Energy Global•07-16-2026July 16, 2026•2 min
Power PlantThe floating axis wind turbine (FAWT) consortium, consisting of Electric Power Development Co., Ltd, Tokyo Electric Power Company Holdings, Inc., Chubu Electric Power Co., Inc., Kawasaki Kisen Kaisha, Ltd, Sumitomo Heavy Industries, Ltd, Albatross Technology Inc., has installed an experimental low-cost next-generation floating wind turbine. The concept aims to make a fully domestic supply chain of offshore wind possible. The demonstration in a bay of Iki City, Nagasaki Prefecture, started in July 2026.
The demonstrator consists of a vertical-axis wind turbine with three straight blades and a cylindrical floating foundation. The diameter of the rotor is 9.3 m, and the diameter of the floating foundation is 1.7 m. The maximum output power is under 20 kW. Station-keeping is achieved by three mooring lines, each connected to seabed anchors. The demonstration will verify the technical feasibility of FAWT, numerical analyses, and water tank test results. After the demonstration, the unit will be decommissioned, and detailed inspections of each component will be carried out. These activities are expected to help identify challenges for long-term operation and support the improvement of the design of future larger scale systems.
To promote the development of offshore wind as a key renewable energy source, it is necessary to expand floating offshore wind power systems in Japan, where shallow-water sites suitable for bottom-fixed turbines are limited. However, there are challenges in the adaptation of conventional horizontal-axis wind turbines to the floating system due to their large floating foundations and mooring systems required, which result in high costs.
To overcome these challenges, FAWT is based on a rational change of design philosophy derived from marine engineering principles. The goal of FAWT is to significantly reduce the cost of energy by simplifying the structure and lowering the centre of gravity, while developing domestic supply chains for floating offshore wind.
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