Protective Relaying for Power Generation Systems
“Protective Relaying for Power Generation Systems” by Donald Reimert, published by Taylor & Francis on December 9, 2005, spans 592 pages and is presented in English. This book addresses the critical importance of effective protection schemes in preventing power outages, focusing specifically on the protection of motors and generators from a power generation perspective. Unlike most textbooks that emphasize transmission and distribution, this work offers a comprehensive overview and detailed discussions tailored to the needs of students.
Readers will find a blend of theoretical insights and practical tools, including workbook constructions for performing protection-related calculations in Mathcad® and Excel®. The text covers unique topics such as time decrement generator fault calculations and minimum excitation limits, providing thorough explanations of potential damage mechanisms associated with various protection functions. By integrating fundamental knowledge with practical applications, this book equips students with a solid understanding of protection schemes and the challenges that may arise during abnormal operations.
Official synopsis Publisher
Power outages have considerable social and economic impacts, and effective protection schemes are crucial to avoiding them. While most textbooks focus on the transmission and distribution aspects of protective relays, Protective Relaying for Power Generation Systems is the first to focus on protection of motors and generators from a power generation perspective. It also includes workbook constructions that allow students to perform protection-related calculations in Mathcad® and Excel®.
This text provides both a general overview and in-depth discussion of each topic, making it easy to tailor the material to students’ needs. It also covers topics not found in other texts on the subject, including detailed time decrement generator fault calculations and minimum excitation limit. The author clearly explains the potential for damage and damaging mechanisms related to each protection function and includes thorough derivations of complex system interactions. Such derivations underlie the various rule-of-thumb setting criteria, provide insight into why the rules-of-thumb work and when they are not appropriate, and are useful for post-incident analysis. The book’s flexible approach combines theoretical discussions with example settings that offer quick how-to information.
Protective Relaying for Power Generation Systems integrates fundamental knowledge with practical tools to ensure students have a thorough understanding of protection schemes and issues that arise during or after abnormal operation.
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