Modeling of Wind Turbines with Doubly Fed Generator System [electronic resource] /
by Jens Fortmann.
- XXIII, 183 p. 155 illus., 17 illus. in color. online resource.
Introduction -- Model of the Turbine Aerodynamics -- Model of the Turbine Structural Dynamics -- Model of the Turbine Control -- Generator and Converter -- Reactive Power Control of Wind Plants -- Summary and Conclusion -- References -- Appendix.
Jens Fortmann describes the deduction of models for the grid integration of variable speed wind turbines and the reactive power control design of wind plants. The modeling part is intended as background to understand the theory, capabilities and limitations of the generic doubly fed generator and full converter wind turbine models described in the IEC 61400-27-1 and as 2nd generation WECC models that are used as standard library models of wind turbines for grid simulation software. Focus of the reactive power control part is a deduction of the origin and theory behind the reactive current requirements during faults found in almost all modern grid codes. Based on this analysis, the design of a reactive power control system for wind turbines and wind plants is deduced that can provide static and dynamic capabilities to ensure a stable voltage and reactive power control for future grids without remaining synchronous generation. Contents Generic models for Turbine Aerodynamics, the Turbine Structural Dynamics and the Turbine Control Generic models of Generator and Converter for Doubly Fed Generator System and Full Converter Reactive Power Control of Wind Plants Target Groups Teachers, students and researchers dealing with the grid connection of wind turbines Engineers at grid operators, certification bodies and wind plant operators About the Author Jens Fortmann is working as Leading Expert at a major manufacturer of wind turbines. He received his PhD at the Department for Electrical Power Systems, University of Duisburg-Essen.
9783658068820
10.1007/978-3-658-06882-0 doi
Engineering. Electric power production. Mechanical engineering. Electrical engineering. Engineering. Electrical Engineering. Energy Technology. Mechanical Engineering.