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Main Authors: Billa, Prasanna Kumar, Josyula, Tejaswi, Tropea, Cameron, Mahapatra, Pallab Sinha
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2403.05857
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author Billa, Prasanna Kumar
Josyula, Tejaswi
Tropea, Cameron
Mahapatra, Pallab Sinha
author_facet Billa, Prasanna Kumar
Josyula, Tejaswi
Tropea, Cameron
Mahapatra, Pallab Sinha
contents In this study, we experimentally examine the behavior of a free-falling rigid sphere penetrating a quiescent liquid pool. Observations of the sphere trajectory in time are made using two orthogonally placed high-speed cameras, yielding the velocity and acceleration vector through repeated differentiation of the time-resolved trajectories. The novelty of this study is twofold. On the one hand, a methodology is introduced by which the instantaneous forces acting on the sphere can be derived by tracking the sphere trajectory. To do this, we work in a natural coordinate system aligned with the pathline of the sphere. In particular, the instantaneous lift and drag forces can be separately estimated. On the other hand, the results reveal that when decelerating, the sphere experiences a very high drag force compared with steady flow. This is attributed to an upstream shift of the mean boundary-layer separation. The sphere also experiences significant lift force fluctuations, attributed to unsteady and asymmetric wake fluctuations. The trajectories can be reduced to three stages, common in duration for all initial Reynolds numbers and density ratios when expressed in dimensionless time. In addition, the sphere velocity and deceleration magnitude for different initial parameters exhibit a high degree of uniformity when expressed in dimensionless form. This offers prediction capability of how far a sphere penetrates in time and the forces acting on it.
format Preprint
id arxiv_https___arxiv_org_abs_2403_05857
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Motion of a rigid sphere penetrating a deep pool
Billa, Prasanna Kumar
Josyula, Tejaswi
Tropea, Cameron
Mahapatra, Pallab Sinha
Fluid Dynamics
In this study, we experimentally examine the behavior of a free-falling rigid sphere penetrating a quiescent liquid pool. Observations of the sphere trajectory in time are made using two orthogonally placed high-speed cameras, yielding the velocity and acceleration vector through repeated differentiation of the time-resolved trajectories. The novelty of this study is twofold. On the one hand, a methodology is introduced by which the instantaneous forces acting on the sphere can be derived by tracking the sphere trajectory. To do this, we work in a natural coordinate system aligned with the pathline of the sphere. In particular, the instantaneous lift and drag forces can be separately estimated. On the other hand, the results reveal that when decelerating, the sphere experiences a very high drag force compared with steady flow. This is attributed to an upstream shift of the mean boundary-layer separation. The sphere also experiences significant lift force fluctuations, attributed to unsteady and asymmetric wake fluctuations. The trajectories can be reduced to three stages, common in duration for all initial Reynolds numbers and density ratios when expressed in dimensionless time. In addition, the sphere velocity and deceleration magnitude for different initial parameters exhibit a high degree of uniformity when expressed in dimensionless form. This offers prediction capability of how far a sphere penetrates in time and the forces acting on it.
title Motion of a rigid sphere penetrating a deep pool
topic Fluid Dynamics
url https://arxiv.org/abs/2403.05857