en.Wedoany.com Reported - Recently, the 8th Wind Power Support Structure Exchange Conference was held in Dalian. The conference focused on cutting-edge technologies and engineering challenges of offshore wind power support structures, bringing together technical experts in the industry for academic exchanges to promote the high-quality development of the wind power sector. The China Classification Society (CCS) Offshore Engineering Technology Center was invited to attend and delivered a specialized technical report, sharing research and engineering application results of jacket bucket foundations.

With the rapid development of offshore wind power towards deep-sea and low-cost directions, jacket bucket foundations have been widely applied due to their strong adaptability, high construction efficiency, and outstanding economic performance. Accurate calculation of load distribution and bearing capacity under complex sea conditions and geological conditions is a key technical challenge constraining the safety and engineering quality of foundation structures, and it was also the core focus of discussion at this conference.

At the conference, Guo Bingchuan delivered a report titled "Key Technologies for Load Distribution and Bearing Capacity Calculation of Jacket Bucket Foundations." The report, based on complex marine conditions, analyzed the load transfer and distribution patterns of foundations under multi-field coupling effects, explained calculation methods, parameter selection, and verification standards for bearing capacity under different sea areas and geological conditions, and summarized industry technical difficulties and optimization pathways.

Relying on the center's extensive engineering practice experience, the report compared differences between traditional algorithms and refined calculation techniques. Aiming at common issues such as load calculation deviations and insufficient bearing capacity redundancy, it proposed targeted optimization solutions and prevention measures, improved the full lifecycle safety assessment system for bucket foundations, and previewed the development progress of CCS's self-developed simulation system for offshore facility foundation bearing capacity and soil strength verification, providing important technical references for the design and safety verification of similar wind power foundations.

This report closely addressed engineering challenges with strong technical practicality, receiving high recognition from attending peers. Extensive exchanges on wind power foundation technology optimization were conducted on-site, effectively promoting industry technical communication and experience sharing.

The Offshore Engineering Technology Center has long been deeply involved in the fields of offshore wind power and marine engineering equipment, focusing on the research and development, safety assessment, and standard construction of wind power support structure technology, providing solid technical support for improving safety, quality, cost reduction, and efficiency enhancement of wind power projects. This report fully demonstrated the center's technical advantages and industry responsibility in the core field of wind power foundations.

In the next step, the Offshore Engineering Technology Center will continue to serve the development needs of deep-sea wind power, focus on core technology research and development and achievement transformation, actively participate in industry technical exchanges and standard improvements, and leverage professional marine engineering technology to support the high-quality and sustainable development of China's offshore wind power industry.

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