El-Hawary, M. E.,
Electrical power systems : design and analysis / Mohamed E. El-Hawary. - Rev. printing - 1 PDF (xii, 791 pages) : illustrations. - IEEE press series on power engineering ; 2 . - IEEE Press power systems engineering series ; 2 .
Includes bibliographical references and index.
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.
Restricted to subscribers or individual electronic text purchasers.
This comprehensive textbook introduces electrical engineers to the most relevant concepts and techniques in electric power systems engineering today. With an emphasis on practical motivations for choosing the best design and analysis approaches, the author carefully integrates theory and application. Key features include more than 500 illustrations and diagrams, clearly developed procedures and application examples, important mathematical details, coverage of both alternating and direct current, an additional set of solved problems at the end of each chapter, and an historical overview of the development of electric power systems. This book will be useful to both power engineering students and professional power engineers.
Mode of access: World Wide Web
9780470544464
10.1109/9780470544464 doi
Electric power systems--Design and construction.
Electronic books.
TK1001 / .E54 1995eb
621.31
Electrical power systems : design and analysis / Mohamed E. El-Hawary. - Rev. printing - 1 PDF (xii, 791 pages) : illustrations. - IEEE press series on power engineering ; 2 . - IEEE Press power systems engineering series ; 2 .
Includes bibliographical references and index.
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.
Restricted to subscribers or individual electronic text purchasers.
This comprehensive textbook introduces electrical engineers to the most relevant concepts and techniques in electric power systems engineering today. With an emphasis on practical motivations for choosing the best design and analysis approaches, the author carefully integrates theory and application. Key features include more than 500 illustrations and diagrams, clearly developed procedures and application examples, important mathematical details, coverage of both alternating and direct current, an additional set of solved problems at the end of each chapter, and an historical overview of the development of electric power systems. This book will be useful to both power engineering students and professional power engineers.
Mode of access: World Wide Web
9780470544464
10.1109/9780470544464 doi
Electric power systems--Design and construction.
Electronic books.
TK1001 / .E54 1995eb
621.31