Influence of Composite Fatigue Properties on Marine Tidal Turbine Blade Design

Book Chapter

Title: Influence of Composite Fatigue Properties on Marine Tidal Turbine Blade Design

Author:

Jaksic, V.; Kennedy, C.; Grogan, D.; Leen, S.; Brádaigh, C.

Publication Date:

January 1, 2018

Book Title:

Durability of Composites in Marine Environment

Edition:

Pages:

195-223

Publisher:

Springer

Place Published:

Cham

Affiliation:

Cork Institute of Technology, National University of Ireland, University of Edinburgh

Technology:

Current, Tidal

Operations:

Survivability

Engineering:

Materials, Structural

Document Access

Website:

External Link

Citation

Jaksic, V.; Kennedy, C.; Grogan, D.; Leen, S.; Brádaigh, C. (2018). Influence of Composite Fatigue Properties on Marine Tidal Turbine Blade Design. In Durability of Composites in Marine Environment (pp. 195-223). Cham: Springer.

Abstract

The structural design of marine tidal turbine blades is governed by the hydrodynamic shape of the aerofoil, extreme loadings and composite material mechanical properties. The design of the aerofoil, chord and twist distribution along the blade is generated to optimise turbine performance over its life time. Structural design gives the optimal layout of composite laminae such that ultimate strength and buckling resistance requirements are satisfied. Most structural design approaches consider only extreme static loads, with a lack of dynamic load-based fatigue design for tidal blades. Approaches for tidal turbine blade design based on dry and immersed composite material fatigue life are studied.