Synchronous Reluctance Machines : Analysis, Optimization and Applications.

Format:

Book

Author/Creator:

Bianchi, Nicola, 1967-

Contributor:

Babetto, Cristian.

Bacco, Giacomo.

Series:

Energy Engineering

Language:

English

Subjects (All):

Reluctance motors.

Physical Description:

1 online resource (396 pages)

Edition:

1st ed.

Place of Publication:

Stevenage : Institution of Engineering & Technology, 2022.

Summary:

The comprehensive reference on synchronous reluctance machines, which offer high power density at low cost and support the electrification in the transport sector. This book, written by top academic and industry experts, covers all topics required to design these machines.

Contents:

Chapter 1: IntroductionChapter 2: Magnetic materialsChapter 3: Synchronous reluctance motor geometry drawingChapter 4: Reluctance network model of high-speed synchronous reluctance machinesChapter 5: Nonlinear analytical model for synchronous reluctance machinesChapter 6: Design criteria of flux-barriers in synchronous reluctance machinesChapter 7: Structural analysis with GetDPChapter 8: Efficiency map computationChapter 9: Multi-objective optimizationChapter 10: Design and optimization of a PMaSyR motor for low-voltage E-scooter applicationsChapter 11: Synchronous reluctance motor optimization for pumping applicationChapter 12: High-torque low-speed permanent magnet assisted synchronous reluctance motor designChapter 13: Bonded magnets in PMaSyR machinesChapter 14: High-speed synchronous reluctance machinesChapter 15: Overview of fault-tolerant SyR machinesChapter 16: Impact of winding arrangement in dual three-phase synchronous reluctance machineChapter 17: Optimization of a synchronous reluctance machine for fault-tolerant applicationsChapter 18: Experimental validation of a synchronous reluctance machine for fault-tolerant applicationsChapter 19: Self-sensing-oriented optimization of synchronous reluctance machine designChapter 20: ConclusionsReferencesAppendix A: Iron losses insightsAppendix B: MMF distribution along the stator peripheryAppendix C: HS-SyR analytical model constantsAppendix D: GetDP elasticity formulationAppendix E: Maxwell stress tensor derivationAppendix F: High-frequency signal injection mathematical modelAppendix G: Incremental permeability simulations for differential inductances computation.

Notes:

Includes bibliographical references.

Description based on publisher supplied metadata and other sources.

ISBN:

1-83724-573-8

1-5231-4258-8

1-83953-264-5

OCLC:

1289370290