1. Transient simulation for stator ground fault in generators based on ML-FEM coupled model
- Author
-
Xu Boqiang, Wang Xiangheng, Sun Yuguang, and Bi Daqiang
- Subjects
Engineering ,Computer simulation ,Ground ,business.industry ,Stator ,Electric generator ,Fault (power engineering) ,law.invention ,Quantitative Biology::Subcellular Processes ,Generator (circuit theory) ,law ,Control theory ,Electromagnetic coil ,Electronic engineering ,Transient (oscillation) ,business - Abstract
This paper puts forward the ML-FEM coupled model for analyzing the transient behavior of stator ground fault in generators, which possesses the distinguished capability to accurately take account of not only the distributed capacitances of the stator windings to the ground, but a variety of generator nonlinearities. The numerical simulation of stator ground fault in generators, along with the related experiments, has been completed. The simulation and experiment results explicitly demonstrate that the ML-FEM coupled model is superior to the ML model presented previously, and more preferable for transient analysis of stator ground fault in generators. As paves the way to develop and improve the relay protection scheme against this type of fault.
- Published
- 2005