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掺气射流喷嘴设计及数值模拟研究

翁海龙闫怀北巴胜富莫小瑜

流体机械2026，Vol.54Issue(2)：66-75,10.

流体机械2026，Vol.54Issue(2)：66-75,10.DOI:10.3969/j.issn.1005-0329.2026.02.008

掺气射流喷嘴设计及数值模拟研究

Design and numerical simulation of aerated jet nozzle

翁海龙 ¹闫怀北 ¹巴胜富 ²莫小瑜³

作者信息

1. 舟山中远海运重工有限公司,浙江舟山 316131
2. 合肥通用机械研究院有限公司,合肥 230031
3. 水射流理论与新技术湖北省重点实验室,武汉 430072||武汉大学动力与机械学院,武汉 430072
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摘要

Abstract

To improve the energy efficiency of high-pressure water jets in ship rust removal operations,a high-pressure gas-liquid mixed jet nozzle was designed.Numerical simulation of the designed nozzle structure was conducted using LES and VOF methods.A comparative analysis was performed on the jet flow velocity,liquid phase distribution,liquid phase interface,and pressure on the impact target surface with and without aeration.Nozzle derusting experiments were carried out to verify the influence of the aeration process on jet performance.The results indicate that the aeration process significantly affects jet characteristics.By entraining air,momentum exchange occurs within the jet,enabling it to maintain a higher flow velocity in the throat.Under a water jet pressure of 195 MPa,the average flow velocity in the throat is approximately 400 m/s.Simultaneously,the aeration process promotes jet breakup into discrete droplets within the throat,forming a high-energy gas-liquid mixed jet that enhances the jet impact pressure.The maximum instantaneous impact pressure reaches 317.7 MPa,and the average impact pressure reaches 165.8 MPa,representing a 30.8%increase compared to the average impact pressure generated by a free jet.Compared to the inlet pressure,the average impact pressures of the aerated jet and the free jet decreased by 15.0%and 35.0%,respectively.This demonstrates that the aeration process helps reduce the attenuation of jet impact pressure.Under the premise of achieving the same impact effect,the aerated jet can reduce equipment operating pressure to some extent,which is beneficial for improving equipment reliability.Experimental results further validate the performance of the aerated jet nozzle.The findings provide guidance for the engineering application of aerated jets.

关键词

水射流/气液混合射流/气液两相流/数值模拟

Key words

water jet/gas-liquid mixed jet/gas-liquid two-phase flow/numerical simulation

分类

机械制造

引用本文复制引用

翁海龙,闫怀北,巴胜富,莫小瑜..掺气射流喷嘴设计及数值模拟研究[J].流体机械,2026,54(2):66-75,10.

基金项目

浙江省中央引导地方科技发展资金项目(2023ZY1034) （2023ZY1034）

中远海运重工项目(KY24ZG09-01S) （KY24ZG09-01S）

深地国家科技重大专项(2024ZD1003803) （2024ZD1003803）

流体机械

ISSN：1005-0329

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