The induction machine handbook. (2002)
- Record Type:
- Book
- Title:
- The induction machine handbook. (2002)
- Main Title:
- The induction machine handbook
- Further Information:
- Note: Ion Boldea, Syed A. Nasar.
- Other Names:
- Boldea, I
Nasar, S. A - Contents:
- INDUCTION MACHINES IN INDUSTRY; Electric Energy and Induction Motors; Historical Development; Induction Machines in Applications; CONSTRUCTION ASPECTS AND OPERATION PRINCIPLES OF INDUCTION MACHINES; Construction Aspects of Rotary IMS; Construction Aspects of Linear Induction Motors; Operation Principles of Induction Machines; MATERIALS AND LOSSES; Magnetic Materials and Losses; Operating Flux Densities; Frequency Effects; Electric Materials and Losses; Skin Effect; Frequency Effects; Insulation Materials and Losses; Skin Effect; Frequency Effects; WINDINGS AND THEIR MMFS; Single-Layer and Double-Layer Windings; Integral and Fractional Slot Windings; Wave and Lap Windings; Pole-Changing Windings; Cage Windings; Current-Sheet Approach; MAGNETIZATION CURVE AND INDUCTANCE; Equivalent Airgap to Account for Slotting; Basic Magnetization Curve; An Analytical Iterative Saturation Model(AIM); Emf of an AC Winding; Magnetization Inductance; LEAKAGE INDUCTANCES AND RESISTANCES; Differential Leakage Inductances; Slot Leakage Inductances-Single and Double Layer, Rectangular and Rounded; End Connection Leakage Inductance; Rotor Bar and Ring Leakage Inductances; Stator and Rotor Leakage Inductances; Stator and Rotor Resistances; Rotor Quantities Referred to the Stator; STEADY-STATE PERFORMANCE CALCULATIONS; The Basic Equivalent Circuit; The Complete Equivalent Circuit; Modes of Operation: Motoring, Generating, Braking; Torque/Speed Characteristics; Efficiency and Power Factor; Peak andINDUCTION MACHINES IN INDUSTRY; Electric Energy and Induction Motors; Historical Development; Induction Machines in Applications; CONSTRUCTION ASPECTS AND OPERATION PRINCIPLES OF INDUCTION MACHINES; Construction Aspects of Rotary IMS; Construction Aspects of Linear Induction Motors; Operation Principles of Induction Machines; MATERIALS AND LOSSES; Magnetic Materials and Losses; Operating Flux Densities; Frequency Effects; Electric Materials and Losses; Skin Effect; Frequency Effects; Insulation Materials and Losses; Skin Effect; Frequency Effects; WINDINGS AND THEIR MMFS; Single-Layer and Double-Layer Windings; Integral and Fractional Slot Windings; Wave and Lap Windings; Pole-Changing Windings; Cage Windings; Current-Sheet Approach; MAGNETIZATION CURVE AND INDUCTANCE; Equivalent Airgap to Account for Slotting; Basic Magnetization Curve; An Analytical Iterative Saturation Model(AIM); Emf of an AC Winding; Magnetization Inductance; LEAKAGE INDUCTANCES AND RESISTANCES; Differential Leakage Inductances; Slot Leakage Inductances-Single and Double Layer, Rectangular and Rounded; End Connection Leakage Inductance; Rotor Bar and Ring Leakage Inductances; Stator and Rotor Leakage Inductances; Stator and Rotor Resistances; Rotor Quantities Referred to the Stator; STEADY-STATE PERFORMANCE CALCULATIONS; The Basic Equivalent Circuit; The Complete Equivalent Circuit; Modes of Operation: Motoring, Generating, Braking; Torque/Speed Characteristics; Efficiency and Power Factor; Peak and Starting Torque Specifications; Standard and New Equivalent Circuits for Variable Speed; Nonsymmetric Operation Modes; STARTING AND SPEED CONTROL METHODS; ON-LOAD SATURATION AND FREQUENCY EFFECTS ON CIRCUIT PARAMETERS; Skin Effect Modelling-Single and Multiple Conductors in Slot; The Multilayer Approach to Skin Effect; Multi-Rotor Circuit Modeling; Leakage Saturation and Skin Effect via a Comprehensive Analytical Field Model; The Skewing mmf Concept; The FEM Approach; SPACE HARMONICS, PARASITIC TORQUES, RADIAL FORCES, AND NOISE; mmf Space Harmonics; Airgap Magnetic Conductance Harmonics; Saturation Induced Airgap Flux Harmonics; Parasitic Torque; Radial Forces and Noise; CORE AND WINDING FUNDAMENTAL AND HARMONIC LOSSES; Core Loss Basic Models; Core Loss Advanced Models; Winding Fundamental and Harmonic Losses; Stray-Load Losses for Sinusoidal and Non-Sinusoidal Voltage Supply; THERMAL MODELING; Basic One-Dimensional Models; Realistic One-Dimensional Models; Models from Finite Element Analysis; INDUCTION MACHINE TRANSIENTS; The Phase Coordinate Model; The Complex Variable(Space Phasor) Model for Single Rotor Circuit; Space Phasor Equations and Diagrams; Steady-State Analysis with Space Phasors; Transient Analysis with Space Phasors; Multi-Rotor Circuit; Core loss and saturation consideration; Reduced Order Models; The Sudden Short Circuit; Most Severe Tansients So Far; The abc-dq Model; Multimachine Transients; Subsynchronous Resonance ; Torsional Torque Transients in Large Ims; Rotor Bar Current Models; Transients under Constant Flux Operation; DESIGN SPECIFICATIONS AND PRINCIPLES; Typical Load Curves; Derating; Voltage and Frequency Variation; Specifications for Constnat Voltage and Frequency Operation; Design Factors and Features; Output Coefficient Design Concept; Tangential Stress Coefficient design concept; IM DESIGN BELOW 100 KW AT CONSTANT V&F WITH CASE STUDY; IM DESIGN ABOVE 100KW AT CONSTANT V&F WITH CASE STUDY; IM DESIGN FOR VARIABLE SPEED WITH CASE STUDY; DESIGN OPTIMIZATION METHODS; Initial Data, Variables, Constraints, and Objective Functions; Induction Machine Models for Design; Design Optimization Techniques: Deterministic, Stochastic; Design of Large Induction Machines; Comparison Between Deterministic and Stochastic Methods; THREE PHASE INDUCTION GENERATORS; Induction Generators for Direct Grid Connection; Induction Generators for Autonomous Loads; Doubly Fed Induction Generators; LINEAR INDUCTION MOTORS; Topologies; Analysis of Fields and Forces; Equivalent Circuits; Longitudinal End Effects; Transverse Edge Effects; Design Procedure and Case Study; ULTRA-HIGH FREQUENCY MDELLING AND BEHAVIOR OF IMs; Practical Lumped RLC Modeling; Shaft Voltages and Bearing Currents; Micro-Second Voltage Pulse Distribution Along the Motor Windings; Long Cable Effects; Practical circuit models; TESTING OF THREE PHASE INDUCTION MACHINES; The IEEE-112B Standards and Results; Parameter Estimation from Pulse and Frequency Tests at Standstill; On-Line Parameter Estimation; Tests with Power Electronics; SINGLE PHASE INDUCTION MOTORS: THE BASICS; Classifications; Basic equivalent circuits; SINGLE-PHASE INDUCTION MOTORS: STEADY STATE; With Open Auxiliary Winding; Capacitor Motor; Symmetrization Conditions; Characteristic Curves; Nonorthogonal Winding Models; Space and Voltage Harmonic Effects; Doubly Tapped Winding Modelling and Performance; SINGLE PHASE INDUCTION MOTOR DESIGN & CASE STUDY; SINGLE PHASE INDUCTION GENERATORS; SINGLE PHASE INDUCTION MOTOR TRANSIENTS; TESTING OF SINGLE PHASE INDUCTION MOTORS … (more)
- Publisher Details:
- Boca Raton : CRC Press
- Publication Date:
- 2002
- Extent:
- 1 online resource (950 pages), illustrations
- Subjects:
- 621.31/042
Electric machinery, Induction -- Handbooks, manuals, etc
TECHNOLOGY & ENGINEERING -- Electrical
Electric machinery, Induction
Electronic books
Handbooks and manuals - Languages:
- English
- ISBNs:
- 0849300045
9780849300042
1420042653
9781420042658 - Notes:
- Note: Includes bibliographical references and index.
- Access Rights:
- Legal Deposit; Only available on premises controlled by the deposit library and to one user at any one time; The Legal Deposit Libraries (Non-Print Works) Regulations (UK).
- Access Usage:
- Restricted: Printing from this resource is governed by The Legal Deposit Libraries (Non-Print Works) Regulations (UK) and UK copyright law currently in force.
- View Content:
- Available online (eLD content is only available in our Reading Rooms) ↗
- Physical Locations:
- British Library HMNTS - ELD.DS.160180
- Ingest File:
- 01_021.xml