This book provides a systematic introduction to power system sub/super-synchronous oscillations caused by grid-connected wind power generation. The authors look at why oscillations occur and present methods for examining the risk of oscillations. Coverage includes state-space model based analysis and impedance model based analysis, which are the two main methods for examining the power system sub/super-synchronous oscillations. In addition, new methods for examining oscillations in wind farms are proposed. Analysis of Power System Sub/Super-Synchronous Oscillations Caused by Grid-connected…mehr
This book provides a systematic introduction to power system sub/super-synchronous oscillations caused by grid-connected wind power generation. The authors look at why oscillations occur and present methods for examining the risk of oscillations. Coverage includes state-space model based analysis and impedance model based analysis, which are the two main methods for examining the power system sub/super-synchronous oscillations. In addition, new methods for examining oscillations in wind farms are proposed. Analysis of Power System Sub/Super-Synchronous Oscillations Caused by Grid-connected Wind Power Generation provides researchers and students with a single-volume introduction to the subject and will be a valuable professional reference for practicing engineers looking for solutions to oscillation problems.
Wenjuan Du, Ph.D., is a full professor with the School of Electrical Engineering at Sichuan University. She received her Ph.D. from the University of Bath in 2009 and worked for several universities in the UK before she joined the North China Electric Power University as a full professor in 2013. Professor Du has published about 100 English journal papers, including about 50 IEEE Transaction papers. Her research interests focus on stability analysis and control of power systems integrated with renewable power generation (wind and PV). She is co-author of the books Small-Signal Stability Analysis of Power Systems Integrated with Variable Speed Wind Generators (Springer, 2018) and Analysis and Damping Control of Power System Low-Frequency Oscillations (Springer, 2016). She is a member of the IEEE and an associate editor of the journal IET Renewable Power Generation. Haifeng Wang, Ph.D., is a full professor with the School of Electrical Engineering at Sichuan University. He is a Fellow of the IET, Charted Engineer, SMIEEE. He worked in several universities in the UK from 1989 to 2013, including the Queen's University of Belfast and Brunel University from 2007 to 2013. Professor Wang's expertise is in power transmission and distribution. More recently, he has worked on the network integration of renewable power generation, including wind and photovoltaic and high-voltage DC power transmission and systems. He has published about 150 international journal papers and about 150 international conference papers. He is co-author of the books Small-Signal Stability Analysis of Power Systems Integrated with Variable Speed Wind Generators (Springer, 2018) and Analysis and Damping Control of Power System Low-frequency Oscillations (Springer, 2016).
Inhaltsangabe
Analysis of factors affecting the sub/super-synchronous oscillations of a grid-connected PMSG system.- Analysis of sub-synchronous oscillations in a power system with series-compensated transmission line and a sending-end synchronous generator or DFIG.- Open-loop modal resonance to cause sub-synchronous oscillations in a power system with grid-connected wind farms.- Amplifying effect of weak grid connection on the open-loop modal resonance.- Risk of sub/super-synchronous oscillations in a wind power collecting system.- Impedance model based analysis of sub/super-synchronous oscillations caused by grid-connected wind power generation.
Analysis of factors affecting the sub/super-synchronous oscillations of a grid-connected PMSG system.- Analysis of sub-synchronous oscillations in a power system with series-compensated transmission line and a sending-end synchronous generator or DFIG.- Open-loop modal resonance to cause sub-synchronous oscillations in a power system with grid-connected wind farms.- Amplifying effect of weak grid connection on the open-loop modal resonance.- Risk of sub/super-synchronous oscillations in a wind power collecting system.- Impedance model based analysis of sub/super-synchronous oscillations caused by grid-connected wind power generation.
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