Title :
Study on Flow Field Structure in Axisymmetric Radial Flow
Author :
Liu Zhaomiao ; Li Jinhui
Author_Institution :
Sch. of Mech. Eng. & Appl. Electron., Beijing Univ. of Technol., Beijing, China
Abstract :
This paper focuses on laminar axisymmetric radial flow field structure influenced by inlet pipe Reynolds number and geometrical aspect ratio in the spacing region which consists of two parallel discs. Numerical method and particle image velocimetry technique have been employed to analysis the evolution of flow field structure at different Reynolds numbers and the flow separation and reattachment points´ position of different isolated vortexes at different aspect ratios. Results show that, according to the number of vortexes, the radial flow pattern will gradually present four different stages with inlet pipe Reynolds number increases. And there exist significant relationships among the radial position of the flow separation and reattachment points of different isolated vortexes.
Keywords :
boundary layers; flow separation; flow visualisation; laminar flow; laser velocimetry; numerical analysis; pattern formation; pipe flow; vortices; flow separation; geometrical aspect ratio; inlet pipe Reynolds number; isolated vortexes; laminar axisymmetric radial flow field structure; laminar boundary layer; numerical method; parallel discs; particle image velocimetry; radial flow pattern; reattachment position point; Analytical models; Atmospheric measurements; Fluid flow; Fluids; Linearity; Numerical models; Particle measurements; axisymmetric radial flow; flow separation and reattachment; vortex;
Conference_Titel :
Mechanical and Automation Engineering (MAEE), 2013 International Conference on
Conference_Location :
Jiujang
DOI :
10.1109/MAEE.2013.35
