Modeling and Stability Analysis of Inverter-Based Resources
暫譯: 逆變器基資源的建模與穩定性分析
Fan, Lingling, Miao, Zhixin
- 出版商: CRC
- 出版日期: 2025-06-27
- 售價: $2,340
- 貴賓價: 9.5 折 $2,223
- 語言: 英文
- 頁數: 274
- 裝訂: Quality Paper - also called trade paper
- ISBN: 103234749X
- ISBN-13: 9781032347493
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相關主題
商品描述
Renewable energy sources interface with the ac grids via inverters are termed inverter-based resources (IBRs). They are replacing traditional fossil fuel-based synchronous generators at a dazzling speed. In turn, unprecedented dynamic events have occurred, threatening power grid reliability. Modeling and Stability Analysis of Inverter-Based Resources provides a fundamental understanding of IBR dynamics.
Developing reliability solutions requires a thorough understanding of challenges, and in this case, IBR-associated dynamics. Modeling and stability analysis play an indispensable role in revealing a mechanism of dynamics. This book covers the essential techniques of dynamic model building for IBRs, including type-3 wind farms, type-4 wind farms, and solar photovoltaics. Besides modeling, this book offers readers the techniques of stability analysis. The text includes three parts. Part 1 concentrates on tools, including electromagnetic transient simulation, analysis, and measurement-based modeling. Part 2 focuses on IBR modeling and analysis details. Part 3 highlights generalized dynamic circuit representation--a unified modeling framework for dynamic and harmonic analysis.
This topic of IBR dynamic modeling and stability analysis is interesting, challenging, and intriguing. The authors have led the effort of publishing the 2020 IEEE Power and Energy Society's TR-80 taskforce report "Wind Energy Systems Subsynchronous Oscillations: Modeling and Events," and the two taskforce papers on investigation of real-world IBR dynamic events. In this book, the authors share with readers many insights into modeling and analysis for real-world IBR dynamic events investigation.
商品描述(中文翻譯)
可再生能源來源透過逆變器與交流電網接口,稱為逆變器基礎資源(Inverter-Based Resources, IBRs)。它們以驚人的速度取代傳統的化石燃料同步發電機。隨之而來的是前所未有的動態事件,威脅到電力網的可靠性。《逆變器基礎資源的建模與穩定性分析》提供了對IBR動態的基本理解。
開發可靠性解決方案需要徹底了解挑戰,在這種情況下,則是與IBR相關的動態。建模和穩定性分析在揭示動態機制方面扮演著不可或缺的角色。本書涵蓋了IBR的動態模型建構的基本技術,包括類型3風電場、類型4風電場和太陽能光伏。此外,本書還為讀者提供了穩定性分析的技術。文本分為三個部分。第一部分集中於工具,包括電磁暫態模擬、分析和基於測量的建模。第二部分專注於IBR建模和分析的細節。第三部分強調一般化動態電路表示法——一個統一的動態和諧波分析建模框架。
IBR動態建模和穩定性分析這一主題既有趣又具挑戰性,令人著迷。作者們主導了2020年IEEE電力與能源學會TR-80工作小組報告《風能系統次同步振盪:建模與事件》的出版,以及兩篇關於現實世界IBR動態事件調查的工作小組論文。在本書中,作者與讀者分享了許多關於現實世界IBR動態事件調查的建模和分析見解。
作者簡介
Lingling Fan is Professor at the Department of Electrical Engineering at the University of South Florida (USF). Before joining the academia, she has worked in the grid operating industry Mid-west ISO for six years (2001-2007). She received the Bachelor of Science and Master of Science degrees in Electrical Engineering from Southeast University (Nanjing, China) in 1994 and 1997, respectively. She obtained the Ph.D. degree in Electrical Engineering from West Virginia University, Morgantown in 2001. Dr. Fan is research active in control, computing, and dynamic analysis of power systems, power electronics and electric machines. Her research has been sponsored by the Department of Energy, Midwest ISO, Duke Energy, National Science Foundation, Electric Power Research Institute, Florida Cyber Security Center, Jabil, etc. She has authored/co-authored two books Modeling and Analysis of Double Fed Induction Generator Wind Energy Systems (Elsevier Press, 2015) and Control and Dynamics in Power Systems and Microgrids (CRC press, 2017). Dr. Fan has served as Consulting Editor for IEEE transactions on Sustainable Energy. Currently, she serves as the Editor-in-Chief of IEEE Electrification Magazine and Associate Editor for IEEE transactions on Energy Conversion. She Fan was elevated to IEEE Fellow class 2022 for her contributions to stability analysis and control of inverter-based resources. She is the recipient of USF's outstand- ing research achievement award in 2022 and has been featured in IEEE Power and Energy Society social media in March 2022 to celebrate World Engineering Day and National Women's History Month.
Zhixin Miao is Professor at the Department of Electrical Engineering at the University of South Florida (USF). He received the Bachelor of Science in Electrical Engineering degree from the Huazhong University of Science and Technology at Wuhan China in 1992, the Master of Science in Electrical Engineering degree from the Graduate School, Nanjing Automation Research Institute (NARI) at Nanjing China in 1997, and the Ph.D. degree in electrical engineering from West Virginia University at Morgantown in 2002. He worked as a power system protection engineer from1992-1999 in NARI and a transmission planning engineer at Midwest ISO, St. Paul, MN, from 2002 to 2009. His research interests include digital twins, power system computer and hardware simulations, microgrids, and renewable energy integration. Dr. Miao serves as an associate editor for IEEE transactions on Sustainable Energy.
作者簡介(中文翻譯)
范玲玲是南佛羅里達大學(USF)電機工程系的教授。在進入學術界之前,她曾在中西部ISO的電網運營行業工作了六年(2001-2007)。她於1994年和1997年分別在中國南京的東南大學獲得電機工程學士和碩士學位。她於2001年在西維吉尼亞大學(Morgantown)獲得電機工程博士學位。范博士在電力系統的控制、計算和動態分析、電力電子和電機方面積極從事研究。她的研究得到了能源部、中西部ISO、杜克能源、國家科學基金會、電力研究所、佛羅里達網絡安全中心、捷普等機構的資助。她是兩本書的作者/合著者,分別是雙饋感應發電機風能系統的建模與分析(Elsevier Press, 2015)和電力系統與微電網中的控制與動態(CRC Press, 2017)。范博士曾擔任IEEE可持續能源期刊的顧問編輯。目前,她擔任IEEE電氣化雜誌的主編和IEEE能源轉換期刊的副編輯。因其在基於逆變器的資源穩定性分析和控制方面的貢獻,范博士於2022年被提升為IEEE Fellow。她是2022年USF傑出研究成就獎的獲得者,並於2022年3月在IEEE電力與能源學會的社交媒體上被特別報導,以慶祝世界工程日和國家女性歷史月。
苗志新是南佛羅里達大學(USF)電機工程系的教授。他於1992年在中國武漢的華中科技大學獲得電機工程學士學位,1997年在南京自動化研究院(NARI)獲得電機工程碩士學位,並於2002年在西維吉尼亞大學(Morgantown)獲得電機工程博士學位。他於1992年至1999年在NARI擔任電力系統保護工程師,並於2002年至2009年在中西部ISO(明尼蘇達州聖保羅)擔任傳輸規劃工程師。他的研究興趣包括數位雙胞胎、電力系統計算機和硬體模擬、微電網和可再生能源整合。苗博士擔任IEEE可持續能源期刊的副編輯。
