Projects per year
Abstract
Floating wind offshore turbines (FOWTs) tap into the immense Aeolian resource in deep-water oceans. The turbine structure, especially in ring-flange (RF) connections, are highly prone to corrosion fatigue (C-F) dete- rioration due to the combination of strong wind-wave loads, structural flexibility, and high corrosivity. This study provides innovative insights into the C-F deterioration of FOWT towers by integrating site-specific data, material test results, multi-physics simulations, and deterioration models. A probabilistic C-F (PCF) evolution model is tailored for bolts in RF connections, accounting for multiple failure modes. Concurrently, the corrosion test data are adopted to estimate the corrosion rate from the site-specific ambient conditions, including the temperature, humidity and airborne salinity. The result indicates a strong correlation between wind-wave spatial distribution and C-F damage, for which the critical bolt aligns with high-velocity winds. Meanwhile, the bolt deterioration is accelerated under high corrosivity, risking premature failures. Moreover, compared with the traditional fixed-bottom foundation, the floating platform amplifies the tower dynamics in both mean value and variation, which in turns escalate stress ranges in bolts. The findings underscore the importance of monitoring C- F deterioration in FOWT structures and highlight the potential of condition-based maintenance.
Original language | English |
---|---|
Article number | 117309 |
Number of pages | 14 |
Journal | Engineering Structures |
Volume | 301 |
Early online date | 19 Dec 2023 |
DOIs | |
Publication status | Published - 15 Feb 2024 |
Bibliographical note
Acknowledgment:The Support of National Natural Science Foundation of China (52208182), MSCA Fellowship via URKI (EP/X022765/1), COST Action MODENERLANDS (CA20109), Royal Society (IES\R1\211087) and, the Hong Kong Polytechnic University (CD7L, ZE2L) are gratefully acknowledged by the authors.
Keywords
- Floating Offshore Wind Turbine
- Corrosion Fatigue
- High-Strength Bolt
- Uncertainty
- Site=specific condition
Fingerprint
Dive into the research topics of 'Coupling multi-physics models to corrosion fatigue prognosis of high-strength bolts in floating offshore wind turbine towers'. Together they form a unique fingerprint.Projects
- 1 Finished
-
Resilient tall wind turbines to enhance Chile's wind energy infrastructure
Baniotopoulos, C. (Principal Investigator)
11/03/22 → 10/03/24
Project: Research Councils