作　　者： ; ; ; ;

机构地区： 中国船舶科学研究中心

出　　处： 《流体力学实验与测量》 2003年第2期93-97,共5页

摘　　要： PIV(粒子图像测速)技术在拖曳水池中的应用面临诸多困难。与水池岸基式PIV相比,随车式PIV具有设置灵活、连续采集的优点。介绍了中国船舶科学研究中心(CSSRC)拖曳水池随车式PIV技术的特点与功能及其发展。介绍该系统的三个应用:高速水面船模支架周围流动观测;全附体下带与不带前置导叶、螺旋桨的水下回转体模型尾部区域流场测量及两种不同艉附体与主体连接形式的水下回转体尾部流场的测量。展示了该系统的发展历程及其在船舶流场研究中的作用与应用前景。 There are many difficulties for PIV technique application in towing tank. The paper introduces the development progress of PIV technique application in towing tank at CSSRC. Compared with the stationary PIV, the towing PIV makes optimal use of costly experimental time, as it provides much longer measurement time per tow. Its application in the investigation on ship flow field is also presented. Three examples are given: visualization of the flow around shaft brackets of ship model with and without propeller; velocity field measurement of wake flow of submarinelike body with and without stator; the investigation on the effect on flow structure of juncture forms of stern appendage with submarinelike mainbody. The results indicates its bright application prospect in the investigation on naval hydrodynamics.

关 键 词： 技术 拖曳水池 粒子图像测速技术 船舶 流场测量

领　　域： [交通运输工程] [交通运输工程]