Particle swarm-based structural optimization of laminated composite hydrokinetic turbine blades |
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Authors: | H. Li |
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Affiliation: | Department of Mechanical and Aerospace Engineering, Missouri University of Science and Technology, Rolla, Missouri, USA |
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Abstract: | Composite blade manufacturing for hydrokinetic turbine application is quite complex and requires extensive optimization studies in terms of material selection, number of layers, stacking sequence, ply thickness and orientation. To avoid a repetitive trial-and-error method process, hydrokinetic turbine blade structural optimization using particle swarm optimization was proposed to perform detailed composite lay-up optimization. Layer numbers, ply thickness and ply orientations were optimized using standard particle swarm optimization to minimize the weight of the composite blade while satisfying failure evaluation. To address the discrete combinatorial optimization problem of blade stacking sequence, a novel permutation discrete particle swarm optimization model was also developed to maximize the out-of-plane load-carrying capability of the composite blade. A composite blade design with significant material saving and satisfactory performance was presented. The proposed methodology offers an alternative and efficient design solution to composite structural optimization which involves complex loading and multiple discrete and combinatorial design parameters. |
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Keywords: | particle swarm optimization structural optimization composite blade hydrokinetic turbine |
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