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A reference database for the analysis of wind-farm wake recovery mechanisms...
For a capping-inversion heights=150 m, capping-inversion strength=8 K, free-atmosphere lapse rate=1 K/km, we present a suite of large-eddy simulations of a wind farm operating... -
A reference database for the analysis of wind-farm wake recovery mechanisms...
For a capping-inversion heights=150 m, capping-inversion strength=5 K, free-atmosphere lapse rate=8 K/km, we present a suite of large-eddy simulations of a wind farm operating... -
A reference database for the analysis of wind-farm wake recovery mechanisms...
For a capping-inversion heights=150 m, capping-inversion strength=5 K, free-atmosphere lapse rate=4 K/km, single turbine, we present a suite of large-eddy simulations of a wind... -
A reference database for the analysis of wind-farm wake recovery mechanisms...
For a capping-inversion heights=150 m, capping-inversion strength=5 K, free-atmosphere lapse rate=4 K/km, we present a suite of large-eddy simulations of a wind farm operating... -
A reference database for the analysis of wind-farm wake recovery mechanisms...
For a capping-inversion heights=150 m, capping-inversion strength=5 K, free-atmosphere lapse rate=1 K/km, we present a suite of large-eddy simulations of a wind farm operating... -
A reference database for the analysis of wind-farm wake recovery mechanisms...
For a capping-inversion heights=150 m, capping-inversion strength=2 K, free-atmosphere lapse rate=8 K/km, we present a suite of large-eddy simulations of a wind farm operating... -
A reference database for the analysis of wind-farm wake recovery mechanisms...
For a capping-inversion heights=150 m, capping-inversion strength=2 K, free-atmosphere lapse rate=4 K/km, we present a suite of large-eddy simulations of a wind farm operating... -
A reference database for the analysis of wind-farm wake recovery mechanisms...
For a capping-inversion heights=150 m, capping-inversion strength=2 K, free-atmosphere lapse rate=1 K/km, we present a suite of large-eddy simulations of a wind farm operating... -
A reference database for the analysis of wind-farm wake recovery mechanisms...
For a capping-inversion heights=150 m, capping-inversion strength=0 K, free-atmosphere lapse rate=0 K/km, we present a suite of large-eddy simulations of a wind farm operating... -
Testfeld Bremerhaven dataset
The FLOW project is funded by the European Union Horizon Europe Framework program under grant agreement no. 101084205. The objective of the FLOW project is to develop methods to... -
LES of a wind farm with 100 IEA 15 MW turbines in the ABL height of 500 m
The dataset of an idealised wind farm was generated using SOWFA-6 LES solver. The wind farm consists of 100 IEA 15 MW turbines arranged in a 10-by-10 staggered layout with 5D... -
LES of a wind farm with 100 IEA 15 MW turbines in the ABL height of 150 m
The dataset of an idealised wind farm was generated using SOWFA-6 LES solver. The wind farm consists of 100 IEA 15 MW turbines arranged in a 10-by-10 staggered layout with 5D... -
LES of a single IEA 15 MW turbine in the ABL height of 500 m
The dataset of a single IEA 15 MW turbine was generated using SOWFA-6 LES solver. This simulation requires time-series of atmospheric inflow data. The inflow was produced by a... -
LES of a single IEA 15 MW turbine in the ABL height of 150 m
The dataset of a single IEA 15 MW turbine was generated using SOWFA-6 LES solver. This simulation requires time-series of atmospheric inflow data. The inflow was produced by a... -
LES of an Atmospheric Boundary Layer with capping inversion height of 500 m
The ABL profile was generated using SOWFA-6 LES solver. The initial capping inversion height was set to 500 m. The mean wind speed and direction were controlled to the desired... -
LES of an Atmospheric Boundary Layer with capping inversion height of 150 m
The ABL profile was generated using SOWFA-6 LES solver. The initial capping inversion height was set to 150 m. The mean wind speed and direction were controlled to the desired...