Abstract
A novel control method that can assist conventional frequency control to improve frequency stability of islanded microgrids is presented. As two time parameters strongly affect the performance of the proposed method, definition and influential factors of optimal time parameters are studied, focusing on the dependency on non-controlled generation and load variation. A test islanded microgrid is simulated. Using three optimization criteria, correlations between influential factors and optimal system time parameters are investigated. The effectiveness of the control method is presented in terms of dynamic simulation results.
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