Numerical Analysis of Multiphase Flow in Hydrodynamic Journal Bearing Using CFD Coupled Fluid Structure Interaction with Cavitation

机译：使用CFD耦合流体结构与空化耦合流体结构相互作用的流体动力轴颈轴承多相流量的数值分析

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In this work, hydrodynamic journal bearing are simulated considering the realistic deformations of the bearing with fluid structure interactions (FSI) coupled with CFD. Mixture model is used model cavitation in the bearing. Parametric modeling is used to modify the flow domain due to deformation. Both systems are coupled and multi objective genetic algorithm (MOGA) is used to get optimized solution of the attitude angle and eccentricity for the combination of operating speed and load. Bearings with and without cavitation are studied. It is observed that maximum pressure values drop when cavitation is considered in the bearing. The oil vapour distribution goes on increasing with the increase in shaft speed thus lowering the magnitude of the pressure build up in the bearing. The experimental data obtained showed very good agreements with numerical results. Considerable reduction in computation time is observed.

机译：在这项工作中，考虑到具有CFD的流体结构相互作用（FSI）的轴承的逼真变形，模拟了流体动力学轴承。混合物模型在轴承中使用模型空化。参数建模用于通过变形来修改流动域。两种系统都是耦合的，并且多目标遗传算法（MOGA）用于获得姿态角度和偏心的优化解决方案，以实现操作速度和负载的组合。研究了带有和无空化的轴承。观察到在轴承中考虑空化时，最大压力值下降。随着轴速度的增加，油蒸汽分布越来越大，从而降低了轴承中的压力的大小。获得的实验数据显示出与数值结果的非常好的协议。观察到计算时间的相当大。

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《International Conference on Automatic Control and Dynamic Optimization Techniques》|2016年|590-1198p|共8页
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Dinesh Y. Dhande; Deepak W. Pande;
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中图分类 TP2-53;
关键词
Multipahse flow; CFD in Journal Bearings; Fluid Structure Interaction; Cavitation; Optimization;

机译：Multipahse流;CFD在轴承中;流体结构相互作用;空化;优化;

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1. Multiphase flow analysis of hydrodynamic journal bearing using CFD coupled Fluid Structure Interaction considering cavitation [J] . D.Y. Dhande, D.W. Pande Journal of King Saud University-Engineering Sciences . 2018,第4期

机译：考虑空化的CFD耦合流体动力相互作用的流体动力滑动轴承多相流分析
2. Multiphase flow analysis of hydrodynamic journal bearing using CFD coupled Fluid Structure Interaction considering cavitation [J] . D.Y. Dhande, D.W. Pande Journal of King Saud University: Physics and Mathematics . 2018,第4期

机译：考虑空化的CFD耦合流体动力相互作用的流体动力滑动轴承多相流分析
3. Hydrodynamic Lubrication of Textured Journal Bearing Considering Slippage: Two-dimensional CFD Analysis Using Multiphase Cavitation Model [J] . M. Tauviqirrahman, A. Pratama, Jamari, Tribology in Industry . 2019,第3期

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4. Numerical analysis of multiphase flow in hydrodynamic journal bearing using CFD coupled Fluid Structure interaction with cavitation [C] . Dinesh Y Dhande, Deepak W Pande International Conference on Automatic Control and Dynamic Optimization Techniques . 2016

机译：基于CFD耦合的空化作用的流体动压轴承多相流数值分析。
5. Analytically and numerically modeling reservoir-extended porous slider and journal bearings incorporating cavitation effects. [D] . Johnston, Joshua David. 2011

机译：结合气穴效应的储层扩展的多孔滑块和轴颈轴承的解析和数值建模。
6. Hydrodynamic cavitation in Stokes flow of anisotropic fluids [O] . Tillmann Stieger, Hakam Agha, Martin Schoen, -1

机译：各向异性流体斯托克斯流中的流体动力空化
7. Multiphase flow analysis of hydrodynamic journal bearing using CFD coupled Fluid Structure Interaction considering cavitation [O] . Dhande D.Y., Pande D.W. 2016

机译：考虑空化的CFD耦合流体结构相互作用的流体动力滑动轴承多相流分析

Numerical Analysis of Multiphase Flow in Hydrodynamic Journal Bearing Using CFD Coupled Fluid Structure Interaction with Cavitation

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