Sfoglia per Autore
On the characteristics of the wake of a wind turbine undergoing large motions caused by a floating structure: an insight based on experiments and multi-fidelity simulations from the OC6 project Phase III
2023 Cioni S.; Papi F.; Pagamonci L.; Bianchini A.; Ramos-Garcia N.; Pirrung G.; Corniglion R.; Lovera A.; Galvan J.; Boisard R.; Fontanella A.; Schito P.; Zasso A.; Belloli M.; Sanvito A.; Persico G.; Zhang L.; Li Y.; Zhou Y.; Mancini S.; Boorsma K.; Amaral R.; Vire A.; Schulz C.W.; Netzband S.; Soto-Valle R.; Marten D.; Martin-San-Roman R.; Trubat P.; Molins C.; Bergua R.; Branlard E.; Jonkman J.; Robertson A.
To What Extent Is Aeroelasticity Impacting Multi-Megawatt Wind Turbine Upscaling? A Critical Assessment
2023 Pagamonci, L.; Papi, F.; Balduzzi, F.; Xie, S.; Sadique, J.; Scienza, P.; Bianchini, A.
Influence of Tower Design on Floating Offshore Wind Turbine Dynamics
2023 Papi F.; Bianchini A.; Ferri G.; Bruschi N.; Marino E.
Is the Actuator line method able to reproduce the interaction between closely-spaced Darrieus rotors? a critical assessment on wind and hydrokinetic turbines
2023 Mohamed O.S.; Melani P.F.; Papi F.; Balduzzi F.; Bianchini A.
Multi-fidelity simulation of floating offshore wind turbines: a critical comparison
2023 Francesco Papi
OC6 project Phase III: validation of the aerodynamic loading on a wind turbine rotor undergoing large motion caused by a floating support structure
2023 Bergua R.; Robertson A.; Jonkman J.; Branlard E.; Fontanella A.; Belloli M.; Schito P.; Zasso A.; Persico G.; Sanvito A.; Amet E.; Brun C.; Campana-Alonso G.; Martin-San-Roman R.; Cai R.; Cai J.; Qian Q.; Maoshi W.; Beardsell A.; Pirrung G.; Ramos-Garcia N.; Shi W.; Fu J.; Corniglion R.; Lovera A.; Galvan J.; Nygaard T.A.; Dos Santos C.R.; Gilbert P.; Joulin P.-A.; Blondel F.; Frickel E.; Chen P.; Hu Z.; Boisard R.; Yilmazlar K.; Croce A.; Harnois V.; Zhang L.; Li Y.; Aristondo A.; Mendikoa Alonso I.; Mancini S.; Boorsma K.; Savenije F.; Marten D.; Soto-Valle R.; Schulz C.W.; Netzband S.; Bianchini A.; Papi F.; Cioni S.; Trubat P.; Alarcon D.; Molins C.; Cormier M.; Bruker K.; Lutz T.; Xiao Q.; Deng Z.; Haudin F.; Goveas A.
Development of a reliable simulation framework for techno-economic analyses on green hydrogen production from wind farms using alkaline electrolyzers
2023 Superchi, F; Papi, F; Mannelli, A; Balduzzi, F; Ferro, FM; Bianchini, A
Innovative power smoothing techniques for wind turbines using batteries and adaptive pitch regulation
2024 Galli C.; Superchi F.; Papi F.; Ferrara G.; Bianchini A.
Quantifying the impact of modeling fidelity on different substructure concepts for floating offshore wind turbines - Part 1: Validation of the hydrodynamic module QBlade-Ocean
2024 Behrens De Luna R.; Perez-Becker S.; Saverin J.; Marten D.; Papi F.; Ducasse M.-L.; Bonnefoy F.; Bianchini A.; Paschereit C.-O.
Titolo | Data di pubblicazione | Autore(i) | File |
---|---|---|---|
On the characteristics of the wake of a wind turbine undergoing large motions caused by a floating structure: an insight based on experiments and multi-fidelity simulations from the OC6 project Phase III | 2023 | Cioni S.; Papi F.; Pagamonci L.; Bianchini A.; Ramos-Garcia N.; Pirrung G.; Corniglion R.; Lovera A.; Galvan J.; Boisard R.; Fontanella A.; Schito P.; Zasso A.; Belloli M.; Sanvito A.; Persico G.; Zhang L.; Li Y.; Zhou Y.; Mancini S.; Boorsma K.; Amaral R.; Vire A.; Schulz C.W.; Netzband S.; Soto-Valle R.; Marten D.; Martin-San-Roman R.; Trubat P.; Molins C.; Bergua R.; Branlard E.; Jonkman J.; Robertson A. | |
To What Extent Is Aeroelasticity Impacting Multi-Megawatt Wind Turbine Upscaling? A Critical Assessment | 2023 | Pagamonci, L.; Papi, F.; Balduzzi, F.; Xie, S.; Sadique, J.; Scienza, P.; Bianchini, A. | |
Influence of Tower Design on Floating Offshore Wind Turbine Dynamics | 2023 | Papi F.; Bianchini A.; Ferri G.; Bruschi N.; Marino E. | |
Is the Actuator line method able to reproduce the interaction between closely-spaced Darrieus rotors? a critical assessment on wind and hydrokinetic turbines | 2023 | Mohamed O.S.; Melani P.F.; Papi F.; Balduzzi F.; Bianchini A. | |
Multi-fidelity simulation of floating offshore wind turbines: a critical comparison | 2023 | Francesco Papi | |
OC6 project Phase III: validation of the aerodynamic loading on a wind turbine rotor undergoing large motion caused by a floating support structure | 2023 | Bergua R.; Robertson A.; Jonkman J.; Branlard E.; Fontanella A.; Belloli M.; Schito P.; Zasso A.; Persico G.; Sanvito A.; Amet E.; Brun C.; Campana-Alonso G.; Martin-San-Roman R.; Cai R.; Cai J.; Qian Q.; Maoshi W.; Beardsell A.; Pirrung G.; Ramos-Garcia N.; Shi W.; Fu J.; Corniglion R.; Lovera A.; Galvan J.; Nygaard T.A.; Dos Santos C.R.; Gilbert P.; Joulin P.-A.; Blondel F.; Frickel E.; Chen P.; Hu Z.; Boisard R.; Yilmazlar K.; Croce A.; Harnois V.; Zhang L.; Li Y.; Aristondo A.; Mendikoa Alonso I.; Mancini S.; Boorsma K.; Savenije F.; Marten D.; Soto-Valle R.; Schulz C.W.; Netzband S.; Bianchini A.; Papi F.; Cioni S.; Trubat P.; Alarcon D.; Molins C.; Cormier M.; Bruker K.; Lutz T.; Xiao Q.; Deng Z.; Haudin F.; Goveas A. | |
Development of a reliable simulation framework for techno-economic analyses on green hydrogen production from wind farms using alkaline electrolyzers | 2023 | Superchi, F; Papi, F; Mannelli, A; Balduzzi, F; Ferro, FM; Bianchini, A | |
Innovative power smoothing techniques for wind turbines using batteries and adaptive pitch regulation | 2024 | Galli C.; Superchi F.; Papi F.; Ferrara G.; Bianchini A. | |
Quantifying the impact of modeling fidelity on different substructure concepts for floating offshore wind turbines - Part 1: Validation of the hydrodynamic module QBlade-Ocean | 2024 | Behrens De Luna R.; Perez-Becker S.; Saverin J.; Marten D.; Papi F.; Ducasse M.-L.; Bonnefoy F.; Bianchini A.; Paschereit C.-O. |
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