INVESTIGATION ON THE ATTENUATION OF A ROTATING LIQUID MOTION IN A CYLINDER WITH BOUNDARY RESISTANCE

为了分析圆柱形容器内同步旋转液面在边界阻力作用下的衰减机理，采用层流摩阻与湍流摩阻的理论模型和实验测试的方法对同步旋转液面在边壁阻力作用下的衰减规律进行了研究. 通过分析壁面阻力的特性，采用当量湿周对圆柱形容器中旋转液体运动的能量损失进行模拟，建立了壁面糙率、旋转半径，静水深度和液体旋转速度之间的本构方程. 通过对圆柱容器中的同步旋转液面在边界阻力作用下的层流和湍流形态的衰减过程进行实验测试，验证了理论模型的正确性. 基于验证后的理论方法，获得了圆柱容器中旋转液体的角速度、高度等随时间的变化过程，分析了摩阻形态、糙率和直径对旋转液面衰减过程的影响. 结果表明，边壁糙率和容器半径是决定旋转液面的衰减过程主要因素，边壁糙率越大液体旋转速度衰减越快，圆柱形容器半径越大液体旋转的衰减越慢.     

基于虚功率原理的鲹科鱼类波状推进分析

自然界中的大多数鱼类通过波状摆动的方式实现推进,这是动态变形的鱼体和周围流体相互作用的结果,研究推进中流体对鱼体变形的响应不仅可以增强对波状推进的认识,还可以为流动控制提供依据.以鲹科模式推进的仿生二维模型为研究对象,通过数值计算获得鱼体波动产生的流场以及鱼体受到的流体力数据.基于虚功率原理,将鱼体受力分解为4部分,分别是鱼体边界变速运动的瞬时贡献、流场中流体旋转和应变速率相对大小的贡献、壁面剪切应力的类摩阻分量和壁面摩阻分量.结果表明,当鱼体波状摆动产生推力时,鱼体边界变速运动是主要的正推力来源,并且该项80%的推力贡献来源于20%的鱼尾部分的边界变速运动.鱼尾两侧边界层中的流体旋转和应变速率的相对大小和壁面摩阻对推力都是负贡献.对于低雷诺数的情况,流体旋转和应变速率的相对大小的负贡献低于壁面摩阻的负贡献,而在高雷诺数的情况下,流体旋转和应变速率的相对大小的负贡献强于壁面摩阻的负贡献.壁面类摩阻分量相对于其他3项总是较小的.结合标度律分析,在摆动推进的标度关系中,与雷诺数无关的推力部分是由边界的变速运动、流场中流体旋转和应变速率共同提供,且流体旋转和应变速率也贡献了摆动推力中与雷诺数...     

失重状态下旋转液体液面形状分析

本文研究失重状态下圆柱形贮箱内稳态旋转液体的液面形状,液面和贮箱的上下底面相接触.导出了液面形状的计算公式,分析了液面不破裂条件及临界转速,并给出了液面与贮箱底面接触半径及液面中心半径的确定方法.     

添加剂对流体摩阻的影响

稀聚合物溶液的湍流摩阻可能低至纯溶剂摩阻的1/4。阻力的降低,同聚合物的性质及流动的流体动力学有关。本文说明了应用于聚合物减阻的流体力学、聚合物化学及流变学方面的一些基本概念。利用现有文献中的实验数据,着重讨论了百万分之几的聚合物浓度对层流—湍流的转捩、边界层中的性质、管道内及平板上的湍流摩阻的影响。还讨论了在工业、消防、航运及生物学方面的应用。      

微重力状态下旋转对称刚性容器中液体的晃动响应

在文[1]的基础上,本文进一步研究了微重力状态下旋转对称刚性容器中液体的晃动响应问题,导出了液体晃动响应的计算公式。最后,对圆柱形容器作了具体计算,并将计算结果与实验数据进行了比较。 在文[1]中,已给出了微重力状态下旋转对称刚性容器中液体的静正自由液面及固有晃动频率的计算方法,在此基础上,现进一步研究其动态响应问题。     

强吸气旋转圆筒壁面湍流边界层建模及计算

提出了湍流边界层的一种简单、快速计算方法, 用以求解强吸气作用下旋转圆筒表面边界层流动. 首先, 理论分析了同心圆筒间的旋转流体运动, 外筒静止、内筒旋转且为多孔吸气条件. 强吸气情况下旋转流动主要表现为内筒壁面附近的边界层流动, 基于这一事实得到了周向速度分布的解析表达式. 其次, 通过引入新参数扩展Cebeci-Smith代数湍流模型, 使其能考虑流线曲率、壁面吸气、低Reynolds数效应等因素. 针对这些因素的综合影响, 采用解析修正和经验参数对模型进行调整. 同时, 基于Reynolds应力湍流模型的仿真结果, 校准代数湍流模型中的经验参数. 最后, 给出基于广义Cebeci-Smith湍流模型的旋转壁面边界层流动的迭代算法, 该算法适用于需要特殊迭代过程的轴向及周向流动均匀情况. 计算了不同旋转速度和吸气强度组合工况下的边界层流动, 其周向速度和湍流强度分布与基于Reynolds应力湍流模型的计算结果非常接近. 并且表明, 当Reynolds应力湍流模型数值模拟预测内筒边界层为稳定层流时, 该方法也再现了相同初始条件下的层流边界层.      

MODELLING AND CALCULATION OF THE TURBULENT BOUNDARY LAYER ON A ROTATING CYLINDER SURFACE WITH STRONG SUCTION 1)

提出了湍流边界层的一种简单、快速计算方法, 用以求解强吸气作用下旋转圆筒表面边界层流动. 首先, 理论分析了同心圆筒间的旋转流体运动, 外筒静止、内筒旋转且为多孔吸气条件. 强吸气情况下旋转流动主要表现为内筒壁面附近的边界层流动, 基于这一事实得到了周向速度分布的解析表达式. 其次, 通过引入新参数扩展Cebeci-Smith代数湍流模型, 使其能考虑流线曲率、壁面吸气、低Reynolds数效应等因素. 针对这些因素的综合影响, 采用解析修正和经验参数对模型进行调整. 同时, 基于Reynolds应力湍流模型的仿真结果, 校准代数湍流模型中的经验参数. 最后, 给出基于广义Cebeci-Smith湍流模型的旋转壁面边界层流动的迭代算法, 该算法适用于需要特殊迭代过程的轴向及周向流动均匀情况. 计算了不同旋转速度和吸气强度组合工况下的边界层流动, 其周向速度和湍流强度分布与基于Reynolds应力湍流模型的计算结果非常接近. 并且表明, 当Reynolds应力湍流模型数值模拟预测内筒边界层为稳定层流时, 该方法也再现了相同初始条件下的层流边界层.     

亚临界雷诺数二维圆柱绕流边界层流场动态特性的实验研究

本文给出了关于亚临界雷诺数二维圆柱绕流动态特性的实验结果。应用热膜、热线和压力传感器测量了壁面剪切应力脉动、壁面压力脉动和流场的速度脉动,给出了壁面剪切应力脉动频率在驻点附近和分离前后变化的特征,计算了这些脉动量在圆柱面上任意两点间的相关特性。实验结果表明,在亚临界雷诺数二维圆柱绕流的边界层流场中存在着一个频率与涡脱落频率相同的整体同步脉动。     

游泳衣料的表面摩阻测量

本文介绍用二维激光流速仪对游泳衣料的局部表面摩阻作对比性实验的一组测量结果.由于游泳衣表面为具有高度柔弹性的粗糙壁面,所以表面摩阻系数的值由离壁面稍远的对数律层的速度分布求得.实验结果表明,不同衣料的表面摩阻的差别可达90%左右,国产的单向弹性奥纶游泳衣的表面摩阻系数最小.由此可知,这种具有纵向纹理的衣料对于减少水对运动员的阻力最为有利.     

基于Fluent平衡大气边界层流场模拟及应用

采用Fluent进行平衡大气边界层流场模拟,在地面边界引入气动粗糙壁面函数,上边界分别采用剪力驱动和速度驱动。首先对平坦区域进行流场模拟,然后基于模拟的流场对立方体建筑物表面风压分布进行了计算。结果表明:基于本文的边界条件设置方法,三种k-ε湍流模型均能获得良好的自保持性平衡大气边界层流场;在地面边界引入气动粗糙壁面函数,可实现任意类型的平衡大气边界层流场模拟,且对近地单元的高度无限制,有利于精细化网格计算;在上边界采用剪力驱动和速度驱动是等效的,采用速度驱动边界条件有利于提高计算效率;三种k-ε湍流模型计算的立方体中心面表面压力分布基本在测量值变化范围内,说明基于本文的平衡大气边界层流场可应用于结构风荷载数值模拟研究中。     

Slow motions of a circular cylinder experiencing slip near a plane wall

A theoretical study is presented for the two-dimensional creeping flow caused by a long circular cylindrical particle translating and rotating in a viscous fluid near a large plane wall parallel to its axis. The fluid is allowed to slip at the surface of the particle. The Stokes equations for the fluid velocity field are solved in the quasi-steady limit using cylindrical bipolar coordinates. Semi-analytical solutions for the drag force and torque acting on the particle by the fluid are obtained for various values of the slip coefficient associated with the particle surface and of the relative separation distance between the particle and the wall. The results indicate that the translation and rotation of the confined cylinder are not coupled with each other. For the motion of a no-slip cylinder near a plane wall, our hydrodynamic drag force and torque results reduce to the closed-form solutions available in the literature. The boundary-corrected drag force and torque acting on the particle decrease with an increase in the slip coefficient for an otherwise specified condition. The plane wall exerts the greatest drag on the particle when its migration occurs normal to it, and the least in the case of motion parallel to it. The enhancement in the hydrodynamic drag force and torque on a translating and rotating particle caused by a nearby plane wall is much more significant for a cylinder than for a sphere.     

A NUMERICAL STUDY OF FLOW PAST A ROTATIONALLY OSCILLATING CIRCULAR CYLINDER

Vortex shedding from a rotationally oscillating circular cylinder in a uniform flow is studied by numerical solutions of the two-dimensional incompressible Navier-Stokes equations using primitive variables. To demonstrate the viability and accuracy of the method, we calculate the approach flow past a rotating cylinder with constant angular velocity. For approach flow past a rotationally oscillating cylinder, the object of the study is to examine the effect of oscillating rotation on the flow structure. In the present study, some basic patterns of vortex shedding can be identified according to our calculated results and are in good agreement with available experiments. In addition, the influence of the oscillating frequency and amplitude on the forces acting on the cylinder is also investigated.     

截锥形弹体在液体介质中运动速度衰减规律分析

水面舰船被动防护体系中液舱的主要功能之一是阻止高速弹体（爆炸破片）对内部重要结构、设备和人员的威胁,高速弹体打击液舱的过程包含着复杂的能量传递与耗散。为了分析弹体形状对其在液体介质中运动速度衰减的影响, 开展了一系列不同头形因数的截锥形弹体在不同入水速度下弹体垂直侵彻液体介质过程的数值模拟,得到了垂直侵彻液体介质时弹体速度衰减特性,发现高速弹体在液体介质中运动的阻力因数与弹体形状和无量纲速度有关。基于对系列数值模拟计算结果的拟合分析,提出了计及头形因数的截锥形弹体 垂直侵彻液体介质时的速度衰减经验公式,通过开展数值算例分析验证了公式计算结果的可靠性。本文中提出的经验公式可实现对高速弹体在液体介质中速度衰减的准确快速计算,为舰船防护液舱结构设计提供一定的参考。     

非稳态不可压缩自由表面粘性流体的三维数值计算

扩展了相对体积算法，计算了变速旋转的敞口圆筒内水的真实非稳态流动。采用了原始变量、交错非等分网格和显式迭代。计算结果与实验现象相吻合。当圆筒长时间等速旋转，其内流体与筒体一起作刚性旋转时，计算自由表面形状与流体力学理论公式的预言吻合得很好。     

An asymmetrical periodic vortical structures and appearance of the self induced pressure gradient in the modified Taylor flow

An incompressible liquid flow in the gap between two coaxial cylinders, such that the inner rotating (wavy) cylinder has a periodically varying radius along the axial direction while the outer stationary cylinder has a constant radius, is studied experimentally and theoretically. Basic attention is focused on the symmetry-breaking phenomenon of the vortex flow arising from the rotation of the inner wavy cylinder. It is found that the symmetry-breaking phenomenon of the vortical flow structures in this geometry is accompanied by the occurrence of a self-induced axial pressure gradient. A theoretical formulation of the problem of periodic vortical flow prevailing in such a geometry having large axial length is presented. The comparison between the computed and the experimental results is presented and the underlying phenomena are discussed.     

Nonlinear azimuthal waves in a centrifuge

Azimuthal wave motions in a liquid which partially fills a cylinder (centrifuge) rapidly rotating about a horizontal axis are discussed in this paper. Under the action of centrifugal force the liquid is pressed to the wall of the cylinder and moves together with it about the central air core. The vibrations of the free surface which arise are called centrifugal waves [1]. The difficulties of their theoretical investigation are related to the nonlinearity both of the basic equations and also of the boundary condition for the pressure on the free surface; therefore they have previously been studied only by linear methods [1, 2]. Nonlinear azimuthal waves in a centrifuge with an infinite radius of the rotating cylinder are analytically described below. The waves found are an analog of Gerstner trochoidal waves on a cylindrical surface. An approximate solution for a centrifuge with a finite outer radius is constructed by matching the waves obtained to the known linear ones.Translated from Zhurnal Prikladnoi Mekhaniki i Tekhnicheskoi Fiziki, No. 3, pp. 86–89, May–June, 1984.In conclusion the author expresses his gratitude to E. I. Yakubovich for useful discussion.     

Flow of a shear-thinning liquid in a cylindrical container with a rotating end wall

The flow patterns produced by rotating one end wall of a circular cylinder completely filled with a strongly shear-thinning viscoelastic liquid have been investigated using the laser-induced fluorescence flow visualization technique. An intense toroidal vortex is produced in the vicinity of the rotating end wall with outward spiraling flow over the end wall itself. This vortex drives a second countercirculating vortex of low intensity in the region of the stationary end wall. Under some circumstances an axial jet of fluid is observed moving away from the rotating end wall. This jet showed evidence of instability, whereas all flows were otherwise completely steady. The double-vortex structure is different from those recently observed in either a Newtonian or slightly shear-thinning liquid or in the low Reynolds number flow of an elastic liquid. There are, however, similarities with older work for a viscoelastic liquid at relatively high Reynolds numbers. The observations highlight the suitability of the cylinder/rotating end wall configuration as a sensitive test case for computational work.