• CN:11-2187/TH
  • ISSN:0577-6686

›› 2004, Vol. 40 ›› Issue (6): 10-18.

• 论文 • 上一篇    下一篇

进口节流式滑阀内流场的有限元计算与PIV研究

高殿荣;侯桂庆;杨林杰;姜万录   

  1. 燕山大学液压研究所
  • 发布日期:2004-06-15

FINITE ELEMENT NUMERICAL SIMULATION AND PIV INVESTIGATION OF FLOW FIELD INSIDE METERING-IN SPOOL VALVE

Gao Dianrong;Hou Guiqing;Yang Linjie;Jiang Wanlu   

  1. Institute of Fluid Power, Yanshan University
  • Published:2004-06-15

摘要: 用有限元法(FEM)和粒子图像测速技术(PIV)对三种不同开口度下进口节流滑阀沿进口流道、节流口、阀腔以及出口流道的流场进行了数值计算和试验可视化研究。数值模拟的数学模型采用的是连续性方程和Navier – Stokes方程的流函数—涡量式,有限元法用于方程的离散。自行编制的有限元计算程序用来计算求解区域离散点上的流函数及涡量值,再根据流函数及涡量与速度分量之间的关系求出各结点上的速度矢量。对于粒子图像测速试验,光源采用双脉冲Nd:YAG激光器,再用柱透镜和球面镜调制得到1.0 mm片光照射流场。30~50 mm的聚苯乙烯小球用做示踪粒子,Kodak ES1.0 CCD 照相机拍摄流场图像,所得图像用FFT相关算法进行处理,结果用Tecplot输出,数值计算和PIV试验表明,滑阀内部有三个部位产生涡旋。数值计算又表明滑阀开度对阀内部流场结构有影响。研究对于定性分析阀内能量损失、噪声以及对阀的结构和流道的设计有重要实际意义。

关键词: 进口节流滑阀, 粒子图像测速, 流场, 有限元法

Abstract: The finite element method (FEM) and particle image velocimetry (PIV) technique are utilized to get the flow field along the inlet passage, the chamber, the metering port and the outlet passage of spool valve at three different valve openings. For FEM numerical simulation, the stream function y-vorticity w forms of continuity and Navier-Stokes equations are empl-oyed and finite element method is applied to discrete the equations. Homemade simulation codes are executed to compute the values of stream function and vorticity at each node in the flow domain, then according to the correlation between stream function and velocity components, the velocity vectors of the whole field are calculated. For particle image velocimetry experiment, pulse Nd: YAG laser is exploited to generate laser beam, cylindrical and spherical lenses are combined each other to produce 1.0 mm thickness laser sheet to illuminate the object plane, Polystyrene spherical particle with diameter of 30~50 mm is seeded in the fluid as a tracing particles, Kodak ES1.0 CCD camera is employed to capture the images of interested, the images are processed with FFT cross-correlation algorithm and the processing results is displayed by Tecplot. Both results of numerical simulation and PIV experimental show that there are three main areas in the spool valve where vortex is formed. Numerical results also indicate that the valve opening have some effects on the flow structure of the valve. The investigation is helpful for qualitatively analyzing the energy loss, noise generating, steady state flow forces and even designing the geometry structure and flow passage.

Key words: Finite element method (FEM), Flow field, Particle image velocimetry (PIV), Spool valve

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