- 著者
-
Miau J. J.
Chen C. H.
Tsao J. C.
Liu J. H.
- 出版者
- 一般社団法人日本機械学会
- 雑誌
- Jets, wakes and separated flows : proceedings of International Conference on Jets, Wakes and Separated Flows, ICJWSF
- 巻号頁・発行日
- vol.2005, pp.797-801, 2005-10-05
This paper reports on the results of using thermal-sensitive liquid crystal to study the unsteady, three-dimensional characteristics of flow reattachment on a rectangular block. The aspect ratio of the block, i. e., streamwise length versus height, was 2. A liquid crystal film sensitive to a temperature range of 40℃-50℃ was applied on the top surface of the block. The experiment was made with the block heated to 49.5℃, subjected to a uniform flow at room temperature in a low-speed wind tunnel. The liquid crystal images obtained by a CCD camera were expressed in terms of the hue level distributions for quantitative analysis. At Re=5.37×10^4, the video images show that the reattachment length x_R was varying between 1 to 1.5h, where h denotes the height of the block. Comparing the video images obtained at every 1/15 seconds, roughly 20 x_R/U_0, revealed the low-frequency unsteadiness of flow reattachment. Moreover, the finger-type image patterns noted immediately downstream of flow reattachment appeared unsteady in time and random in space. The spanwise extents of these structures were estimated to be 0.5-0.8h or 0.3-0.5x_R, which were suspected to be associated with the vortical structures developed in the separated shear layer.