Modern power systems have to face multiple concerns in the light of the decarbonization process. In the Italian context, increasing network congestions are expected in future energy scenarios due to the huge growth of renewable generation capacity foreseen across long corridors from the South, where primary sources are concentrated, to the North, where main load areas are located. The extension of strategic transmission paths operational limits is therefore a crucial topic. In this paper, the innovative Extra High Voltage (EHV) “5-phases” solution combined with the capacitive series compensation is studied in a test grid portion affected by critical power transfers. The great longitudinal reactance reduction of selected network branches leads to relevant benefits in terms of loadability increase and voltage phase shifts mitigation.
New 5-Phases Solution and Series Compensation for OHLs Power Transfer Capacity and Static Stability Increase / Carlini, Enrico Maria; Guarniere, Maria Rosaria; Gadaleta, Corrado; Spezie, Roberto; Palone, Francesco; Migliori, Michela; Buono, Luca; Luongo, Gianfranco; Monno, Davide. - (2023), pp. 1-6. (Intervento presentato al convegno 115th AEIT International Annual Conference, AEIT 2023 tenutosi a Rome, Italy) [10.23919/AEIT60520.2023.10330307].
New 5-Phases Solution and Series Compensation for OHLs Power Transfer Capacity and Static Stability Increase
Palone, Francesco;Migliori, Michela
Co-primo
Writing – Original Draft Preparation
;
2023
Abstract
Modern power systems have to face multiple concerns in the light of the decarbonization process. In the Italian context, increasing network congestions are expected in future energy scenarios due to the huge growth of renewable generation capacity foreseen across long corridors from the South, where primary sources are concentrated, to the North, where main load areas are located. The extension of strategic transmission paths operational limits is therefore a crucial topic. In this paper, the innovative Extra High Voltage (EHV) “5-phases” solution combined with the capacitive series compensation is studied in a test grid portion affected by critical power transfers. The great longitudinal reactance reduction of selected network branches leads to relevant benefits in terms of loadability increase and voltage phase shifts mitigation.| File | Dimensione | Formato | |
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