ABSTRACT
Offshore Oil and Gas platforms mostly utilize gas or diesel generators to produce reliable energy. As a step towards low carbon economy, Offshore Wind Energy is studied to reduce dependency on this fired turbomachinery. Since Malaysian Offshore Oil and Gas platforms are mostly situated in water depths deeper than 50 m, floating offshore wind turbine is considered. Floating offshore wind technology has roots on well-known platform designs from the Oil and Gas industry. However, specific solutions adaptations are required since floating platforms are expensive whilst floating offshore wind solution is cost driven. Furthermore, there is a need for high dynamic stability. Therefore, the fully coupled analysis (aero-hydro-servo-elastic simulations) will be briefly presented. This study will focus on GICON’s tension leg platform and ELEON’s single-sided supported direct drive wind turbine. The concept of hybrid microgrid is introduced as part of the bigger picture of energy transition towards low carbon technologies.
