Two-layer control structure for enhancing frequency stability of the MTDC system
J. Stojković (University of Belgrade)
A.D. Shetgaonkar (TU Delft - Intelligent Electrical Power Grids)
Predrag Stefanov (University of Belgrade)
Aleksandra Lekic-Vervoort (TU Delft - Intelligent Electrical Power Grids)
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Abstract
This paper explores the possibilities of providing fast frequency support as an emergency support service to the disturbed AC system through the MTDC grid. A two-layer hierarchical control structure of the MTDC grid is proposed to assure the minimum cost of the frequency control actions, the minimum voltage deviations, or the minimal impact on the frequencies of not-affected AC systems while ensuring the stable operation of MTDC grid. An optimization algorithm is executed at the secondary control level to find the optimal reference values for the voltage-droop characteristics of the voltage-regulating converters, and consequently their DC voltages and active power references. Then, at the primary control level, the reference values are tuned with the optimization results. Implemented control structure confirms that MTDC can provide set values at its terminals without endangering its stability. The secondary control layer is implemented in MATLAB, while the performance of the controller is successfully evaluated through simulation in RSCAD.