Electrical Engineering/Power Systems Power System Control and Stability Providing a comprehensive description of the dynamic condition of the power system, this classic text presents critical information on synchronous generators and their excitation systems, as well as extensive material on mathematical modeling of these critical components. You will learn how to:
- analyze the dynamic performance of interconnected power systems
- examine the characteristics of the various components of a power system during normal operating conditions and during disturbances
- explore the detailed mathematical models of system components and analyze the system behavior using the necessary computational tools
Written for practicing engineers in the electric power industry, as well as advanced students interested in power system dynamic behavior, this "must-have" guide will help you understand the dynamic performance of power systems. Also of Interest Subsynchronous Resonance in Power Systems by P.M. Anderson, Power Math Associates, Inc.; B. L. Agrawal, Arizona Public Service Company; and J. E. Van Ness, Northwestern University Sponsored by the IEEE Power Engineering Society Of particular interest to power system engineers who are considering series compensated transmission lines, this is the first book to cover the basic concepts of subsynchronous resonance and the development of equations. 1990 Hardcover 288 pp IEEE Order No. PC0247-7 ISBN 0-87942-258-0 Applied Reliability Assessment in Electric Power Systems edited by Roy Billinton, University of Saskatchewan; Ronald N. Allan, University of Manchester Institute of Science and Technology, United Kingdom; and Luigi Salvaderi, ENTE Nazionale Per L’Energia Elettrica, Italy Sponsored by the IEEE Power Engineering Society Representing views of both utilities and practicing engineers, this book highlights present-day power systems design, planning, and operating criteria and techniques. In addition, it helps you make the right planning and operating decisions; resolve economic and reliability constraints; achieve a balance among generation, transmission, and distribution; and arrive at consistent standards for assessing the benefits of expansion and reinforcement. 1991 Hardcover 560 pp IEEE Order No. PC0251-9 ISBN 0-87942-264-5
PAUL M. ANDERSON has over forty years of experience in power system engineering and research, power education, technical writing, and research management. His areas of interest are power system analysis, computer applications, and system dynamic performance. Currently a consultant, Dr. Anderson served as a professor of engineering at Iowa State University, Arizona State University, and Washington State University, where he was the Schweitzer Visiting Professor.
A. A. Fouad is Distinguished Professor Emeritus of Engineering at Iowa State University. He has had more than 40 years experience in power system dynamics in teaching, research, and in industry. He is a fellow of IEEE, and is the recipient of the 1993 IEEE Power Engineering Educator Award, and the 1994 IEEE Herman Halperin Transmission and Distribution Award. In 1996 he was elected to membership of the US National Academy of Engineering.