Add to ORKG\u3cp\u3eIn this work, we extend recent research efforts on induction-based optimal control in large-eddy simulations of wind farms in the turbulent atmospheric boundary layer. More precisely, we investigate the effect of wind turbine response time to requested power setpoints on achievable power gains. We do this by including a time-filtering of the thrust coefficient setpoints in the optimal control framework. We consider simulation cases restricted to underinduction compared to the Betz limit, as well as cases that also allow overinduction. Optimization results show that, except for the most restrictive underinductive slow-response case, all cases still yield increases in energy extraction in the order of 10% and more.\u3c/p\u3
In wind farms, wakes originating from upstream turbines cause reduced energy extraction and increase...
In wind farms, wakes originating from upstream turbines cause reduced energy extraction and increase...
Complex turbine wake interactions play an important role in overall energy extraction in large wind ...
Wake interactions between wind turbines in wind farms lead to reduced energy extraction in downstrea...
\u3cp\u3eComplex turbine wake interactions play an important role in overall energy extraction in la...
Complex turbine wake interactions play an important role in overall energy extraction in large wind ...
\u3cp\u3eWe investigate the use of optimal coordinated control techniques in large eddy simulations ...
In wind farms, velocity deficits in the wakes originating from upstream turbines result in a signifi...
We investigate the use of optimal coordinated control techniques in large eddy simulations of wind f...
We investigate the use of optimal coordinated control techniques in large eddy simulations of wind f...
In the present work we couple flow simulations performed using Large Eddy Simulations (LES) with gra...
An important challenge in wind farms is the efficiency loss induced by turbine wakes on downstream t...
In wind farms, wakes originating from upstream turbines cause reduced energy extraction and increase...
In wind farms, wakes originating from upstream turbines cause reduced energy extraction and increase...
In large wind farms, the vertical interaction of the farm with the atmospheric boundary layer plays ...
In wind farms, wakes originating from upstream turbines cause reduced energy extraction and increase...
In wind farms, wakes originating from upstream turbines cause reduced energy extraction and increase...
Complex turbine wake interactions play an important role in overall energy extraction in large wind ...
Wake interactions between wind turbines in wind farms lead to reduced energy extraction in downstrea...
\u3cp\u3eComplex turbine wake interactions play an important role in overall energy extraction in la...
Complex turbine wake interactions play an important role in overall energy extraction in large wind ...
\u3cp\u3eWe investigate the use of optimal coordinated control techniques in large eddy simulations ...
In wind farms, velocity deficits in the wakes originating from upstream turbines result in a signifi...
We investigate the use of optimal coordinated control techniques in large eddy simulations of wind f...
We investigate the use of optimal coordinated control techniques in large eddy simulations of wind f...
In the present work we couple flow simulations performed using Large Eddy Simulations (LES) with gra...
An important challenge in wind farms is the efficiency loss induced by turbine wakes on downstream t...
In wind farms, wakes originating from upstream turbines cause reduced energy extraction and increase...
In wind farms, wakes originating from upstream turbines cause reduced energy extraction and increase...
In large wind farms, the vertical interaction of the farm with the atmospheric boundary layer plays ...
In wind farms, wakes originating from upstream turbines cause reduced energy extraction and increase...
In wind farms, wakes originating from upstream turbines cause reduced energy extraction and increase...
Complex turbine wake interactions play an important role in overall energy extraction in large wind ...