Stability-Constrained Optimization for Modern Power System Operation and Planning

Comprehensive treatment of an aspect of stability constrained operations and planning, including the latest research and engineering practices

Stability-Constrained Optimization for Modern Power System Operation and Planning focuses on the subject of power system stability, addressing a common gap in knowledge by presenting a series of stability-constrained optimization methodologies for power system operation and planning with the aim of power system stability enhancement. Unlike other resources, which focus mainly on the dynamic modeling, stability analysis, and controller design of power systems, this book is instead dedicated to operational and planning methods for power system stability enhancement, including power system stability preliminaries, stability-constrained operational dispatch, and stability-constrained network reinforcement planning.

Authored by experts with established track records in both research and industry, Stability-Constrained Optimization for Modern Power System Operation and Planning covers sample topics such as:

• The definition, classification, and phenomenon of power system stability, recent large-scale blackouts in the world, and mathematical models and analysis tools for power system stability assessment
• Transient stability-constrained optimal power flow (TSC-OPF), hybrid solution methods for TSC-OPF, data-driven solution methods for TSC-OPF, and transient stability constrained-unit commitment (TSC-UC)
• TSC-OPF under wind power uncertainties, trajectory sensitivity-based preventive dispatch, preventive-corrective coordinated TSC-OPF, and optimal event-based load shedding
• Voltage stability indies, dynamic VAR resources (STATCOM and SVC), candidate bus selection for dynamic VAR allocation, and multi-objective dynamic VAR planning

Stability-Constrained Optimization for Modern Power System Operation and Planning provides the latest research findings to scholars, researchers, and postgraduate students who are seeking optimization model formulations and solution methodologies for stability enhancement. It also provides key practical operational dispatch and network reinforcement planning methods to power system operators, planners, and decision-makers in the power utilities and related industries.

《穩定受限優化：現代電力系統運營與規劃的穩定性優化》是一本全面探討穩定受限運營與規劃方面的書籍，包括最新的研究和工程實踐。本書專注於電力系統穩定性的主題，填補了現有知識中的一個空白，提出了一系列針對電力系統運營和規劃的穩定受限優化方法，旨在提升電力系統的穩定性。與其他資源不同，其他資源主要關注電力系統的動態建模、穩定性分析和控制器設計，而本書則專注於電力系統穩定性增強的運營和規劃方法，包括電力系統穩定性基礎知識、穩定受限運營調度和穩定受限網絡加固規劃等方面。

《穩定受限優化：現代電力系統運營與規劃的穩定性優化》由在研究和工業界都有著豐富經驗的專家撰寫，涵蓋了以下主題：
- 電力系統穩定性的定義、分類和現象，世界上最近的大規模停電事件，以及用於電力系統穩定性評估的數學模型和分析工具。
- 瞬態穩定受限最優功率流（TSC-OPF）、TSC-OPF的混合解法、TSC-OPF的數據驅動解法，以及瞬態穩定受限單元調度（TSC-UC）。
- 在風能不確定性下的TSC-OPF、基於軌跡敏感性的預防調度、預防-校正協調的TSC-OPF，以及最優基於事件的負載拋棄。
- 電壓穩定性指標、動態無功資源（STATCOM和SVC）、動態無功資源分配的候選母線選擇，以及多目標動態無功資源規劃。

《穩定受限優化：現代電力系統運營與規劃的穩定性優化》提供了最新的研究成果，適用於學者、研究人員和研究生，他們正在尋求穩定性增強的優化模型和解決方法。同時，它還為電力系統運營商、規劃者和決策者提供了關鍵的實際運營調度和網絡加固規劃方法，適用於電力公用事業和相關行業。

Yan Xu obtained B.E. and M.E. degrees from South China University of Technology, China, and the Ph.D. from University of Newcastle, Australia, in 2008, 2011, and 2013, respectively. He conducted postdoctoral research with the University of Sydney Postdoctoral Fellowship, and then joined Nanyang Technological University (NTU) with the Nanyang Assistant Professorship. He is now an Associate Professor at the School of Electrical and Electronic Engineering, and a Cluster Director at the Energy Research Institute, Nanyang Technological University, Singapore (ERI@N). His research interests include power system stability, microgrid, and data analytics for smart grid applications. He is an Editor for IEEE Trans. Smart Grid and IEEE Trans. Power Systems.

Yuan Chi received B.E. degree from Southeast University, Nanjing, China, in 2009, and the M.E. degree from Chongqing University, Chongqing, China, in 2012, and the Ph.D. degree from Nanyang Technological University, Singapore, in 2021. From 2012 to 2017, he worked as an Electrical Engineer of Power System Planning consecutively with State Grid Chongqing Electric Power Research Institute and Chongqing Economic and Technological Research Institute. He is currently a Research Associate with Chongqing University. His research interests include planning, resilience, and voltage stability of power systems.

Heling Yuan received B.E., M.Sc., and Ph.D. degrees from North China Electric Power University, Beijing, China, and the University of Manchester, and Nanyang Technological University (NTU), Singapore, in 2016, 2017, and 2022, respectively. She is currently a Research Fellow at Rolls-Royce @ NTU Corporate Lab, Singapore. Her research interests include modeling, optimization, stability analysis and control of power systems.

Yan Xu 在2008年、2011年和2013年分別從中國華南理工大學獲得學士和碩士學位，並在澳大利亞紐卡斯爾大學獲得博士學位。他曾在悉尼大學進行博士後研究，後來加入南洋理工大學擔任南洋助理教授。他現在是南洋理工大學電氣與電子工程學院的副教授，也是南洋理工大學能源研究所的簇主任。他的研究興趣包括電力系統穩定性、微電網和智能電網應用的數據分析。他是《IEEE Trans. Smart Grid》和《IEEE Trans. Power Systems》的編輯。

Yuan Chi 在2009年從中國南京的東南大學獲得學士學位，2012年從中國重慶的重慶大學獲得碩士學位，並在2021年從新加坡南洋理工大學獲得博士學位。從2012年到2017年，他連續在國家電網重慶電力研究院和重慶經濟技術研究院擔任電力系統規劃的電氣工程師。他目前是重慶大學的研究助理。他的研究興趣包括電力系統規劃、韌性和電壓穩定性。

Heling Yuan 在2016年、2017年和2022年分別從中國華北電力大學、英國曼徹斯特大學和新加坡南洋理工大學獲得學士、碩士和博士學位。她目前是新加坡羅爾斯·羅伊斯@南洋理工大學企業實驗室的研究員。她的研究興趣包括電力系統建模、優化、穩定性分析和控制。