An integrated nonlinear wind-waves model for offshore wind turbines /

Open Access

An integrated nonlinear wind-waves model for offshore wind turbines / / Enzo Marino.

Show other versions (1)

This thesis presents a numerical model capable of simulating offshore wind turbines exposed to extreme loading conditions. External condition-based extreme responses are reproduced by coupling a fully nonlinear wave kinematic solver with a hydro-aero-elastic simulator. First, a two-dimensional fully...

Full description

Saved in:
Bibliographic Details
Superior document:Premio FUP. Tesi di dottorato ; 22
VerfasserIn:
Marino, Enzo,
Place / Publishing House:Firenze : : Firenze University Press,, 2011
Year of Publication:2011
Language:Italian
Series:Premio FUP. Tesi di dottorato ; 22.
Physical Description:1 online resource (230 pages) :; illustrations; digital, PDF file(s).
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:This thesis presents a numerical model capable of simulating offshore wind turbines exposed to extreme loading conditions. External condition-based extreme responses are reproduced by coupling a fully nonlinear wave kinematic solver with a hydro-aero-elastic simulator. First, a two-dimensional fully nonlinear wave simulator is developed. The transient nonlinear free surface problem is formulated assuming the potential theory and a high-order boundary element method is implemented to discretize Laplace's equation. For temporal evolution a second-order Taylor series expansion is used. The code, after validation with experimental data, is successfully adopted to simulate overturning plunging breakers which give rise to dangerous impact loads when they break against wind turbine substructures. Emphasis is then placed on the random nature of the waves. Indeed, through a domain decomposition technique a global simulation framework embedding the numerical wave simulator into a more general stochastic environment is developed. The proposed model is meant as a contribution to meet the more and more pressing demand for research in the offshore wind energy sector as it permits taking into account dangerous effects on the structural response so as to increase the global structural safety level.
Bibliography:Includes bibliographical references.
Access:Open Access
Hierarchical level:Monograph
Statement of Responsibility: Enzo Marino.

Similar Items