| A new analytical model for wind-turbine wakes M Bastankhah, F Porté-Agel Renewable energy 70, 116-123, 2014 | 1275 | 2014 |
| Wind-turbine and wind-farm flows: a review F Porté-Agel, M Bastankhah, S Shamsoddin Boundary-layer meteorology 174 (1), 1-59, 2020 | 1163 | 2020 |
| Large-eddy simulation of wind-turbine wakes: evaluation of turbine parametrisations YT Wu, F Porté-Agel Boundary-layer meteorology 138 (3), 345-366, 2011 | 767 | 2011 |
| Experimental and theoretical study of wind turbine wakes in yawed conditions M Bastankhah, F Porté-Agel Journal of Fluid Mechanics 806, 506-541, 2016 | 752 | 2016 |
| A scale-dependent dynamic model for large-eddy simulation: application to a neutral atmospheric boundary layer F Porté-Agel, C Meneveau, MB Parlange Journal of Fluid Mechanics 415, 261-284, 2000 | 750 | 2000 |
| A wind-tunnel investigation of wind-turbine wakes: boundary-layer turbulence effects LP Chamorro, F Porté-Agel Boundary-layer meteorology 132 (1), 129-149, 2009 | 687 | 2009 |
| Large-eddy simulation of atmospheric boundary layer flow through wind turbines and wind farms F Porté-Agel, YT Wu, H Lu, RJ Conzemius Journal of Wind Engineering and Industrial Aerodynamics 99 (4), 154-168, 2011 | 641 | 2011 |
| Influence of atmospheric stability on wind-turbine wakes: A large-eddy simulation study M Abkar, F Porté-Agel Physics of fluids 27 (3), 2015 | 460 | 2015 |
| Atmospheric turbulence effects on wind-turbine wakes: An LES study YT Wu, F Porté-Agel energies 5 (12), 5340-5362, 2012 | 416 | 2012 |
| Analytical modeling of wind farms: A new approach for power prediction A Niayifar, F Porté-Agel Energies 9 (9), 741, 2016 | 415 | 2016 |
| Effects of thermal stability and incoming boundary-layer flow characteristics on wind-turbine wakes: a wind-tunnel study LP Chamorro, F Porté-Agel Boundary-layer meteorology 136 (3), 515-533, 2010 | 405 | 2010 |
| Large-eddy simulation of a very large wind farm in a stable atmospheric boundary layer H Lu, F Porté-Agel Physics of Fluids 23 (6), 2011 | 403 | 2011 |
| A numerical study of the effects of wind direction on turbine wakes and power losses in a large wind farm F Porté-Agel, YT Wu, CH Chen Energies 6 (10), 5297-5313, 2013 | 383 | 2013 |
| Modeling turbine wakes and power losses within a wind farm using LES: An application to the Horns Rev offshore wind farm YT Wu, F Porté-Agel Renewable Energy 75, 945-955, 2015 | 373 | 2015 |
| On Monin–Obukhov similarity in the stable atmospheric boundary layer M Pahlow, MB Parlange, F Porté-Agel Boundary-layer meteorology 99 (2), 225-248, 2001 | 317 | 2001 |
| Simulation of turbulent flow inside and above wind farms: model validation and layout effects YT Wu, F Porté-Agel Boundary-layer meteorology 146 (2), 181-205, 2013 | 283 | 2013 |
| Near-wake flow structure downwind of a wind turbine in a turbulent boundary layer W Zhang, CD Markfort, F Porté-Agel Experiments in fluids 52 (5), 1219-1235, 2012 | 280 | 2012 |
| Turbulent flow inside and above a wind farm: a wind-tunnel study LP Chamorro, F Porte-Agel Energies 4 (11), 1916-1936, 2011 | 240 | 2011 |
| Field measurements of wind turbine wakes with lidars GV Iungo, YT Wu, F Porté-Agel Journal of Atmospheric and Oceanic Technology 30 (2), 274-287, 2013 | 234 | 2013 |
| Dynamic subgrid‐scale models for momentum and scalar fluxes in large‐eddy simulations of neutrally stratified atmospheric boundary layers over heterogeneous terrain R Stoll, F Porté‐Agel Water Resources Research 42 (1), 2006 | 221 | 2006 |
