Numerical prediction of cavitation erosion on a ship propeller in model- and full-scale

Peters Andreas; Lantermann Udo; el Moctar Ould

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Numerical prediction of cavitation erosion on a ship propeller in model- and full-scale

机译：模型和全规模船舶螺旋桨空化腐蚀的数值预测

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The cavitating flow around a ship propeller was simulated with an implicit RANS based flow solver using the Volume of Fluid (VoF) method to model the interface between the two phases. The sliding interface method was applied to simulate the rotation of the propeller, comprising a rotor and a stator region. Erosion was predicted with a numerical model based on the microjet hypothesis, using the information from the flow solution. Simulations of a propeller under non-cavitating and cavitating conditions were compared to experimental measurements, thereby demonstrating the ability of the presented numerical method to qualitatively predict cavitation erosion for a ship propeller.

机译：船舶螺旋桨周围的空化流量用基于内隐拉的流动求解器模拟了使用流体（VOF）方法的体积来模拟两个阶段之间的界面。应用滑动接口方法来模拟螺旋桨的旋转，包括转子和定子区域。使用来自流量解决方案的信息，利用数值模型预测侵蚀。将非空化和空化条件下的螺旋桨的模拟与实验测量进行比较，从而证明了所提出的数值方法对船舶螺旋桨定性预测空化腐蚀的能力。

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来源
《Wear: an International Journal on the Science and Technology of Friction, Lubrication and Wear》 |2018年第2018期|共12页
作者
Peters Andreas; Lantermann Udo; el Moctar Ould;
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作者单位

Univ Duisburg Essen Inst Ship Technol Ocean Engn &

Transport Syst Bismarckstr 69 D-47057 Duisburg Germany;

Univ Duisburg Essen Inst Ship Technol Ocean Engn &

Transport Syst Bismarckstr 69 D-47057 Duisburg Germany;

Univ Duisburg Essen Inst Ship Technol Ocean Engn &

Transport Syst Bismarckstr 69 D-47057 Duisburg Germany;

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原文格式 PDF
正文语种 eng
中图分类机械摩擦、磨损与润滑;
关键词
Propeller; Cavitation; Erosion; Multiphase flow; Computational fluid dynamics; Erosion prediction;

机译：螺旋桨;空化;侵蚀;多相流动;计算流体动力学;侵蚀预测;

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1. Numerical prediction of cavitation erosion on a ship propeller in model- and full-scale [J] . Peters Andreas, Lantermann Udo, el Moctar Ould Wear: an International Journal on the Science and Technology of Friction, Lubrication and Wear . 2018,第期

机译：模型和全规模船舶螺旋桨空化腐蚀的数值预测
2. Practical numerical method for erosion risk prediction on ship propellers [J] . Shin Keun Woo, Andersen Poul International Shipbuilding Progress . 2020,第2a4期

机译：船舶螺旋桨侵蚀风险预测的实用数值方法
3. Prediction of cavitation development and cavitation erosion on hydrofoils and propellers by Detached Eddy Simulation [J] . Usta Onur, Korkut Emin Ocean Engineering . 2019,第Nova1期

机译：基于分离涡模拟的水翼和螺旋桨空化发展和空化腐蚀预测
4. Cavitation Erosion-Corrosion Of Ship Propeller Materials [C] . J. Basumatary, R.J.K. Wood, S.R. Turnock, Society of Tribologists Lubrication Engineers annual meeting exhibition . 2014

机译：螺旋桨材料的空化腐蚀
5. Model- and full-scale predictions of hydrokinetic turbulent wake, including model-scale validation. [D] . Salunkhe, Sanchit. 2016

机译：水动力湍流尾流的模型和全尺寸预测，包括模型尺寸验证。
6. Towards numerical prediction of cavitation erosion [O] . Marc Fivel, Jean-Pierre Franc, Samir Chandra Roy 2015

机译：气蚀的数值预测
7. Numerical prediction analysis of propeller bearing force for full-scale hull–propeller–rudder system [O] . Chao Wang, Shuai Sun, Liang Li, 2016

机译：全尺寸船体 - 螺旋桨 - 舵系统螺旋桨轴承力数值预测分析
8. An Investigation of Methods to Reduce or Eliminate Cavitation Erosion of Ship Propellers by Design Optimization and Protective Coverings [R] . Conn, P. K. , Hackworth, J. V. , Snell, I. C. 1980

机译：用设计优化和防护罩减少或消除船舶螺旋桨空蚀的方法研究

Numerical prediction of cavitation erosion on a ship propeller in model- and full-scale

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