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超高压水射流喷头水动力特性研究
引用本文:陈正寿,黄璐云,杜炳鑫,陈源捷,倪路新,姜华. 超高压水射流喷头水动力特性研究[J]. 爆炸与冲击, 2022, 42(5): 158-171. DOI: 10.11883/bzycj-2021-0310
作者姓名:陈正寿  黄璐云  杜炳鑫  陈源捷  倪路新  姜华
作者单位:1.浙江海洋大学船舶与海运学院,浙江 舟山 316022
基金项目:国家自然科学基金(41776105);;舟山市科技计划(2019C21010);
摘    要:基于对超高压水射流喷头的外部参数定量化分析,给出关于射流核心参数的优选方法,旨在提高水射流效率。首先,根据超高压水射流除锈喷嘴的工作特点,考虑到水的压缩性和空化效应,建立单束定冲角、多束旋转喷头的三维数值模型,通过改变靶距、入射角度、转速等外部特征参数,实施了超高压水射流除锈喷头水动力性能模拟研究。然后,重点分析单束定冲角喷嘴靶距、入射角度对靶面剪切应力、打击压强分布的影响,以及射流等速核长度与最佳射流靶距的关系。发现当靶距等于喷嘴射流等速核长度时,壁面剪切应力达到最佳水平。此外,通过分析高速旋转射流卷吸效应、靶面水垫作用对靶面所受剪切应力、打击压强分布的影响,得到最佳转速范围和对应线速度。初步阐明了射流冲击剥离的机理、单束定冲角以及多束旋转射流的特征参数对射流效果的影响,可为超高压除锈喷头的设计、装配提供参考。

关 键 词:超高压水射流   水动力   入射角度   靶距   旋转速度
收稿时间:2021-07-23

Insight of hydrodynamic characteristics related to ultra-high pressure water jet rust removal sprayers
CHEN Zhengshou,HUANG Luyun,DU Bingxin,CHEN Yuanjie,NI Luxin,JIANG Hua. Insight of hydrodynamic characteristics related to ultra-high pressure water jet rust removal sprayers[J]. Explosion and Shock Waves, 2022, 42(5): 158-171. DOI: 10.11883/bzycj-2021-0310
Authors:CHEN Zhengshou  HUANG Luyun  DU Bingxin  CHEN Yuanjie  NI Luxin  JIANG Hua
Affiliation:1.Naval Architecture and Maritime College, Zhejiang Ocean University, Zhoushan 316022, Zhejiang, China2.The Paxocean Engineering Co. Ltd., Zhoushan 316057, Zhejiang, China
Abstract:Based on the quantitative analysis of the external parameters in relation to ultra-high pressure water jet sprayers, an optimal method for the key parameters of water jets was proposed, aiming at improving the efficiency of the water jets. Firstly, according to the characteristics of the ultra-high pressure water jet rust removal nozzles, the three-dimensional models of the single-beam and rotating multi-beam nozzles were established and used for the numerical simulations in which taking the water compressibility and cavitation effects into account. By changing the relevant characteristic parameters, such as standoff distances, jet angles and rotating speeds, the hydrodynamic performances related to the ultra-high pressure water jet rust removal nozzles were investigated though the simulations. Secondly, the effects of the standoff distances and jet angles for the single-beam nozzle on the distributions of the wall shear stress and impact pressure as well as the relationship between the length of the potential core of the jet and the optimal standoff distance were analyzed. Results show that the wall shear stress reaches its maximum value when the standoff distance is equal to the length of the potential core of a jet. Finally, by analyzing the effects of entrainment and water cushion on the distributions of the wall shear stress and impact pressure, the optimal rotating speed and corresponding linear speed were obtained. The research results preliminarily clarify the rust removal mechanism of the water jet and the effect of the characteristic parameters related to the single-beam nozzle and rotating multi-beam nozzle on the jet effect, and can provide references for the design and assembly of an ultra-high pressure rust removal equipment.
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