NUMERICAL STUDY OF ACOUSTIC CHARACTERISTICS OF A DTMB 4119 PROPELLER DUE TO TIP RAKE

Propellers & Impellers: Research, Design, Construction and Application Pub Date : 2019-03-28 DOI:10.3940/rina.pro.2019.03

Danio Joe, Vinai Misra, R. Vijayakumar

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引用次数: 2

Abstract

The impact of increased Underwater Radiated Noise (URN) over the past two decades on marine mammals has resulted in the pressing requirement to reduce it. Shipping contributes immensely to the URN. Propeller noise is a major source of URN. The reduction in Propeller noise can hence significantly help in the reduction of URN. With the sole objective of improving the hydrodynamic performance of propellers ways to prevent cavitation are being developed. However, the reduction of non cavitating noise produced by the propeller would still remain a challenge. The change in the propeller geometry can modify the acoustic characteristics. In this present study, effect of modifying the tip of DTMB4119 propeller on the acoustic and hydrodynamic characteristics is presented. The change in the flow pattern at the tip due to introduction of tip rake is also discussed. The SPL has been calculated by using the two-step Ffowcs William and Hawkings (FW-H) equations from the pressure distribution at various points around the propeller. SPL at various points in the downstream and propeller disk plane are numerically predicted and discussed.

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dtmb4119螺旋桨顶角声特性的数值研究

在过去的二十年中，水下辐射噪声(URN)对海洋哺乳动物的影响越来越大，因此迫切需要减少它。航运对URN做出了巨大贡献。螺旋桨噪声是URN的主要来源。因此，降低螺旋桨噪声可以显著帮助降低URN。为了提高螺旋桨的水动力性能，人们正在研究防止空化的方法。然而，减少螺旋桨产生的非空泡噪声仍然是一个挑战。改变螺旋桨的几何形状可以改变其声学特性。本文研究了DTMB4119螺旋桨叶尖的改变对其声学和水动力特性的影响。文中还讨论了尖前角的引入对叶顶流型的影响。从螺旋桨周围各点的压力分布出发，采用两步Ffowcs William and hawkins (FW-H)方程计算了声压级。对下游和桨盘平面各点声压级进行了数值预测和讨论。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Propellers & Impellers: Research, Design, Construction and Application

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