Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
8063486 | Ocean Engineering | 2018 | 16 Pages |
Abstract
The laying of subsea pipelines often produces situations where the pipeline is suspended above the seabed due to local erosion of sediment. In this paper, flow induced vibration of a circular cylinder close to a plane boundary in an oscillatory flow is studied through two-dimensional numerical simulations. The circular cylinder and the plane boundary represents a pipeline and the seabed, respectively. It is found that the plane boundary affects the vibration amplitude in the cross-flow direction significantly. The vibration in the vertical direction ceases if reduced velocity exceeds 6 for KCÂ =Â 5 and 12 for KCÂ =Â 10, respectively. The vibration in the cross-flow direction stops when the reduced velocity exceeds a critical value because the effective KC number and the effective reduced velocity, which are both based on the relative velocity of the cylinder to the fluid motion, are extremely small. For KCÂ =Â 10, the vortex shedding is found to be in one pair regime for most of the reduced velocities and non-vortex shedding regime exists at large reduced velocities. Because the shear layers generated from the plane boundary attract the vortices generated from the cylinder, vortex shedding occurs only at the bottom side of the cylinder.
Related Topics
Physical Sciences and Engineering
Engineering
Ocean Engineering
Authors
Adnan Munir, Ming Zhao, Helen Wu, Dezhi Ning, Lin Lu,