Uncertainty Modeling and Fatigue Reliability Assessment of Offshore Wind Turbine Concrete Structures

被引:6
|
作者
Velarde, Joey [1 ]
Kramhoft, Claus [1 ]
Mankar, Amol [2 ]
Sorensen, John Dalsgaard [2 ]
机构
[1] COWI AS, Marine & Fdn Engn, Aarhus, Denmark
[2] Aalborg Univ, Dept Civil Engn, Aalborg, Denmark
来源
INTERNATIONAL JOURNAL OF OFFSHORE AND POLAR ENGINEERING | 2019年 / 29卷 / 02期
关键词
Uncertainty; reliability; probabilistic design; concrete fatigue; Monte Carlo; gravity based foundation; offshore wind energy; DESIGN; PROPAGATION; CALIBRATION; FOUNDATIONS; LIFE;
D O I
10.17736/ijope.2019.il54
中图分类号
TU [建筑科学];
学科分类号
0813 ;
摘要
In this paper, the propagation of uncertainties related to structural, environmental and fatigue damage model parameters is evaluated by performing Monte Carlo fatigue simulations of a concrete foundation for offshore wind turbines. Concrete fatigue damage models are formulated based on the S-N approach, where the resistance model uncertainty is calibrated against experimental fatigue tests. Results indicate that the resistance model uncertainty governs the concrete FLS assessment. This underlines the importance of improving estimates of model uncertainty by conducting experimental fatigue tests at lower stress cycle amplitudes and at different mean stress levels.
引用
收藏
页码:165 / 171
页数:7
相关论文
共 50 条
  • [31] Spectral fatigue assessment of an offshore wind turbine structure under wave and wind loading
    Yeter, B.
    Garbatov, Y.
    Guedes Soares, C.
    DEVELOPMENTS IN MARITIME TRANSPORTATION AND EXPLOITATION OF SEA RESOURCES, VOL 1, 2014, : 425 - 433
  • [32] Fatigue reliability assessment of tubular joints of existing offshore structures
    Aghakouchak, AA
    Stiemer, SF
    CANADIAN JOURNAL OF CIVIL ENGINEERING, 2001, 28 (04) : 691 - 698
  • [33] Fatigue assessment of support structures for offshore wind energy converters
    Thoens, Sebastian
    Rohrmann, Rolf G.
    Rucker, Werner
    Faber, Michael H.
    STAHLBAU, 2008, 77 (09) : 630 - 638
  • [34] THE FATIGUE OF WIND TURBINE STRUCTURES
    WORTHINGTON, PJ
    PRETLOVE, AJ
    INTERNATIONAL JOURNAL OF FATIGUE, 1982, 4 (04) : 241 - 241
  • [35] A brief review of fatigue design criteria on offshore wind turbine support structures
    Mendes, P.
    Correia, J. A. F. O.
    De Jesus, A. M. P.
    Avila, B.
    Carvalho, H.
    Berto, F.
    FRATTURA ED INTEGRITA STRUTTURALE, 2021, (55): : 302 - 315
  • [36] An overview of modeling approaches for complex offshore wind turbine support structures
    van der Valk, P. L. C.
    Voormeeren, S. N.
    PROCEEDINGS OF INTERNATIONAL CONFERENCE ON NOISE AND VIBRATION ENGINEERING (ISMA2012) / INTERNATIONAL CONFERENCE ON UNCERTAINTY IN STRUCTURAL DYNAMICS (USD2012), 2012, : 4447 - 4461
  • [37] Reliability of offshore wind turbine support structures: A state-of-the-art review
    Wang, L.
    Kolios, A.
    Liu, X.
    Venetsanos, D.
    Rui, C.
    RENEWABLE & SUSTAINABLE ENERGY REVIEWS, 2022, 161
  • [38] Reliability analysis of offshore wind turbine support structures using Kriging models
    Morato, A.
    Sriramula, S.
    Krishnan, N.
    RISK, RELIABILITY AND SAFETY: INNOVATING THEORY AND PRACTICE, 2017, : 1425 - 1431
  • [39] A reliability-constrained optimisation framework for offshore wind turbine support structures
    Rezvanipour, Mohammad
    Kolios, Athanasios
    Amirafshari, Peyman
    Wang, Lin
    INTERNATIONAL JOURNAL OF SUSTAINABLE ENERGY, 2024, 43 (01)
  • [40] Structural integrity assessment of floating offshore wind turbine support structures
    Moghaddam, Behrooz Tafazzoli
    Hamedany, Ali Mahboob
    Taylor, Jessica
    Mehmanparast, Ali
    Brennan, Feargal
    Davies, Catrin Mair
    Nikbin, Kamran
    OCEAN ENGINEERING, 2020, 208
12345