Oscillatory Stability of Converter-Dominated Power Systems
Xie, Xiaorong, Shair, Jan
- 出版商: Springer
- 出版日期: 2024-02-20
- 售價: $6,860
- 貴賓價: 9.5 折 $6,517
- 語言: 英文
- 頁數: 241
- 裝訂: Hardcover - also called cloth, retail trade, or trade
- ISBN: 3031533569
- ISBN-13: 9783031533563
海外代購書籍(需單獨結帳)
商品描述
This book provides modeling, analysis, and control methods for wideband oscillations caused by control interactions in converter-dominated power systems. The modern power system comprises power electronic devices in various forms, including wind turbines, photovoltaics, flexible AC/DC transmission systems, battery energy storage systems, and distributed generations, among others. Unstable oscillation modes can cause equipment damage, sudden power reduction, noise in power transformers, and degradation of power quality. Wideband oscillation seriously threatens the stable and reliable operation of wind power systems.
The interaction mechanism becomes more complex due to system-wide factors such as network topology, grid strength, input resource intermittency, converter control parameters, and the output levels of renewable generators. This complexity presents a significant challenge in studying the intricate control interaction phenomena and deriving appropriate countermeasures.
The book is beneficial for industry professionals, engineers, and academic researchers working on power systems in general, and specifically on power electronic converters.
商品描述(中文翻譯)
本書提供了在以轉換器為主的電力系統中由控制相互作用引起的寬頻振盪的建模、分析和控制方法。現代電力系統包括各種形式的功率電子設備,包括風力渦輪機、光伏發電、柔性交流/直流傳輸系統、電池儲能系統和分散式發電等。不穩定的振盪模式可能導致設備損壞、突然功率降低、變壓器噪音和電力品質下降。寬頻振盪嚴重威脅風力發電系統的穩定可靠運行。
由於網絡拓撲、電網強度、輸入資源間歇性、轉換器控制參數和可再生發電機的輸出水平等系統整體因素,相互作用機制變得更加複雜。這種複雜性在研究細微的控制相互作用現象和制定適當對策方面提出了重大挑戰。
本書對於從事電力系統研究的行業專業人士、工程師和學術研究人員具有重要價值,尤其是對於從事功率電子轉換器相關工作的人士。
作者簡介
Xiaorong Xie (Fellow, IEEE & IET) is a Professor and Director of the Flexible Transmission & Distribution Systems Research Institute at the Department of Electrical Engineering, Tsinghua University, China. He has been engaged in research on power system stability analysis and control, subsynchronous resonance/oscillation, grid integration of renewable energy, and flexible transmission and distribution systems for more than 25 years. His research is supported by China National Science Funds for Distinguished Young Scientists and National Key Research and Development Programs. He has published 4 monographs, and over 300 papers, more than 70 authorized invention patents, and won 1 National Science and Technology Progress Award and over 10 provincial-level/industry association awards. He is currently serving as Editor of several international journals, including the IEEE Transactions on Power Delivery. He is a member of the IEC TC8/SC8A JWG5 (Leader of the Subgroup of "Subsynchronous Control Interaction"), CIGRE WG C4/B4.52 and CIGRE WG C4.49.
Jan Shair (Member, IEEE) received his PhD in Electrical Engineering from Tsinghua University, Beijing, China in 2021. Currently, he is working as a Tsinghua-Shuimu Fellow at the Department of Electrical Engineering, Tsinghua University, China. His research interests include modeling, analysis, and control of subsynchronous resonance/oscillation in converter-dominated power systems. He has published his research work in more than 50 journal and conference papers. He is a member of the IEEE Task Force on IBR-SSO and a contributor to several other IEC and CIGRE working groups related to subsynchronous oscillation. Dr. Shair is also serving as Guest Associate Editor of a Special Issue on "Control Interactions in Power Electronic Converter Dominated Power Systems" in the International Journal of Electrical Power and Energy Systems.
作者簡介(中文翻譯)
謝曉榮(Xiaorong Xie)(IEEE和IET會士)是中國清華大學電機工程系柔性傳輸與配電系統研究所的教授和所長。他從事電力系統穩定性分析與控制、次同步共振/振蕩、可再生能源的電網接入以及柔性傳輸和配電系統研究超過25年。他的研究得到了中國國家杰出青年科學基金和國家重點研發計劃的支持。他出版了4本專著,發表了300多篇論文,擁有70多項授權發明專利,並獲得了1項國家科技進步獎和10多項省級/行業協會獎項。他目前擔任多個國際期刊的編輯,包括《IEEE電力傳輸交易》。他是IEC TC8/SC8A JWG5(“次同步控制相互作用”小組的組長)、CIGRE WG C4/B4.52和CIGRE WG C4.49的成員。
詹沙爾(Jan Shair)(IEEE會員)於2021年在中國清華大學獲得電機工程博士學位。目前,他在中國清華大學電機工程系擔任清華-水木學者。他的研究興趣包括轉換器主導的電力系統中次同步共振/振蕩的建模、分析和控制。他的研究成果已發表在50多篇期刊和會議論文中。他是IEEE IBR-SSO任務組的成員,並參與了幾個與次同步振蕩相關的IEC和CIGRE工作組。詹博士還擔任《國際電力與能源系統電力控制相互作用特刊》的客座副編輯。
