Abstract
Design and operating criteria for power system stability largely depend on a synchronous generator’s capability to remain in synchronism. In the field of mathematical modeling of the dynamics of synchronous generator’s with excitation systems, there is a need for more practical studies investigating the impact of Fault Ride Through criteria from system operators on actual cases. This paper describes a practical method which illustrates the different aspects of how this type of modeling and simulation can be carried out on a case study. Results show that the type of excitation system, time of fault, and the generators rotating mass have large impact on the system stability.
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