Offshore Wind Services
We offer specialized engineering services for offshore wind developments, leveraging deep domain knowledge, advanced in-house tools, and full compliance with international offshore standards.
Design of Bottom-fixed Support Structures
- Optimum design of monopiles and jacket offshore support structures
- Based on time domain hydro-servo-aero-elastic analysis following the international offshore standards
Optimal Floater Preliminary Design
- Optimum design of semi-submersible, spar-buoy, and TLP hulls
- Optimization framework incorporating hydrostatic stability, air-gap, and hydrodynamic frequency-domain analysis
- Concurrent design of tower and/or mooring system
- Design frameworks aligned with major offshore design standards and certification requirements
Optimal Mooring System Design
- Design of catenary, hybrid-catenary, taut-leg, and TLP mooring configurations with steel and synthetic lines, including buoys and sinkers
- Quasi-static and time-domain global aero-servo-hydro-elastic analysis considering ULS, ALS, and FLS criteria
Coupled Hydro-servo-aero-elastic Analysis
- Time-domain dynamic simulations for bottom-fixed and floating systems to evaluate global responses, loads, motions, and system-level interactions
- Eigenvalue- and work-based stability analysis providing mode shapes and damping ratios of the coupled system
- Consistent treatment of all support structure-types within an integrated analysis environment
Met-ocean conditions
- Estimation of site-specific wind, wave, and current conditions using statistical methods and extreme value analysis
- Based on measurement data and meso-scale datasets