Lingling Fan

From Wikipedia the free encyclopedia

Lingling Fan is a power engineer who is currently a professor of electrical engineering at the University of South Florida.[1] Fan specializing in the dynamics, system identification, and control theory of electrical grids and electric power conversion, and especially on the integration into these systems of inverter-based resources connected to variable renewable energy sources such as wind power and solar power.

Education and career

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Fan is originally from a small village on the coast of East China, the daughter of a teacher and a hydraulic engineer.[2] She studied electrical engineering at Southeast University in Nanjing, earning bachelor's and master's degrees in 1994 and 1997 respectively. She came to the US as a doctoral student at West Virginia University, where she completed her Ph.D. in 2001.[1]

After six years working for the industry at Midwest ISO, a nonprofit energy transmission organization based in St. Paul, Minnesota,[1][2] Lingling joined North Dakota State University as an assistant professor in 2007.[1] She moved to the University of South Florida in 2009,[2] and is a full professor there.[1]

In 2020, she became editor-in-chief of IEEE Electrification Magazine.[1][3]

Books

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Fan is the author or coauthor of books including:[1]

  • Modeling and Analysis of Doubly Fed Induction Generator Wind Energy Systems (with Zhixin Miao, Academic Press, 2015)
  • Control and Dynamics in Power Systems and Microgrids (CRC Press, 2017)[4]

Recognition

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Fan was elected as an IEEE Fellow in 2022, "for contributions to stability analysis and control of inverter-based resources".[1][5]

References

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  1. ^ a b c d e f g h "Lingling Fan, Professor", USF faculty honors, University of South Florida, retrieved 2023-04-14
  2. ^ a b c "Spotlight On: Lingling Fan, IEEE PES Fellow and Professor, University of South Florida", Member profiles, IEEE Power & Energy Society, retrieved 2023-04-14
  3. ^ "About journal", IEEE Electrification Magazine, IEEE, retrieved 2023-04-14
  4. ^ Sheble, Gerald (May 2018), "Control & Dynamics: How They Are Applied in Power System Microgrids [Book Review]", IEEE Power and Energy Magazine, vol. 16, no. 3, pp. 98–100, doi:10.1109/mpe.2018.2798760
  5. ^ 2022 Newly Elevated Fellows (PDF), IEEE, archived from the original (PDF) on 2021-11-24, retrieved 2023-04-14
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