Direct Numerical Simulation of Jet Mixing Control Using Combined Jets(<Special Issue>Jets, Wakes and Separated Flows)
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概要
- 論文の詳細を見る
In order to develop an efficient jet mixing method, direct numerical simulations of combined jets are carried out. The Reynolds number defined with a nozzle diameter is Re=1500. Spatial discretization is performed by adopting a hybrid scheme of a sixth order compact scheme in the streamwise direction and Fourier series in the cross section. The distance between two jets is fixed at six times the jet diameter, and the inclination angle of the jets is changed from 45 to 70 deg. The results reveal that the turbulence intensity increases with a decrease in the inclination angle and that the jet width increases via jet excitation. These findings suggest that the diverse requirements of jet mixing control can be satisfied by a flexible combination of jets.
- 一般社団法人日本機械学会の論文
- 2006-11-15
著者
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SHAKOUCHI Toshihiko
Graduate School of Engineering, Mie University
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TSUJIMOTO Koichi
Graduate School of Engineering, Mie University
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ANDO Toshitake
Graduate School of Engineering, Mie University
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Ando Toshitake
Graduate School Of Engineering Mie University
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Tsujimoto Koichi
Graduate School Of Engineering Mie University
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Shakouchi Toshihiko
Graduate School Of Engineering Mie University
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SASAZAKI Shuji
Graduate School of Engineering, Mie University
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Sasazaki Shuji
Graduate School Of Engineering Mie University
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- Foreword(Jets, Wakes and Separated Flows)
- Direct Numerical Simulation of Active-Controlled Impinging Jets
- Effects of Pressure Fluctuation on Flow-Accelerated Corrosion in the Downstream of Orifice Nozzle
- Preface