ACME Wind Turbine Corporation has contacted our dynamic analysis firm regarding structural health monitoring of their wind turbine blades. ACME has had several failures in previous years. Examples are shown in Figure 1. These failures have resulted in economic loss for the company due to down time of the turbines (lost revenue) and repair costs. Blade failures can occur in several modes, which may depend on the type of construction and load history. Cracking and delamination are some typical modes of blade failure. ACME warranties its turbines and wishes to decrease the number of blade failures they have to repair and replace. The company wishes to implement a real time structural health monitoring system in order to better understand when ...
Many wind turbines operate in harsh marine or shore environments. This study assists industry by est...
A laboratory study is reported regarding fatigue damage growth monitoring in a complete 45.7 m long ...
Wind turbine blades must be sufficiently durable to withstand fatigue, strong enough to withstand lo...
As electric utility wind turbines increase in size, and correspondingly, increase in initial capital...
R&D program, was recently fatigue tested to blade failure at the National Renewable Energy Labor...
Serious accidents with property damage or even human casualties, result from structural flaws in win...
Wind turbine blades are structurally composed of different types of materials. Some of which include...
Structural Health Monitoring (SHM) of wind turbine blades is critical to improve the reliability of ...
The renewable energy industry is in a constant improvement in order to cover the current demands. Co...
A review of structural health monitoring methods, including residual cure strain monitoring is prese...
Out of the total wind turbine failure events, blade damage accounts for a substantial part, with som...
The aim of the present paper is to provide a state-of-the-art outline of structural health monitorin...
As the wind energy sector evolves, blade manufacturers have started to produce larger blades in an ...
Out of the total wind turbine failure events, blade damage accounts for a substantial part, with som...
Structural health monitoring is a technique devised to monitor the structural conditions of a system...
Many wind turbines operate in harsh marine or shore environments. This study assists industry by est...
A laboratory study is reported regarding fatigue damage growth monitoring in a complete 45.7 m long ...
Wind turbine blades must be sufficiently durable to withstand fatigue, strong enough to withstand lo...
As electric utility wind turbines increase in size, and correspondingly, increase in initial capital...
R&D program, was recently fatigue tested to blade failure at the National Renewable Energy Labor...
Serious accidents with property damage or even human casualties, result from structural flaws in win...
Wind turbine blades are structurally composed of different types of materials. Some of which include...
Structural Health Monitoring (SHM) of wind turbine blades is critical to improve the reliability of ...
The renewable energy industry is in a constant improvement in order to cover the current demands. Co...
A review of structural health monitoring methods, including residual cure strain monitoring is prese...
Out of the total wind turbine failure events, blade damage accounts for a substantial part, with som...
The aim of the present paper is to provide a state-of-the-art outline of structural health monitorin...
As the wind energy sector evolves, blade manufacturers have started to produce larger blades in an ...
Out of the total wind turbine failure events, blade damage accounts for a substantial part, with som...
Structural health monitoring is a technique devised to monitor the structural conditions of a system...
Many wind turbines operate in harsh marine or shore environments. This study assists industry by est...
A laboratory study is reported regarding fatigue damage growth monitoring in a complete 45.7 m long ...
Wind turbine blades must be sufficiently durable to withstand fatigue, strong enough to withstand lo...