Computational analysis of self-pitching propellers performance in open water

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• 作者：S. Leone ; C. Testa ; L. Greco ; ^{luca.greco@cnr.it} ; F. Salvatore
• 关键词：Self-pitching propellers ; Hydrodynamics ; Boundary Element Method ; Blade Element Momentum Theory
• 刊名：Ocean Engineering
• 出版年：2013
• 出版时间：15 May, 2013
• 年：2013
• 卷：64
• 期：Complete
• 页码：122-134
• 全文大小：1944 K

文摘

This paper presents a numerical study on self-pitching propellers (SPP) in open water aimed at the prediction of the performance in terms of equilibrium pitch-setting and delivered thrust and torque. Differently from other types of propeller, SPP-blades are able to freely rotate about the pivot axis up to the spindle moment due to the centrifugal forces balances that generated by the hydrodynamic loads. In the attempt to provide a reliable prediction of SPP performance, the emphasis of the work is on propeller hydrodynamics modelling; in detail, the Boundary Element Method (BEM) and Blade Element Momentum Theory (BEMT) are herein proposed as fast and accurate hydrodynamic solvers. Both approaches are widely used in the framework of rotating-blades propulsion but their application to self-pitching propellers is nonstandard. Hence, SPP drawbacks and potentialities are highlighted through comparisons with numerical and experimental available data. The final goal of the paper is to provide some guidelines on the effectiveness and robusteness of BEM/BEMT-hydrodynamics when applied to SPP-blades; this might have practical implications for preliminary design and optimal design process.