| Titre : | Schaum's Outline of Théory and Problems of Electric Power Systems | | Type de document : | texte imprimé | | Auteurs : | Syed A. Nasar, Auteur | | Editeur : | USA : McGraw-Hill | | Année de publication : | 1990 | | Collection : | Schaum's Outline Series | | Importance : | 175 p. | | Présentation : | couv. ill. en coul., ill. | | Format : | 27,6 cm. | | ISBN/ISSN/EAN : | 978-0-07-045917-5 | | Langues : | Anglais (eng) | | Catégories : | ELECTROTECHNIQUE
| | Index. décimale : | 10-04 Réseaux et protection | | Résumé : | If you want top grades and excellent understanding of electric power systems, this powerful study tool is the best tutor you can have! It takes you step-by-step through the subject and gives you accompanying related problems with fully worked solutions. You also get hundreds of additional problems to solve on your own, working at your own speed. This superb Outline clearly presents every aspect of real-world power system calculation and implementation. Famous for their clarity, wealth of illustrations and examples, and lack of dreary minutia, SchaumÕs Outlines have sold more than 30 million copies worldwide. Compatible with any textbook, this Outline is also perfect for standardized test or professional exam review. | | Note de contenu : | Contents:
Chapter 1 Fundamentals of Electric Power Systems
1.1 Energy and Power
1.2 Growth Rates
1.3 Major Energy Sources
Chapter 2 Power System Representation
2.1 One-Line Diagrams
2.2 Impedance and Reactance Diagrams
2.3 Per-Unit Representation
2.4 Change of Base
2.5 Summary of Three-Phase Circuit Relationships
Chapter 3 Transmission-Line Parameters
3.1 Resistance
3.2 Inductance
3.3 Capacitance
Chapter 4 Transmission-Line Calculations
4.1 Transmission-Line Representation
4.2 Short Transmission Line
4.3 Medium-Length Transmission Line
4.4 Long Transmission Line
4.5 The Transmission Line as a Two-Port Network
4.6 Power Flow on Transmission Lines
4.7 Traveling Waves on Transmission Lines
Chapter 5 Underground Cables
5.1 Electric Stress in a Single-Core Cable
5.2 Grading of Cables
5.3 Cable Capacitance
5.4 Cable Inductance
5.5 Dielectric Loss and Heating
Chapter 6 Fault Calculations
6.1 Types of Faults
6.2 Symmetrical Faults
6.3 Unsymmetrical Faults and Symmetrical Components
6.4 Sequence Power
6.5 Sequence Impedances and Sequence Networks
Chapter 7 General Methods for Network Calculations
7.1 Source Transformations
7.2 Bus Admittance Matrix
7.3 Elements of Y[sub(bus)]
7.4 Bus Impedance Matrix
7.5 Elements of Z[sub(bus)]
7.6 Modifying Z[sub(bus)]
Chapter 8 Power-Flow Studies
8.1 Power Flow in a Short Transmission Line
8.2 An Iterative Procedure
8.3 The Power-Flow Equations
8.4 Gauss and Gauss-Seidel Methods
8.5 The Newton-Raphson Method
8.6 Bus Voltage Specification and Regulation
Chapter 9 Power System Operation and Control
9.1 Economic Distribution of Load between Generators
9.2 Effect of Transmission-Line Loss
9.3 Load Distribution between Plants
9.4 Power System Control
Chapter 10 Power System Stability
10.1 Inertia Constant and Swing Equation
10.2 H Constant on a Common MVA Base
10.3 Equal-Area Criterion
10.4 Critical Clearing Angle
10.5 A Two-Machine System
10.6 Step-by-Step Solution
Chapter 11 Power System Protection
11.1 Components of a Protection System
11.2 Transducers and Relays
11.3 Relay Types
11.4 Protection of Lines, Transformers, and Generators
Index |
Schaum's Outline of Théory and Problems of Electric Power Systems [texte imprimé] / Syed A. Nasar, Auteur . - USA : McGraw-Hill, 1990 . - 175 p. : couv. ill. en coul., ill. ; 27,6 cm.. - ( Schaum's Outline Series) . ISBN : 978-0-07-045917-5 Langues : Anglais ( eng) | Catégories : | ELECTROTECHNIQUE
| | Index. décimale : | 10-04 Réseaux et protection | | Résumé : | If you want top grades and excellent understanding of electric power systems, this powerful study tool is the best tutor you can have! It takes you step-by-step through the subject and gives you accompanying related problems with fully worked solutions. You also get hundreds of additional problems to solve on your own, working at your own speed. This superb Outline clearly presents every aspect of real-world power system calculation and implementation. Famous for their clarity, wealth of illustrations and examples, and lack of dreary minutia, SchaumÕs Outlines have sold more than 30 million copies worldwide. Compatible with any textbook, this Outline is also perfect for standardized test or professional exam review. | | Note de contenu : | Contents:
Chapter 1 Fundamentals of Electric Power Systems
1.1 Energy and Power
1.2 Growth Rates
1.3 Major Energy Sources
Chapter 2 Power System Representation
2.1 One-Line Diagrams
2.2 Impedance and Reactance Diagrams
2.3 Per-Unit Representation
2.4 Change of Base
2.5 Summary of Three-Phase Circuit Relationships
Chapter 3 Transmission-Line Parameters
3.1 Resistance
3.2 Inductance
3.3 Capacitance
Chapter 4 Transmission-Line Calculations
4.1 Transmission-Line Representation
4.2 Short Transmission Line
4.3 Medium-Length Transmission Line
4.4 Long Transmission Line
4.5 The Transmission Line as a Two-Port Network
4.6 Power Flow on Transmission Lines
4.7 Traveling Waves on Transmission Lines
Chapter 5 Underground Cables
5.1 Electric Stress in a Single-Core Cable
5.2 Grading of Cables
5.3 Cable Capacitance
5.4 Cable Inductance
5.5 Dielectric Loss and Heating
Chapter 6 Fault Calculations
6.1 Types of Faults
6.2 Symmetrical Faults
6.3 Unsymmetrical Faults and Symmetrical Components
6.4 Sequence Power
6.5 Sequence Impedances and Sequence Networks
Chapter 7 General Methods for Network Calculations
7.1 Source Transformations
7.2 Bus Admittance Matrix
7.3 Elements of Y[sub(bus)]
7.4 Bus Impedance Matrix
7.5 Elements of Z[sub(bus)]
7.6 Modifying Z[sub(bus)]
Chapter 8 Power-Flow Studies
8.1 Power Flow in a Short Transmission Line
8.2 An Iterative Procedure
8.3 The Power-Flow Equations
8.4 Gauss and Gauss-Seidel Methods
8.5 The Newton-Raphson Method
8.6 Bus Voltage Specification and Regulation
Chapter 9 Power System Operation and Control
9.1 Economic Distribution of Load between Generators
9.2 Effect of Transmission-Line Loss
9.3 Load Distribution between Plants
9.4 Power System Control
Chapter 10 Power System Stability
10.1 Inertia Constant and Swing Equation
10.2 H Constant on a Common MVA Base
10.3 Equal-Area Criterion
10.4 Critical Clearing Angle
10.5 A Two-Machine System
10.6 Step-by-Step Solution
Chapter 11 Power System Protection
11.1 Components of a Protection System
11.2 Transducers and Relays
11.3 Relay Types
11.4 Protection of Lines, Transformers, and Generators
Index |
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Schaum's Outline of Théory and Problems of Electric Power Systems / Syed A. Nasar
