Author(s)

Agus Santoso, Daiki Goto, Tomoaki Takehira, Ahmad Aslam, Akimaro Kawahara, Michio Sadatomi

Department of Mechanical System Engineering, Graduate School of Science and Technology, Kumamoto University, Kumamoto, Japan.

In the present paper, in order to clarity the effects of non-Newtonian liquid properties on the flow, similar experiments have been conducted for that of 0.4 wt% polyacrylamide (PAM) aqueous solutions as the working liquid, and air as the working gas. Liquid single-phase and air-liquid two-phase flow experiments were conducted at room temperature using the horizontal rectangular mini-channel with a sudden expansion. The cross-sectional dimensions of the narrow channel upstream from the sudden expansion were 2.79 mm, 3.09 mm and 2.94 mm in the height (H), the width (W) and the hydraulic diameter (DH), while those for the wide channel were 2.95 mm, 5.98 mm and 3.95 mm. The pressure distributions in the channels upstream and downstream from the expansion were measured with calibrated pressure transducer to determine the pressure change due to the expansion. The flow pattern, the bubble velocity, the bubble length, and the void fraction were measured with a high-speed video camera. The flow pattern map is drawn from the observed flow pattern, i.e., bubble flow, slug flow and annular flow in both the wide and the narrow channels. The bubble length data were compared with the calculation by the scaling law proposed by Kanezaki et al. and Kawahara et al. The pressure change data at the expansion were compared with our previous data together with several correlations in literature. Results of such experiment and comparisons are reported in the present paper.

Non-Newtonian, Two-Phase Flow, Sudden Expansion, Minichannel

Santoso, A. , Goto, D. , Takehira, T. , Aslam, A. , Kawahara, A. and Sadatomi, M. (2016) Non-Newtonian Two-Phase Flow Characteristics across Sudden Expansion in Horizontal Rectangular Minichannel. World Journal of Mechanics, 6, 257-272. doi: 10.4236/wjm.2016.68021.