A Hydrodynamic Design Procedure for Multi-Stage Blade-Row Propulsors Using Generalized Linear Model of the Vortex Wake

Day 2 Thu, September 21, 2000 Pub Date : 2000-09-20 DOI:10.5957/pss-2000-20
A. Achkinadze, Vladimir L. Krasihiikov, I. Stepanov
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引用次数: 2

Abstract

This paper presents the hydrodynamic design procedure for multi-stage blade-row marine propulsors using the original authors' model of the vortex wake. The special attention is paid to optimization algorithms that solve the problems about optimum spanwise circulation distribution and optimum chord length and thickness of the blade sections for wake-adapted propellers. A developed method allows the design of the podded propulsors and captures the potential part of the blade rows I pod "effective" velocity field. The contra-rotating propellers, rotor wane wheel device, and notional AZIPOD with tandem propellers are considered to illustrate the design procedure.
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基于旋涡尾迹广义线性模型的多级叶列推进器水动力设计方法
本文采用原作者的涡流模型,介绍了多级桨列船用推进器的水动力设计过程。重点研究了尾迹型螺旋桨沿展向最佳环流分布和桨叶截面最佳弦长厚度的优化算法。一种开发的方法允许设计吊舱推进器,并捕获叶片排的潜在部分I吊舱“有效”速度场。以对转螺旋桨、旋翼衰减轮装置和设想的串联式AZIPOD为例说明了设计过程。
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Day 2 Thu, September 21, 2000
Day 2 Thu, September 21, 2000
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