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射流泵流动特性的PIV试验研究

王乐梁蕴致姚伍平李红钢莫小瑜龙新平

流体机械2026，Vol.54Issue(2)：1-9,9.

流体机械2026，Vol.54Issue(2)：1-9,9.DOI:10.3969/j.issn.1005-0329.2026.02.001

射流泵流动特性的PIV试验研究

PIV experimental study on flow characteristics of a jet pump

王乐 ¹梁蕴致 ¹姚伍平 ²李红钢 ²莫小瑜 ¹龙新平¹

作者信息

1. 武汉大学动力与机械学院,武汉 430072||水射流理论与新技术湖北省重点实验室,武汉 430072
2. 武汉第二船舶设计研究所,武汉 430064
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摘要

Abstract

To deeply investigate the complex flow mechanisms inside a jet pump,2D visual measurement and quantitative analysis of the confined space jet flow field inside the jet pump were carried out based on a high-precision particle image velocimetry(PIV)system.The study focused on the regulatory mechanisms of the area ratio m and the flow rate ratio q on its flow characteristics.The results indicate that the length of the potential core decreases as q decreases,and the smaller the m,the faster the shortening rate.The axial velocity accelerates first and then decays within the suction chamber,and the decay rate is negatively correlated with q.The height and width of the recirculation zone are negatively correlated with q and positively correlated with m.When m=4 and q=0.534,the dimensionless height and width of the recirculation zone are 0.26 and 0.73,respectively;when q drops to 0.04,the height increases to 0.6,while the width increases significantly to 4.37.The jet half-width first increases with axial distance and then stabilizes,with q influencing the half-width distribution in the midstream.The velocity distribution in the midstream and upstream exhibits a partial self-similarity state,while the downstream displays pipe flow characteristics.The radial velocity shows an antisymmetric distribution,with the peak velocity decreasing as q decreases;the change in velocity direction affects the acceleration and deceleration of the jet.The throat inlet is the point of minimum pressure,and q has a significant influence on the magnitude of the pressure rise along the throat and diffuser.Complex flow structures such as jet boundary fluctuations,wake oscillations,and potential core intermittency appear in the transient flow field.Spanwise vortices are generated at the nozzle exit and distributed along the shear layer;a decrease in q intensifies the erosion of the vortex core region,promoting turbulent mixing and vorticity dissipation.The results of this study provide a reliable experimental basis for the optimal design of jet pumps.

关键词

射流泵/粒子图像测速(PIV)/流动特性/面积比/流量比

Key words

jet pump/particle image velocimetry(PIV)/flow characteristics/area ratio/flow rate ratio

分类

机械制造

引用本文复制引用

王乐,梁蕴致,姚伍平,李红钢,莫小瑜,龙新平..射流泵流动特性的PIV试验研究[J].流体机械,2026,54(2):1-9,9.

基金项目

国家自然科学基金项目(U2430205) （U2430205）

流体机械

ISSN：1005-0329

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