System Impact Studies for Near 100% Renewable Energy Systems Dominated by Inverter Based Variable Generation

System Impact Studies for Near 100% Renewable Energy Systems Dominated by Inverter Based Variable Generation

The demand for low carbon energy calls for close to 100% renewable power systems, with decarbonization of other energy sectors adding to the anticipated paradigm shift. Rising levels of variable inverter-based renewable energy sources (VIBRES) are prompting questions about how such systems will be p...

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Veröffentlicht in:IEEE transactions on power systems 2022-07, Vol.37 (4), p.3249-3258
Hauptverfasser: Holttinen, Hannele, Kiviluoma, Juha, Flynn, Damian, Smith, J. Charles, Orths, Antje, Eriksen, Peter Borre, Cutululis, Nicolaos, Soder, Lennart, Korpas, Magnus, Estanqueiro, Ana, MacDowell, Jason, Tuohy, Aidan, Vrana, Til Kristian, O'Malley, Mark
Format: Artikel
Sprache:eng
Schlagworte:
Analytical models
Biological system modeling
Clean energy
Electric inverters
Energy system integration
Energy systems
Energy systems integration
Inverter-based
Inverters
Investment
Paradigm shifts
Planning
Power electronics
Power system operation
Power system operations
Power system stability
Renewable energies
Renewable energy resources
Renewable energy source
Renewable energy sources
Renewables
Stability analysis
System integration
System stability
Systems stability
Variable inverte based renewables
Variable inverter based renewables
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Beschreibung
Zusammenfassung:The demand for low carbon energy calls for close to 100% renewable power systems, with decarbonization of other energy sectors adding to the anticipated paradigm shift. Rising levels of variable inverter-based renewable energy sources (VIBRES) are prompting questions about how such systems will be planned and operated when variable renewable generation becomes the dominant technology. Here, we examine the implications of this paradigm shift with respect to planning, operation and system stability, also addressing the need for integration with other energy vectors, including heat, transport and Power-to-X. We highlight the knowledge gaps and provide recommendations for improved methods and models needed as power systems transform towards 100% VIBRES.
ISSN:0885-8950
1558-0679
1558-0679
DOI:10.1109/TPWRS.2020.3034924