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- Type of Document: M.Sc. Thesis
- Language: English
- Document No: 42932 (58)
- University: Sharif University of Technology, International Campus, Kish Island
- Department: Science and Engineering
- Advisor(s): Zabihollah, Abolghasem; Behzad, Mehdi
- Abstract:
- Over the last decades the attention of the most modern countries about usage of wind has grown due to the recent crisis of energy. This renewable energy source offers a cost effective solution for electricity production. Wind energy is the best candidate among other sources due to wind turbines technology reliability. In order to gain maximum power from wind turbines, their size becomes relatively large, which creates more complexity in their repair and maintenance, furthermore Wind turbine downtime is outside the expectations, which is more costly than corrective maintenance, therefore in order to minimize sudden downtimes and related huge maintenance, a reliable monitoring technique must be provided to guarantee the good condition of the turbine during operation. Additionally, it has been stated that most of the turbine failure is blade related, so the blades are very vital for condition monitoring. In this work condition monitoring of turbine blade based on 3D complex geometry with composite fabrication, which meets blade design criteria’s (minimizing weigh while providing high stiffness), is investigated. In order to produce a composite with the maximum stiffness and strength, the orientation of the composite layers is optimized by genetic algorithm approach. Strain based fault detection is one of the most reliable techniques in blade monitoring, because of specific features of strain sensing based on optic sensors The application of fiber optic sensors for measuring strains is growing rapidly in many wind farms. In this study based on mathematical models and simulation the response and expected output signals of fiber optic sensors are estimated and also zones that needs sensor implementation nearby are predicted in order to warn any processing fault. FBG (fiber bragging optic) sensors are used to sense the changes of strain. Through the thesis different methods for fault detection of turbine blade are considered. An analytical method for crack detection of laminated beam based on the vibration fault detection method is performed and the results are compared with the response of the FBGs. Then method is implemented for different crack models on the scaled blade geometry. And at last based on fluid structure interaction method and Hashin failure criteria, condition monitoring of wind turbine blades under sudden change of wind speed is investigated
- Keywords:
- Wind Turbine ; Composite ; Composite Laminate ; Photo Sensor ; Turbine Blades ; Fiber Bragg Grating (FBG) ; Condition Monitoring
Digital Object List-
محتواي پايان نامه - view
Bookmark- Introduction
- Analysis of laminated composite beam with crack
- Wind Turbine Blade Modeling
- Analysis of Wind turbine blade with crack
- Condition monitoring of wind turbine under impact wind condition
- Fiber optics
- Experimental Crack Detection Using Vibration Based Monitoring
- Chapter 8 Conclusion and Future Works
- References