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Electric power systems [[electronic resource] /] / Brian B. Weedy, ... [et al.]
| Electric power systems [[electronic resource] /] / Brian B. Weedy, ... [et al.] |
| Edizione | [5th ed.] |
| Pubbl/distr/stampa | Chichester, West Sussex, UK, : John Wiley & Sons, Ltd., 2012 |
| Descrizione fisica | 1 online resource (514 p.) |
| Disciplina | 621.319/1 |
| Altri autori (Persone) | WeedyBrian B |
| Soggetto topico |
Electric power systems
Electric power transmission |
| Soggetto genere / forma | Electronic books. |
| ISBN |
1-118-36110-5
1-283-64506-8 1-118-36109-1 1-118-36108-3 |
| Formato | Materiale a stampa  |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Electric Power Systems; Contents; Preface to First Edition; Preface to Fourth Edition; Preface to Fifth Edition; Symbols; 1 Introduction; 1.1 History; 1.2 Characteristics Influencing Generation and Transmission; 1.3 Operation of Generators; 1.4 Energy Conversion; 1.4.1 Energy Conversion Using Steam; 1.4.2 Energy Conversion Using Water; 1.4.3 Gas Turbines; 1.4.4 Nuclear Power; 1.5 Renewable Energy Sources; 1.5.1 Solar Energy-Thermal Conversion; 1.5.2 Solar Energy-Photovoltaic Conversion; 1.5.3 Wind Generators; 1.5.4 Biofuels; 1.5.5 Geothermal Energy; 1.5.6 Other Renewable Resources
1.6 Energy Storage 1.6.1 Pumped Storage; 1.6.2 Compressed-Air Storage; 1.6.3 Secondary Batteries; 1.6.4 Fuel Cells; 1.6.5 Hydrogen Energy Systems; 1.6.6 Superconducting Magnetic Energy Stores (SMES); 1.6.7 Flywheels; 1.6.8 Super-capacitors; 1.7 Environmental Aspects of Electrical Energy; 1.7.1 Global Emissions from Fossil Fueled Power Stations; 1.7.2 Regional and Local Emissions from Fossil Fueled Power Stations; 1.7.3 Thermal Pollution from Power Stations; 1.7.4 Electromagnetic Radiation from Overhead Lines, Cables and Equipment; 1.7.5 Visual and Audible Noise Impacts 1.8 Transmission and Distribution Systems 1.8.1 Representation; 1.8.2 Transmission; 1.8.3 Distribution Systems; 1.8.4 Typical Power Systems; 1.9 Utilization; 1.9.1 Loads; Problems; 2 Basic Concepts; 2.1 Three-Phase Systems; 2.1.1 Analysis of Simple Three-Phase Circuits; 2.2 Three-Phase Transformers; 2.2.1 Auto-transformers; 2.3 Active and Reactive Power; 2.4 The Per-Unit System; 2.4.1 Resistance and Impedance; 2.4.2 Three-Phase Circuits; 2.4.3 Transformers; 2.5 Power Transfer and Reactive Power; 2.5.1 Calculation of Sending and Received Voltages in Terms of Power and Reactive Power 2.6 Harmonics in Three-Phase Systems 2.7 Useful Network Theory; 2.7.1 Four-Terminal Networks; 2.7.2 Delta-Star Transformation; 2.7.3 Star-Delta Transformation; Problems; 3 Components of a Power System; 3.1 Introduction; 3.2 Synchronous Machines; 3.2.1 Two-Axis Representation; 3.2.2 Effect of Saturation on XS - the Short-Circuit Ratio; 3.2.3 Turbo-generators; 3.3 Equivalent Circuit Under Balanced Short-Circuit Conditions; 3.4 Synchronous Generators in Parallel; 3.5 The Operation of a Generator on an Infinite Busbar; 3.5.1 The Performance Chart of a Synchronous Generator 3.6 Automatic Voltage Regulators (AVRs) 3.6.1 Automatic Voltage Regulators and Generator Characteristics; 3.7 Lines, Cables and Transformers; 3.7.1 Overhead Lines -Types and Parameters; 3.7.2 Representation of Lines; 3.7.3 Parameters of Underground Cables; 3.8 Transformers; 3.8.1 Phase Shifts in Three-Phase Transformers; 3.8.2 Three-Winding Transformers; 3.8.3 Auto-transformers; 3.8.4 Earthing (Grounding) Transformers; 3.8.5 Harmonics; 3.8.6 Tap-Changing Transformers; 3.8.7 Typical Parameters for Transformers; 3.9 Voltage Characteristics of Loads; 3.9.1 Lighting; 3.9.2 Heating 3.9.3 Synchronous Motors |
| Record Nr. | UNINA-9910462544303321 |
| Chichester, West Sussex, UK, : John Wiley & Sons, Ltd., 2012 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Electric vehicle machines and drives : design, analysis and application / / K.T. Chau, International Research Centre for Electric Vehicles, The University of Hong Kong
| Electric vehicle machines and drives : design, analysis and application / / K.T. Chau, International Research Centre for Electric Vehicles, The University of Hong Kong |
| Autore | Chau K. T. |
| Pubbl/distr/stampa | Chichester, West Sussex, UK : , : John Wiley and Sons, Inc., , [2015] |
| Descrizione fisica | 1 online resource (423 p.) |
| Disciplina | 629.25/02 |
| Soggetto topico |
Electric vehicles - Motors
Electric motors Electric power transmission |
| ISBN |
1-78684-208-4
1-118-75261-9 1-118-75255-4 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Preface xiii -- Organization of This Book xv -- Acknowledgments xvii -- About the Author xix -- 1 Introduction 1 -- 1.1 What Is an Electric Vehicle? 1 -- 1.2 Overview of EV Challenges 3 -- 1.2.1 Pure Electric Vehicle 4 -- 1.2.2 Hybrid Electric Vehicle 4 -- 1.2.3 Gridable Hybrid Electric Vehicle 5 -- 1.2.4 Fuel-Cell Electric Vehicle 5 -- 1.3 Overview of EV Technologies 6 -- 1.3.1 Motor Drive Technology 6 -- 1.3.2 Energy Source Technology 9 -- 1.3.3 Battery Charging Technology 11 -- 1.3.4 Vehicle-to-Grid Technology 14 -- References 16 -- 2 DC Motor Drives 19 -- 2.1 System Configurations 19 -- 2.2 DC Machines 20 -- 2.2.1 Structure of DC Machines 20 -- 2.2.2 Principle of DC Machines 22 -- 2.2.3 Modeling of DC Machines 22 -- 2.3 DC-DC Converters 24 -- 2.3.1 DC-DC Converter Topologies 24 -- 2.3.2 Soft-Switching DC-DC Converter Topologies 27 -- 2.4 DC Motor Control 28 -- 2.4.1 Speed Control 29 -- 2.4.2 Regenerative Braking 31 -- 2.5 Design Criteria of DC Motor Drives for EVs 33 -- 2.6 Design Example for EVs 34 -- 2.7 Application Examples of DC Motor Drives in EVs 35 -- 2.8 Fading Technology for EVs? 38 -- References 38 -- 3 Induction Motor Drives 39 -- 3.1 System Configurations 39 -- 3.2 Induction Machines 40 -- 3.2.1 Structure of Induction Machines 41 -- 3.2.2 Principle of Induction Machines 42 -- 3.2.3 Modeling of Induction Machines 44 -- 3.3 Inverters for Induction Motors 46 -- 3.3.1 PWM Switching Inverters 47 -- 3.3.2 Soft-Switching Inverters 50 -- 3.4 Induction Motor Control 51 -- 3.4.1 Variable-Voltage Variable-Frequency Control 51 -- 3.4.2 Field-Oriented Control 53 -- 3.4.3 Direct Torque Control 57 -- 3.5 Design Criteria of Induction Motor Drives for EVs 61 -- 3.6 Design Example of Induction Motor Drives for EVs 64 -- 3.7 Application Examples of Induction Motor Drives in EVs 67 -- 3.8 Matured Technology for EVs? 67 -- References 68 -- 4 Permanent Magnet Brushless Motor Drives 69 -- 4.1 PM Materials 69 -- 4.2 System Configurations 70 -- 4.3 PM Brushless Machines 72.
4.3.1 Structure of PM Brushless Machines 72 -- 4.3.2 Principle of PM Brushless Machines 75 -- 4.3.3 Modeling of PM Brushless Machines 78 -- 4.4 Inverters for PM Brushless Motors 82 -- 4.4.1 Inverter Requirements 82 -- 4.4.2 Switching Schemes for Brushless AC Operation 83 -- 4.4.3 Switching Schemes for Brushless DC Operation 84 -- 4.5 PM Brushless Motor Control 87 -- 4.5.1 PM Synchronous Motor Control 87 -- 4.5.2 PM Brushless DC Motor Control 91 -- 4.6 Design Criteria of PM Brushless Motor Drives for EVs 93 -- 4.7 Design Examples of PM Brushless Motor Drives for EVs 96 -- 4.7.1 Planetary-Geared PM Synchronous Motor Drive 96 -- 4.7.2 Outer-Rotor PM Brushless DC Motor Drive 100 -- 4.8 Application Examples of PM Brushless Motor Drives in EVs 103 -- 4.9 Preferred Technology for EVs? 104 -- References 106 -- 5 Switched Reluctance Motor Drives 108 -- 5.1 System Configurations 108 -- 5.2 SR Machines 110 -- 5.2.1 Structure of SR Machines 110 -- 5.2.2 Principle of SR Machines 112 -- 5.2.3 Modeling of SR Machines 115 -- 5.3 SR Converters 117 -- 5.3.1 SR Converter Topologies 118 -- 5.3.2 Soft-Switching SR Converter Topologies 119 -- 5.3.3 Comparison of SR Converters for EVs 123 -- 5.4 SR Motor Control 124 -- 5.4.1 Speed Control 124 -- 5.4.2 Torque-Ripple Minimization Control 126 -- 5.4.3 Position Sensorless Control 128 -- 5.5 Design Criteria of SR Motor Drives for EVs 131 -- 5.5.1 Machine Initialization 132 -- 5.5.2 Suppression of Acoustic Noise 136 -- 5.6 Examples of SR Motor Drives for EVs 137 -- 5.6.1 Planetary-Geared SR Motor Drive 137 -- 5.6.2 Outer-Rotor In-Wheel SR Motor Drive 141 -- 5.7 Application Examples of SR Motor Drives in EVs 144 -- 5.8 Maturing Technology for EVs? 144 -- References 145 -- 6 Stator-Permanent Magnet Motor Drives 147 -- 6.1 Stator-PM versus Rotor-PM 147 -- 6.2 System Configurations 148 -- 6.3 Doubly-Salient PM Motor Drives 149 -- 6.4 Flux-Reversal PM Motor Drives 157 -- 6.5 Flux-Switching PM Motor Drives 160 -- 6.6 Hybrid-Excited PM Motor Drives 161. 6.7 Flux-Mnemonic PM Motor Drives 165 -- 6.8 Design Criteria of Stator-PM Motor Drives for EVs 173 -- 6.9 Design Examples of Stator-PM Motor Drives for EVs 177 -- 6.9.1 Outer-Rotor Hybrid-Excited DSPM Motor Drive 177 -- 6.9.2 Outer-Rotor Flux-Mnemonic DSPM Motor Drive 181 -- 6.10 Potential Applications of Stator-PM Motor Drives in EVs 192 -- References 194 -- 7 Magnetic-Geared Motor Drives 195 -- 7.1 System Configurations 195 -- 7.2 Magnetic Gears 197 -- 7.2.1 Converted Magnetic Gears 198 -- 7.2.2 Field-Modulated Magnetic Gears 200 -- 7.3 MG Machines 203 -- 7.3.1 Principle of MG Machines 205 -- 7.3.2 Modeling of MG Machines 211 -- 7.4 Inverters for MG Motors 211 -- 7.5 MG Motor Control 212 -- 7.6 Design Criteria of MG Motor Drives for EVs 213 -- 7.7 Design Examples of MG Motor Drives for EVs 215 -- 7.7.1 MG PM Brushless DC In-Wheel Motor Drive 215 -- 7.7.2 MG PM Brushless AC In-Wheel Motor Drive 218 -- 7.8 Potential Applications of MG Motor Drives in EVs 224 -- References 225 -- 8 Vernier Permanent Magnet Motor Drives 227 -- 8.1 System Configurations 227 -- 8.2 Vernier PM Machines 228 -- 8.2.1 Vernier PM versus Magnetic-Geared PM 228 -- 8.2.2 Structure of Vernier PM Machines 229 -- 8.2.3 Principle of Vernier PM Machines 234 -- 8.2.4 Modeling of Vernier PM Machines 237 -- 8.3 Inverters for Vernier PM Motors 238 -- 8.4 Vernier PM Motor Control 239 -- 8.5 Design Criteria of Vernier PM Motor Drives for EVs 240 -- 8.6 Design Examples of Vernier PM Motor Drives for EVs 242 -- 8.6.1 Outer-Rotor Vernier PM Motor Drive 242 -- 8.6.2 Outer-Rotor Flux-Controllable Vernier PM Motor Drive 245 -- 8.7 Potential Applications of Vernier PM Motor Drives in EVs 251 -- References 251 -- 9 Advanced Magnetless Motor Drives 253 -- 9.1 What Is Advanced Magnetless? 253 -- 9.2 System Configurations 254 -- 9.3 Synchronous Reluctance Motor Drives 255 -- 9.4 Doubly-Salient DC Motor Drives 257 -- 9.5 Flux-Switching DC Motor Drives 260 -- 9.6 Vernier Reluctance Motor Drives 264 -- 9.7 Doubly-Fed Vernier Reluctance Motor Drives 266. 9.8 Axial-Flux Magnetless Motor Drives 269 -- 9.9 Design Criteria of Advanced Magnetless Motor Drives for EVs 272 -- 9.10 Design Examples of Advanced Magnetless Motor Drives for EVs 272 -- 9.10.1 Multi-tooth Doubly-Salient DC Motor Drive 272 -- 9.10.2 Multi-tooth Flux-Switching DC Motor Drive 274 -- 9.10.3 Axial-Flux Doubly-Salient DC Motor Drive 276 -- 9.10.4 Axial-Flux Flux-Switching DC Motor Drive 283 -- 9.11 Potential Applications of Advanced Magnetless Motor Drives in EVs 288 -- References 289 -- 10 Integrated-Starter-Generator Systems 291 -- 10.1 Classification of HEVs 291 -- 10.2 ISG System Configurations 295 -- 10.3 ISG Machines 296 -- 10.4 ISG Operations 298 -- 10.4.1 Cranking 298 -- 10.4.2 Electricity Generation 298 -- 10.4.3 Idle Stop-Start 298 -- 10.4.4 Regenerative Braking 299 -- 10.4.5 Power Assistance 300 -- 10.5 Design Criteria of ISG Systems 300 -- 10.6 Design Examples of ISG Systems 301 -- 10.6.1 Double-Stator PM Synchronous Machine-Based ISG System 301 -- 10.6.2 Hybrid-Excited Doubly-Salient PM Machine-Based ISG System 303 -- 10.7 Application Examples of ISG Systems in HEVs 312 -- 10.8 Matured Technology for HEVs? 313 -- References 313 -- 11 Planetary-Geared Electric Variable Transmission Systems 315 -- 11.1 System Configurations 315 -- 11.2 Planetary Gears 316 -- 11.3 Input-Split PG EVT Systems 319 -- 11.3.1 Toyota Hybrid System 319 -- 11.3.2 Ford Hybrid System 324 -- 11.4 Compound-Split PG EVT Systems 326 -- 11.4.1 GM Two-Mode Hybrid System 327 -- 11.4.2 Renault Hybrid System 331 -- 11.4.3 Timken Hybrid System 332 -- 11.5 Design Criteria of PG EVT Systems 333 -- 11.6 Design Example of PG EVT Systems 334 -- 11.6.1 PM Synchronous PG EVT System Configuration 334 -- 11.6.2 PM Synchronous Machine Design 335 -- 11.6.3 PM Synchronous Machine Analysis 336 -- 11.7 Application Examples of PG EVT Systems in HEVs 339 -- 11.8 Matured Technology for HEVs? 341 -- References 342 -- 12 Double-Rotor Electric Variable Transmission Systems 343 -- 12.1 System Configurations 343. 12.2 Double-Rotor Machines 345 -- 12.2.1 Multi-port Machine Concept 345 -- 12.2.2 DR Machine Structure 346 -- 12.3 Basic Double-Rotor EVT Systems 347 -- 12.3.1 DR EVT Structure 347 -- 12.3.2 DR EVT Modeling 349 -- 12.3.3 DR EVT Operation 350 -- 12.4 Advanced Double-Rotor EVT Systems 351 -- 12.4.1 PM DR EVT System 353 -- 12.4.2 SR DR EVT System 354 -- 12.4.3 Axial-Flux DR EVT System 356 -- 12.4.4 Advanced Magnetless DR EVT System 357 -- 12.5 Design Criteria of DR EVT Systems 359 -- 12.6 Design Example of DR EVT Systems 359 -- 12.6.1 DSDC DR EVT System Configuration 360 -- 12.6.2 DSDC DR Machine Design 360 -- 12.6.3 DSDC DR Machine Analysis 360 -- 12.7 Potential Applications of DR EVT Systems in HEVs 364 -- References 365 -- 13 Magnetic-Geared Electric Variable Transmission Systems 367 -- 13.1 System Configurations 367 -- 13.2 Multi-port Magnetic Gears 369 -- 13.2.1 Magnetic Planetary Gears 369 -- 13.2.2 Magnetic Concentric Gears 371 -- 13.3 Magnetic Planetary-Geared EVT System 373 -- 13.4 Magnetic Concentric-Geared EVT System 375 -- 13.5 Design Criteria of MG EVT Systems 380 -- 13.6 Design Example of MG EVT Systems 382 -- 13.6.1 MCG EVT System Configuration 382 -- 13.6.2 Integrated MCG Machine Design 384 -- 13.6.3 Integrated MCG Machine Analysis 386 -- 13.7 Potential Applications of MG EVT Systems in HEVs 392 -- References 392 -- Index 393. |
| Record Nr. | UNINA-9910140642903321 |
Chau K. T.
|
||
| Chichester, West Sussex, UK : , : John Wiley and Sons, Inc., , [2015] | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Electric vehicle machines and drives : design, analysis and application / / K.T. Chau, International Research Centre for Electric Vehicles, The University of Hong Kong
| Electric vehicle machines and drives : design, analysis and application / / K.T. Chau, International Research Centre for Electric Vehicles, The University of Hong Kong |
| Autore | Chau K. T. |
| Pubbl/distr/stampa | Chichester, West Sussex, UK : , : John Wiley and Sons, Inc., , [2015] |
| Descrizione fisica | 1 online resource (423 p.) |
| Disciplina | 629.25/02 |
| Soggetto topico |
Electric vehicles - Motors
Electric motors Electric power transmission |
| ISBN |
1-78684-208-4
1-118-75261-9 1-118-75255-4 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Preface xiii -- Organization of This Book xv -- Acknowledgments xvii -- About the Author xix -- 1 Introduction 1 -- 1.1 What Is an Electric Vehicle? 1 -- 1.2 Overview of EV Challenges 3 -- 1.2.1 Pure Electric Vehicle 4 -- 1.2.2 Hybrid Electric Vehicle 4 -- 1.2.3 Gridable Hybrid Electric Vehicle 5 -- 1.2.4 Fuel-Cell Electric Vehicle 5 -- 1.3 Overview of EV Technologies 6 -- 1.3.1 Motor Drive Technology 6 -- 1.3.2 Energy Source Technology 9 -- 1.3.3 Battery Charging Technology 11 -- 1.3.4 Vehicle-to-Grid Technology 14 -- References 16 -- 2 DC Motor Drives 19 -- 2.1 System Configurations 19 -- 2.2 DC Machines 20 -- 2.2.1 Structure of DC Machines 20 -- 2.2.2 Principle of DC Machines 22 -- 2.2.3 Modeling of DC Machines 22 -- 2.3 DC-DC Converters 24 -- 2.3.1 DC-DC Converter Topologies 24 -- 2.3.2 Soft-Switching DC-DC Converter Topologies 27 -- 2.4 DC Motor Control 28 -- 2.4.1 Speed Control 29 -- 2.4.2 Regenerative Braking 31 -- 2.5 Design Criteria of DC Motor Drives for EVs 33 -- 2.6 Design Example for EVs 34 -- 2.7 Application Examples of DC Motor Drives in EVs 35 -- 2.8 Fading Technology for EVs? 38 -- References 38 -- 3 Induction Motor Drives 39 -- 3.1 System Configurations 39 -- 3.2 Induction Machines 40 -- 3.2.1 Structure of Induction Machines 41 -- 3.2.2 Principle of Induction Machines 42 -- 3.2.3 Modeling of Induction Machines 44 -- 3.3 Inverters for Induction Motors 46 -- 3.3.1 PWM Switching Inverters 47 -- 3.3.2 Soft-Switching Inverters 50 -- 3.4 Induction Motor Control 51 -- 3.4.1 Variable-Voltage Variable-Frequency Control 51 -- 3.4.2 Field-Oriented Control 53 -- 3.4.3 Direct Torque Control 57 -- 3.5 Design Criteria of Induction Motor Drives for EVs 61 -- 3.6 Design Example of Induction Motor Drives for EVs 64 -- 3.7 Application Examples of Induction Motor Drives in EVs 67 -- 3.8 Matured Technology for EVs? 67 -- References 68 -- 4 Permanent Magnet Brushless Motor Drives 69 -- 4.1 PM Materials 69 -- 4.2 System Configurations 70 -- 4.3 PM Brushless Machines 72.
4.3.1 Structure of PM Brushless Machines 72 -- 4.3.2 Principle of PM Brushless Machines 75 -- 4.3.3 Modeling of PM Brushless Machines 78 -- 4.4 Inverters for PM Brushless Motors 82 -- 4.4.1 Inverter Requirements 82 -- 4.4.2 Switching Schemes for Brushless AC Operation 83 -- 4.4.3 Switching Schemes for Brushless DC Operation 84 -- 4.5 PM Brushless Motor Control 87 -- 4.5.1 PM Synchronous Motor Control 87 -- 4.5.2 PM Brushless DC Motor Control 91 -- 4.6 Design Criteria of PM Brushless Motor Drives for EVs 93 -- 4.7 Design Examples of PM Brushless Motor Drives for EVs 96 -- 4.7.1 Planetary-Geared PM Synchronous Motor Drive 96 -- 4.7.2 Outer-Rotor PM Brushless DC Motor Drive 100 -- 4.8 Application Examples of PM Brushless Motor Drives in EVs 103 -- 4.9 Preferred Technology for EVs? 104 -- References 106 -- 5 Switched Reluctance Motor Drives 108 -- 5.1 System Configurations 108 -- 5.2 SR Machines 110 -- 5.2.1 Structure of SR Machines 110 -- 5.2.2 Principle of SR Machines 112 -- 5.2.3 Modeling of SR Machines 115 -- 5.3 SR Converters 117 -- 5.3.1 SR Converter Topologies 118 -- 5.3.2 Soft-Switching SR Converter Topologies 119 -- 5.3.3 Comparison of SR Converters for EVs 123 -- 5.4 SR Motor Control 124 -- 5.4.1 Speed Control 124 -- 5.4.2 Torque-Ripple Minimization Control 126 -- 5.4.3 Position Sensorless Control 128 -- 5.5 Design Criteria of SR Motor Drives for EVs 131 -- 5.5.1 Machine Initialization 132 -- 5.5.2 Suppression of Acoustic Noise 136 -- 5.6 Examples of SR Motor Drives for EVs 137 -- 5.6.1 Planetary-Geared SR Motor Drive 137 -- 5.6.2 Outer-Rotor In-Wheel SR Motor Drive 141 -- 5.7 Application Examples of SR Motor Drives in EVs 144 -- 5.8 Maturing Technology for EVs? 144 -- References 145 -- 6 Stator-Permanent Magnet Motor Drives 147 -- 6.1 Stator-PM versus Rotor-PM 147 -- 6.2 System Configurations 148 -- 6.3 Doubly-Salient PM Motor Drives 149 -- 6.4 Flux-Reversal PM Motor Drives 157 -- 6.5 Flux-Switching PM Motor Drives 160 -- 6.6 Hybrid-Excited PM Motor Drives 161. 6.7 Flux-Mnemonic PM Motor Drives 165 -- 6.8 Design Criteria of Stator-PM Motor Drives for EVs 173 -- 6.9 Design Examples of Stator-PM Motor Drives for EVs 177 -- 6.9.1 Outer-Rotor Hybrid-Excited DSPM Motor Drive 177 -- 6.9.2 Outer-Rotor Flux-Mnemonic DSPM Motor Drive 181 -- 6.10 Potential Applications of Stator-PM Motor Drives in EVs 192 -- References 194 -- 7 Magnetic-Geared Motor Drives 195 -- 7.1 System Configurations 195 -- 7.2 Magnetic Gears 197 -- 7.2.1 Converted Magnetic Gears 198 -- 7.2.2 Field-Modulated Magnetic Gears 200 -- 7.3 MG Machines 203 -- 7.3.1 Principle of MG Machines 205 -- 7.3.2 Modeling of MG Machines 211 -- 7.4 Inverters for MG Motors 211 -- 7.5 MG Motor Control 212 -- 7.6 Design Criteria of MG Motor Drives for EVs 213 -- 7.7 Design Examples of MG Motor Drives for EVs 215 -- 7.7.1 MG PM Brushless DC In-Wheel Motor Drive 215 -- 7.7.2 MG PM Brushless AC In-Wheel Motor Drive 218 -- 7.8 Potential Applications of MG Motor Drives in EVs 224 -- References 225 -- 8 Vernier Permanent Magnet Motor Drives 227 -- 8.1 System Configurations 227 -- 8.2 Vernier PM Machines 228 -- 8.2.1 Vernier PM versus Magnetic-Geared PM 228 -- 8.2.2 Structure of Vernier PM Machines 229 -- 8.2.3 Principle of Vernier PM Machines 234 -- 8.2.4 Modeling of Vernier PM Machines 237 -- 8.3 Inverters for Vernier PM Motors 238 -- 8.4 Vernier PM Motor Control 239 -- 8.5 Design Criteria of Vernier PM Motor Drives for EVs 240 -- 8.6 Design Examples of Vernier PM Motor Drives for EVs 242 -- 8.6.1 Outer-Rotor Vernier PM Motor Drive 242 -- 8.6.2 Outer-Rotor Flux-Controllable Vernier PM Motor Drive 245 -- 8.7 Potential Applications of Vernier PM Motor Drives in EVs 251 -- References 251 -- 9 Advanced Magnetless Motor Drives 253 -- 9.1 What Is Advanced Magnetless? 253 -- 9.2 System Configurations 254 -- 9.3 Synchronous Reluctance Motor Drives 255 -- 9.4 Doubly-Salient DC Motor Drives 257 -- 9.5 Flux-Switching DC Motor Drives 260 -- 9.6 Vernier Reluctance Motor Drives 264 -- 9.7 Doubly-Fed Vernier Reluctance Motor Drives 266. 9.8 Axial-Flux Magnetless Motor Drives 269 -- 9.9 Design Criteria of Advanced Magnetless Motor Drives for EVs 272 -- 9.10 Design Examples of Advanced Magnetless Motor Drives for EVs 272 -- 9.10.1 Multi-tooth Doubly-Salient DC Motor Drive 272 -- 9.10.2 Multi-tooth Flux-Switching DC Motor Drive 274 -- 9.10.3 Axial-Flux Doubly-Salient DC Motor Drive 276 -- 9.10.4 Axial-Flux Flux-Switching DC Motor Drive 283 -- 9.11 Potential Applications of Advanced Magnetless Motor Drives in EVs 288 -- References 289 -- 10 Integrated-Starter-Generator Systems 291 -- 10.1 Classification of HEVs 291 -- 10.2 ISG System Configurations 295 -- 10.3 ISG Machines 296 -- 10.4 ISG Operations 298 -- 10.4.1 Cranking 298 -- 10.4.2 Electricity Generation 298 -- 10.4.3 Idle Stop-Start 298 -- 10.4.4 Regenerative Braking 299 -- 10.4.5 Power Assistance 300 -- 10.5 Design Criteria of ISG Systems 300 -- 10.6 Design Examples of ISG Systems 301 -- 10.6.1 Double-Stator PM Synchronous Machine-Based ISG System 301 -- 10.6.2 Hybrid-Excited Doubly-Salient PM Machine-Based ISG System 303 -- 10.7 Application Examples of ISG Systems in HEVs 312 -- 10.8 Matured Technology for HEVs? 313 -- References 313 -- 11 Planetary-Geared Electric Variable Transmission Systems 315 -- 11.1 System Configurations 315 -- 11.2 Planetary Gears 316 -- 11.3 Input-Split PG EVT Systems 319 -- 11.3.1 Toyota Hybrid System 319 -- 11.3.2 Ford Hybrid System 324 -- 11.4 Compound-Split PG EVT Systems 326 -- 11.4.1 GM Two-Mode Hybrid System 327 -- 11.4.2 Renault Hybrid System 331 -- 11.4.3 Timken Hybrid System 332 -- 11.5 Design Criteria of PG EVT Systems 333 -- 11.6 Design Example of PG EVT Systems 334 -- 11.6.1 PM Synchronous PG EVT System Configuration 334 -- 11.6.2 PM Synchronous Machine Design 335 -- 11.6.3 PM Synchronous Machine Analysis 336 -- 11.7 Application Examples of PG EVT Systems in HEVs 339 -- 11.8 Matured Technology for HEVs? 341 -- References 342 -- 12 Double-Rotor Electric Variable Transmission Systems 343 -- 12.1 System Configurations 343. 12.2 Double-Rotor Machines 345 -- 12.2.1 Multi-port Machine Concept 345 -- 12.2.2 DR Machine Structure 346 -- 12.3 Basic Double-Rotor EVT Systems 347 -- 12.3.1 DR EVT Structure 347 -- 12.3.2 DR EVT Modeling 349 -- 12.3.3 DR EVT Operation 350 -- 12.4 Advanced Double-Rotor EVT Systems 351 -- 12.4.1 PM DR EVT System 353 -- 12.4.2 SR DR EVT System 354 -- 12.4.3 Axial-Flux DR EVT System 356 -- 12.4.4 Advanced Magnetless DR EVT System 357 -- 12.5 Design Criteria of DR EVT Systems 359 -- 12.6 Design Example of DR EVT Systems 359 -- 12.6.1 DSDC DR EVT System Configuration 360 -- 12.6.2 DSDC DR Machine Design 360 -- 12.6.3 DSDC DR Machine Analysis 360 -- 12.7 Potential Applications of DR EVT Systems in HEVs 364 -- References 365 -- 13 Magnetic-Geared Electric Variable Transmission Systems 367 -- 13.1 System Configurations 367 -- 13.2 Multi-port Magnetic Gears 369 -- 13.2.1 Magnetic Planetary Gears 369 -- 13.2.2 Magnetic Concentric Gears 371 -- 13.3 Magnetic Planetary-Geared EVT System 373 -- 13.4 Magnetic Concentric-Geared EVT System 375 -- 13.5 Design Criteria of MG EVT Systems 380 -- 13.6 Design Example of MG EVT Systems 382 -- 13.6.1 MCG EVT System Configuration 382 -- 13.6.2 Integrated MCG Machine Design 384 -- 13.6.3 Integrated MCG Machine Analysis 386 -- 13.7 Potential Applications of MG EVT Systems in HEVs 392 -- References 392 -- Index 393. |
| Record Nr. | UNINA-9910814016103321 |
|
Chau K. T.
|
||
| Chichester, West Sussex, UK : , : John Wiley and Sons, Inc., , [2015] | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Electrical power systems / / P.S.R. Murty
| Electrical power systems / / P.S.R. Murty |
| Autore | Murty P. S. R. |
| Pubbl/distr/stampa | Oxford : , : Butterworth-Heinemann, , [2017] |
| Descrizione fisica | 1 online resource (xxv, 814 pages) : illustrations |
| Disciplina | 621.31 |
| Collana | Gale eBooks |
| Soggetto topico |
Electric power systems
Electric power transmission Electric power distribution |
| ISBN | 0-08-101245-4 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto | ch 1. Introduction -- ch 2. The line parameters -- ch 3. Mechanical design -- ch 4. Insulators -- ch 5. Corona and interference -- ch 6. Performance of transmission lines -- ch 7. Cables -- ch 8. High-voltage direct current transmission -- ch 9. Substations and neutral grounding -- ch 10. Distribution system -- ch 11. Overvoltages -- ch 12. Protection against overvoltages -- ch 13. Graph theory and network matrices -- ch 14. Short-circuit analysis -- ch 15. Unbalanced fault analysis -- ch 16. Circuit breakers -- ch 17. Relaying and protection -- ch 18. Power system stability -- ch 19. Load flow analysis -- ch 20. Economic operation of power systems -- ch 21. Load frequency control -- ch 22. Synchronous machine -- ch 23. Voltage and reactive power control -- ch 24. Renewable energy sources -- ch 25. Restructuring of electrical power systems. |
| Record Nr. | UNINA-9910297451303321 |
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Murty P. S. R.
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| Oxford : , : Butterworth-Heinemann, , [2017] | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Electrical power systems [[electronic resource] /] / C. L. Wadhwa
| Electrical power systems [[electronic resource] /] / C. L. Wadhwa |
| Autore | Wadhwa C. L |
| Pubbl/distr/stampa | Tunbridge Wells, : New Academic Science, c2012 |
| Descrizione fisica | 1 online resource (979 p.) |
| Soggetto topico |
Electric power systems
Electric power transmission |
| Soggetto genere / forma | Electronic books. |
| ISBN | 1-906574-39-1 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
""Cover""; ""Preface""; ""Contents""; ""Chapter 1. Fundamentals of Power Systems""; ""1.1 Single-Phase Transmission""; ""1.2 The 3-Phase Transmission ""; ""1.3 Complex Power ""; ""1.4 Load Characteristics""; ""1.5 The Per Unit System""; ""Chapter 2. Line Constant Calculations ""; ""2.1 Magnetic Flux Density ""; ""2.2 Inductors and Inductance ""; ""2.3 Magnetic Field Intensity Due to a Long Current Carrying Conductor ""; ""2.4 Inductance of Two-Wire (1-Ï?) Transmission line""; ""2.5 Flux Linkages of one Conductor in a Group of Conductors ""
""2.6 Inductance of 3-Ï? Unsymmetrically Spaced Transmission Line """"2.7 Transposition of Power Lines ""; ""2.8 Composite Conductors""; ""2.9 Inductance of Composite Conductors ""; ""2.10 Inductance of Double Circuit 3-Ï? Line ""; ""2.11 Concept of Geometric Mean Distance ""; ""2.12 Bundled Conductors ""; ""2.13 Skin and Proximity Effect""; ""Chapter 3. Capacitance of Transmission Lines ""; ""3.1 Electric Field of an Infinite Line of Charge ""; ""3.2 Potential Difference between Two Points Due to a Line Charge ""; ""3.3 Two Infinite Lines of Charge"" ""3.4 Capacitance of A 1-Ï? Transmission Line """"3.5 Capacitance of a 3-Phase Unsymmetrically Spaced Transmission Line ""; ""3.6 Capacitance of a Double Circuit Line ""; ""3.7 Effect of Earth on the Capacitance of Conductors ""; ""Chapter 4. Performance of Lines ""; ""4.1 Representation of Lines ""; ""4.2 Short Transmission Line ""; ""4.3 Medium Length Lines ""; ""4.4 Long Transmission Lines ""; ""4.5 ABCD Constants ""; ""4.6 Ferranti-Effect""; ""Chapter 5. High Voltage d.c Transmission""; ""5.1 Rectification ""; ""5.2 The 3-Phase Bridge Rectifier or Graetz Circuit ""; ""5.3 Inversion "" ""5.4 Kinds of d.c. Links """"5.5 Parallel and Series Connection of Thyristors""; ""5.6 Power Flow in HVDC Transmission System ""; ""5.7 Constant Ignition Angle β Control ""; ""5.8 Constant Extinction Angle Î? Control ""; ""5.9 Constant Current Control""; ""5.10 Actual Control Characteristics""; ""5.11 Frequency Control""; ""5.12 Reactive VAr Requirements of HVDC Converters ""; ""5.13 Parallel Operation of d.c Link with an a.c Network""; ""5.14 Ground Return""; ""5.15 Circuit Breaking ""; ""5.16 Advantages of d.c Transmission""; ""5.17 Disadvantages ""; ""5.18 Cables "" ""5.19 Economic Distances for d.c Transmission""""Chapter 6. Corona ""; ""6.1 Critical Disruptive Voltage""; ""6.2 Corona Loss ""; ""6.3 Line Design Based on Corona""; ""6.4 Radio Interference""; ""6.5 Inductive Interference between Power and Communication Lines ""; ""Chapter 7. Mechanical Design of Transmission Lines""; ""7.1 The Catenary Curve ""; ""7.2 Sag Tension Calculations""; ""7.3 Supports at Different Levels""; ""7.4 Stringing Chart""; ""7.5 Sag Template""; ""7.6 Equivalent Span""; ""7.7 Stringing of Conductors""; ""7.8 Vibration and Vibration Dampers"" ""Chapter 8. Overhead Line Insulators"" |
| Record Nr. | UNINA-9910461936003321 |
|
Wadhwa C. L
|
||
| Tunbridge Wells, : New Academic Science, c2012 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Electrical power systems / / C.L. Wadhwa
| Electrical power systems / / C.L. Wadhwa |
| Autore | Wadhwa C. L. |
| Pubbl/distr/stampa | Tunbridge Wells, Kent, UK : , : New Academic Science Limited, , [2012] |
| Descrizione fisica | 1 online resource (979 p.) |
| Soggetto topico |
Sistemes de distribució d'energia elèctrica
Electric power systems Electric power transmission |
| ISBN |
9781906574390
1-906574-39-1 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
""Cover""; ""Preface""; ""Contents""; ""Chapter 1. Fundamentals of Power Systems""; ""1.1 Single-Phase Transmission""; ""1.2 The 3-Phase Transmission ""; ""1.3 Complex Power ""; ""1.4 Load Characteristics""; ""1.5 The Per Unit System""; ""Chapter 2. Line Constant Calculations ""; ""2.1 Magnetic Flux Density ""; ""2.2 Inductors and Inductance ""; ""2.3 Magnetic Field Intensity Due to a Long Current Carrying Conductor ""; ""2.4 Inductance of Two-Wire (1-Ï?) Transmission line""; ""2.5 Flux Linkages of one Conductor in a Group of Conductors ""
""2.6 Inductance of 3-Ï? Unsymmetrically Spaced Transmission Line """"2.7 Transposition of Power Lines ""; ""2.8 Composite Conductors""; ""2.9 Inductance of Composite Conductors ""; ""2.10 Inductance of Double Circuit 3-Ï? Line ""; ""2.11 Concept of Geometric Mean Distance ""; ""2.12 Bundled Conductors ""; ""2.13 Skin and Proximity Effect""; ""Chapter 3. Capacitance of Transmission Lines ""; ""3.1 Electric Field of an Infinite Line of Charge ""; ""3.2 Potential Difference between Two Points Due to a Line Charge ""; ""3.3 Two Infinite Lines of Charge"" ""3.4 Capacitance of A 1-Ï? Transmission Line """"3.5 Capacitance of a 3-Phase Unsymmetrically Spaced Transmission Line ""; ""3.6 Capacitance of a Double Circuit Line ""; ""3.7 Effect of Earth on the Capacitance of Conductors ""; ""Chapter 4. Performance of Lines ""; ""4.1 Representation of Lines ""; ""4.2 Short Transmission Line ""; ""4.3 Medium Length Lines ""; ""4.4 Long Transmission Lines ""; ""4.5 ABCD Constants ""; ""4.6 Ferranti-Effect""; ""Chapter 5. High Voltage d.c Transmission""; ""5.1 Rectification ""; ""5.2 The 3-Phase Bridge Rectifier or Graetz Circuit ""; ""5.3 Inversion "" ""5.4 Kinds of d.c. Links """"5.5 Parallel and Series Connection of Thyristors""; ""5.6 Power Flow in HVDC Transmission System ""; ""5.7 Constant Ignition Angle β Control ""; ""5.8 Constant Extinction Angle Î? Control ""; ""5.9 Constant Current Control""; ""5.10 Actual Control Characteristics""; ""5.11 Frequency Control""; ""5.12 Reactive VAr Requirements of HVDC Converters ""; ""5.13 Parallel Operation of d.c Link with an a.c Network""; ""5.14 Ground Return""; ""5.15 Circuit Breaking ""; ""5.16 Advantages of d.c Transmission""; ""5.17 Disadvantages ""; ""5.18 Cables "" ""5.19 Economic Distances for d.c Transmission""""Chapter 6. Corona ""; ""6.1 Critical Disruptive Voltage""; ""6.2 Corona Loss ""; ""6.3 Line Design Based on Corona""; ""6.4 Radio Interference""; ""6.5 Inductive Interference between Power and Communication Lines ""; ""Chapter 7. Mechanical Design of Transmission Lines""; ""7.1 The Catenary Curve ""; ""7.2 Sag Tension Calculations""; ""7.3 Supports at Different Levels""; ""7.4 Stringing Chart""; ""7.5 Sag Template""; ""7.6 Equivalent Span""; ""7.7 Stringing of Conductors""; ""7.8 Vibration and Vibration Dampers"" |
| Record Nr. | UNINA-9910785885503321 |
|
Wadhwa C. L.
|
||
| Tunbridge Wells, Kent, UK : , : New Academic Science Limited, , [2012] | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Electrical power systems / / C.L. Wadhwa
| Electrical power systems / / C.L. Wadhwa |
| Autore | Wadhwa C. L. |
| Edizione | [1st ed.] |
| Pubbl/distr/stampa | Tunbridge Wells, Kent, UK : , : New Academic Science Limited, , [2012] |
| Descrizione fisica | 1 online resource (979 p.) |
| Soggetto topico |
Sistemes de distribució d'energia elèctrica
Electric power systems Electric power transmission |
| ISBN |
9781906574390
1-906574-39-1 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
""Cover""; ""Preface""; ""Contents""; ""Chapter 1. Fundamentals of Power Systems""; ""1.1 Single-Phase Transmission""; ""1.2 The 3-Phase Transmission ""; ""1.3 Complex Power ""; ""1.4 Load Characteristics""; ""1.5 The Per Unit System""; ""Chapter 2. Line Constant Calculations ""; ""2.1 Magnetic Flux Density ""; ""2.2 Inductors and Inductance ""; ""2.3 Magnetic Field Intensity Due to a Long Current Carrying Conductor ""; ""2.4 Inductance of Two-Wire (1-Ï?) Transmission line""; ""2.5 Flux Linkages of one Conductor in a Group of Conductors ""
""2.6 Inductance of 3-Ï? Unsymmetrically Spaced Transmission Line """"2.7 Transposition of Power Lines ""; ""2.8 Composite Conductors""; ""2.9 Inductance of Composite Conductors ""; ""2.10 Inductance of Double Circuit 3-Ï? Line ""; ""2.11 Concept of Geometric Mean Distance ""; ""2.12 Bundled Conductors ""; ""2.13 Skin and Proximity Effect""; ""Chapter 3. Capacitance of Transmission Lines ""; ""3.1 Electric Field of an Infinite Line of Charge ""; ""3.2 Potential Difference between Two Points Due to a Line Charge ""; ""3.3 Two Infinite Lines of Charge"" ""3.4 Capacitance of A 1-Ï? Transmission Line """"3.5 Capacitance of a 3-Phase Unsymmetrically Spaced Transmission Line ""; ""3.6 Capacitance of a Double Circuit Line ""; ""3.7 Effect of Earth on the Capacitance of Conductors ""; ""Chapter 4. Performance of Lines ""; ""4.1 Representation of Lines ""; ""4.2 Short Transmission Line ""; ""4.3 Medium Length Lines ""; ""4.4 Long Transmission Lines ""; ""4.5 ABCD Constants ""; ""4.6 Ferranti-Effect""; ""Chapter 5. High Voltage d.c Transmission""; ""5.1 Rectification ""; ""5.2 The 3-Phase Bridge Rectifier or Graetz Circuit ""; ""5.3 Inversion "" ""5.4 Kinds of d.c. Links """"5.5 Parallel and Series Connection of Thyristors""; ""5.6 Power Flow in HVDC Transmission System ""; ""5.7 Constant Ignition Angle β Control ""; ""5.8 Constant Extinction Angle Î? Control ""; ""5.9 Constant Current Control""; ""5.10 Actual Control Characteristics""; ""5.11 Frequency Control""; ""5.12 Reactive VAr Requirements of HVDC Converters ""; ""5.13 Parallel Operation of d.c Link with an a.c Network""; ""5.14 Ground Return""; ""5.15 Circuit Breaking ""; ""5.16 Advantages of d.c Transmission""; ""5.17 Disadvantages ""; ""5.18 Cables "" ""5.19 Economic Distances for d.c Transmission""""Chapter 6. Corona ""; ""6.1 Critical Disruptive Voltage""; ""6.2 Corona Loss ""; ""6.3 Line Design Based on Corona""; ""6.4 Radio Interference""; ""6.5 Inductive Interference between Power and Communication Lines ""; ""Chapter 7. Mechanical Design of Transmission Lines""; ""7.1 The Catenary Curve ""; ""7.2 Sag Tension Calculations""; ""7.3 Supports at Different Levels""; ""7.4 Stringing Chart""; ""7.5 Sag Template""; ""7.6 Equivalent Span""; ""7.7 Stringing of Conductors""; ""7.8 Vibration and Vibration Dampers"" |
| Record Nr. | UNINA-9910827249703321 |
|
Wadhwa C. L.
|
||
| Tunbridge Wells, Kent, UK : , : New Academic Science Limited, , [2012] | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
ESMO '98 : proceedings : 1998 IEEE 8th International Conference on Transmission & Distribution Construction, Operation & Live-Line Maintenance : the power is in your hands : April 26-30, 1998, Orlando, Florida, U.S / / Institute of Electrical and Electronics Engineers
| ESMO '98 : proceedings : 1998 IEEE 8th International Conference on Transmission & Distribution Construction, Operation & Live-Line Maintenance : the power is in your hands : April 26-30, 1998, Orlando, Florida, U.S / / Institute of Electrical and Electronics Engineers |
| Pubbl/distr/stampa | Piscataway, New Jersey : , : Institute of Electrical and Electronics Engineers, , 1998 |
| Descrizione fisica | 1 online resource (345 pages) |
| Disciplina | 621.3192 |
| Soggetto topico |
Electric lines
Electric power transmission Electric lines - Maintenance and repair Electric power distribution |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Record Nr. | UNISA-996212589703316 |
| Piscataway, New Jersey : , : Institute of Electrical and Electronics Engineers, , 1998 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. di Salerno | ||
| ||
ESMO 2003 : proceedings : 2003 IEEE EMSO - 2003 IEEE 10th International Conference on Transmission & Distribution Construction, Operation & Live-Line Maintenance proceedings : Global ESMO 2003, the power is in your hands : April 6-10, 2003, Orlando, Florid
| ESMO 2003 : proceedings : 2003 IEEE EMSO - 2003 IEEE 10th International Conference on Transmission & Distribution Construction, Operation & Live-Line Maintenance proceedings : Global ESMO 2003, the power is in your hands : April 6-10, 2003, Orlando, Florid |
| Pubbl/distr/stampa | [Place of publication not identified], : IEEE, 2003 |
| Disciplina | 621.319/2 |
| Soggetto topico |
Electric lines - Maintenance and repair
Electric lines Electric power transmission Electric power distribution Electrical Engineering Electrical & Computer Engineering Engineering & Applied Sciences |
| Soggetto genere / forma | Internet resources. |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Record Nr. | UNISA-996210234403316 |
| [Place of publication not identified], : IEEE, 2003 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. di Salerno | ||
| ||
ESMO 2006 : 2006 IEEE 11th International Conference on Transmission & Distribution Construction, Operation & Live-Line Maintenance : Albuquerque, NM, 15-20 October 2006 / / IEEE
| ESMO 2006 : 2006 IEEE 11th International Conference on Transmission & Distribution Construction, Operation & Live-Line Maintenance : Albuquerque, NM, 15-20 October 2006 / / IEEE |
| Pubbl/distr/stampa | IEEE |
| Soggetto topico |
Electric lines
Electric lines - Maintenance and repair Electric power transmission Electric power distribution |
| ISBN | 1-5090-9111-4 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Altri titoli varianti |
ESMO 2006 - 2006 IEEE 11th International Conference on Transmission & Distribution Construction, Operation and Live-Line Maintenance
Computer Software and Applications Conference Supplement |
| Record Nr. | UNISA-996279920403316 |
| IEEE | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. di Salerno | ||
| ||
