Study on the design of propeller blade sections using the optimization algorithm

Study on the design of propeller blade sections using the optimization algorithm

A new method for designing propeller blade sections is presented. A vortex lattice method is used to evaluate the performance and the time-dependent pressure distribution on the blade surface in a non-uniform flow, while efficient optimization algorithms are used to modify the blade sections. Two di...

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Veröffentlicht in:Journal of marine science and technology 2005-06, Vol.10 (2), p.70-81
Hauptverfasser: Takekoshi, Yoshihisa, Kawamura, Takafumi, Yamaguchi, Hajime, Maeda, Masatsugu, Ishii, Norio, Kimura, Koyu, Taketani, Tadashi, Fujii, Akihiko
Format: Artikel
Sprache:eng
Schlagworte:
Aircraft
Algorithms
Blades
Cavitation
Design
Efficiency
Holes
Marine
Mathematical models
Nonuniform flow
Optimization
Optimization algorithms
Pressure distribution
Propeller blades
Propeller efficiency
Uniform flow
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Zusammenfassung:A new method for designing propeller blade sections is presented. A vortex lattice method is used to evaluate the performance and the time-dependent pressure distribution on the blade surface in a non-uniform flow, while efficient optimization algorithms are used to modify the blade sections. Two different designs were carried out in this study. The first was a design to realize a target pressure distribution in a rotating three-dimensional flow. A two-dimensional wing theory was used to obtain the target pressure distribution. The predicted increase in efficiency and the reduction in the cavity volume were confirmed by model experiments. The second was a design to maximize the propeller efficiency. By this method, the propeller efficiency was improved by 1.2% under the constrains of constant thrust and a prescribed margin for face cavitation.
ISSN:0948-4280
1437-8213
DOI:10.1007/s00773-005-0197-y