Numerical investigation of the concentric annulus flow around a cylindrical body with contrasted effecting factors

This paper studies the wall-bounded flow around a cylindrical at a high Reynolds numbers body in a determined computational domain, with simulations of the 3-D, turbulent concentric annulus flow in a straight pipe. Numerical results show that a reversing zone, appearing as a tongue zone with nested velocities higher than the surrounding area, exists behind the cylindrical body. The annulus space is a region of high velocity and low pressure. The zero velocity, of combined the X- velocity and the Y- velocity, exists in the cross sections and no vortex shedding is formed behind the attaching cylinders. Among all investigated effecting factors, the diameters of the attaching and the main cylinders affect the wake feature behind the cylindrical body while the main cylinder length does not affect the distribution tendency of the flow field. The diameters of the main cylinder and the pipe affect the pressure values and the distribution tendencies on the main cylinder surface. Obviously, the increase of the pipe diameter reduces the drag coefficient of the cylindrical body and the increase of the diameter of the main cylinder increases the drag coefficient greatly. The numerical investigation of the concentric annulus flow provides foundations for further improvements of the intricate flow studies.     

基于LES方法圆柱绕流三维数值模拟

该文采用计算流体软件CFX5中Large-eddy simulation(LES)模型计算了均匀流场中三维圆柱绕流的水动力特性。使用有限体积法对三维N-S方程进行求解。数值模拟着重研究了高雷诺数时展向各截面的压力、阻力、升力及涡管特性。数值计算结果表明:展向各截面柱体受力关于中截面对称且小于二维情况,柱体周围流场呈现明显的三维特性。     

闸墩绕流影响因素及其作用规律分析

为探究某水利工程渡槽附近不平稳水面的形成原因并为制定消除措施提供参考,使用COMSOL Multiphysics软件对高雷诺数( Re =5×106)条件下,不同宽度的顺直流道、收缩渐变段和弯曲流道下游的圆柱绕流和不同形态的闸墩绕流进行了数值模拟研究,分析了流道布局和闸墩形状尺寸等因素对绕流流场和结构受力特性的影响。圆柱绕流分析结果表明:在计算参数范围内,随着顺直流道宽度的减小,圆柱的升阻力系数均逐渐增大;流道渐变段的截面收缩对圆柱绕流产生的影响不大;流道弯曲导致的来流偏流系数越大,圆柱受力的非对称性越明显,升阻力系数均值越大。闸墩绕流计算结果表明:无墩尾闸墩的绕流流场和受力特性与圆柱绕流类似,随着墩身长度增加,闸墩的平均阻力系数减小;带墩尾的闸墩呈流线型,其升阻力系数与尺寸相当的圆柱和无墩尾闸墩相比均显著减小;给闸墩设置合适的墩尾是解决闸墩绕流脱涡的有效措施。     

Hydrodynamics of the interceptor on a 2-D flat plate by CFD and experiments

Nowadays, the use of interceptor by both partial and total dynamic lift crafts is quite common. In this article, a lot of evidence is given regarding the effectiveness of interceptor. The interceptor, when placed at the stern region, changes the pressure distribution around the craft. Its presence affects drag force, lifting force and the position of pressure's center leading to a new trim. This study focuses on hydrodynamic effects of interceptors on a 2-D flat plate based on both computational fluid dynamic(CFD) and experimental approaches. The Reynolds average Navier-Stokes(RANS) equations are used to model the flow around a fixed flat plate with an interceptor at different heights and attack angles. Based on finite volume method and SIMPLE algorithm which uses static structures, this model can be analyzed and the RANS results can be compared with the experimental data obtained in the current channel of the laboratory of waves and current of COPPE/UFRJ(LOC in Portuguese acronym). According to the results, the increase of pressure at the end of the flat plate was proportional to the interceptor height. In addition, the existence of interceptors can significantly increase the lift force coefficient at high angles of attack also proportional to the interceptor height. The presence of interceptor at the end of the flat plate increased both the lift coefficient and the drag coefficient but hydrodynamic drag did not grow as fast as the lift coefficient did. The lift coefficient increased much more. Furthermore, the results showed that the interceptor effectiveness is proportional to the boundary layer thickness at the end of the flat plate. As the interceptor was inside the boundary layer alterations of flow speed led to changes in boundary layer thickness, directly affecting interceptor's efficiency. Optimum choice of interceptor height had a great effect on its efficiency, and in choosing it the flow speed and length of the boat must be taken into consideration.     

圆柱容器内流经环形填充层流动的研究

本文对圆柱容器内流经环形填充层的流动进行了分析,导得了基本运动方程,并进行了实验研究。计算结果与实验结果符合得比较好。研究表明,结构型式、中心通道与环形通道面积比、填充层自身的阻力系数以及圆柱容器的长径比,对于流经填充层的径向流速沿轴向的分布都有影响。     

内河框架码头桩柱绕流水动力特性的二维数值模拟

桩柱绕流水动力特性直接决定水流对桩柱作用力的分布规律,是内河框架码头水流荷载计算的基础。结合计算流体动力学(CFD),依托内河框架码头实际工程,进行了内河框架码头大直径桩柱串列及并列4桩柱绕流水动力特性的二维数值模拟,系统分析了不同流速及不同桩间距下桩柱绕流尾流流场形态,揭示了桩柱绕流阻力系数、升力系数、斯特劳哈尔数随桩间距和流速的变化规律。研究了串列及并列4桩柱绕流流场形态和水动力特性,不同流速及不同桩间距下的遮流影响效应、遮流影响系数以及横向影响系数的变化。数值模拟与分析结果可为计算类似内河框架码头水流荷载提供一定的技术参考。     

FORCE REDUCTION OF FLOW AROUND A SINUSOIDAL WAVY CYLINDER

A large eddy simulation of cross-flow around a sinusoidal wavy cylinder at Re=3000 was performed and the load cell measurement was introduced for the validation test. The mean flow field and the near wake flow structures were presented and compared with those for a circular cylinder at the same Reynolds number. The mean drag coefficient for the wavy cylinder is smaller than that for a corresponding circular cylinder due to the formation of a longer wake vortex generated by the wavy cylinder. The fluctuating lift coefficient of the wavy cylinder is also greatly reduced. This kind of wavy surface leads to the formation of 3-D free shear layers which are more stable than purely 2-D free shear layers. Such free shear layers only roll up into mature vortices at further downstream position and significantly modify the near wake structures and the pressure distributions around the wavy cylinder. Moreover, the simulations in laminar flow condition were also performed to investigate the effect of Reynolds number on force reduction control.     

分层强剪切环境下减阻板对圆柱减阻效应研究

由于上下水层流动反向,柱体在分层流环境中与密度均一流环境中受力差别较大。将密度均一流环境下上游减阻板对柱体减阻的概念引入分层流环境下的圆柱受力研究中,建立三维数值模型,采用大涡模拟(LES)技术,研究内波环境下圆柱的减阻效应。结果表明:在上层水体中,减阻板对柱体受力影响较大;在下层水体中,减阻板几乎不起作用。减阻板背部的漩涡形态是影响柱体减阻效应的根本原因。减阻参数(阻塞比l/D及“板-柱”间距s/D)决定了柱周漩涡结构特征,直接影响减阻效果。引入减阻比B_R量化了减阻效果,采用回归分析拟合出B_R与s/l的经验公式。需将减阻参数控制在合理范围内,避免发生“减阻过度”。研究成果对提高近岸及河口建筑物墩柱安全有重要意义。     

侧向进水口立轴旋涡数值模拟

为了研究侧向进水口立轴旋涡的运动特性,以RNG模型为基础,引入VOF方法捕捉自由液面的变化,对立轴旋涡的形态及其运动轨迹进行了三维数值模拟,并对旋涡水面线和三维速度分布进行了分析。结果表明,侧向进水口前的旋涡是非对称的,其涡轴是一条空间曲线,旋涡下部在进水口的抽吸拉伸作用下发生扭曲。旋涡运动可分为三部分,第一部分水面线呈漏斗状,与对称旋涡类似,第二部分旋涡运动逐渐从竖向转为横向,第三部分为横向运动。在旋涡的上半部,轴向速度随着水深的增加而增大,当旋涡逐渐由竖向转为横向运动时,轴向速度逐渐减小直至为零。最大切向速度发生在淹没深度的52%处。     

不同长细比圆柱绕流的大涡模拟

自从人们对层流圆柱绕流现象有了系列研究及清楚的认识后,逐渐把目光投向湍流的圆柱绕流问题,但高雷诺数下的圆柱绕流具有很强的三维特性,因此在数值计算时模型轴向长度的选取是大家关心的问题。该文基于开源软件OpenFOAM运用LES计算了4种不同长细比圆柱的静止圆柱绕流(包括一个二维算例),重点分析和对比了结果中的一些基础参数如St数、平均阻力系数等,与实验结果吻合良好。文中还进一步分析了时均顺流向速度U在流场中沿流向和横向的分布,发现长细比为π的圆柱算例中,计算域的轴向尺度已经能满足圆柱下游靠近圆柱处的流场中的三维结构的发展。     

两层黏性流体中直立圆柱体绕流的三维数值模拟

研究了两层流体中直立贯底圆柱体的三维黏性绕流问题.以不可压缩Navier-Stokes方程为控制方程,应用VOF方法追踪两层流体的内界面,建立了该问题的数值模拟方法.成功地数值模拟了两层流体中圆柱体黏性绕流产生的三维尾涡特征,表明了流体的密度分层效应对直立贯底圆柱体的尾涡特性和阻力系数都是有影响的.在海洋立管涡激振动的研究中,考虑流体的密度分层效应是重要的.     

同轴套管间涡旋流动及强化传热数值模拟

相对旋转两同轴套管间的涡旋流动,能够带来二次流强化传热传质作用,在航空、水处理、生态保护、生物工程和膜分离等领域都具有广泛的应用价值。本文使用Fluent软件,对同轴套管间涡旋流动及传热特性进行数值模拟,考察了内管转速、内外管壁面温差等操作参数变化对同轴套管间流体传热性能的影响,分析了涡旋流动与传热效率之间的关联关系。模拟结果表明:内管转速增加在流场中形成泰勒涡,涡流扰动增大了高温壁面与流体间的热流密度,增强了流体传热效率。增大内外管壁面温差,也可加强流体传热性能,但其强化作用不及内管转速的强化作用显著。受流场中泰勒涡影响,流体速度、温度及热流密度沿轴向的分布都呈正弦状周期性波动,在相邻两涡交界面处,流体传热性能最好,在涡中心处的传热性能最差。     

双圆柱在不同排列方式下绕流流态模拟

双圆柱绕流伴随着流动分离、旋涡生成与脱落、旋涡间相互干扰等复杂问题,其流动形态和流动特征受圆柱相对位置影响。使用FLUENT流体软件,选取间距比1.75,2.5和4,在二维层流模型下,模拟了双圆柱串列、30°夹角错置、60°夹角错置和双圆柱并列绕流,分析了双柱绕流流态、旋涡脱落形态、升力、阻力系数随圆柱相对位置改变而变化的规律,并对比已有的试验成果和模拟成果,为桥梁建设和圆柱绕流理论研究提供了基础数据。     

非球形风沙粒子的低雷诺数绕流阻力特性研究

采用有限体积法计算了均匀来流条件下圆柱体和正四面体颗粒的低雷诺数三维绕流流场,得到了颗粒在不刚来流方向下的速度分布、压力分布,分析了其阻力特性.结果表明,非球型颗粒的在风场中的绕流阻力大小受来流方向的影响明显,在特定方向阻力最大,这与绕流后的剪切层结构有关.通过比较发现,以往非球型颗粒阻力经验公式给出的只是单一来流方向时的阻力值,而非平均值.根据计算结果给出了新的拟合非球体阻力系数计算公式,可以更准确地估算非球型风沙颗粒各来流方向的平均阻力值.     

引黄输水管道穿河段河势演变与水流动力学特性

河势演变和水流的动力学特性,对水利工程安全和穿越管道的防护设计具有重要意义。本文结合不同洪水流量时的河势演变,给出了不同水流的水面差值,横向垂线流速分布,环流的环量和环流间的诱导速度;分析了水流及其动力学特性产生的横向与纵向作用力,动量和动量矩的作用,可能出现的绕流升力和压差阻力等,为类似研究与工程设计提供一个范例。     

内孤立波环境下柱体的受力特性

针对以往孤立波对柱体作用研究多只针对柱体的整体受力开展,少有研究精细获取柱体不同部位受力特性的问题,借助三维大涡模拟(LES)数值波浪水槽,通过提取柱周流场及压强分布,得到柱体所受压差阻力及黏滞力的垂向分布,对柱体在孤立波环境中的受力特性进行了分析,并采用多元线性回归分析,构造综合影响参数分析了柱体受力特性,构建了柱体受力系数经验表达式。结果表明:上下层水体中方柱所受压差阻力约分别为圆柱的1.5倍和3.5倍;作用于柱体上的黏滞力比压差阻力小1或2个数量级,可忽略流体的黏性效应;综合影响参数与相对波幅正相关,与上下水深比负相关。     

HYDRAULIC CHARACTERISTICS OF VERTICAL VORTEX AT HYDRAULIC INTAKES

The trace of vertical vortex flow at hydraulic intakes is of the shape of spiral lines,which was observed in the presented experiments with the tracer technique. It represents the fluid particles flow spirally from the water surface to the underwater and rotate around the vortex-axis multi-cycle. This process is similar to the movement of screw. To describe the multi-circle spiral characteristics under the axisymmetric condition,the vertical vortex would change not only in the radial direction but also in the axial direction. The improved formulae for three velocity components for the vertical vortex flow were deduced by using the method of separation of variables in this article. In the improved formulae,the velocity components are the functions of the radial and axial coordinates,so the multi-circle spiral flow of vertical vortex could be simulated. The calculated and measured results for the vertical vortex flow were compared and the causes of errors were analyzed.     

金字塔型人工鱼礁绕流的三维CFD模拟研究

采用CFD技术,仿真研究了5种不同来流速度（0．1、0．2,0．4,0．6和0．8m／s）下金字塔型人工鱼礁（底面边长和高度均为3m）的三维绕流场。定量获得了上升流最大高度、上升流最大速度、上升流平均速度以及背涡区尺度等流场效应参数;揭示了礁体周围涡量和压力的分布特征,并得到了水动力大小和阻力系数;对比分析了金字塔型鱼礁与方型鱼礁和二三棱柱型鱼礁在上升流和背涡流特征量上的差别。     

圆柱体绕流环隙流场轴向流速及水力损失试验研究

为进一步完善圆柱体绕流环隙流场理论,采用理论分析和模型试验相结合的方法,对不同流量及环隙比条件下圆柱体绕流环隙流场进行了研究,得出其轴向速度及水力损失随测点距离管道中心距离的变化关系曲线,并给出环隙水流轴向速度及水力损失分布曲线以及随流量及环隙比变化的相关拟合公式。试验结果与拟合公式基本一致,相关系数大部分在0.95以上,说明拟合公式是可行的。试验结果为圆柱体绕流环隙流场理论研究及实际应用提供了支撑。     

基于FLUENT的小雷诺数下方柱绕流的数值模拟

采用FLUENT对小雷诺数（Re〈52）下方柱绕流进行数值模拟,分析方柱后对称反向漩涡的图谱与漩涡尺寸的特点,分析研究表明：在小雷诺数下,方柱绕流的图谱与圆柱绕流图谱相似,并存在两个特征雷诺数,但两个特征雷诺数较圆柱绕流的小些;方柱绕流对称反向漩涡尺寸与雷诺数呈线性关系变化,并且漩涡发生得比圆柱绕流更为剧烈;方柱绕流柱体后的漩涡能够较容易达到稳定状态。研究结论进一步丰富方柱绕流问题。