Antifouling and Anticorrosive Protection of Renewable Energy Marine Structures with TiO2-Based Enamel

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Abstract

Biofouling is a significant problem that affects renewable energy marine structures (REMS), such as wind turbines and those designed for wave or tidal energy exploitation. Marine organisms, including algae, barnacles, and mollusks, attach themselves to the surface of these structures, which can lead to reduced efficiency and increased maintenance costs. In addition, biofouling can also cause corrosion, which can compromise the structural integrity of the offshore platforms. To combat this problem, several methods have been developed, including anti‐fouling coatings, physical methods, and biological methods. Each method has its advantages and disadvantages, and the most effective solution often depends on the specific type of fouling and the location of the offshore structure. Effective biofouling prevention is essential for the safe and efficient operation of offshore structures and the protection of marine ecosystems. To prevent the spread of invasive species, an innovative ceramic coating has been designed and tested in accordance with ASTM‐D3623 procedure. The investigation results revealed that, after four years of experimentation in a real environment, the biofouling growth observed in the splash zone of the antifouling paint was 129.76% higher than that of the titanium‐based ceramic coating and it is expected that this difference will continue to grow over time.

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APA

Sanz, D. S., García, S., Trueba‐castañeda, L., Boullosa‐falces, D., & Trueba, A. (2024). Antifouling and Anticorrosive Protection of Renewable Energy Marine Structures with TiO2-Based Enamel. TransNav, 18(2), 419–424. https://doi.org/10.12716/1001.18.02.21

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