Experimental Study on Dynamic Structure of Propeller Tip Vortex

Li Guangnian; Qingren Chen; Yue Liu

doi:10.2478/pomr-2020-0022

Experimental Study on Dynamic Structure of Propeller Tip Vortex

Li Guangnian, Qingren Chen, Yue Liu

Research output: Contribution to journal › Article › peer-review

14 Citations (Scopus)

Abstract

Propeller cavitation is a main source of fluctuating pressure and noise induced by propellers, and the tip vortex cavitation is the principal source. The present study measures the flow fields near the blade tip using the 2D-PIV technique. The experimental setup and scheme are introduced. We monitor the process of generation and shedding of the propeller tip vortex in real time and analyse the dynamic structure of the tip vortex by testing the propeller wake field under different phases of the axial plane. The distribution characteristics of radial and axial velocity are also analysed. The influence range and the vorticity of the tip vortex and trailing vortex are obtained. All of the measured quantitative data are useful for future propeller design.

Original language	English
Pages (from-to)	11-18
Number of pages	8
Journal	Polish Maritime Research
Volume	27
Issue number	2
DOIs	https://doi.org/10.2478/pomr-2020-0022
Publication status	Published - 1 Jun 2020
Externally published	Yes

Keywords

blade tip
PIV
propeller
tip vortex

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10.2478/pomr-2020-0022

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title = "Experimental Study on Dynamic Structure of Propeller Tip Vortex",

abstract = "Propeller cavitation is a main source of fluctuating pressure and noise induced by propellers, and the tip vortex cavitation is the principal source. The present study measures the flow fields near the blade tip using the 2D-PIV technique. The experimental setup and scheme are introduced. We monitor the process of generation and shedding of the propeller tip vortex in real time and analyse the dynamic structure of the tip vortex by testing the propeller wake field under different phases of the axial plane. The distribution characteristics of radial and axial velocity are also analysed. The influence range and the vorticity of the tip vortex and trailing vortex are obtained. All of the measured quantitative data are useful for future propeller design.",

keywords = "blade tip, PIV, propeller, tip vortex",

author = "Li Guangnian and Qingren Chen and Yue Liu",

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AU - Guangnian, Li

AU - Chen, Qingren

AU - Liu, Yue

PY - 2020/6/1

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N2 - Propeller cavitation is a main source of fluctuating pressure and noise induced by propellers, and the tip vortex cavitation is the principal source. The present study measures the flow fields near the blade tip using the 2D-PIV technique. The experimental setup and scheme are introduced. We monitor the process of generation and shedding of the propeller tip vortex in real time and analyse the dynamic structure of the tip vortex by testing the propeller wake field under different phases of the axial plane. The distribution characteristics of radial and axial velocity are also analysed. The influence range and the vorticity of the tip vortex and trailing vortex are obtained. All of the measured quantitative data are useful for future propeller design.

AB - Propeller cavitation is a main source of fluctuating pressure and noise induced by propellers, and the tip vortex cavitation is the principal source. The present study measures the flow fields near the blade tip using the 2D-PIV technique. The experimental setup and scheme are introduced. We monitor the process of generation and shedding of the propeller tip vortex in real time and analyse the dynamic structure of the tip vortex by testing the propeller wake field under different phases of the axial plane. The distribution characteristics of radial and axial velocity are also analysed. The influence range and the vorticity of the tip vortex and trailing vortex are obtained. All of the measured quantitative data are useful for future propeller design.

KW - blade tip

KW - PIV

KW - propeller

KW - tip vortex

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DO - 10.2478/pomr-2020-0022

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VL - 27

SP - 11

EP - 18

JO - Polish Maritime Research

JF - Polish Maritime Research

IS - 2

ER -

Experimental Study on Dynamic Structure of Propeller Tip Vortex

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Keywords

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