Power System Oscillations: An Introduction to Oscillation Analysis and Control
暫譯: 電力系統振盪:振盪分析與控制入門
Rogers, Graham, Elliott, Ryan T., Trudnowski, Daniel J.
- 出版商: Springer
- 出版日期: 2025-02-04
- 售價: $4,860
- 貴賓價: 9.5 折 $4,617
- 語言: 英文
- 頁數: 411
- 裝訂: Hardcover - also called cloth, retail trade, or trade
- ISBN: 3031805801
- ISBN-13: 9783031805806
海外代購書籍(需單獨結帳)
商品描述
Since the publication of the first edition of this book, wide-area measurement systems (WAMS) have transformed the way that power system oscillations are monitored and studied. These systems consist of networks of time-synchronized sensors distributed over wide geographic areas--enabling new approaches not only for situational awareness but also for power system control. This fully revised and expanded edition discusses the core ideas behind WAMS, real-time situational awareness, and wide-area control as they pertain to power system oscillations. Major technological advancements since the first edition's release are covered in five new chapters. This new material highlights a first-of-its-kind demonstration project in which a 3.1 GW high-voltage direct current transmission line was used to damp inter-area oscillations in a large interconnection. It also discusses oscillations in systems dominated by inverter-based generation, including forced oscillations, which arise not from resonances but exogenous system inputs. The book includes many worked examples throughout the text using the Power System Toolbox with MATLAB, allowing readers to analyze and/or reproduce every example independently.
Power System Oscillations, Second Edition, will be a valuable reference for practicing power system engineers working in the electric utility industry. Professors, students, and research scientists studying power system dynamics will also find it to be a welcomed reference text.
商品描述(中文翻譯)
自本書第一版出版以來,廣域測量系統(WAMS)已經改變了電力系統振盪的監測和研究方式。這些系統由分佈在廣泛地理區域的時間同步感測器網絡組成,不僅能夠提供情境感知的新方法,還能改善電力系統控制。本次全面修訂和擴充的版本討論了與電力系統振盪相關的WAMS的核心理念、實時情境感知和廣域控制。自第一版發布以來的主要技術進展在五個新章節中得到了介紹。這些新材料突出了首個示範項目,其中使用了一條3.1 GW的高壓直流輸電線來抑制大型互聯網中的區域間振盪。它還討論了以逆變器為主的發電系統中的振盪,包括強迫振盪,這些振盪並非由共振引起,而是由外部系統輸入造成的。本書在整個文本中包含了許多使用MATLAB的電力系統工具箱進行的實例,讓讀者能夠獨立分析和/或重現每個例子。
《電力系統振盪》(第二版)將成為在電力公用事業行業工作的電力系統工程師的重要參考資料。教授、學生和研究科學家在研究電力系統動力學時,也會發現這是一本受歡迎的參考書。
作者簡介
Graham Rogers graduated from Southampton University, Hampshire, UK, in 1961. He had a varied career in engineering practice and teaching. In the United Kingdom, he was a consultant mathematician with Associated Electrical Industries (AEI), Rugby, and taught in the Electrical Engineering Department of Southampton University. He emigrated to Canada in 1978 to work in the System Planning Division of Ontario Hydro, where he was Senior Engineer, Specialist Control. In 1993, he retired from Ontario Hydro and formed Cherry Tree Scientific Software, through which he performed consulting in power system dynamics and control and developed computer programs for power system analysis. He was an Associate Editor of IEEE Transactions on Control Technology and was on several IEEE Power Engineering Society committees. He was also an adjunct associate professor at the University of Toronto. He published 40 papers on various aspects of power system analysis and control.
Ryan T. Elliott, Ph.D., received the M.S. and Ph.D. degrees in electrical engineering from the University of Washington, Seattle, in 2012 and 2020, respectively. From 2012 to 2015, he was a Research Scientist with the Electric Power Systems Research Department at Sandia National Laboratories in Albuquerque, NM. In 2015, he returned to the University of Washington to pursue a Ph.D., working as a Research Assistant in the Renewable Energy Analysis Laboratory from 2015 to 2020. In 2020, he rejoined Sandia where he is currently a Principal Member of Technical Staff. Dr. Elliott led the development of the WECC model validation guideline for central station photovoltaic power plants in 2015. He also received an R&D 100 Award for his contributions to a real-time damping control system using PMU feedback in 2017.
Daniel J. Trudnowksi, Ph.D., received the M.S. and Ph.D. degrees in electrical engineering from Montana State University, Bozeman, in 1988 and 1991, respectively. From 1991 through 1995, he was with Battelle at the Pacific Northwest National Laboratory where he was a Research Engineer. In 1995, he joined Montana Technological University in Butte, where he is currently a Professor of Electrical Engineering. Over the past 30 years, his research activities have primarily focused on problems related to power system dynamics and controls. Dr. Trudnowski is a Fellow of the IEEE and is a registered professional engineer in the state of Montana.
Felipe Wilches-Bernal, Ph.D., received an M.S. degree in control systems and signal processing from Université Paris-Sud XI, Orsay, France, and a Ph.D. in electrical engineering from Rensselaer Polytechnic Institute. He currently works as a Software Engineer at Google in Boulder, CO. From 2015 to 2022 he worked at the Electric Power Systems Research Department at Sandia National Laboratories in Albuquerque, NM, as a Senior and then Principal Member of Technical Staff. During his work at Sandia, he served as a key technical contributor and a PI/Co-PI of multiple projects in the power systems integration area. Dr. Wilches-Bernal's research interests include power system stability and control, renewable energy and smart grid technologies, and signal processing, control techniques and machine learning applied to power systems. He was a key contributor to the team that received an R&D 100 Award in 2017 for developing a control system for active damping of inter-area oscillations.
Denis Osipov, Ph.D., received the B.S. and M.S. degrees in electrical engineering from the Donetsk National Technical University, Donetsk, Ukraine, in 2004 and 2005, respectively. He received his Ph.D. degree in electrical engineering from University of Tennessee, Knoxville, TN, USA in 2018. From 2019 through 2023 he was a research scientist at the Department of Electrical, Computer, and Systems Engineering in Rensselaer Polytechnic Institute, Troy, NY, USA when he lead the RPI team to win 2021 IEEE-NASPI Oscillation Source Location Contest. Since 2023 he has been Manager Reliability Planning at the Department of System Planning and Analysis in New York Power Authority, Albany, NY, USA.
Joe H. Chow, Ph.D., is Institute Professor Emeritus in Electrical, Computer, and Systems Engineering at Rensselaer Polytechnic Institute. He received his B.S. degrees in Electrical Engineering and Mathematics from the University of Minnesota, Minneapolis, in 1974, and his M.S. and Ph.D. degrees from the University of Illinois, Urbana-Champaign, in 1975 and 1977. He worked in the power systems business at General Electric Company in 1978 and joined Rensselaer in 1987. He is a Life Fellow of the IEEE and a member of the U.S. National Academy of Engineering. He is a past recipient of the Donald Eckman Award from the American Automatic Control Council, the Control Systems Technology Award from the IEEE Control Systems Society, the Charles Concordia Power Systems Engineering Award and the Outstanding Power Engineering Educator Award from the IEEE Power and Energy Systems Society, and the Herman Halperin Electric Transmission and Distribution Award from IEEE.
作者簡介(中文翻譯)
格雷厄姆·羅傑斯於1961年畢業於英國漢普郡南安普敦大學。他在工程實踐和教學方面有著多樣的職業生涯。在英國,他曾擔任英國聯合電氣工業公司(Associated Electrical Industries, AEI)的顧問數學家,並在南安普敦大學的電氣工程系任教。1978年,他移民到加拿大,進入安大略水電公司(Ontario Hydro)的系統規劃部工作,擔任高級工程師,專注於控制專業。1993年,他從安大略水電公司退休,成立了櫻桃樹科學軟體公司(Cherry Tree Scientific Software),通過該公司進行電力系統動態與控制的諮詢,並開發電力系統分析的計算機程序。他曾擔任《IEEE控制技術期刊》(IEEE Transactions on Control Technology)的副編輯,並參與多個IEEE電力工程學會的委員會。他還是多倫多大學的兼任副教授。他在電力系統分析和控制的各個方面發表了40篇論文。
瑞安·T·艾略特博士於2012年和2020年分別在華盛頓大學(University of Washington, Seattle)獲得電氣工程碩士和博士學位。2012年至2015年,他在新墨西哥州阿爾伯克基的桑迪亞國家實驗室(Sandia National Laboratories)電力系統研究部擔任研究科學家。2015年,他回到華盛頓大學攻讀博士學位,並於2015年至2020年在可再生能源分析實驗室擔任研究助理。2020年,他重新加入桑迪亞,目前擔任技術人員的主要成員。艾略特博士於2015年主導了中央電站光伏發電廠的WECC模型驗證指導方針的開發。他還因其在2017年使用PMU反饋的實時阻尼控制系統的貢獻而獲得R&D 100獎。
丹尼爾·J·特魯德諾夫斯基博士於1988年和1991年分別在蒙大拿州立大學(Montana State University, Bozeman)獲得電氣工程碩士和博士學位。1991年至1995年,他在太平洋西北國家實驗室(Pacific Northwest National Laboratory)任職於巴特爾(Battelle),擔任研究工程師。1995年,他加入蒙大拿科技大學(Montana Technological University)並擔任電氣工程教授。在過去的30年中,他的研究活動主要集中在電力系統動態和控制相關的問題上。特魯德諾夫斯基博士是IEEE的會士,並且是蒙大拿州的註冊專業工程師。
費利佩·威爾切斯-伯納爾博士於法國奧爾塞的巴黎南大學(Université Paris-Sud XI)獲得控制系統和信號處理的碩士學位,並在倫斯勒理工學院(Rensselaer Polytechnic Institute)獲得電氣工程博士學位。他目前在科羅拉多州博爾德的谷歌(Google)擔任軟體工程師。2015年至2022年,他在新墨西哥州阿爾伯克基的桑迪亞國家實驗室的電力系統研究部工作,擔任高級技術人員,然後是主要技術人員。在桑迪亞工作期間,他擔任多個電力系統整合項目的關鍵技術貢獻者及首席研究員/共同首席研究員。威爾切斯-伯納爾博士的研究興趣包括電力系統穩定性和控制、可再生能源和智慧電網技術,以及應用於電力系統的信號處理、控制技術和機器學習。他是2017年因開發主動阻尼區域間振盪控制系統而獲得R&D 100獎的團隊的關鍵貢獻者。
德尼斯·奧西波夫博士於2004年和2005年分別在烏克蘭頓涅茨克國立技術大學(Donetsk National Technical University)獲得電氣工程學士和碩士學位。2018年,他在美國田納西州諾克斯維爾的田納西大學(University of Tennessee, Knoxville)獲得電氣工程博士學位。2019年至2023年,他在倫斯勒理工學院的電氣、計算機和系統工程系擔任研究科學家,並帶領RPI團隊贏得2021年IEEE-NASPI振盪源定位比賽。自2023年以來,他在紐約電力局(New York Power Authority)阿爾巴尼的系統規劃與分析部擔任可靠性規劃經理。
喬·H·趙博士是倫斯勒理工學院電氣、計算機和系統工程的名譽教授。他於1974年在明尼蘇達大學(University of Minnesota, Minneapolis)獲得電氣工程和數學的學士學位,並於1975年和1977年在伊利諾伊大學(University of Illinois, Urbana-Champaign)獲得碩士和博士學位。他於1978年在通用電氣公司(General Electric Company)從事電力系統業務,並於1987年加入倫斯勒。他是IEEE的終身會士,也是美國國家工程院的成員。他曾獲得美國自動控制協會的唐納德·艾克曼獎(Donald Eckman Award)、IEEE控制系統學會的控制系統技術獎(Control Systems Technology Award)、IEEE電力與能源系統學會的查爾斯·康科迪亞電力系統工程獎(Charles Concordia Power Systems Engineering Award)以及IEEE的赫爾曼·哈爾佩林電力傳輸與配電獎(Herman Halperin Electric Transmission and Distribution Award)。
