ABSTRACT
Electric energy is arguably a key agent for our material prosperity. With the notable exception of photovoltaic generators, electric generators are exclusively used to produce electric energy from mechanical energy. More than 60% of all electric energy is used in electric motors for useful mechanical work in various industries. This book presents the modeling, performance, design, and control of reluctance synchronous and flux-modulation machines developed for higher efficiency and lower cost. It covers one- and three-phase reluctance synchronous motors in line-start applications and various reluctance flux-modulation motors in pulse width modulation converter-fed variable speed drives.
FEATURES
- Presents basic and up-to-date knowledge about the topologies, modeling, performance, design, and control of reluctance synchronous machines.
- Includes information on recently introduced reluctance flux-modulation electric machines (switched- flux, flux-reversal, Vernier, transverse flux, claw pole, magnetic-geared dual-rotor, brushless doubly fed, etc.).
- Features numerous examples and case studies throughout.
- Provides a comprehensive overview of all reluctance electric machines.
TABLE OF CONTENTS
chapter 2|36 pages
Line-Start Three-Phase Reluctance Synchronous Machines
Modeling, Performance, and Design
chapter 3|38 pages
Phase-Source Line-Start Cage Rotor Permanent Magnet–Reluctance Synchronous Machines
Modeling, Performance and Design
chapter 4|37 pages
Three-Phase Variable-Speed Reluctance Synchronous Motors
Modeling, Performance, and Design
chapter 13|18 pages
Magnetic-Geared Dual-Rotor Reluctance Electric Machines
Topologies, Analysis, Performance
chapter 14|22 pages
Direct Current + Alternating Current Stator Doubly Salient Electric Machines
Analysis, Design, and Performance
