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N. Tleis - Power Systems Modelling and Fault Analysis: Theory and Practice Power Systems Modelling and Fault Analysis: Theory and Practice 2nd Edition by Nasser Tleis (Author) Paperback: 940 pages Publisher: Academic Press; 2 edition (May 15, 2019) Language: English ISBN-10: 012815117X ISBN-13: 978-0128151174 Power Systems Modelling and Fault Analysis: Theory and Practice, Second Edition, focuses on the important core areas and technical skills required for practicing electrical power engineers. Providing a comprehensive and practical treatment of the modeling of electrical power systems, the book offers students and professionals the theory and practice of fault analysis of power systems, covering detailed and advanced theories and modern industry practices. The book describes relevant advances in the industry, such as international standards developments and new generation technologies, such as wind turbine generators, fault current limiters, multi-phase fault analysis, the measurement of equipment parameters, probabilistic short-circuit analysis, and more. Key Features Includes a fully up-to-date guide to the analysis and practical troubleshooting of short-circuit faults in electricity utilities and industrial power systems Presents sections on generators, transformers, substations, overhead power lines and industrial systems Covers best-practice techniques, safety issues, power system planning and economics About the Author Nasser Tleis has extensive experience in electrical power engineering in the following areas: power plant performance specification including steady state and transient analysis, substation insulation coordination, planning and design of transmission systems, voltage control strategies and reactive compensation planning, power systems thermal and loadflow analysis, voltage stability, frequency control and stability, transient and dynamic stability including long-term dynamics, faults and short-circuit analysis, multiphase power flow and unbalance analysis, analysis and measurement of harmonic distortion and voltage flicker. Table of Contents 1. Introduction to power system faults 2. Theory of symmetrical components and connection of phase sequence networks during faults 3. Modelling of multi-conductor overhead lines and cables 4 Analysis of natural unbalance of overhead transmission lines 5. Modelling of transformers, static power plant and static load 6. Modelling of ac rotating synchronous and induction machines 7. Modelling of wind-turbine generators, solar photovoltaic (PV) generators and inverter interfaced systems 8. Short-circuit analysis techniques in ac power systems 9. International standards for short-circuit analysis in ac power systems 10. Assessment of circuit-breaker current interruption capability in networks with long dc time constant 11. Network equivalents and practical short-circuit assessments in large scale ac power systems 12. Control and limitation of high short-circuit currents 13. An introduction to the analysis of short-circuit earth-return current and rise of earth potential 14. An introduction to the analysis of electrical interference from power lines to pipelines Appendices A.1 Analysis of distributed multi-conductor lines and cables A.2 Typical data of power system equipment |