Add to ORKGThe wake effect from upstream wind turbines is a hot topic recently and many researches on wake modeling have been carried out in the past few years. The wake models have evolved from the simple semi-empirical approach to the dynamic meandering model using the Computational Fluid Dynamics (CFD) codes. However, some of current wake models cannot simulate the dynamic wake meandering process while the other CFD models are too complicated for engineering applications. So the purpose of this thesis is to develop a simple numerical wake model including the detailed wake velocity deficits and dynamic wake meandering process in the atmospheric boundary layer. The Simplified Eddy Viscosity (SEV) model is developed based on the simplified Navier-Stok...
Dynamically scaled experiments and numerical analyses are performed to study the effects of the wake...
The Reynolds Stress Model (RSM) is adopted to simulate the wind turbine wake and the simulation resu...
With tip height often above 200 meters, currently installed wind turbines are increasingly interacti...
A wind turbine operating inside a wind farm is subjected to increased turbulence intensity and reduc...
This work focuses on the validation of the dynamic wake meandering (DWM) model against large eddy si...
Wake effects in wind farms can cause significant power losses. In order to reduce these losses layou...
Wind turbine wake physics is by nature unsteady and highly sensitive to the local wind characteristi...
AbstractWind turbine wakes are one of the most important aspects in wind power meteorology because t...
International audienceLarge eddy simulations (LES) with the solver Meso-NH are performed to analyse ...
Wake effects in wind farms can cause significant power losses. In order to reduce these losses layou...
Nowadays, not only the size of single wind turbines but also the size of wind farms is increasing. U...
The design of the optimal layout of the wind farm is crucial to minimize the cost of energy produced...
Turbine-induced velocity deficit is the main reason to reduce wind farm power generation and increas...
In this research project, the effects that atmospheric boundary condition and yaw angle have on wind...
The increased fatigue loads and decreased power output of a wind turbine placed in the wake of anoth...
Dynamically scaled experiments and numerical analyses are performed to study the effects of the wake...
The Reynolds Stress Model (RSM) is adopted to simulate the wind turbine wake and the simulation resu...
With tip height often above 200 meters, currently installed wind turbines are increasingly interacti...
A wind turbine operating inside a wind farm is subjected to increased turbulence intensity and reduc...
This work focuses on the validation of the dynamic wake meandering (DWM) model against large eddy si...
Wake effects in wind farms can cause significant power losses. In order to reduce these losses layou...
Wind turbine wake physics is by nature unsteady and highly sensitive to the local wind characteristi...
AbstractWind turbine wakes are one of the most important aspects in wind power meteorology because t...
International audienceLarge eddy simulations (LES) with the solver Meso-NH are performed to analyse ...
Wake effects in wind farms can cause significant power losses. In order to reduce these losses layou...
Nowadays, not only the size of single wind turbines but also the size of wind farms is increasing. U...
The design of the optimal layout of the wind farm is crucial to minimize the cost of energy produced...
Turbine-induced velocity deficit is the main reason to reduce wind farm power generation and increas...
In this research project, the effects that atmospheric boundary condition and yaw angle have on wind...
The increased fatigue loads and decreased power output of a wind turbine placed in the wake of anoth...
Dynamically scaled experiments and numerical analyses are performed to study the effects of the wake...
The Reynolds Stress Model (RSM) is adopted to simulate the wind turbine wake and the simulation resu...
With tip height often above 200 meters, currently installed wind turbines are increasingly interacti...