This work proposes an innovative control technique for improving the contribution to the grid frequency regulation provided by a set of wind power generators belonging to a wind farm. Models of individual generators and of the conventional grid primary frequency control are developed and used for designing a model predictive controller. A proper estimation algorithm is also introduced in order to provide both the dynamical state of the wind turbines and the actual local wind conditions to the regulator. The availability of this data makes the control algorithm able to improve the participation of the whole wind farm to the frequency regulation by suitably coordinating and differentiating the contribution of the individual generators. The pr...
With the aim of distributing the total power required at the wind farm control level for each wind t...
With increased interests in affordable energy resources, a cleaner environment, and sustainability, ...
In this paper, we present an implementation of a model predictive controller (MPC) for wind farm pow...
This work proposes an innovative control technique for improving the contribution to the grid freque...
This paper presents a model-based control technique to provide the contribution of wind power genera...
The increasing penetration of Renewable Energy (RE) systems into the electric grid is creating new c...
Nowadays, wind power plants (WPPs) should be able to dynamically change their power output to meet t...
With the increasing use of wind energy as a power source, new challenges arise. One of these challen...
In this paper, an active frequency control strategy of wind turbines based on model predictive contr...
This paper proposes a control technique to provide the contribution of wind power generators to prim...
In this paper, a wind-turbine active power control strategy is proposed from the cluster level to op...
Reliable load frequency (LFC) control is crucial to the operation and design of modern electric powe...
With large scale wind integration and increasing wind penetration in power systems, relying solely o...
The objective of active power control in wind farms is to provide ancillary grid services. Improving...
This article presents an application of neural network-based Model Predictive Control (MPC) to impro...
With the aim of distributing the total power required at the wind farm control level for each wind t...
With increased interests in affordable energy resources, a cleaner environment, and sustainability, ...
In this paper, we present an implementation of a model predictive controller (MPC) for wind farm pow...
This work proposes an innovative control technique for improving the contribution to the grid freque...
This paper presents a model-based control technique to provide the contribution of wind power genera...
The increasing penetration of Renewable Energy (RE) systems into the electric grid is creating new c...
Nowadays, wind power plants (WPPs) should be able to dynamically change their power output to meet t...
With the increasing use of wind energy as a power source, new challenges arise. One of these challen...
In this paper, an active frequency control strategy of wind turbines based on model predictive contr...
This paper proposes a control technique to provide the contribution of wind power generators to prim...
In this paper, a wind-turbine active power control strategy is proposed from the cluster level to op...
Reliable load frequency (LFC) control is crucial to the operation and design of modern electric powe...
With large scale wind integration and increasing wind penetration in power systems, relying solely o...
The objective of active power control in wind farms is to provide ancillary grid services. Improving...
This article presents an application of neural network-based Model Predictive Control (MPC) to impro...
With the aim of distributing the total power required at the wind farm control level for each wind t...
With increased interests in affordable energy resources, a cleaner environment, and sustainability, ...
In this paper, we present an implementation of a model predictive controller (MPC) for wind farm pow...