TY - JOUR
T1 - Coherent structures in wave boundary layers. Part 2. Solitary motion
AU - Sumer, B. Mutlu
AU - Jensen, Palle M.
AU - Sørensen, Lone B.
AU - Fredsøe, Jørgen
AU - Liu, Philip L.F.
AU - Carstensen, Stefan
N1 - Funding Information:
This study has been partially funded by (i) the Danish Research Council for Technology and Production Sciences (FTP) under the research program Exploitation and Protection of Coastal Zones (EPCOAST), and (ii) the Danish Council for Strategic Research through the research programme ‘Seabed and Wind Farm Interaction’. P.L.F.L. acknowledges the support from NSF and ONR through grants to Cornell University. Comments of Professor Giovanna Vittori and other two anonymous referees are also appreciated.
PY - 2010/3/10
Y1 - 2010/3/10
N2 - This study continues the investigation of wave boundary layers reported by Carstensen, Sumer & Fredsøe (J. Fluid Mech., 2010, part 1 of this paper). The present paper summarizes the results of an experimental investigation of turbulent solitary wave boundary layers, simulated by solitary motion in an oscillating water tunnel. Two kinds of measurements were made: bed shear stress measurements and velocity measurements. The experiments show that the solitary-motion boundary layer experiences three kinds of flow regimes as the Reynolds number is increased: (i) laminar regime; (ii) laminar regime where the boundary-layer flow experiences a regular array of vortex tubes near the bed over a short period of time during the deceleration stage; and (iii) transitional regime characterized with turbulent spots, revealed by single/multiple, or, sometimes, quite dense spikes in the bed shear stress traces. Supplementary synchronized flow visualization tests confirmed the presence of the previously mentioned flow features. Information related to flow resistance are also given in the paper.
AB - This study continues the investigation of wave boundary layers reported by Carstensen, Sumer & Fredsøe (J. Fluid Mech., 2010, part 1 of this paper). The present paper summarizes the results of an experimental investigation of turbulent solitary wave boundary layers, simulated by solitary motion in an oscillating water tunnel. Two kinds of measurements were made: bed shear stress measurements and velocity measurements. The experiments show that the solitary-motion boundary layer experiences three kinds of flow regimes as the Reynolds number is increased: (i) laminar regime; (ii) laminar regime where the boundary-layer flow experiences a regular array of vortex tubes near the bed over a short period of time during the deceleration stage; and (iii) transitional regime characterized with turbulent spots, revealed by single/multiple, or, sometimes, quite dense spikes in the bed shear stress traces. Supplementary synchronized flow visualization tests confirmed the presence of the previously mentioned flow features. Information related to flow resistance are also given in the paper.
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U2 - 10.1017/S0022112009992837
DO - 10.1017/S0022112009992837
M3 - Article
AN - SCOPUS:77952330631
SN - 0022-1120
VL - 646
SP - 207
EP - 231
JO - Journal of Fluid Mechanics
JF - Journal of Fluid Mechanics
ER -