Resumen

XU, Lin; TANG, Yong-Hong; PU, Wei  y  HAN, Yang. Hybrid electromechanical-electromagnetic simulation to SVC controller based on ADPSS platform. J. energy South. Afr. [online]. 2014, vol.25, n.4, pp.112-122. ISSN 2413-3051.

To test the dynamic performance and damping features of a static var compensator (SVC) controller accurately in large-scale interconnected AC/DC hybrid power systems, it is of vital significance to build the detailed electromagnetic transient model. However, it is unrealistic and time-consuming to build the detailed models of all the devices in the actual large-scale power grid. Utilizing the hybrid simulation function in the advanced digital power system simulator (ADPSS) and by dividing the large-scale power grid into the electromagnetic transient sub-grids and electromechanical sub-grids, the computation speed of real-time simulation is remarkably enhanced by the parallel computational capabilities of digital simulator. The SVC controller and the nearby substation are modelled in the electromagnetic transient sub-grid, and the residue subnetworks are modelled in the electromechanical sub-grid. This paper focuses on the mechanism of the hybrid electromechanical and electromagnetic simulation, the detailed modelling and the ADPSS-based digital closed-loop test methodologies of the SVC controller. Eventually, the validity and effectiveness of the modelling and control methods are confirmed by the experimental results.

Palabras clave : advanced digital power system simulator; Hhybrid eectromechanical-Eelectromagnetic simulation; static var compensator; Phillips-Heffron model.

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