack

Mangeruga,

Renso,

Sassetti

et al. 2024

SAE Technical Paper Series

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<div class="section abstract"><div class="htmlview paragraph">The continuously increasing demand for Battery Electric Vehicles, together with the customer requirement for higher ranges poses new challenges on the battery pack design. Drawing inspiration from aerospace design principles, wherein fuel tanks are integrated structurally into airframes to save weight and increase efficiency, structural battery packs are also experiencing growing use in the automotive field. In fact, when a structural battery pack is considered, significant weight savings can be achieved, potentially extending the vehicle range. Additionally, this weight saving could be further exploited to increase the battery pack size with respect to a non-structural battery pack, further enhancing the vehicle range without adding extra weight.</div><div class="htmlview paragraph">To address the complexity of integrating structural battery packs, Finite Element simulations are typically adopted to evaluate battery pack integrity and estimate its contribution to the structural behaviour of the overall vehicle. However, the detailed modelling of large number of cells and their interactions with components like cell carriers, busbars, and plates is computationally intensive. To overcome this limit, this contribution proposes a methodology to derive a simplified model of the cells module, deriving an equivalent homogeneous orthotropic material.</div><div class="htmlview paragraph">The results of this simplified approach have been compared to the results obtained from a complete model considering all the individual cells and all related components. The reduced computational effort resulting from the proposed methodology makes it suitable for integration into a more complex full vehicle model. This enables an optimization of the overall design, leading to possible significant improvements in vehicle performance, range and costs.</div></div>

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Multi-physics and multi-objective optimization of a permanent magnet-assisted synchronous reluctance machine for traction applications

Cited by 3 publications

References 37 publications

Rotor Optimization of a Synchronous Reluctance Machine for Railway Applications

Rotor Optimization of a Synchronous Reluctance Machine for Railway Applications

Wound Rotor Synchronous Motor Design for a Mining Application

A Homogenization-Based Technique for a Simplified Numerical Finite Element Approach to Describe the Structural Behaviour of Cylindrical Cells Battery Pack

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