Handbook of power systems engineering with power electronics applications
Formerly known as Handbook of Power System Engineering, this second edition provides rigorous revisions to the original treatment of systems analysis together with a substantial new four-chapter section on power electronics applications. Encompassing a whole range of equipment, phenomena, and analy...
| Autor principal: | |
|---|---|
| Formato: | Libro electrónico |
| Idioma: | Inglés |
| Publicado: |
Hoboken, N.J. :
John Wiley
2013.
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| Edición: | 2nd ed |
| Materias: | |
| Ver en Biblioteca Universitat Ramon Llull: | https://discovery.url.edu/permalink/34CSUC_URL/1im36ta/alma991009665115606719 |
Tabla de Contenidos:
- HANDBOOK OF POWER SYSTEMS ENGINEERING WITH POWER ELECTRONICS APPLICATIONS; CONTENTS; PREFACE; ACKNOWLEDGEMENTS; ABOUT THE AUTHOR; INTRODUCTION; 1 OVERHEAD TRANSMISSION LINES AND THEIR CIRCUIT CONSTANTS; 1.1 Overhead Transmission Lines with LR Constants; 1.1.1 Three-phase single circuit line without overhead grounding wire; 1.1.2 Three-phase single circuit line with OGW, OPGW; 1.1.3 Three-phase double circuit line with LR constants; 1.2 Stray Capacitance of Overhead Transmission Lines; 1.2.1 Stray capacitance of three-phase single circuit line; 1.2.2 Three-phase single circuit line with OGW
- 1.2.3 Three-phase double circuit line1.3 Working Inductance and Working Capacitance; 1.3.1 Introduction of working inductance; 1.3.2 Introduction of working capacitance; 1.3.3 Special properties of working inductance and working capacitance; 1.3.4 MKS rational unit system and the various MKS practical units in electrical engineering field; 1.4 Supplement: Proof of Equivalent Radius req = r1/n · wn -1/n for a Multi-bundled Conductor; 1.4.1 Equivalent radius for inductance calculation; 1.4.2 Equivalent radius of capacitance calculation; Coffee break 1: Electricity, its substance and methodology
- 2 SYMMETRICAL COORDINATE METHOD (SYMMETRICAL COMPONENTS)2.1 Fundamental Concept of Symmetrical Components; 2.2 Definition of Symmetrical Components; 2.2.1 Definition; 2.2.2 Implication of symmetrical components; 2.3 Conversion of Three-phase Circuit into Symmetrical Coordinated Circuit; 2.4 Transmission Lines by Symmetrical Components; 2.4.1 Single circuit line with LR constants; 2.4.2 Double circuit line with LR constants; 2.4.3 Single circuit line with stray capacitance C; 2.4.4 Double circuit line with C constants; 2.5 Typical Transmission Line Constants; 2.5.1 Typical line constants
- 2.5.2 L, C constant values derived from typical travelling-wave velocity and surge impedance2.6 Generator by Symmetrical Components (Easy Description); 2.6.1 Simplified symmetrical equations; 2.6.2 Reactance of generator; 2.7 Description of Three-phase Load Circuit by Symmetrical Components; 3 FAULT ANALYSIS BY SYMMETRICAL COMPONENTS; 3.1 Fundamental Concept of Symmetrical Coordinate Method; 3.2 Line-to-ground Fault (Phase a to Ground Fault: 1øG); 3.2.1 Condition before the fault; 3.2.2 Condition of phase a to ground fault
- 3.2.3 Voltages and currents at virtual terminal point f in the 0-1-2 domain3.2.4 Voltages and currents at an arbitrary point under fault conditions; 3.2.5 Fault under no-load conditions; 3.3 Fault Analysis at Various Fault Modes; 3.4 Conductor Opening; 3.4.1 Single-phase (phase a) conductor opening; 3.4.2 Two-phases (phase b, c) conductor opening; Coffee break 2: Dawn of the world of electricity, from Coulomb to Amp ere and Ohm; 4 FAULT ANALYSIS OF PARALLEL CIRCUIT LINES (INCLUDING SIMULTANEOUS DOUBLE CIRCUIT FAULT); 4.1 Two-phase Circuit and its Symmetrical Coordinate Method
- 4.1.1 Definition and meaning
