ハイパボロイド攪拌槽の乱流フローパターン
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概要
- 論文の詳細を見る
3D periodical turbulent flow induced by a low shear hyperboloid stirrer in a fully baffled stirred tank reactor is experimentally studied at a constant Reynolds number, 5600, by using a diode fiber laser-Doppler anemometer. The ratio D:T:H of the hyperboloid stirrer diameter, D = 50 mm, the inner tank diameter, T, and the filled fluid height, H, is 1:3:3. Three low stands of hyperboloid stirrer clearance, D/10, D/7 and D/5, are also targeted to evaluate influence on flow structure. The experimental results are applied to verification of CFD-code based on a standard k–ε model.The flow field close to the hyperboloid stirrer is characterized by a series of vortex jets that are trailing periodically down within a radial extension of 0.5D to 0.7D. The maximum measured tangential velocity was 96% of the tip stirrer velocity. In this “near-of-flow area”, the kinetic energy is extensively dissipated itself due to impingement of velocity components. The axially-symmetric separation zone in the spatial form of λ-character induces two large-scale vortices above and below the separation. A highly rated kinetic energy lies within the head stream of λ-separation. Variation of the clearance at a factor less than D/5 sensibly influences flow structure and kinetic energy distribution. It is considered that computing on a turbulent hyperboloid flow field based on a k–ε model at a relatively high Reynolds number may result in a discharge of kinetic energy induced within the “near-of area”.
- 社団法人 化学工学会の論文
- 1997-12-01
著者
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黒田 正和
Department Of Civil Engineering Gunma University
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Durst Franz
Institute Of Fluid Mechanics (lstm) Of The Friedrich-alexander-university
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Schefer Markus
Institute Of Fluid Mechanics (lstm) Of The Friedrich-alexander-university
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ISMAILOV Murad
Department of Mechanical System Engineering, Gunma University
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Ismailov Murad
Department Of Mechnical System Engineering Gunma University
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Ismailov Murad
Department Of Mechanical System Engineering Gunma University
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