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Biofouling on Offshore Wind Energy Structures: Characterization, Impacts, Mitigation Strategies, and Future Trends

Poorya Poozesh, F. Nieto, Pedro M. Fernández, Rosa Rios Prado, Vicente Díaz Casás

2025Journal of Marine Science and Engineering14 citationsDOIOpen Access PDF

Abstract

Biofouling, the accumulation of marine organisms on submerged surfaces, presents a significant challenge to the design, performance, and maintenance of offshore wind turbines (OWTs). This work synthesizes current knowledge on the physical and operational impacts of biofouling on OWT marine substructures, with a particular focus on how it alters hydrodynamic loading, increases drag and mass, and affects fatigue and structural response. Drawing from experimental studies, computational modeling, and real-world observations, this paper highlights the critical need to integrate biofouling effects into design practices. Additionally, emerging mitigation strategies are explored, including advanced antifouling materials and AI-driven monitoring systems, which offer promising solutions for long-term biofouling management. By addressing both engineering and ecological perspectives, this paper underscores the importance of developing robust, adaptive approaches to biofouling that can support the durability, reliability, and environmental sustainability of the offshore wind industry.

Topics & Concepts

BiofoulingOffshore wind powerEnvironmental scienceMarine engineeringWind powerSustainabilityEngineeringEnvironmental resource managementEcologyElectrical engineeringBiologyGeneticsMembraneMarine Biology and Environmental ChemistryMarine Ecology and Invasive SpeciesMarine Biology and Ecology Research
Biofouling on Offshore Wind Energy Structures: Characterization, Impacts, Mitigation Strategies, and Future Trends | Litcius