| 1 |
Benchmarking of a Free Vortex Wake Model for Prediction of Wake Interactions
Shaler K, Kecskemety KM, McNamara JJ
Renewable Energy, 136, 607, 2019 |
| 2 |
Numerical investigation on VIV energy harvesting of bluff bodies with different cross sections in tandem arrangement
Zhang BS, Song BW, Mao ZY, Tian WL, Li BY
Energy, 133, 723, 2017 |
| 3 |
Analysing wind turbine fatigue load prediction: The impact of wind farm flow conditions
Vera-Tudela L, Kuhn M
Renewable Energy, 107, 352, 2017 |
| 4 |
Maximum wind power plant generation by reducing the wake effect
De-Prada-Gil M, Alias CG, Gomis-Bellmunt O, Sumper A
Energy Conversion and Management, 101, 73, 2015 |
| 5 |
Technical and economic assessment of offshore wind power plants based on variable frequency operation of clusters with a single power converter
Gil MD, Gomis-Bellmunt O, Sumper A
Applied Energy, 125, 218, 2014 |
| 6 |
CFD predictions of wake-stabilised jet flames in a cross-flow
Lawal MS, Fairweather M, Gogolek P, Ingham DB, Ma L, Pourkashanian M, Williams A
Energy, 53, 259, 2013 |
| 7 |
Power generation efficiency analysis of offshore wind farms connected to a SLPC (single large power converter) operated with variable frequencies considering wake effects
Gil MD, Gomis-Bellmunt O, Sumper A, Bergas-Jane J
Energy, 37(1), 455, 2012 |
| 8 |
Comparative study of the behavior of wind-turbines in a wind farm
Migoya E, Crespo A, Garcia J, Moreno F, Manuel F, Jimenez A, Costa A
Energy, 32(10), 1871, 2007 |
| 9 |
A viscous three-dimensional differential/actuator-disk method for the aerodynamic analysis of wind farms
Ammara I, Leclerc C, Masson C
Journal of Solar Energy Engineering-Transactions of The ASME, 124(4), 345, 2002 |
