Numerical Simulation of In-Line and Cross-Flow Oscillations of a Cylinder(<Special Issue>International Conferences on Power and Energy)
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概要
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The flow-induced vibration of a circular cylinder is simulated numerically. The finite element method is used to solve the three-dimensional incompressible Navier-Stokes equations, and the flow field is coupled with the cylinder motion. The oscillation of the cylinder in the in-line direction is shown when the reduced velocity, U_r, is smaller than 4.0. Symmetric vortices are seen for U_r〓2.5 and alternative vortices appear for U_r≥2.9, while the cylinder motion is damped at around U_r=2.6. It is found that the cross-flow oscillation of the cylinder is dominant under the alternative vortex condition. The drag and lift coefficients increase and the vortex field become finer both in space and time by the cross-flow oscillation.
- 一般社団法人日本機械学会の論文
- 2006-05-15
著者
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Kondo Masaya
Thermohydraulic Safety Research Group Japan Atomic Energy Agency
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Kondo Masaya
Thermalhydraulic Safety Engineering Laboratory Department Of Reactor Safety Research Japan Atomic En
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WATANABE Tadashi
Thermohydraulic Safety Research Group, Japan Atomic Energy Agency
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Watanabe Tadashi
Thermohydraulic Safety Research Group Japan Atomic Energy Agency
関連論文
- Numerical Simulation of In-Line and Cross-Flow Oscillations of a Cylinder(International Conferences on Power and Energy)
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