Verfügbarkeit: Electric power systems

Electric power systems: a conceptual introduction

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Bibliographische Detailangaben
1. Verfasser:	Meier, Alexandra von (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Hoboken, NJ Wiley [u.a.] 2006
Schriftenreihe:	Wiley survival guides in engineering and science
Schlagworte:	Electric power systems Elektrische Energieverteilung Elektrizitätserzeugung Einführung
Online-Zugang:	Inhaltsverzeichnis Klappentext
Beschreibung:	XV, 309 S. Ill., graph. Darst.
ISBN:	0471178594 9780471178590

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Datensatz im Suchindex

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adam_text	CONTENTS Preface хш 1. The Physics of Electricity 1 1.1 Basic Quantities 1 1.1.1 Introduction I 1.1.2 Charge 2 1.1.3 Potential or Voltage 3 1.1.4 Ground 5 1.1.5 Conductivity 5 1.1.6 Current 6 1.2 Ohm s law 8 1.2.1 Resistance 9 1.2.2 Conductance 10 1.2.3 Insulation 11 1.3 Circuit Fundamentals 11 1.3.1 Static Charge И 1.3.2 Electric Circuits 12 1.3.3 Voltage Drop 13 1.3.4 Electric Shock 13 1.4 Resistive Heating 14 1.4.1 Calculating Resistive Heating 15 1.4.2 Transmission Voltage and Resistive Losses 17 1.5 Electric and Magnetic Fields 18 1.5.1 The Field as a Concept 18 1.5.2 Electric Fields 19 1.5.3 Magnetic Fields 21 1.5.4 Electromagnetic Induction 24 1.5.5 Electromagnetic Fields and Health Effects 25 1.5.6 Electromagnetic Radiation 26 2. Basic Circuit Analysis 30 2.1 Modeling Circuits 30 VIU CONTENTS 2.2 Series and Parallel Circuits 31 2.2.1 Resistance in Series 32 2.2.2 Resistance in Parallel 33 2.2.3 Network Reduction 35 2.2.4 Practical Aspects 36 2.3 Kirchhoffs Laws 37 2.3.1 Kirchhoff s Voltage Law 38 2.3.2 Kirchhoff s Current Law 39 2.3.3 Application to Simple Circuits 40 2.3.4 The Superposition Principle 41 2.4 Magnetic Circuits 44 3. AC Power 49 3.1 Alternating Current and Voltage 49 3.1.1 Historical Notes 49 3.1.2 Mathematical Description 50 3.1.3 Therms Value 53 3.2 Reactance 55 3.2.1 Inductance 55 3.2.2 Capacitance 58 3.2.3 Impedance 64 3.2.4 Admittance 64 3.3 Power 66 3.3.1 Definition of Electric Power 66 3.3.2 Complex Power 68 3.3.3 The Significance of Reactive Power 73 3.4 Phasor Notation 75 3.4.1 Phasors as Graphics 75 3.4.2 Phasors as Exponentials 78 3.4.3 Operations with Phasors 80 4. Generators 85 4. 1 The Simple Generator 86 4.2 The Synchronous Generator 92 4.2.1 Basic Components and Functioning 92 4.2.2 Other Design Aspects 97 4.3 Operational Control of Synchronous Generators 100 4.3.1 Single Generator: Real Power 100 4.3.2 Single Generator: Reactive Power 101 4.3.3 Multiple Generators: Real Power 107 4.3.4 Multiple Generators: Reactive Power 1 12 CONTENTS IX 4.4 Operating Limits 115 4.5 The Induction Generator 118 4.5.1 General Characteristics 118 4.5.2 Electromagnetic Characteristics 120 4.6 Inverters 123 5. Loads 127 5.1 Resistive Loads 128 5.2 Motors 131 5.3 Electronic Devices 134 5.4 Load from the System Perspective 136 5.4.1 Coincident and Noncoincident Demand 137 5.4.2 Load Profiles and Load Duration Curve 138 5.5 Single- and Multiphase Connections 140 6. Transmission and Distribution 144 6.1 System Structure 144 6.1.1 Historical Notes 144 6.1.2 Structural Features 147 6.1.3 Sample Diagram 149 6.1.4 Topology 150 6.1.5 Loop Flow 153 6.1.6 Stations and Substations 156 6.1.7 Reconfiguring the System 158 6.2 Three-Phase Transmission 159 6.2.1 Rationale for Three Phases 160 6.2.2 Balancing Loads 163 6.2.3 Delta and Wye Connections 164 6.2.4 Per-Phase Analysis 166 6.2.5 Three-Phase Power 166 6.2.6 D.C. Transmission 167 6.3 Transformers 168 6.3.1 General Properties 168 6.3.2 Transformer Heating 170 6.3.3 Delta and Wye Transformers 172 6.4 Characteristics of Power Lines 175 6.4.1 Conductors 175 6.4.2 Towers, Insulators, and Other Components 179 6.5 Loading 182 6.5.1 Thermal Limits 182 6.5.2 Stability Limit 183 X CONTENTS 6.6 Voltage Control 184 6.7 Protection 188 6.7.1 Basics of Protection and Protective Devices 188 6.7.2 Protection Coordination 192 7. Power Flow Analysis 195 7.1 Introduction 1 95 7.2 The Power Flow Problem 197 7.2.1 Network Representation 197 7.2.2 Choice of Variables 198 7.2.3 Types of Buses 201 7.2.4 Variables for Balancing Real Power ■ 201 7.2.5 Variables for Balancing Reactive Power 202 7.2.6 The Slack Bus 204 7.2.7 Summary of Variables 205 7.3 Example with Interpretation of Results 206 7.3.1 Six-Bus Example 206 7.3.2 Tweaking the Case 210 7.3.3 Conceptualizing Power Flow 21 1 7.4 Power Flow Equations and Solution Methods 214 7.4.1 Derivation of Power Flow Equations 214 7.4.2 Solution Methods 217 7.4.3 Decoupled Power Flow 224 7.5 Applications and Optimal Power Flow 226 8. System Performance 229 8.1 Reliability 229 8.1.1 Measures of Reliability 229 8.1.2 Valuation of Reliability 231 8.2 Security 233 8.3 Stability 234 8.3.1 The Concept of Stability 234 8.3.2 Steady-State Stability 236 8.3.3 Dynamic Stability 240 8.3.4 Voltage Stability 249 8.4 Power Quality 250 8.4.1 Voltage 251 8.4.2 Frequency 253 8.4.3 Waveform 255 CONTENTS XI 9. System Operation, Management, and New Technology 259 9.1 Operation and Control on Different Time Scales 260 9.1.1 The Scale ol a Cycle 26 1 9.1.2 The Scale of Real-Time Operation 262 9.1.3 The Scale or Scheduling 264 9.1.4 The Planning Scale 267 9.2 New Technology 268 9.2.1 Storage 268 9.2.2 Distributed Generation 271 9.2.3 Automation 278 9.2.4 FACTS 280 9.3 Human Factors 281 9.3.1 Operators and Engineers 281 9.3.2 Cognitive Representations ol Power Systems 282 9.3.3 Operational Criteria 285 9.3.4 Implications lor Technological Innovation 291 9.4 Implications for Restructuring 292 Appendix: Symbols, Units, Abbreviations, and Acronyms 298 Index 302 Electric Power Systems explains and illustrates how the electric grid works in a clear, straightforward style that makes highly technical material accessible. It begins with a thorough discussion of the underlying physical concepts of electricity, circuits, and complex power that serves as a foundation for more advanced material. Readers are then introduced to the main components of electric power systems, including generators, motors and other appliances, and transmission and distribution equipment such as power lines, transformers, and circuit breakers. The author explains how a whole power system is managed and coordinated, analyzed mathematically, and kept stable and reliable. Recognizing the economic and environmental implications of electric energy production and public concern over disruptions of service, this book exposes the challenges of producing and delivering electricity to help inform public policy decisions. Its discussions of complex concepts such as reactive power balance, load flow, and stability analysis, for example, offer deep insight into the complexity of electric grid operation and demonstrate how and why physics constrains economics and politics. Although this survival guide includes mathematical equations and formulas, it discusses their meaning in plain English and does not assume any prior familiarity with particular notations or technical jargon. Additional features include: • A glossary of symbols, units, abbreviations, and acronyms ~) Illustrations that help readers visualize processes and better understand complex concepts • Detailed analysis of a case study, including a Web reference to the case, enabling readers to test the consequences of manipulating various parameters With its clear discussion of how electric grids work. Electric Power Systems is appropriate for a broad readership of professionals, undergraduate and graduate students, government agency managers, environmental advocates, and consumers.
adam_txt	CONTENTS Preface хш 1. The Physics of Electricity 1 1.1 Basic Quantities 1 1.1.1 Introduction I 1.1.2 Charge 2 1.1.3 Potential or Voltage 3 1.1.4 Ground 5 1.1.5 Conductivity 5 1.1.6 Current 6 1.2 Ohm's law 8 1.2.1 Resistance 9 1.2.2 Conductance 10 1.2.3 Insulation 11 1.3 Circuit Fundamentals 11 1.3.1 Static Charge И 1.3.2 Electric Circuits 12 1.3.3 Voltage Drop 13 1.3.4 Electric Shock 13 1.4 Resistive Heating 14 1.4.1 Calculating Resistive Heating 15 1.4.2 Transmission Voltage and Resistive Losses 17 1.5 Electric and Magnetic Fields 18 1.5.1 The Field as a Concept 18 1.5.2 Electric Fields 19 1.5.3 Magnetic Fields 21 1.5.4 Electromagnetic Induction 24 1.5.5 Electromagnetic Fields and Health Effects 25 1.5.6 Electromagnetic Radiation 26 2. Basic Circuit Analysis 30 2.1 Modeling Circuits 30 VIU CONTENTS 2.2 Series and Parallel Circuits 31 2.2.1 Resistance in Series 32 2.2.2 Resistance in Parallel 33 2.2.3 Network Reduction 35 2.2.4 Practical Aspects 36 2.3 Kirchhoffs Laws 37 2.3.1 Kirchhoff s Voltage Law 38 2.3.2 Kirchhoff' s Current Law 39 2.3.3 Application to Simple Circuits 40 2.3.4 The Superposition Principle 41 2.4 Magnetic Circuits 44 3. AC Power 49 3.1 Alternating Current and Voltage 49 3.1.1 Historical Notes 49 3.1.2 Mathematical Description 50 3.1.3 Therms Value 53 3.2 Reactance 55 3.2.1 Inductance 55 3.2.2 Capacitance 58 3.2.3 Impedance 64 3.2.4 Admittance 64 3.3 Power 66 3.3.1 Definition of Electric Power 66 3.3.2 Complex Power 68 3.3.3 The Significance of Reactive Power 73 3.4 Phasor Notation 75 3.4.1 Phasors as Graphics 75 3.4.2 Phasors as Exponentials 78 3.4.3 Operations with Phasors 80 4. Generators 85 4. 1 The Simple Generator 86 4.2 The Synchronous Generator 92 4.2.1 Basic Components and Functioning 92 4.2.2 Other Design Aspects 97 4.3 Operational Control of Synchronous Generators 100 4.3.1 Single Generator: Real Power 100 4.3.2 Single Generator: Reactive Power 101 4.3.3 Multiple Generators: Real Power 107 4.3.4 Multiple Generators: Reactive Power 1 12 CONTENTS IX 4.4 Operating Limits 115 4.5 The Induction Generator 118 4.5.1 General Characteristics 118 4.5.2 Electromagnetic Characteristics 120 4.6 Inverters 123 5. Loads 127 5.1 Resistive Loads 128 5.2 Motors 131 5.3 Electronic Devices 134 5.4 Load from the System Perspective 136 5.4.1 Coincident and Noncoincident Demand 137 5.4.2 Load Profiles and Load Duration Curve 138 5.5 Single- and Multiphase Connections 140 6. Transmission and Distribution 144 6.1 System Structure 144 6.1.1 Historical Notes 144 6.1.2 Structural Features 147 6.1.3 Sample Diagram 149 6.1.4 Topology 150 6.1.5 Loop Flow 153 6.1.6 Stations and Substations 156 6.1.7 Reconfiguring the System 158 6.2 Three-Phase Transmission 159 6.2.1 Rationale for Three Phases 160 6.2.2 Balancing Loads 163 6.2.3 Delta and Wye Connections 164 6.2.4 Per-Phase Analysis 166 6.2.5 Three-Phase Power 166 6.2.6 D.C. Transmission 167 6.3 Transformers 168 6.3.1 General Properties 168 6.3.2 Transformer Heating 170 6.3.3 Delta and Wye Transformers 172 6.4 Characteristics of Power Lines 175 6.4.1 Conductors 175 6.4.2 Towers, Insulators, and Other Components 179 6.5 Loading 182 6.5.1 Thermal Limits 182 6.5.2 Stability Limit 183 X CONTENTS 6.6 Voltage Control 184 6.7 Protection 188 6.7.1 Basics of Protection and Protective Devices 188 6.7.2 Protection Coordination 192 7. Power Flow Analysis 195 7.1 Introduction 1 95 7.2 The Power Flow Problem 197 7.2.1 Network Representation 197 7.2.2 Choice of Variables 198 7.2.3 Types of Buses 201 7.2.4 Variables for Balancing Real Power ■ 201 7.2.5 Variables for Balancing Reactive Power 202 7.2.6 The Slack Bus 204 7.2.7 Summary of Variables 205 7.3 Example with Interpretation of Results 206 7.3.1 Six-Bus Example 206 7.3.2 Tweaking the Case 210 7.3.3 Conceptualizing Power Flow 21 1 7.4 Power Flow Equations and Solution Methods 214 7.4.1 Derivation of Power Flow Equations 214 7.4.2 Solution Methods 217 7.4.3 Decoupled Power Flow 224 7.5 Applications and Optimal Power Flow 226 8. System Performance 229 8.1 Reliability 229 8.1.1 Measures of Reliability 229 8.1.2 Valuation of Reliability 231 8.2 Security 233 8.3 Stability 234 8.3.1 The Concept of Stability 234 8.3.2 Steady-State Stability 236 8.3.3 Dynamic Stability 240 8.3.4 Voltage Stability 249 8.4 Power Quality 250 8.4.1 Voltage 251 8.4.2 Frequency 253 8.4.3 Waveform 255 CONTENTS XI 9. System Operation, Management, and New Technology 259 9.1 Operation and Control on Different Time Scales 260 9.1.1 The Scale ol' a Cycle 26 1 9.1.2 The Scale of Real-Time Operation 262 9.1.3 The Scale or'Scheduling 264 9.1.4 The Planning Scale 267 9.2 New Technology 268 9.2.1 Storage 268 9.2.2 Distributed Generation 271 9.2.3 Automation 278 9.2.4 FACTS 280 9.3 Human Factors 281 9.3.1 Operators and Engineers 281 9.3.2 Cognitive Representations ol' Power Systems 282 9.3.3 Operational Criteria 285 9.3.4 Implications lor Technological Innovation 291 9.4 Implications for Restructuring 292 Appendix: Symbols, Units, Abbreviations, and Acronyms 298 Index 302 Electric Power Systems explains and illustrates how the electric grid works in a clear, straightforward style that makes highly technical material accessible. It begins with a thorough discussion of the underlying physical concepts of electricity, circuits, and complex power that serves as a foundation for more advanced material. Readers are then introduced to the main components of electric power systems, including generators, motors and other appliances, and transmission and distribution equipment such as power lines, transformers, and circuit breakers. The author explains how a whole power system is managed and coordinated, analyzed mathematically, and kept stable and reliable. Recognizing the economic and environmental implications of electric energy production and public concern over disruptions of service, this book exposes the challenges of producing and delivering electricity to help inform public policy decisions. Its discussions of complex concepts such as reactive power balance, load flow, and stability analysis, for example, offer deep insight into the complexity of electric grid operation and demonstrate how and why physics constrains economics and politics. Although this survival guide includes mathematical equations and formulas, it discusses their meaning in plain English and does not assume any prior familiarity with particular notations or technical jargon. Additional features include: • A glossary of symbols, units, abbreviations, and acronyms ~) Illustrations that help readers visualize processes and better understand complex concepts • Detailed analysis of a case study, including a Web reference to the case, enabling readers to test the consequences of manipulating various parameters With its clear discussion of how electric grids work. Electric Power Systems is appropriate for a broad readership of professionals, undergraduate and graduate students, government agency managers, environmental advocates, and consumers.
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title	Electric power systems a conceptual introduction
title_auth	Electric power systems a conceptual introduction
title_exact_search	Electric power systems a conceptual introduction
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title_full	Electric power systems a conceptual introduction Alexandra von Meier
title_fullStr	Electric power systems a conceptual introduction Alexandra von Meier
title_full_unstemmed	Electric power systems a conceptual introduction Alexandra von Meier
title_short	Electric power systems
title_sort	electric power systems a conceptual introduction
title_sub	a conceptual introduction
topic	Electric power systems Elektrische Energieverteilung (DE-588)4123127-2 gnd Elektrizitätserzeugung (DE-588)4133665-3 gnd
topic_facet	Electric power systems Elektrische Energieverteilung Elektrizitätserzeugung Einführung
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=015020606&sequence=000003&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=015020606&sequence=000004&line_number=0002&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT meieralexandravon electricpowersystemsaconceptualintroduction

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