This book embodies the principles and objectives of Elements of Power System Analysis, the longstanding McGrawHill textbook by Professor William D. Stevenson, Jr., who was for many years my friend and colleague emeritus at North Carolina State University. Sadly, Professor Stevenson passed away on May 1, 1988, shortly after planning this joint venture. In my writing I have made great efforts to continue the student oriented style and format of his own famous textbook that has guided the education of numerous power system engineering students for a considerable number of years. The aim here is to instill confidence and understanding of those concepts of power system analysis that are likely to to be encountered in the study and practice of electric power engineering. The presentation is tutorial with emphasis on a thorough understanding of fundamentals and underlying principles. The approach and level of treatment are directed toward the senior undergraduate and firstyear graduate student of electrical engineering at technical colleges and universities. The coverage, however, is quite comprehensive and spans a wide range of topics commonly encountered in electric power system engineering practice. In this regard, electric utility and other industrybased engineers will find this textbook of much benefit in their everyday work. Modern power systems have grown larger and more geographically expansive with many interconnections between neighboring systems. Proper planning, operation, and control of such largescale systems require advanced computerbased techniques, many of which are explained in a tutorial manner by means of numerical examples throughout this book. The senior undergraduate engineering student about to embark on a career in the electric power industry will most certainly benefit from the exposure to these techniques, which are presented here in the detail appropriate to an introductory level. Likewise, electric utility engineers, even those with a previous course in power system analysis, may find that the explanations of these commonly used analytic techniques more adequately prepare them to move beyond routine work. Power System Analysis can serve as a basis for two semesters of undergraduate study or for firstsemester graduate study. The wide range of topics facilitates versatile selection of chapters and sections for completion in the semester or quarter time frame. Familiarity with the basic principles of electric
CuuDuongThanCong.com https://fb.com/tailieudientucntt uuDuongThanCong.com https://fb.com/tailieudientucntt POWER SYSTEM ANALYSIS CuuDuongThanCong.com https://fb.com/tailieudientucntt CuuDuongThanCong.com https://fb.com/tailieudientucntt McGraw-Hill Series in Electrical and Computer Engineering Senior Consulting Editor Stephen W Director, Carnegie-Mellon University Circuits and Systems Communications and Signal Processing Computer Engineering Control Theory Electromagnetics Electronics and VLSI Circuits Introductory Power alld Eflergy Radar and An tennas Previous Consulting Editors Ronald N Bracewell, Colin Cherry, James F Gibbons, Willis W Harman, Hubert Heffn er, Edward W Herold, John G Linvill, Simon Ramo, Ronald A Rohrer, Anthony E Siegman, Charles Susskind, Frederick E Terman, John G Truxal, Ernst Weber, and John R Whinnery Power and Energy Senior Consulting Editor Stephen W Director, Carnegie-Mellon University Chapman: Ele c tric Machinery Fundamentals Fitzgerald, Kingsley, and Umans: Electric Machinery Elgerd: Electric Energy Systems Theory Gonen: Electric Power Distribution System Engineering and Stevenson: Power System Analysis Krause and Wasynczuk: Electromechanical Motion Devices Stevenson: Elements of Power System Analysis Gr ainger CuuDuongThanCong.com https://fb.com/tailieudientucntt Also available from McGraw-Hill Schaum's Outline Series in Electronics & Electrical Engineering Most outlines include basic theory, definitions and hundreds of example problems solved in step-by-step detail, and supplementary problems with answers Related titles on the current list include: Circuit A n alysis An alog & Digita l Communications Basic Basic Electrical Engineering Basic Mathematics for Electricity & Electronics Basic Electricity Digital Principles Electric Circliits Electric Machines & Electromt'c/zallics Electric Power System,\ Eleclrolnagllclics Llcctl"Ollic Circuits EleClrollic Commllnic(I{ion Electronic Dccias & Cirelli/s Eleccronics TecIII IO/OJ:,T)' Ellgilleering Ecol/omics FCI'dhuck & Conrrol Systems Ill/roell/Clioll 10 Digila! Systems Aficropr