Client Offshore Operator Voltage New 33 kV shore connection About Project Overview OEC Power & Control designed the upgrade of an FPSO’s power system, adding a shore-based electrical supply to reduce offshore emissions and improve redundancy. Scope of Work: New 66 kV import feeder design and interface Power management system modifications Load studies and protection upgrades Integration with existing offshore systems Key
Client Houlder Units 3 × (82 MWe & 125 MWe) Interconnection 150 kV & 40 kV About Project Overview OEC Power & Control was engaged to design the power systems and perform techno-economic analysis for LNG-based FSRU power barges, providing reliable power to Greek island grids. Scope of Work: Complete electrical system design, including MV/HV equipment Interconnection design to shore-based substations Load flow and
Client Offshore Wind Operator Battery capacity 5 MWh Voltage 690 V distribution About Project Overview OEC Power & Control engineered the electrical design for a fully electric SOV serving offshore wind farms. The system includes large-capacity batteries, eliminating diesel use during operations. Scope of Work: Detailed power distribution design and onboard integration Battery management and charging systems PMS and energy management system
Client Offshore Operator Capacity 4 × 2.5 MW generators Voltage levels 6.6 kV and 690 V Location Global About Project Overview OEC Power & Control delivered the detailed design of the complete electrical and control systems for a new offshore support vessel with hybrid diesel-electric propulsion. The system combines conventional diesel generators and batteries to reduce emissions and fuel consumption. Scope of Work: