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| 003 - CONTROL NUMBER IDENTIFIER |
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CITU |
| 005 - DATE AND TIME OF LATEST TRANSACTION |
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20220330141628.0 |
| 008 - FIXED-LENGTH DATA ELEMENTS--GENERAL INFORMATION |
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| fixed length control field |
220330b ||||| |||| 00| 0 eng d |
| 020 ## - INTERNATIONAL STANDARD BOOK NUMBER |
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| International Standard Book Number |
9780470036426 |
| 020 ## - INTERNATIONAL STANDARD BOOK NUMBER |
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| International Standard Book Number |
9780471178590 |
| 020 ## - INTERNATIONAL STANDARD BOOK NUMBER |
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| International Standard Book Number |
9780470036402 |
| 041 ## - LANGUAGE CODE |
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| Language code of text/sound track or separate title |
eng |
| 082 00 - DEWEY DECIMAL CLASSIFICATION NUMBER |
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| Classification number |
621.31 |
| Edition number |
22 |
| 100 1# - MAIN ENTRY--PERSONAL NAME |
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| Preferred name for the person |
Meier, Alexandra von |
| Relator term |
author |
| 245 ## - TITLE STATEMENT |
|---|
| Title |
Electric Power Systems: |
| Remainder of title |
A Conceptual Introduction / |
| Statement of responsibility, etc |
Alexandra von Meier |
| 264 #1 - PUBLICATION, DISTRIBUTION, ETC. (IMPRINT) |
|---|
| Place of publication, distribution, etc |
Hoboken, N.J. : |
| -- |
IEEE Press : |
| Name of publisher, distributor, etc |
Wiley-Interscience, |
| Date of publication, distribution, etc |
c2006. |
| 300 ## - PHYSICAL DESCRIPTION |
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| Extent |
1 online resource |
| 336 ## - CONTENT TYPE |
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| Content type term |
text |
| Content type code |
txt |
| Source |
rdacontent |
| 337 ## - MEDIA TYPE |
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| Media type term |
computer |
| Media type code |
c |
| Source |
rdamedia |
| 338 ## - CARRIER TYPE |
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| Carrier type term |
online resource |
| Carrier type code |
cr |
| Source |
rdacarrier |
| 490 ## - SERIES STATEMENT |
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| Series statement |
Wiley Survival Guides in Engineering and Science |
| 500 ## - GENERAL NOTE |
|---|
| General note |
ABOUT THE AUTHOR<br/>ALEXANDRA von MEIER, PhD, is Associate Professor in the Department of Environmental Studies and Planning and Director of the Environmental Technology Center at Sonoma State University. An award-winning educator, Dr. von Meier teaches courses in energy management and design that address science, technology, policy, economics, and environmental issues, emphasizing energy efficiency and renewable resources. |
| 505 0# - CONTENTS |
|---|
| Formatted contents note |
TABLE OF CONTENTS<br/>Preface.<br/>1. The Physics of Electricity.<br/><br/>1.1 Basic Quantities.<br/><br/>1.1.1 Introduction.<br/><br/>1.1.2 Charge.<br/><br/>1.1.3 Potential or Voltage.<br/><br/>1.1.4 Ground.<br/><br/>1.1.5 Conductivity.<br/><br/>1.1.6 Current.<br/><br/>1.2 Ohm’s law.<br/><br/>1.2.1 Resistance.<br/><br/>1.2.2 Conductance.<br/><br/>1.2.3 Insulation.<br/><br/>1.3 Circuit Fundamentals.<br/><br/>1.3.1 Static Charge.<br/><br/>1.3.2 Electric Circuits.<br/><br/>1.3.3 Voltage Drop.<br/><br/>1.3.4 Electric Shock.<br/><br/>1.4 Resistive Heating.<br/><br/>1.4.1 Calculating Resistive Heating.<br/><br/>1.4.2 Transmission Voltage and Resistive Losses.<br/><br/>1.5 Electric and Magnetic Fields.<br/><br/>1.5.1 The Field as a Concept.<br/><br/>1.5.2 Electric Fields.<br/><br/>1.5.3 Magnetic Fields.<br/><br/>1.5.4 Electromagnetic Induction.<br/><br/>1.5.5 Electromagnetic Fields and Health Effects.<br/><br/>1.5.6 Electromagnetic Radiation.<br/><br/>2. Basic Circuit Analysis.<br/><br/>2.1 Modeling Circuits.<br/><br/>2.2 Series and Parallel Circuits.<br/><br/>2.2.1 Resistance in Series.<br/><br/>2.2.2 Resistance in Parallel.<br/><br/>2.2.3 Network Reduction.<br/><br/>2.2.4 Practical Aspects.<br/><br/>2.3 Kirchhoff’s Laws.<br/><br/>2.3.1 Kirchhoff’s Voltage Law.<br/><br/>2.3.2 Kirchhoff’s Current Law.<br/><br/>2.3.3 Application to Simple Circuits.<br/><br/>2.3.4 The Superposition Principle.<br/><br/>2.4 Magnetic Circuits.<br/><br/>3. AC Power.<br/><br/>3.1 Alternating Current and Voltage.<br/><br/>3.1.1 Historical Notes.<br/><br/>3.1.2 Mathematical Description.<br/><br/>3.1.3 The rms Value.<br/><br/>3.2 Reactance.<br/><br/>3.2.1 Inductance.<br/><br/>3.2.2 Capacitance.<br/><br/>3.2.3 Impedance.<br/><br/>3.2.4 Admittance.<br/><br/>3.3 Power.<br/><br/>3.3.1 Definition of Electric Power.<br/><br/>3.3.2 Complex Power.<br/><br/>3.3.3 The Significance of Reactive Power.<br/><br/>3.4 Phasor Notation.<br/><br/>3.4.1 Phasors as Graphics.<br/><br/>3.4.2 Phasors as Exponentials.<br/><br/>3.4.3 Operations with Phasors.<br/><br/>4. Generators.<br/><br/>4.1 The Simple Generator.<br/><br/>4.2 The Synchronous Generator.<br/><br/>4.2.1 Basic Components and Functioning.<br/><br/>4.2.2 Other Design Aspects.<br/><br/>4.3 Operational Control of Synchronous Generators.<br/><br/>4.3.1 Single Generator: Real Power.<br/><br/>4.3.2 Single Generator: Reactive Power.<br/><br/>4.3.3 Multiple Generators: Real Power.<br/><br/>4.3.4 Multiple Generators: Reactive Power.<br/><br/>4.4 Operating Limits.<br/><br/>4.5 The Induction Generator.<br/><br/>4.5.1 General Characteristics.<br/><br/>4.5.2 Electromagnetic Characteristics.<br/><br/>4.6 Inverters.<br/><br/>5. Loads.<br/><br/>5.1 Resistive Loads.<br/><br/>5.2 Motors.<br/><br/>5.3 Electronic Devices.<br/><br/>5.4 Load from the System Perspective.<br/><br/>5.4.1 Coincident and Noncoincident Demand.<br/><br/>5.4.2 Load Profiles and Load Duration Curve.<br/><br/>5.5 Single- and Multiphase Connections.<br/><br/>6. Transmission and Distribution.<br/><br/>6.1 System Structure.<br/><br/>6.1.1 Historical Notes.<br/><br/>6.1.2 Structural Features.<br/><br/>6.1.3 Sample Diagram.<br/><br/>6.1.4 Topology.<br/><br/>6.1.5 Loop Flow.<br/><br/>6.1.6 Stations and Substations.<br/><br/>6.1.7 Reconfiguring the System.<br/><br/>6.2 Three-Phase Transmission.<br/><br/>6.2.1 Rationale for Three Phases.<br/><br/>6.2.2 Balancing Loads.<br/><br/>6.2.3 Delta and Wye Connections.<br/><br/>6.2.4 Per-Phase Analysis.<br/><br/>6.2.5 Three-Phase Power.<br/><br/>6.2.6 D.C. Transmission.<br/><br/>6.3 Transformers.<br/><br/>6.3.1 General Properties.<br/><br/>6.3.2 Transformer Heating.<br/><br/>6.3.3 Delta and Wye Transformers.<br/><br/>6.4 Characteristics of Power Lines.<br/><br/>6.4.1 Conductors.<br/><br/>6.4.2 Towers, Insulators, and Other Components.<br/><br/>6.5 Loading.<br/><br/>6.5.1 Thermal Limits.<br/><br/>6.5.2 Stability Limit.<br/><br/>6.6 Voltage Control.<br/><br/>6.7 Protection.<br/><br/>6.7.1 Basics of Protection and Protective Devices.<br/><br/>6.7.2 Protection Coordination.<br/><br/>7. Power Flow Analysis.<br/><br/>7.1 Introduction.<br/><br/>7.2 The Power Flow Problem.<br/><br/>7.2.1 Network Representation.<br/><br/>7.2.2 Choice of Variables.<br/><br/>7.2.3 Types of Buses.<br/><br/>7.2.4 Variables for Balancing Real Power.<br/><br/>7.2.5 Variables for Balancing Reactive Power.<br/><br/>7.2.6 The Slack Bus.<br/><br/>7.2.7 Summary of Variables.<br/><br/>7.3 Example with Interpretation of Results.<br/><br/>7.3.1 Six-Bus Example.<br/><br/>7.3.2 Tweaking the Case.<br/><br/>7.3.3 Conceptualizing Power Flow.<br/><br/>7.4 Power Flow Equations and Solution Methods.<br/><br/>7.4.1 Derivation of Power Flow Equations.<br/><br/>7.4.2 Solution Methods.<br/><br/>7.4.3 Decoupled Power Flow.<br/><br/>7.5 Applications and Optimal Power Flow.<br/><br/>8. System Performance.<br/><br/>8.1 Reliability.<br/><br/>8.1.1 Measures of Reliability.<br/><br/>8.1.2 Valuation of Reliability.<br/><br/>8.2 Security.<br/><br/>8.3 Stability.<br/><br/>8.3.1 The Concept of Stability.<br/><br/>8.3.2 Steady-State Stability.<br/><br/>8.3.3 Dynamic Stability.<br/><br/>8.3.4 Voltage Stability.<br/><br/>8.4 Power Quality.<br/><br/>8.4.1 Voltage.<br/><br/>8.4.2 Frequency.<br/><br/>8.4.3 Waveform.<br/><br/>9. System Operation, Management, and New Technology.<br/><br/>9.1 Operation and Control on Different Time Scales.<br/><br/>9.1.1 The Scale of a Cycle.<br/><br/>9.1.2 The Scale of Real-Time Operation.<br/><br/>9.1.3 The Scale of Scheduling.<br/><br/>9.1.4 The Planning Scale.<br/><br/>9.2 New Technology.<br/><br/>9.2.1 Storage.<br/><br/>9.2.2 Distributed Generation.<br/><br/>9.2.3 Automation.<br/><br/>9.2.4 FACTS.<br/><br/>9.3 Human Factors.<br/><br/>9.3.1 Operators and Engineers.<br/><br/>9.3.2 Cognitive Representations of Power Systems.<br/><br/>9.3.3 Operational Criteria.<br/><br/>9.3.4 Implications for Technological Innovation.<br/><br/>9.4 Implications for Restructuring.<br/><br/>Appendix: Symbols, Units, Abbreviations, and Acronyms.<br/><br/>Index. |
| 520 ## - SUMMARY, ETC. |
|---|
| Summary, etc |
TABLE OF CONTENTS<br/>Preface.<br/>1. The Physics of Electricity.<br/><br/>1.1 Basic Quantities.<br/><br/>1.1.1 Introduction.<br/><br/>1.1.2 Charge.<br/><br/>1.1.3 Potential or Voltage.<br/><br/>1.1.4 Ground.<br/><br/>1.1.5 Conductivity.<br/><br/>1.1.6 Current.<br/><br/>1.2 Ohm’s law.<br/><br/>1.2.1 Resistance.<br/><br/>1.2.2 Conductance.<br/><br/>1.2.3 Insulation.<br/><br/>1.3 Circuit Fundamentals.<br/><br/>1.3.1 Static Charge.<br/><br/>1.3.2 Electric Circuits.<br/><br/>1.3.3 Voltage Drop.<br/><br/>1.3.4 Electric Shock.<br/><br/>1.4 Resistive Heating.<br/><br/>1.4.1 Calculating Resistive Heating.<br/><br/>1.4.2 Transmission Voltage and Resistive Losses.<br/><br/>1.5 Electric and Magnetic Fields.<br/><br/>1.5.1 The Field as a Concept.<br/><br/>1.5.2 Electric Fields.<br/><br/>1.5.3 Magnetic Fields.<br/><br/>1.5.4 Electromagnetic Induction.<br/><br/>1.5.5 Electromagnetic Fields and Health Effects.<br/><br/>1.5.6 Electromagnetic Radiation.<br/><br/>2. Basic Circuit Analysis.<br/><br/>2.1 Modeling Circuits.<br/><br/>2.2 Series and Parallel Circuits.<br/><br/>2.2.1 Resistance in Series.<br/><br/>2.2.2 Resistance in Parallel.<br/><br/>2.2.3 Network Reduction.<br/><br/>2.2.4 Practical Aspects.<br/><br/>2.3 Kirchhoff’s Laws.<br/><br/>2.3.1 Kirchhoff’s Voltage Law.<br/><br/>2.3.2 Kirchhoff’s Current Law.<br/><br/>2.3.3 Application to Simple Circuits.<br/><br/>2.3.4 The Superposition Principle.<br/><br/>2.4 Magnetic Circuits.<br/><br/>3. AC Power.<br/><br/>3.1 Alternating Current and Voltage.<br/><br/>3.1.1 Historical Notes.<br/><br/>3.1.2 Mathematical Description.<br/><br/>3.1.3 The rms Value.<br/><br/>3.2 Reactance.<br/><br/>3.2.1 Inductance.<br/><br/>3.2.2 Capacitance.<br/><br/>3.2.3 Impedance.<br/><br/>3.2.4 Admittance.<br/><br/>3.3 Power.<br/><br/>3.3.1 Definition of Electric Power.<br/><br/>3.3.2 Complex Power.<br/><br/>3.3.3 The Significance of Reactive Power.<br/><br/>3.4 Phasor Notation.<br/><br/>3.4.1 Phasors as Graphics.<br/><br/>3.4.2 Phasors as Exponentials.<br/><br/>3.4.3 Operations with Phasors.<br/><br/>4. Generators.<br/><br/>4.1 The Simple Generator.<br/><br/>4.2 The Synchronous Generator.<br/><br/>4.2.1 Basic Components and Functioning.<br/><br/>4.2.2 Other Design Aspects.<br/><br/>4.3 Operational Control of Synchronous Generators.<br/><br/>4.3.1 Single Generator: Real Power.<br/><br/>4.3.2 Single Generator: Reactive Power.<br/><br/>4.3.3 Multiple Generators: Real Power.<br/><br/>4.3.4 Multiple Generators: Reactive Power.<br/><br/>4.4 Operating Limits.<br/><br/>4.5 The Induction Generator.<br/><br/>4.5.1 General Characteristics.<br/><br/>4.5.2 Electromagnetic Characteristics.<br/><br/>4.6 Inverters.<br/><br/>5. Loads.<br/><br/>5.1 Resistive Loads.<br/><br/>5.2 Motors.<br/><br/>5.3 Electronic Devices.<br/><br/>5.4 Load from the System Perspective.<br/><br/>5.4.1 Coincident and Noncoincident Demand.<br/><br/>5.4.2 Load Profiles and Load Duration Curve.<br/><br/>5.5 Single- and Multiphase Connections.<br/><br/>6. Transmission and Distribution.<br/><br/>6.1 System Structure.<br/><br/>6.1.1 Historical Notes.<br/><br/>6.1.2 Structural Features.<br/><br/>6.1.3 Sample Diagram.<br/><br/>6.1.4 Topology.<br/><br/>6.1.5 Loop Flow.<br/><br/>6.1.6 Stations and Substations.<br/><br/>6.1.7 Reconfiguring the System.<br/><br/>6.2 Three-Phase Transmission.<br/><br/>6.2.1 Rationale for Three Phases.<br/><br/>6.2.2 Balancing Loads.<br/><br/>6.2.3 Delta and Wye Connections.<br/><br/>6.2.4 Per-Phase Analysis.<br/><br/>6.2.5 Three-Phase Power.<br/><br/>6.2.6 D.C. Transmission.<br/><br/>6.3 Transformers.<br/><br/>6.3.1 General Properties.<br/><br/>6.3.2 Transformer Heating.<br/><br/>6.3.3 Delta and Wye Transformers.<br/><br/>6.4 Characteristics of Power Lines.<br/><br/>6.4.1 Conductors.<br/><br/>6.4.2 Towers, Insulators, and Other Components.<br/><br/>6.5 Loading.<br/><br/>6.5.1 Thermal Limits.<br/><br/>6.5.2 Stability Limit.<br/><br/>6.6 Voltage Control.<br/><br/>6.7 Protection.<br/><br/>6.7.1 Basics of Protection and Protective Devices.<br/><br/>6.7.2 Protection Coordination.<br/><br/>7. Power Flow Analysis.<br/><br/>7.1 Introduction.<br/><br/>7.2 The Power Flow Problem.<br/><br/>7.2.1 Network Representation.<br/><br/>7.2.2 Choice of Variables.<br/><br/>7.2.3 Types of Buses.<br/><br/>7.2.4 Variables for Balancing Real Power.<br/><br/>7.2.5 Variables for Balancing Reactive Power.<br/><br/>7.2.6 The Slack Bus.<br/><br/>7.2.7 Summary of Variables.<br/><br/>7.3 Example with Interpretation of Results.<br/><br/>7.3.1 Six-Bus Example.<br/><br/>7.3.2 Tweaking the Case.<br/><br/>7.3.3 Conceptualizing Power Flow.<br/><br/>7.4 Power Flow Equations and Solution Methods.<br/><br/>7.4.1 Derivation of Power Flow Equations.<br/><br/>7.4.2 Solution Methods.<br/><br/>7.4.3 Decoupled Power Flow.<br/><br/>7.5 Applications and Optimal Power Flow.<br/><br/>8. System Performance.<br/><br/>8.1 Reliability.<br/><br/>8.1.1 Measures of Reliability.<br/><br/>8.1.2 Valuation of Reliability.<br/><br/>8.2 Security.<br/><br/>8.3 Stability.<br/><br/>8.3.1 The Concept of Stability.<br/><br/>8.3.2 Steady-State Stability.<br/><br/>8.3.3 Dynamic Stability.<br/><br/>8.3.4 Voltage Stability.<br/><br/>8.4 Power Quality.<br/><br/>8.4.1 Voltage.<br/><br/>8.4.2 Frequency.<br/><br/>8.4.3 Waveform.<br/><br/>9. System Operation, Management, and New Technology.<br/><br/>9.1 Operation and Control on Different Time Scales.<br/><br/>9.1.1 The Scale of a Cycle.<br/><br/>9.1.2 The Scale of Real-Time Operation.<br/><br/>9.1.3 The Scale of Scheduling.<br/><br/>9.1.4 The Planning Scale.<br/><br/>9.2 New Technology.<br/><br/>9.2.1 Storage.<br/><br/>9.2.2 Distributed Generation.<br/><br/>9.2.3 Automation.<br/><br/>9.2.4 FACTS.<br/><br/>9.3 Human Factors.<br/><br/>9.3.1 Operators and Engineers.<br/><br/>9.3.2 Cognitive Representations of Power Systems.<br/><br/>9.3.3 Operational Criteria.<br/><br/>9.3.4 Implications for Technological Innovation.<br/><br/>9.4 Implications for Restructuring.<br/><br/>Appendix: Symbols, Units, Abbreviations, and Acronyms.<br/><br/>Index. |
| 650 #0 - SUBJECT ADDED ENTRY--TOPICAL TERM |
|---|
| Topical term or geographic name as entry element |
Electric power systems. |
| 856 ## - ELECTRONIC LOCATION AND ACCESS |
|---|
| Uniform Resource Identifier |
https://onlinelibrary.wiley.com/doi/book/10.1002/0470036427 |
| Link text |
Full text available at Wiley Online Library Click here to view |
| 942 ## - ADDED ENTRY ELEMENTS |
|---|
| Source of classification or shelving scheme |
|
| Item type |
EBOOK |