Preface -- Chapter I Introduction -- 1.1 The Development of Electric Power Systems -- 1.2 Outline of the Text -- Chapter II Some Basic Principles -- 2.1 Introduction -- 2.2 Power Concepts -- 2.3 Three Phase Systems -- 2.4 Power System Representation -- Chapter III Power Generation and the Synchronous Machine -- 3.1 Introduction -- 3.2 The Synchronous Machine: Preliminaries -- 3.3 Fields in a Synchronous Machine -- 3.4 A Simple Equivalent Circuit -- 3.5 Open-Circuit and Short-Circuit Characteristics -- 3.6 Principal Steady-State Characteristics -- 3.7 Power-Angle Characteristics and the Infinite Bus Concept -- 3.8 Static Stability Limit Curves -- 3.9 Accounting for Saliency -- 3.10 Salient-Pole Machine Power Angle Characteristics -- Chapter IV The Transmission Subsystem -- 4.1 Introduction -- 4.2 Electric Transmission Line Parameters -- 4.3 Line Inductance -- 4.4 Line Capacitance -- 4.5 Two-Port Networks -- 4.6 Transmission Line Models -- Chapter V The Load Subsystem -- 5.1 Introduction -- 5.2 General Theory of Transformer Operation -- 5.3 Transformer Connections -- 5.4 Three-Phase Induction Motors -- Chapter VI Analysis of Interconnected Systems -- 6.1 Introduction -- 6.2 Reduction of Interconnected Systems -- 6.3 The Per Unit System -- 6.4 Network Nodal Admittance Formulation -- 6.5 The General Form of the Load-Flow Equations -- 6.6 The Load-Flow Problem -- 6.7 Getting Started -- 6.8 Newton-Raphson Method -- 6.9 The Newton-Raphson Method for Load-Flow Solution -- Chapter VII High-Voltage Direct-Current Transmission -- 7.1 Introduction -- 7.2 Main Applications of HVDC -- 7.3 HVDC Converters -- 7.4 Classifications of Direct-Current Links -- 7.5 Some Advantages of HVDC Transmission -- 7.6 Some Economic Considerations -- 7.7 Converter Circuits: Configurations and Properties -- 7.8 Analysis of the Three-Phase Bridge Converter -- 7.9 Inversion in Three-Phase Bridge Converter -- 7.10 HVDC Link and Converter Control Characteristics -- 7.11 Analysis of HVDC Link Performance.

Chapter VIII Faults on Electric Energy Systems -- 8.1 Introduction -- 8.2 Transients During a Balanced Fault -- 8.3 The Method of Symmetrical Components -- 8.4 Sequence Networks -- 8.5 Line-to-Ground Fault -- 8.6 Double Line-to-Ground Fault -- 8.7 Line-to-Line Fault -- 8.8 The Balanced Three-Phase Fault -- Chapter IX System Protection -- 9.1 Introduction -- 9.2 Productive Relays -- 9.3 The X-R Diagram -- 9.4 Relay Comparators -- 9.5 Generator Protection -- 9.6 Transformer Protection -- 9.7 Bus Bar Protection -- 9.8 Transmission Line Overcurrent Protection -- 9.9 Pilot-Wire Feeder Protection -- 9.10 Distance Protection -- 9.11 Power Line Carrier Protection -- 9.12 Computer Relaying -- Chapter X Power System Stability -- 10.1 Introduction -- 10.2 The Swing Equation -- 10.3 Electric Power Relations -- 10.4 Concepts in Transient Stability -- 10.5 A Method for Stability Assessment -- 10.6 Improving System Stability -- Chapter XI Optimal Operation of Electric Power Systems -- 11.1 Introduction -- 11.2 Modeling of Fuel Costs for Thermal Generation -- 11.3 Optimal Operation of an All-Thermal System: Equal Incremental Cost Loading -- 11.4 Accounting for Transmission Losses -- 11.5 Optimal Operation of an All-Thermal System, Including Losses -- 11.6 Optimal Operation of Hydrothermal Systems -- Some Solved Problems -- Problems -- Index.