Add to ORKG\u3cp\u3eComplex turbine wake interactions play an important role in overall energy extraction in large wind farms. Current control strategies optimize individual turbine power, and lead to significant energy losses in wind farms compared with lone-standing wind turbines. In recent work, an optimal coordinated control framework was introduced (Goit & Meyers 2015 J. Fluid Mech. 768, 5-50 (doi:10.1017/jfm.2015.70)). Here, we further elaborate on this framework, quantify the influence of optimization parameters and introduce new simulation results for which gains in power production of up to 21% are observed.\u3c/p\u3
Wake interactions between wind turbines in wind farms lead to reduced energy extraction in downstre...
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 ...
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\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...
\u3cp\u3eIn this work, we extend recent research efforts on induction-based optimal control in large...
Turbine wake interactions in wind farms result in decreased power extraction in downstream rows. Thi...
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...
� 2016 American Automatic Control Council (AACC). A PDE-based optimization framework is presented ...
Wake interactions between wind turbines in wind farms lead to reduced energy extraction in downstre...
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 ...
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\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...
\u3cp\u3eIn this work, we extend recent research efforts on induction-based optimal control in large...
Turbine wake interactions in wind farms result in decreased power extraction in downstream rows. Thi...
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...
� 2016 American Automatic Control Council (AACC). A PDE-based optimization framework is presented ...
Wake interactions between wind turbines in wind farms lead to reduced energy extraction in downstre...
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...