The evolution of transmission systems towards decarbonized and renewable energy- based generation has brought HVDC (High Voltage Direct Current) systems to the attention of stakeholders involved in infrastructure development, planning, and component man- ufacturing. Compared to HVAC transmission, HVDC, especially in its Voltage Source Converter (VSC) mode, offers direct control of both active and reactive power flows, grid stability support, and the possibility of interconnection between asynchronous systems.
Vasile, A., Astolfi, D., Pasetti, M., Musca, R., Zizzo, G., Favuzza, S. (2025). The Tyrrhenian Link: A Next-Generation Electrical Infrastructure for the Mediterranean Grid. ENERGIES, 18(13), 1-6 [10.3390/en18133469].
The Tyrrhenian Link: A Next-Generation Electrical Infrastructure for the Mediterranean Grid
Musca R.;Zizzo G.;Favuzza S.
2025-07-01
Abstract
The evolution of transmission systems towards decarbonized and renewable energy- based generation has brought HVDC (High Voltage Direct Current) systems to the attention of stakeholders involved in infrastructure development, planning, and component man- ufacturing. Compared to HVAC transmission, HVDC, especially in its Voltage Source Converter (VSC) mode, offers direct control of both active and reactive power flows, grid stability support, and the possibility of interconnection between asynchronous systems.
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