BOOK TITLE : Power Generation Operation and Control
Authors : Allen J. Wood, Bruce F. Wollenberg and Gerald B. Sheble
Edition : Third Edition
Publishers : Wiley-Blackwell
ISBN-10 : 0471790559
ISBN-13 : 978-0471790556
Total No Pages : 593
Total No Chapters : 13
Book File type : PDF
File size : 21 MB
Description :
Since publication of the second edition, there have been extensive changes in the algorithms, methods, and assumptions in energy management systems that analyze and control power generation. This edition is updated to acquaint electrical engineering students and professionals with current power generation systems. Algorithms and methods for solving integrated economic, network, and generating system analysis are provided. Also included are the state�of�the�art topics undergoing evolutionary change, including market simulation, multiple market analysis, multiple interchange contract analysis, contract and market bidding, and asset valuation under various portfolio combinations.
Review :
Without a doubt, this book makes admirable progress in integrating the �traditional with the new, and, as such, it is a worthy addition to professional libraries. It is a valuable text for a one� or two�course sequence in a graduate curriculum in power systems. Reasonable resource support for both student and instructor is available through the publisher. (IEEE, 1 July 2014)
From the Back Cover :
A thoroughly revised new edition of the definitive work on power systems best practices
In this eagerly awaited new edition, Power Generation, Operation, and Control continues to provide engineers and academics with a complete picture of the techniques used in modern power system operation. Long recognized as the standard reference in the field, the book has been thoroughly updated to reflect the enormous changes that have taken place in the electric power industry since the Second Edition was published seventeen years ago.
With an emphasis on both the engineering and economic aspects of energy management, the Third Edition introduces central "terminal" characteristics for thermal and hydroelectric power generation systems, along with new optimization techniques for tackling real�world operating problems. Readers will find a range of algorithms and methods for performing integrated economic, network, and generating system analysis, as well as modern methods for power system analysis, operation, and control.
Special features include :
� State�of�the�art topics such as market simulation, multiple market analysis, contract and market bidding, and other business topics
� Chapters on generation with limited energy supply, power flow control, power system security, and more
� An introduction to regulatory issues, renewable energy, and other evolving topics
� New worked examples and end�of�chapter problems
� A companion website with additional materials, including MATLAB programs and power system sample data sets
About the Author :
ALLEN J. WOOD joined Power Technologies, Inc., in 1969 as a Principal Engineer and Director. He was a Life Fellow of IEEE and served as an adjunct professor in the Electric Power Engineering graduate program at Rensselaer Polytechnic Institute. Dr. Wood passed away in 2011.
BRUCE F. WOLLENBERG joined the University of Minnesota in 1989 and made original contributions to the understanding of electric power market structures. He is a Life Fellow of the IEEE and a member of the National Academy of Engineering.
GERALD B. SHEBL� joined Auburn University in 1990 to conduct research in power system, space power, and electric auction market research. He joined Iowa State University to conduct research in the interaction of markets and power system operation. His academic research has continued to center on the action of the markets based on the physical operation of the power system. He is a Fellow of the IEEE.
Table of Contents :
� Preface.
� Acknowledgements.
� About the author.
� Introduction
� Overhead transmission lines and their circuit constants.
� Symmetrical coordinate method (symmetrical components)
� Fault analysis by symmetrical components.
� Fault analysis of parallel circuit lines (including simultaneous double circuit fault)
� Per unit method and introduction of transformer circuit
� The α�β�0 coordinate method (clarke components) and its application
� Symmetrical and α�β�0 components as analytical tools for transient phenomena
� Neutral grounding methods
� Visual vector diagrams of voltages and currents under fault conditions
� Theory of generators
� Apparent power and its expression in the 0�1�2 and d�q�0 domain
� Generating power and steady-state stability
� The generator as rotating machinery
� Transient/dynamic stability, p�q�v characteristics and voltage stability of a power system
� Generator characteristics with avr and stable operation limit
� Operating characteristics and the capability limits of generators
� R�x coordinates and the theory of directional distance relays
� Travelling-wave (surge) phenomena
� Switching surge phenomena by circuit-breakers and line switches
� Overvoltage phenomena
� Insulation coordination
� Insulation coordinationwaveform distortion and lower order harmonic resonance
� Power cables
� Approaches for special circuits
� Appendix a � mathematical formulae
� Appendix b � matrix equation formulae
� Analytical methods index
� Components index
� Subject index
Authors : Allen J. Wood, Bruce F. Wollenberg and Gerald B. Sheble
Edition : Third Edition
Publishers : Wiley-Blackwell
ISBN-10 : 0471790559
ISBN-13 : 978-0471790556
Total No Pages : 593
Total No Chapters : 13
Book File type : PDF
File size : 21 MB
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Description :
Since publication of the second edition, there have been extensive changes in the algorithms, methods, and assumptions in energy management systems that analyze and control power generation. This edition is updated to acquaint electrical engineering students and professionals with current power generation systems. Algorithms and methods for solving integrated economic, network, and generating system analysis are provided. Also included are the state�of�the�art topics undergoing evolutionary change, including market simulation, multiple market analysis, multiple interchange contract analysis, contract and market bidding, and asset valuation under various portfolio combinations.
Review :
Without a doubt, this book makes admirable progress in integrating the �traditional with the new, and, as such, it is a worthy addition to professional libraries. It is a valuable text for a one� or two�course sequence in a graduate curriculum in power systems. Reasonable resource support for both student and instructor is available through the publisher. (IEEE, 1 July 2014)
From the Back Cover :
A thoroughly revised new edition of the definitive work on power systems best practices
In this eagerly awaited new edition, Power Generation, Operation, and Control continues to provide engineers and academics with a complete picture of the techniques used in modern power system operation. Long recognized as the standard reference in the field, the book has been thoroughly updated to reflect the enormous changes that have taken place in the electric power industry since the Second Edition was published seventeen years ago.
With an emphasis on both the engineering and economic aspects of energy management, the Third Edition introduces central "terminal" characteristics for thermal and hydroelectric power generation systems, along with new optimization techniques for tackling real�world operating problems. Readers will find a range of algorithms and methods for performing integrated economic, network, and generating system analysis, as well as modern methods for power system analysis, operation, and control.
Special features include :
� State�of�the�art topics such as market simulation, multiple market analysis, contract and market bidding, and other business topics
� Chapters on generation with limited energy supply, power flow control, power system security, and more
� An introduction to regulatory issues, renewable energy, and other evolving topics
� New worked examples and end�of�chapter problems
� A companion website with additional materials, including MATLAB programs and power system sample data sets
About the Author :
ALLEN J. WOOD joined Power Technologies, Inc., in 1969 as a Principal Engineer and Director. He was a Life Fellow of IEEE and served as an adjunct professor in the Electric Power Engineering graduate program at Rensselaer Polytechnic Institute. Dr. Wood passed away in 2011.
BRUCE F. WOLLENBERG joined the University of Minnesota in 1989 and made original contributions to the understanding of electric power market structures. He is a Life Fellow of the IEEE and a member of the National Academy of Engineering.
GERALD B. SHEBL� joined Auburn University in 1990 to conduct research in power system, space power, and electric auction market research. He joined Iowa State University to conduct research in the interaction of markets and power system operation. His academic research has continued to center on the action of the markets based on the physical operation of the power system. He is a Fellow of the IEEE.
Table of Contents :
� Preface.
� Acknowledgements.
� About the author.
� Introduction
� Overhead transmission lines and their circuit constants.
� Symmetrical coordinate method (symmetrical components)
� Fault analysis by symmetrical components.
� Fault analysis of parallel circuit lines (including simultaneous double circuit fault)
� Per unit method and introduction of transformer circuit
� The α�β�0 coordinate method (clarke components) and its application
� Symmetrical and α�β�0 components as analytical tools for transient phenomena
� Neutral grounding methods
� Visual vector diagrams of voltages and currents under fault conditions
� Theory of generators
� Apparent power and its expression in the 0�1�2 and d�q�0 domain
� Generating power and steady-state stability
� The generator as rotating machinery
� Transient/dynamic stability, p�q�v characteristics and voltage stability of a power system
� Generator characteristics with avr and stable operation limit
� Operating characteristics and the capability limits of generators
� R�x coordinates and the theory of directional distance relays
� Travelling-wave (surge) phenomena
� Switching surge phenomena by circuit-breakers and line switches
� Overvoltage phenomena
� Insulation coordination
� Insulation coordinationwaveform distortion and lower order harmonic resonance
� Power cables
� Approaches for special circuits
� Appendix a � mathematical formulae
� Appendix b � matrix equation formulae
� Analytical methods index
� Components index
� Subject index
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