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Numerical investigation of vortex-induced vibration for two tandem circular cylinders with different diameters

Liu, Ming-ming / Jin, Rui-jia / Tang, Guo-qiang / Li, Cheng-yong

Vortex-induced vibration of two tandem circular cylinders with different diameters under low Reynolds number (Re = 200) is investigated numerically by solving the uncompressible two-dimensional Navier–Stokes equations. The arbitrary Lagrange–Euler method is used to simulate the movement of mesh. Effects of diameters and gap ratios are considered. Numerical results show that diameter ratios and gap ratios have little effect on maximum vibration amplitude. Four different vortex shedding modes are detected in this study.

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Numerical investigation of vortex-induced vibration for two tandem circular cylinders with different diameters

Liu, Ming-ming / Jin, Rui-jia / Tang, Guo-qiang / Li, Cheng-yong

Vortex-induced vibration of two tandem circular cylinders with different diameters under low Reynolds number (Re = 200) is investigated numerically by solving the uncompressible two-dimensional Navier–Stokes equations. The arbitrary Lagrange–Euler method is used to simulate the movement of mesh. Effects of diameters and gap ratios are considered. Numerical results show that diameter ratios and gap ratios have little effect on maximum vibration amplitude. Four different vortex shedding modes are detected in this study.

Numerical investigation of vortex-induced vibration for two tandem circular cylinders with different diameters

Liu, Ming-ming / Jin, Rui-jia / Tang, Guo-qiang / Li, Cheng-yong

Vortex-induced vibration of two tandem circular cylinders with different diameters under low Reynolds number (Re = 200) is investigated numerically by solving the uncompressible two-dimensional Navier–Stokes equations. The arbitrary Lagrange–Euler method is used to simulate the movement of mesh. Effects of diameters and gap ratios are considered. Numerical results show that diameter ratios and gap ratios have little effect on maximum vibration amplitude. Four different vortex shedding modes are detected in this study.

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Title:

Numerical investigation of vortex-induced vibration for two tandem circular cylinders with different diameters

Contributors:

Liu, Ming-ming (author) / Jin, Rui-jia (author) / Tang, Guo-qiang (author) / Li, Cheng-yong (author)

Published in:

Proceedings of the Institution of Mechanical Engineers, Part M: Journal of Engineering for the Maritime Environment ; 234 ; 676-685

Publication date:

2020-08-01

Size:

10 pages

ISSN:

2041-3084 , 1475-0902

DOI:

https://doi.org/10.1177/1475090219896211

Type of media:

Article (Journal)

Type of material:

Electronic Resource

Language:

English

Keywords:

vortex-induced vibration , two circular cylinders , arbitrary Lagrange–Euler , Navier–Stokes equation

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