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to the structure integrity and noise generation of the turbine. The proposed research will focus on modeling and optimization of aerodynamic flow over a turbine blade in order to decrease the drag, and control noise
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optimise the control of the plant performance under high renewable penetration conditions and to improve power plant staff training and education. Funding Notes 1st or 2:1 degree in Engineering, Materials
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recreate WECs under controlled lab test conditions. The testing methodology and understanding obtained through this project will reach conclusions to verify the hypothesis of subsurface defect initiated WEC
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into flow control and drag reduction. Funding Notes 1st or 2:1 degree in Engineering, Materials Science, Physics, Chemistry, Applied Mathematics, or other Relevant Discipline. View DetailsEmail EnquiryApply
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characteristics of the targeted communities. Polygeneration design methods, control optimisation and thermoeconomic evaluation may be used during the project. The research will benefit from one of our current
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Deadline: Applications accepted all year round Details CO2 capture and storage is believed to be a promising option for controlling CO2 emissions in the short to medium term. Several methods exist for CO2
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optimise the algorithms for optimal process control. The research will benefit from the available experimental facilities including laboratory-scale digesters, excellent analytical facilities, expertise in
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: Applications accepted all year round Details Blade pitch bearings of large scale wind turbines control the individual blades in order to maximise power generation at low wind speeds and to prevent turbine