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Luca Lanzilao
Luca Lanzilao
Post-doctoral researcher, KU Leuven
Bestätigte E-Mail-Adresse bei kuleuven.be - Startseite
Titel
Zitiert von
Zitiert von
Jahr
A new wake-merging method for wind-farm power prediction in the presence of heterogeneous background velocity fields
L Lanzilao, J Meyers
Wind Energy, 1-23, 2021
482021
An improved fringe-region technique for the representation of gravity waves in large eddy simulation with application to wind farms
L Lanzilao, J Meyers
Boundary-Layer Meteorology 186 (3), 567-593, 2023
192023
A parametric large-eddy simulation study of wind-farm blockage and gravity waves in conventionally neutral boundary layers
L Lanzilao, J Meyers
Journal of Fluid Mechanics 979, A54, 2024
182024
Effects of self-induced gravity waves on finite wind-farm operations using a large-eddy simulation framework
L Lanzilao, J Meyers
Journal of Physics: Conference Series 2265 (2), 022043, 2022
182022
Set-point optimization in wind farms to mitigate effects of flow blockage induced by atmospheric gravity waves
L Lanzilao, J Meyers
Wind Energy Science 6 (1), 247-271, 2021
142021
Including realistic upper atmospheres in a wind-farm gravity-wave model
K Devesse, L Lanzilao, S Jamaer, N van Lipzig, J Meyers
Wind Energy Science 7 (4), 1367-1382, 2022
92022
Bayesian uncertainty quantification framework for wake model calibration and validation with historical wind farm power data
F Aerts, L Lanzilao, J Meyers
Wind Energy 26 (8), 786-802, 2023
42023
Trading rights to consume wind in presence of farm-farm interactions
M Kenis, L Lanzilao, K Bruninx, J Meyers, E Delarue
Joule 7 (7), 1394-1398, 2023
42023
A meso–micro atmospheric perturbation model for wind farm blockage
K Devesse, L Lanzilao, J Meyers
Journal of Fluid Mechanics 998, A63, 2024
32024
A reference database of wind-farm large-eddy simulations for parametrizing effects of blockage and gravity waves
L LANZILAO, J MEYERS
KU Leuven RDR, 2023
22023
Extending the applicability of a wind-farm gravity-wave model to vertically non-uniform atmospheres
K Devesse, L Lanzilao, S Jamaer, N van Lipzig, J Meyers
Wind Energy Science Discussions 2022, 1-25, 2022
22022
Wind-farm wake recovery mechanisms in conventionally neutral boundary layers
L Lanzilao, J Meyers
arXiv preprint arXiv:2407.17198, 2024
12024
Modelling of Self-Induced Atmospheric Gravity Waves in Large-Scale Wind Farms
L Lanzilao, J Meyers, N Van Lipzig
12023
Turbine-and farm-scale power losses in wind farms: an alternative to wake and farm blockage losses
A Kirby, T Nishino, L Lanzilao, TD Dunstan, J Meyers
Wind Energy Science Discussions 2024, 1-28, 2024
2024
Effects of wind-farm blockage and gravity waves on large-scale wind farms operating in conventionally neutral boundary layers
L Lanzilao, J Meyers
Bulletin of the American Physical Society, 2023
2023
Finite wind-farm operations in conventionally neutral boundary layers using a large-eddy simulation framework
L Lanzilao, J Meyers
18th EAWE PhD Seminar, Location: Bruges, Belgium, 2022
2022
Large-eddy simulations of wind farms operating in conventionally neutral boundary layers
L Lanzilao, J Meyers
NAWEA, Location: Newark, Delawere, 2022
2022
A new fringe region technique for reducing gravity-wave reflection in large-eddy simulations of the atmospheric boundary layer
L Lanzilao, J Meyers
PhD seminar, Location: Porto (PT), 2021
2021
A model for wind-farm power prediction in presence of meso-scale background gradients
L Lanzilao
Wind Energy Science Conference, Location: Hannover, 2021
2021
A new wake superposition method for wind-farm power prediction in presence of meso-scale background gradients
L Lanzilao
16th EAWE PhD seminar, Location: Porto, 2020
2020
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