Mathematical Models for the Design of Electrical Machines
Material type: ArticleLanguage: English Publication details: Basel, Switzerland MDPI - Multidisciplinary Digital Publishing Institute 2021Description: 1 electronic resource (252 p.)ISBN:- books978-3-0365-0399-8
- 9783036503981
- 9783036503998
- History of engineering & technology
- surface-mounted PM machines
- torque pulsation
- magnet shape optimization
- analytical expression
- 2D
- electromagnetic performances
- finite iron relative permeability
- numerical
- sinusoidal current excitation
- subdomain technique
- switched reluctance machine
- scattering matrix
- Fourier analysis
- permanent magnet machines
- analytical modeling
- analytical model
- high-speed
- sleeve
- non-homogeneous permeability
- permanent-magnet
- partial differential equations
- separation of variable technique
- electrical machines
- surface inset permanent magnet
- electric machines
- permanent magnet motor
- rotating machines
- hybrid excitation
- magnetic equivalent circuits
- 3D finite element method
- eddy-current losses
- experiment
- hybrid model
- magnetic equivalent circuit
- Maxwell-Fourier method
- analytical method
- eddy-current
- finite-element analysis
- loss reduction
- permanent-magnet losses
- thermal analysis
- linear induction motors
- complex harmonic modeling
- hybrid analytical modeling
- 2D steady-state models
- multiphase induction machine
- reduced order
- rotor cage
- torque pulsations
- multi-phase
- segmentation
- synchronous machines
- thermal equivalence circuit
- Voronoï tessellation
- winding heads
- nodal method
- thermal resistances
- n/a
Item type | Home library | Collection | Call number | Materials specified | Status | Date due | Barcode | |
---|---|---|---|---|---|---|---|---|
Electronic-Books | OPJGU Sonepat- Campus | E-Books Open Access | Available |
Open Access star Unrestricted online access
This book is a comprehensive set of articles reflecting the latest advances and developments in mathematical modeling and the design of electrical machines for different applications. The main models discussed are based on the: i) Maxwell-Fourier method (i.e., the formal resolution of Maxwell's equations by using the separation of variables method and the Fourier's series in 2-D or 3-D with a quasi-Cartesian or polar coordinate system); ii) electrical, thermal and magnetic equivalent circuit; iii) hybrid model. In these different papers, the numerical method and the experimental tests have been used as comparisons or validations.
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