共查询到17条相似文献,搜索用时 109 毫秒
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采用高速全流场显示技术和DPIV对空化水翼近壁处的空化云流动形态和运动机理进行了讨论.结果表明:绕Hydronautics翼型的空化云运动是一个准周期性过程:稳定空泡团初生在翼型前部,向翼型后部发展布满整个翼面,在翼型后缘出现汽泡团旋涡,伴随反向运动,最终向下游脱落.当前条件下空泡团旋涡脱落周期约为74 ms.空化区与主流区的交界面上存在较大的速度梯度,一组对涡出现在翼型尾部处交界面上.此外,采用以空泡为示踪粒子的DPIV能够对空化流动流速分布进行有效测量. 相似文献
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《工程热物理学报》2015,(3)
本文采用高速全流场显示技术观测了两种涂层对绕Clark-Y型水翼空化流动的影响。研究中,随着空化数的降低,主要观测了绕水翼的初生空化、片状空化、云状空化三个阶段σ=1.50时,绕水翼A的空化流动已经发展至片状空化,绕水翼B的空化流动处于初生空化阶段。σ=1.19时,绕水翼A与水翼B空化流动均处于片状空化阶段,围绕两种模型的空穴长度接近,空泡破裂时形成了大量马蹄涡,水翼A表面的附着型锥状空穴产生了大尺度的涡团。σ=0.7时,绕水翼A和水翼B皆为云状空化阶段,绕水翼A的无量纲空化面积小于水翼B;反向射流导致大尺度涡团周期性脱落,绕水翼A的空化涡团脱落较为整齐,绕水翼B则产生分散的马蹄涡。 相似文献
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绕水翼片状空化流动结构的数值与实验研究 总被引:3,自引:0,他引:3
采用数值与实验相结合的方法研究了水翼片状空化流动结构.实验采用高速录像技术观察了片状卒泡形态,应用LDV测量了翼型周围的湍动能和速度分布;采用N-S方程和基于空泡动力学方程的空化模型计算了绕水翼片状空化流场.结果表明:在片状空化阶段,翼型吸力面上附着很薄的一层透明空泡,空泡彤态呈现于指状;随着空化数的减少,空泡尾部水汽交界面相互作用增强,并且空泡尾部出现大的旋涡,影响了空泡尾部区域压力和速度分布,片状空泡尾部的水汽混合区出现不稳定现象,同时存在小的空泡团脱落.数值模拟得到的水翼片状空化流动现象和实验观察到的结果基本一致,验证了计算模型和数值方法的可靠性. 相似文献
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基于全空化模型,提出了修正RNGκ-ε模型,并对NACA0015水翼的非定常空化流场进行了数值研究。基于标准RNGκ-ε模型和修正的RNGκ-ε模型,在8°和20°两种冲角及Re=3×10~5的条件下,针对不同空化数,分别预测了翼型周围的速度场、翼型表面的空穴形态以及非定常空化时空泡的演化过程。和试验结果对比,两个湍流模型都能较好地捕捉翼型周围的大空泡团,其中,标准的RNGκ-ε模型能较好捕捉翼型头部的空穴,修正的RNGκ-ε湍流模型能更好地模拟翼型表面的空穴形态、空泡脱落过程及其产生的回流。 相似文献
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在散裂中子源注入系统工作过程中,剥离膜是实现负氢离子转换为质子注入加速的关键部件。百nm到μm级厚度的剥离膜超薄易碎,安装及系统真空获得难度较高,一直是散裂中子源研究的重点。对比了国外膜片固定方式现状,通过设计剥离膜辅助安装装置,实现剥离膜样品批量安装;通过Fluent仿真分析,模拟得出膜片在不同进出口压差下真空获得过程中的压力分布、膜片附件空气扰动及系统空气流动,制定在不破坏剥离膜的前提下真空获得方案,并获得剥离膜系统超高真空环境。 相似文献
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Yanjun Liu Nansheng Liu & Xiyun Lu 《advances in applied mathematics and mechanics.》2009,1(4):481-509
The two-winged insect hovering flight is investigated numerically
using the lattice Boltzmann method (LBM). A virtual model of two
elliptic foils with flapping motion is used to study the aerodynamic
performance of the insect hovering flight with and without the
effect of ground surface. Systematic studies have been carried out
by changing some parameters of the wing kinematics, including the
stroke amplitude, attack angle, and the Reynolds number for the
insect hovering flight without ground effect, as well as the
distance between the flapping foils and the ground surface when the
ground effect is considered. The influence of the wing kinematic
parameters and the effect of the ground surface on the unsteady
forces and vortical structures are analyzed. The unsteady forces
acting on the flapping foils are verified to be closely associated
with the time evolution of the vortex structures, foil translational
and rotational accelerations, and interaction between the flapping
foils and the existed vortical flow. Typical unsteady mechanisms of
lift production are identified by examining the vortical structures
around the flapping foils. The results obtained in this study
provide some physical insight into the understanding of the
aerodynamics and flow structures for the insect hovering flight. 相似文献
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A modification to the PANS (partially averaged Navier-Stokes) model is proposed to simulate unsteady cavitating flows. In the model, the parameter f k is modified to vary as a function of the ratios between the water density and the mixture density in the local flows. The objective of this study is to validate the modified model and further understand the interaction between turbulence and cavitation around a Clark-Y hydrofoil. The comparisons between the numerical and experiment results show that the modified model can be improved to predict the cavity evolution, vortex shedding frequency and the lift force fluctuating in time fairly well, as it can effectively modulate the eddy viscosity in the cavitating region and various levels of physical turbulent fluctuations are resolved. In addition, from the computational results, it is proved that cavitation phenomenon physically influences the turbulent level, especially by the vortex shedding behaviors. Also, the mean u-velocity profiles demonstrate that the attached cavity thickness can alter the local turbulent shear layer. 相似文献
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基于高速摄像方法,针对入水空泡流动特征和机理,进行了开放腔体圆柱壳垂直入水实验研究.通过对实验现象的观测,发现开放腔体圆柱壳入水运动会形成波动流动和云化流动两种流动方式,结合影像数据,分别描述了两种流动状态下的空泡形态特征,并获得了空泡波动参数的变化规律;对比不同入水速度实验,分析了入水速度对入水空泡流动方式和流动参数的影响;依据流体力学基本理论,分析了入水空泡波动和云化现象的形成机理.结果表明:随入水速度增加,入水空泡依次呈现波动和云化两种流动状态,波动频率与入水速度无关,闭合发生时间随入水速度增加而减小,与Froude数呈线性关系;入水导致开放空腔内部气体涨缩,引起开放端压力场和速度场周期性扰动,空泡截面扩展程度出现差异,形成空泡波动现象;空泡闭合后尾部形成回射流,回射流触及空泡壁面引起壁面流动转捩,形成空泡云化现象. 相似文献
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We have employed the large eddy simulation (LES) approach to investigate the cavitation noise characteristics of an unsteady cavitating flow around a NACA66 (National Advisory Committee for Aeronautics) hydrofoil by employing an Eulerian-Lagrangian based multiscale cavitation model. A volume of fluid (VOF) method simulates the large cavity, whereas a Lagrangian discrete bubble model (DBM) tracks the small bubbles. Meanwhile, noise is determined using the Ffowcs Williams-Hawkings equation (FW-H). Eulerian-Lagrangian analysis has shown that, in comparison to VOF, it is more effective in revealing microscopic characteristics of unsteady cavitating flows, including microscale bubbles, that are unresolvable around the cloud cavity, and their impact on the flow field. It is also evident that its evolution of cavitation features on the hydrofoil is more consistent with the experimental observations. The frequency of the maximum sound pressure level corresponds to the frequency of the main cavity shedding for the noise characteristics. Using the Eulerian-Lagrangian method to predict the noise signal, results show that the cavitation noise, generated by discrete bubbles due to their collapse, is mainly composed of high-frequency signals. In addition, the frequency of cavitation noise induced by discrete microbubbles is around 10 kHz. A typical characteristic of cavitation noise, including two intense pulses during the collapsing of the cloud cavity, is described, as well as the mechanisms that underlie these phenomena. The findings of this work provide for a fundamental understanding of cavitation and serve as a valuable reference for the design and intensification of hydrodynamic cavitation reactors. 相似文献
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方柱绕流是典型的钝体绕流问题,蕴含了丰富的流体力学现象,对这类流动的准确预测面临着诸多挑战.采用自主发展的大涡模拟程序,对来流Mach数M=0.3,Reynolds数ReD=22 000的绕孤立方柱流动进行了细致模拟,亚格子模型使用动力涡黏模型.对计算结果的分析表明,大涡模拟所得的平均流场及Reynolds应力分布与已有实验数据和直接数值模拟结果均吻合较好,验证了预测结果的可靠性;在此基础上对瞬态流场进行了研究,展示了计算条件下方柱绕流分离转捩及尾迹区旋涡交替脱落形成Karman涡街的全过程,为更细致的流动机理探索奠定了基础. 相似文献
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Sameehan S. Joshi Iman Ghamarian Peyman Samimi Shravana Katakam Peter C. Collins 《哲学杂志》2013,93(7):497-514
Effect of tensile loading on crystallisation behaviour of as-cast and laser thermal treated Fe–Si–B metallic glass foils was investigated. Tensile loading lacked any marked influence on the crystallisation behaviour of as-cast and structurally relaxed laser-treated metallic glass foils. Furthermore, the average crystallite/grain size in partially crystallised laser-treated metallic glass foil was nearly equal to the average crystallite/grain size in the region away from the fracture of the same partially crystallised laser-treated metallic glass foil after tensile loading. However, a significant crystallite/grain growth/coarsening of the order of two and half times was observed in the fractured region compared to the region around it for the laser-treated partially crystallised metallic glass foils. The simultaneous effects of stress generation and temperature rise during tensile loading were considered to play a key role in crystallite/grain growth/coarsening. 相似文献