Computed Flow around an Oscillating Circular Cylinder
スポンサーリンク
概要
- 論文の詳細を見る
The oscillation of a circular cylinder in a uniform flow is not only one of the basic subjects of fluid dynamics, but is also a very important problem in fluids engineering. In the present paper, the cross-flow and in-line vibrations of a two-dimensional circular cylinder were studied numerically. Both the forced and free vibrations were examined. Vortex shedding became synchronized with the forced cross-flow vibration at a frequency close to that of the Strouhal number of a stationary cylinder. With forced in-line vibration, vortex shedding began to synchronize with the frequency and also one half that of a circular cylinder at a higher vibration rate. With free vibration, the cross-flow vibration was excited when the natural frequency of the cylinder was near the stationary Strouhal number, and in-line vibration was observed near the natural frequency at around twice the stationary Strouhal number.
- 社団法人 日本航空宇宙学会の論文
- 2005-05-04
著者
-
Morishita Etsuo
Dep. Of Advanced Interdisciplinary Studies Graduate School Of Engineering Utsunomiya Univ.
-
Morishita Etsuo
Department Of Advanced Interdisciplinary Studies Graduate School Of Engineering Utsunomiya Universit
-
ASANO Hiroyoshi
Department of Aeronautics and Astronautics, Graduate School of Engineering, The University of Tokyo
-
Asano Hiroyoshi
Department Of Aeronautics And Astronautics Graduate School Of Engineering The University Of Tokyo
関連論文
- Analogy between Laval Nozzle and One-Dimensional Compressible Flow under Centrifugal Force
- Theodorsen-Type Function for a Lumped Vortex Method
- Schwartz-Christoffel Panel Method
- Corotating Scroll Vacuum Pump Operating in Wet and Other Harsh Physical Environments
- Numerical Analysis of Aerodynamic Interference between Two Circular Cylinders Using the Overset Grid Method
- Analytical Formulas of Ideal Open Channel Flows
- Taylor-Maccoll Hypervelocity Analytical Solutions
- Spreadsheet Fluid Dynamics of a Blunt Body Problem
- Modified Power Law for Turbulent Velocity Profile in a Two-Dimensional Channel
- Numerical Simulation for Feedback Control of Airfoil Oscillation in Incompressible Flow
- Computed Flow around an Oscillating Circular Cylinder
- Effects of Three Types of Control Devices on Closed-Type Supersonic Cavity Flows
- Experimental Investigation on the Mechanism of Flow-Type Changes in Supersonic Cavity Flows
- Ground Effect Calculation of a Two-Dimensional Airfoil over a Wavy Surface
- Analytical Formula of Shock-Wave Structure for Pr = 3/4
- Finite Difference-Panel Hybrid Method
- One-Diemnsional Analytical Approximate Solution of Incompressible Viscous Laminar Oscillating Pipe Flow and Its Comparison to the Exact Uchida's Solution
- Analytical Solution of Isentropic Spiral Flow for Particular Specific Heat Ratio