Wind energy optimization by numerical wind modelling
A direct drive SWT with aerodynamic pitch control of wind rotor blades and yaw oscillation damper
Nationwide accurate WIND PROSPEcting models foR Denmark & Turkey
Validation and qualification of wind turbine blade Pitch high-precision measurement and Calibration
High Altitude Mobile Wind Energy with Tethered Wings
SELF-INSTALLED TYRE-BASED ANTI-SCOUR SYSTEM IN OFFSHORE WIND SELF-FLOATING GBS TOWERS
Electrical Faults Diagnosis and Prognosis of Wind Turbine System Failures.
To develop revolutionary new generation of wind turbines with use of advanced technology of chlorosulfonated polyethylene based inflatable components. Such turbines will be mobile, very cheap, could be transported in extremely small packs, energy efficient and have huge global market potential.
The goal of this project is the development of a real time intelligent system for a comprehensive management of wind farms. It will include a revolutionary early detection fault and failure analysis engine and diagnostic engine to improve operation&maintenance.
To design a new and more reliable range of wind turbine gearboxes with a high torque transfer through the use of journal bearings technology, manufacturing a prototype and validating in order to be used in high-powered and/or great rotor-diameter wind turbines.