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The effects of microbubbles on skin friction in a turbulent boundary layer flow

Authors
Paik, Bu-GeunYim, Geun-TaeKim, Kyoung-YoulKim, Kwang-Soo
Issue Date
4월-2016
Publisher
PERGAMON-ELSEVIER SCIENCE LTD
Keywords
Microbubble; Turbulent boundary layer; Skin friction; Void fraction; PIV(particle image velocimetry); Shadowgraphy
Citation
INTERNATIONAL JOURNAL OF MULTIPHASE FLOW, v.80, pp 164 - 175
Pages
12
Journal Title
INTERNATIONAL JOURNAL OF MULTIPHASE FLOW
Volume
80
Start Page
164
End Page
175
URI
https://www.kriso.re.kr/sciwatch/handle/2021.sw.kriso/670
DOI
10.1016/j.ijmultiphaseflow.2015.12.003
ISSN
0301-9322
1879-3533
Abstract
The main objectives of the present study are to visualize a bubbly turbulent boundary layer and to investigate the role of the bubbles in frictional drag reduction. The turbulent boundary layer is formed under the surface of a 2-D flat plate. A microbubble generator is used to produce bubbles with diameters in the range 5-100 mu m and a mean bubble diameter of 30 similar to 50 mu m. The behaviors of the microbubbles are visualized quantitatively by using the conventional PIV technique with a field-of-view of 200 mm(2). The velocity fields of the bubbles show that they reduce the Reynolds stress in the boundary layer. To understand the relationships between the distribution of the void fraction due to the microbubbles and the frictional drag reduction, the shadowgraphy technique was adopted within a tiny field-of-view of 5.6 mm(2). The bubble images are analyzed by performing shadow processing to obtain information about their shapes and speeds. A local 2D void fraction of approximately 3.5% in the buffer layer is found to be highly effective in reducing skin friction by decreasing the Reynolds stress. The 3D void fraction of 1.3-3.0% is also found to reduce skin friction in the present study. The vertical fluctuating motion of microbubbles as well as a high concentration of them in buffer layer is effective in reducing the skin friction in high Reynolds number regime of 10(6). (C) 2015 Elsevier Ltd. All rights reserved.
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선박연구본부 > Naval Ship Engineering Research Center > 1. Journal Articles
지능형선박연구본부 > 자율운항선박실증연구센터 > Journal Articles

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