Drag coefficient and strouhal number analysis of a rectangular probe in a two-phase cross flow
Publish place: Energy Equipment and Systems، Vol: 6، Issue: 1
Publish Year: 1397
نوع سند: مقاله ژورنالی
زبان: English
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شناسه ملی سند علمی:
JR_EES-6-1_002
تاریخ نمایه سازی: 11 خرداد 1398
Abstract:
In some case of laboratory and industrial applications, various kind of measurement instruments must be placed in a conduit, in which multiphase fluid flows. Vortex shedding for any immersed body in flow field is created with a frequency, which according to flow conditions such as flow rates, geometry of body, etc. may be constant or variable. Failure may happen, if this frequency is close to one of the natural frequencies of the instruments. These flows can play a significant role in long-term reliability and safety of industrial and laboratory systems. In this study, an Eulerian–Eulerian approach is employed to simulate Air-Water two-phase flow around a rectangular probe with different volume fractions (0.01-0.5) and Reynolds numbers (1000-3000). Two-phase flow characteristics around the probe have been analyzed numerically. The results show vortex shedding in all cases with distinct Strouhal number. In addition, results illustrate that shedding is intensified by increasing Reynolds number. In order to validate the results, fraction of inlet volume was set to zero, and drag coefficient and its relation with low Reynolds number (1000-3000) in single phase flow were compared to experimental and numerical results in published article. The results show a complete agreement between the simulation and available data.
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Authors
Erfan Kosari
Mechanical Engineering Department, University of California, Riverside, CA, USA
Ali Rahnama
School of Mechanical Engineering, University of Tehran, Tehran, Iran
Mahyar Momen
School of Mechanical Engineering, KNT, University of Technology, Tehran, Iran
Pedram Hanafizadeh
School of Mechanical Engineering, University of Tehran, Tehran, Iran
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