TY - JOUR
T1 - Viscous flows in a muddy seabed induced by a solitary wave
AU - Park, Yong Sung
AU - Liu, Philip L.F.
AU - Clark, Stephen J.
N1 - Funding Information:
This work has been supported by grants from the National Science Foundation and the Office of Naval Research to Cornell University. Y. S. P. would also like to acknowledge the support from Korea Science and Engineering Foundation under grant M06-2004-000-10541. Finally, the authors wish to thank N. W. Choi for suggesting the highly viscous silicone fluid used in the experiments.
PY - 2008/3/10
Y1 - 2008/3/10
N2 - Liu & Chan (J. Fluid Mech. vol. 579, 2007, p. 467, hereinafter referred to as LC) derived analytical solutions for the interactions between shallow water waves and a viscous fluid seabed. In this paper we present a set of new experimental data on the solitary-wave-induced flows in a viscous muddy seabed so as to validate LC's theory and the approximations employed. In the experiments a clear silicone fluid was used as the viscous mud and particle image velocimetry was employed to measure the velocity field inside the viscous mud. The shear stress along the bottom of the mud bed and the displacement of the water - mud interface were also deduced from data. Experimental results showed excellent agreement with the theoretical solutions. Additional analyses were performed to show that the ratio of the muddy seabed thickness to the corresponding bottom boundary-layer thickness, plays an important role in characterizing mud flow regimes. When 1, the vertical profile of the horizontal velocity in the mud bed can be parameterized as a parabola. On the other hand, when d ≫ 1, the velocity profile appears as a plug flow above a thin viscous layer. When d ∼ O(1), the flow patterns are more complex than the other two regimes and flow reversal can occur inside the viscous mud bed.
AB - Liu & Chan (J. Fluid Mech. vol. 579, 2007, p. 467, hereinafter referred to as LC) derived analytical solutions for the interactions between shallow water waves and a viscous fluid seabed. In this paper we present a set of new experimental data on the solitary-wave-induced flows in a viscous muddy seabed so as to validate LC's theory and the approximations employed. In the experiments a clear silicone fluid was used as the viscous mud and particle image velocimetry was employed to measure the velocity field inside the viscous mud. The shear stress along the bottom of the mud bed and the displacement of the water - mud interface were also deduced from data. Experimental results showed excellent agreement with the theoretical solutions. Additional analyses were performed to show that the ratio of the muddy seabed thickness to the corresponding bottom boundary-layer thickness, plays an important role in characterizing mud flow regimes. When 1, the vertical profile of the horizontal velocity in the mud bed can be parameterized as a parabola. On the other hand, when d ≫ 1, the velocity profile appears as a plug flow above a thin viscous layer. When d ∼ O(1), the flow patterns are more complex than the other two regimes and flow reversal can occur inside the viscous mud bed.
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U2 - 10.1017/S0022112007009871
DO - 10.1017/S0022112007009871
M3 - Article
AN - SCOPUS:40349103384
SN - 0022-1120
VL - 598
SP - 383
EP - 392
JO - Journal of Fluid Mechanics
JF - Journal of Fluid Mechanics
ER -