Training

Fundamental level

Medium level

In-depth level:

• T3.1 Reliability analysis of different wind turbine concepts (Durham)
• T3.2 Modelling grouped reliability data for wind turbines (Durham/Loughborough)
• T3.3 Offshore wind turbine reliability (Durham)
• T3.4 Availability of wind turbines and the Physics of Failure approach (Loughborough) - (Include SCADA and medium frequency data analysis for condition based maintenance)
• T3.5 Analysis of wind farm SCADA data (Durham/Loughborough)
• T3.6 Practical condition monitoring techniques for off-shore wind farms (Durham)
• T3.7 Fault analysis and condition monitoring of electrical generators in wind turbines (Manchester2)
• T3.8 Wake developments and interactions within an array of large wind turbines (Surrey)
• T3.9 CFD Modelling and Validation of Wind flow over a Forest Canopy (Loughborough)
• T3.10 Parametric modelling of large wind turbine blades (STFC)
• T3.11 Novel blade material (Manchester3)
• T3.12 Active load reduction for wind turbines (Strathclyde)
• T3.13 Influence of control on turbine size and weight (Strathclyde)
• T3.14 Minimising WT visibility to radar systems (Manchester1)
• T3.15 Lightning protection solutions for wind turbines (Manchester1)
• T3.16 Resolving conflicts between Structural, RCS and Lightning protection issues in new blade designs (Manchester1&3)
• T3.17 Experimental modelling of current induced scour around offshore wind turbines (Lancaster)
• T3.18 Numerical modelling of current induced scour aroun offshore wind turbines (MMU)
• T3.19 Novel methods for numerical modelling of radar cross sections for offshore wind turbines (MMU)
• T3.20 Offshore wind resource (Loughborough)
• T3.21 Performance evaluation of different offshore wind farm networks (Durham)
• T3.22 Coordinated control strategy for offshore wind farms (Strathclyde)
• T3.23 Connecting offshore wind farms to the onshore grid (Manchester)
• T3.24 Energy storage for offshore network control (STFC)

Industrial presentations