The purpose of this chapter is to validate the isomorphism-based simulation approach by simulating a benchmark hvdc system made up of two mmcs, as well as two dc underground cables and ac grids. After describing the implementation of each component of the benchmark, the chapter presents the results obtained by simulating the hvdc system in several scenarios (ranging from normal operating conditions to faults in the ac and dc side of the mmcs) with two approaches: conventional and isomorphism-based. Simulation results are compared to showcase the key features of the isomorphism-based method and highlight its applicability for the analysis of mmc-based hvdc systems.

Validation of the Isomorphism-Based Approach

del Giudice, Davide;Bizzarri, Federico;Linaro, Daniele;Brambilla, Angelo Maurizio
2023-01-01

Abstract

The purpose of this chapter is to validate the isomorphism-based simulation approach by simulating a benchmark hvdc system made up of two mmcs, as well as two dc underground cables and ac grids. After describing the implementation of each component of the benchmark, the chapter presents the results obtained by simulating the hvdc system in several scenarios (ranging from normal operating conditions to faults in the ac and dc side of the mmcs) with two approaches: conventional and isomorphism-based. Simulation results are compared to showcase the key features of the isomorphism-based method and highlight its applicability for the analysis of mmc-based hvdc systems.
2023
Modular Multilevel Converter Modelling and Simulation for HVDC Systems
978-3-031-12817-2
978-3-031-12818-9
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11311/1223384
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