Add to ORKGOffshore wind turbines suffer from asymmetrical loading (blades, tower etc.), leading to enhanced structural fatigue. As well as asymmetrical loading different types of faults (pitch system faults etc.) can occur simultaneously, causing degradation of load mitigation performance and enhanced fatigue. Individual pitch control (IPC) provides an important method to achieve mitigation of rotor asymmetric loads, but this may be accompanied by a resulting enhancement of pitch movement leading to increased possibility of pitch system faults, which negative effects on IPC performance.This thesis focuses on combining the fault tolerant control (FTC) techniques with load reduction strategies by a more intelligent pitch control system (i.e. collective...
This work is concerned with active vibration mitigation in wind turbines (WT) but not through the us...
Wind turbines with floating support structures are blessed with their potential in generating high q...
Wind turbines experience countless shutdowns during their lifetimes. A shutdown is a transient proce...
Offshore wind turbines suffer from asymmetrical loading (blades, tower etc.), leading to enhanced st...
Offshore wind turbines suffer from asymmetrical loading (blades, tower, etc), leading to enhanced st...
Offshore wind turbine (OWT) rotors have large diameters with flexible blade structures which are sub...
Due to the increasing size of wind turbines, the unbalanced loads caused by the uneven spatial distr...
Wind turbines (WTs) are basically controlled by varying the generator load torque (with the so-calle...
Large wind turbines are subjected to the harmful loads that arise from the spatially uneven and temp...
Individual pitch control (IPC) provides an important means of attenuating harmful fatigue and extrem...
In this paper we study the use of individual blade pitch control as a way to reduce ultimate loads. ...
Wind energy is commonly recognized as a major environmentally friendly renewable energy source. Mode...
Individual Pitch Control (IPC) is a well-known and, in normal operating conditions, effective approa...
This work is concerned with active vibration mitigation in wind turbines (WT) but not through the us...
Wind turbines with floating support structures are blessed with their potential in generating high q...
Wind turbines experience countless shutdowns during their lifetimes. A shutdown is a transient proce...
Offshore wind turbines suffer from asymmetrical loading (blades, tower etc.), leading to enhanced st...
Offshore wind turbines suffer from asymmetrical loading (blades, tower, etc), leading to enhanced st...
Offshore wind turbine (OWT) rotors have large diameters with flexible blade structures which are sub...
Due to the increasing size of wind turbines, the unbalanced loads caused by the uneven spatial distr...
Wind turbines (WTs) are basically controlled by varying the generator load torque (with the so-calle...
Large wind turbines are subjected to the harmful loads that arise from the spatially uneven and temp...
Individual pitch control (IPC) provides an important means of attenuating harmful fatigue and extrem...
In this paper we study the use of individual blade pitch control as a way to reduce ultimate loads. ...
Wind energy is commonly recognized as a major environmentally friendly renewable energy source. Mode...
Individual Pitch Control (IPC) is a well-known and, in normal operating conditions, effective approa...
This work is concerned with active vibration mitigation in wind turbines (WT) but not through the us...
Wind turbines with floating support structures are blessed with their potential in generating high q...
Wind turbines experience countless shutdowns during their lifetimes. A shutdown is a transient proce...