Optimal design of electric machine with efficient handling of constraints and surrogate assistance

Article Energy & Fuels

Analytical Minimization of Interior Permanent Magnet Machine Torque Pulsations by Design of Sculpted Rotor

Steven Hayslett et al.

Summary: A new and efficient analytical optimization methodology has been developed for the design of rotor features in interior permanent magnet motors (IPM), which improves torque performance while reducing computational effort. The results of the analytical optimization were validated through finite element analysis.

ENERGIES (2022)

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Article Energy & Fuels

Analytical Design of Sculpted Rotor Interior Permanent Magnet Machines

Steven Hayslett et al.

Summary: An efficient design of interior permanent magnet (IPM) motor rotor features was investigated using analytical methods, with a focus on minimizing torque ripple and maximizing average torque by utilizing both traditional and sculpt features. The study extended the winding function theory to include the IPM rotor's reluctance paths and airgap, introducing a new analytical model for the single-V IPM machine. Results were validated using finite elements, establishing rotor feature trends to increase design intuition and reduce dependency on lengthy optimization processes.

ENERGIES (2021)

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Proceedings Paper Computer Science, Artificial Intelligence

Optimized Electric Machine Design Solutions with Efficient Handling of Constraints

Bhuvan Khoshoo et al.

Summary: Design optimization of electric machines requires time-expensive Finite Element Analysis (FEA) for accuracy, but feasible designs can have constraints based on simple geometric expressions. The proposed optimization method incorporates a repair operator to ensure feasibility of all solutions, demonstrating its effectiveness.

2021 IEEE SYMPOSIUM SERIES ON COMPUTATIONAL INTELLIGENCE (IEEE SSCI 2021) (2021)

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Article Computer Science, Artificial Intelligence