EFFECTIVE SHIELDING OF UNIDIRECTIONAL CURRENT GENERATED MAGNETIC FIELDS

Introduction　　 Environmentalelectromagnetic fields are ofin-creasing concern.Passive shielding is often em-ployed to reduce magnetic fields. Cylindricalshielding geometry is widely employed in powerin-dustry such as protective pipes,cable ducts andlightning down- conductors. Although shielding ef-fects of such conducting shells on magnetic fieldshave been recognized in recent decades,most ofthe studies have been devoted to the case of“dipole” ( opposite equal currents) sources or bal-anced…     

Geometrical design of blade＇s surface and boundary control of Navier-Stokes equations

In this article a new principle of geometric design for blade＇s surface of an impeller is provided. This is an optimal control problem for the boundary geometric shape of flow and the control variable is the surface of the blade. We give a minimal functional depending on the geometry of the blade＇s surface and such that the flow＇s loss achieves minimum. The existence of the solution of the optimal control problem is proved and the Euler-Lagrange equations for the surface of the blade are derived. In addition, under a new curvilinear coordinate system, the flow domain between the two blades becomes a fixed hexahedron, and the surface as a mapping from a bounded domain in R2 into R3 , is explicitly appearing in the objective functional. The Navier-Stokes equations, which include the mapping in their coefficients, can be computed by using operator splitting algorithm. Furthermore, derivatives of the solution of Navier- Stokes equations with respect to the mapping satisfy linearized Navier-Stokes equations which can be solved by using operator splitting algorithms too. Hence, a conjugate gradient method can be used to solve the optimal control problem.     

二阶混合型积分微分差分方程的两点边值问题的存在性与唯一性

利用微分不等式技巧研究了某一类二阶混合型积分微分差分方程的两点边值问题,在上下解存在的条件下,得到了解的存在性和唯一性定理.结果表明:这种技巧为其它边值问题的研究提出了崭新的思路.     

磁性边界反射特性的研究

为了进一步研究磁性媒质天线罩的传输特性，对平面波在空气与磁性媒质边界上的反射特性进行了理论探讨,通过改变磁性媒质参数，分析了边界上功率反射系数和反射系数相位与平面波入射角的关系，并讨论了媒质磁性对功率反射系数和反射系数相位的影响，结果表明，当磁性媒质的相对复介电常数和相对复磁导率相等时，通过空气与磁性媒质边界的平面波不存在退极化效应。     

中厚耦合板结构的振动特性分析

基于Mindlin板理论,采用改进傅立叶级数的方法对任意弹性边界条件和耦合条件下的耦合板进行了振动分析。为建立通用的结构模型,在耦合板结构的耦合边上均匀布置六种类型线性约束弹簧模拟耦合条件,在非耦合边上布置五种类型的线性约束弹簧模拟边界条件。耦合板结构的弯曲振动位移函数和面内振动位移函数表示为标准的二维傅立叶余弦级数和辅助级数的线性组合,通过辅助级数的引入,解决了位移导数在边界不连续的问题。利用Hamilton原理建立求解方程,推导出中厚耦合板结构的振动控制方程的矩阵表达式,通过求解矩阵方程可以得到耦合板结构的固有频率和响应。通过数值仿真分析计算,并与有限元结果和实验进行比较,验证了该方法的准确性。     

平板湍流边界层流向—法向平面发卡涡的PIV实验研究

湍流边界层流动精细涡结构的分析对于水下航行体表面减阻乃至降噪机理的深入研究都具有重要意义.文章应用粒子图像测速技术(PIV),对Reθ=1 743和5 400时的平板湍流边界层的流向—法向平面流场进行了测试研究.一方面,直接对瞬时速度场精细涡结构进行提取分析,通过Galilean分解和λci准则识别出流向—法向平面中的发卡涡及发卡涡包.研究表明,发卡涡和雷诺应力的分布特征具有高度相关性;发卡涡包产生了流向动量的法向不规则分层分布特征.另一方面,文中通过对500个瞬时速度场子样进行时间平均分析,获得了不同雷诺数下平均速度以及湍流度分量的法向分布规律.此外,文中还对发卡涡的几何尺寸和漩涡强度λci进行了统计分析.研究表明,在y+＜50范围内无量纲化的漩涡强度λciδ/uт沿法向迅速衰减,且在不同雷诺数下变化曲线基本一致;在y+ ＞50后λciδ/uт衰减平缓,且低雷诺数下的值较大.     

曲轴系多学科行为耦合研究现状、讨论与展望

论述了曲轴系多学科行为耦合分析的研究现状和最新进展,讨论了曲轴系多学科行为耦合分析目前存在的问题和不足,分析了曲轴系多学科行为耦合分析的特点和解耦方法。指出开展多工况、计入多种影响因素的曲轴系多学科行为耦合分析、试验研究和专门的应用软件开发是曲轴系多学科耦合研究有待于进一步深入研究的课题。     

边界元法在液力变矩器内流场中的应用

本文建立了适用于液力变拒器导轮叶栅内流场流动状态的边界元法计算 模型和计算程序,利用激光测速仪获取边界条件,从而得到了导轮叶松 内部二维速度场。此外,通过与实测值比较,检验了程序的精度。      

湍流边界层脉动压力对声强测量的影响研究

实际声强测量时常常存在风流或水流,如在飞机或船舶上进行测量,声强探头将受到湍流边界层脉动压力的影响。如何评估该影响以及如何修正测量结果是人们十分关心的工程实用问题。该文首先简要介绍了建立的由湍流边界层脉动压力诱发声强的理论模型。接着利用现有的湍流边界层脉动压力频率-波数谱模型,对湍流边界层脉动压力及其诱发的声强进行了数值分析。为了验证理论模型及数值结果,设计制作了一套实验装置,对湍流边界层脉动压力及其产生的声强进行了具体测量分析。结果表明,湍流边界层脉动压力的测量结果与数值结果吻合良好,测量得到的边界层脉动压力诱发的声强特性与计算结果也十分一致,但必须注意对测量传感器的空间响应进行修正。     

非结构化网格浸入边界法的流固耦合数值模拟(英文)

This paper presents an improved unstructured grid immersed boundary method. The advantages of both immersed boundary method and body fitted grids which are generated by unstructured grid technology are used to enhance the computation efficiency of fluid structure interaction in complex domain. The Navier-Stokes equation was discretized spacially with collocated finite volume method and Euler implicit method in time domain. The rigid body motion was simulated by immersed boundary method in which the fluid and rigid body interface interaction was dealt with VOS (volume of solid) method. A new VOS calculation method based on graph was presented in which both immersed boundary points and cross points were collected in arbitrary order to form a graph. The method is verified with flow past oscillating cylinder.