Wind turbine (WT) blade is one of the most important components in WTs, as it is the key component for receiving wind energy and has direct influence on WT operation stability. As the size of modern turbine blade increases, condition monitoring and maintenance of blades become more important. Strain detection is one of the most effective methods to monitor blade conditions. In this paper, a distributed fiber-optic strain sensor is used for blade monitoring. Preliminary experimental tests have been carried out over a 14 m long WT composite blade, demonstrating the possibility of performing distributed strain and vibration measurements
A fibre Bragg grating sensor system used for monitoring of strain being effective on the power cable...
Obtaining the strain data all along the optical fiber, with adequate spatial resolution and strain a...
A health monitoring approach is investigated for hydrokinetic turbine blade applications. In-service...
Wind turbine (WT) blade is one of the most important components in WTs, as it is the key component f...
The development of a fiber Bragg grating (FBG) based distributed strain sensor system for real time ...
The development and laboratory scale testing of a Fiber Bragg Grating (FBG) based distributed strain...
Experimental activities on wind turbine models allow to speed up their design as well as the develop...
In this work a wind turbine blade has been instrumented with two different types of optical fiber se...
Wind energy is a level of maturity regarding its value as an alternative energy generation technolog...
Wind turbine (WT) blade structural health monitoring (SHM) is important as it allows damage or misal...
Fibre optic sensors are increasingly being used in aerospace and smart technology applications. Thei...
Wind turbines are an economically-viable alternative and renewable power generation source. Installe...
Continuous inspection of critical zones is essential to monitor the state of strain within offshore ...
With commercially viable global wind power potential, wind energy penetration is further expected to...
Structural health monitoring of wind turbine blade mechanical performance can inform maintenance dec...
A fibre Bragg grating sensor system used for monitoring of strain being effective on the power cable...
Obtaining the strain data all along the optical fiber, with adequate spatial resolution and strain a...
A health monitoring approach is investigated for hydrokinetic turbine blade applications. In-service...
Wind turbine (WT) blade is one of the most important components in WTs, as it is the key component f...
The development of a fiber Bragg grating (FBG) based distributed strain sensor system for real time ...
The development and laboratory scale testing of a Fiber Bragg Grating (FBG) based distributed strain...
Experimental activities on wind turbine models allow to speed up their design as well as the develop...
In this work a wind turbine blade has been instrumented with two different types of optical fiber se...
Wind energy is a level of maturity regarding its value as an alternative energy generation technolog...
Wind turbine (WT) blade structural health monitoring (SHM) is important as it allows damage or misal...
Fibre optic sensors are increasingly being used in aerospace and smart technology applications. Thei...
Wind turbines are an economically-viable alternative and renewable power generation source. Installe...
Continuous inspection of critical zones is essential to monitor the state of strain within offshore ...
With commercially viable global wind power potential, wind energy penetration is further expected to...
Structural health monitoring of wind turbine blade mechanical performance can inform maintenance dec...
A fibre Bragg grating sensor system used for monitoring of strain being effective on the power cable...
Obtaining the strain data all along the optical fiber, with adequate spatial resolution and strain a...
A health monitoring approach is investigated for hydrokinetic turbine blade applications. In-service...