Chinese offshore operator CNOOC Ltd is pushing the boundaries of offshore wind technology with a pioneering tension-leg platform (TLP) design for its latest floating wind project in the South ...

ABS has granted Front-End Engineering Design (FEED) approval to ECO TLP's floating offshore wind platform, marking a key step toward scaling deepwater wind energy. "In many parts of the world, ...

Beijing-based offshore oil and gas operator CNOOC aims to help China’s goal of becoming a leading deployer of floating wind technologies through development of a tension-leg platform (TLP) design for ...

TLP technology offers distinct advantages over other floating wind turbine designs, particularly in optimising sea space, COOEC said. Its motion response more closely resembles that of fixed wind ...

The American ECO TLP Inc obtained approval for a non-site specific FEED (Front End Engineering Design) paving the way for ...

By applying our learnings from previous deepwater TLP designs, construction and installations, we have been able to continue to reduce the time required to bring these projects on line and to ...

ABS approved the Front-End Engineering Design (FEED) documents for a deep water floating offshore wind platform design from ECO ...

End Engineering Design (FEED) documents for a deep water floating offshore wind platform design from ECO TLP, Inc. and MOCEAN ...

The American Bureau of Shipping (ABS) has approved the Front-End Engineering Design (FEED) documents for a deep-water ...