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Spatially-averaged oscillatory flow over a rough bed

Wybrane pełne teksty z tego czasopisma
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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
A rigorous framework involving flow decomposition and averaging is presented, within which the mechanics of rough-(e.g., rippled-) bed oscillatory flows can be better interpreted and understood. Spatiallyaveraged equations for conservation of fluid mass and momentum are developed for analyses of rapidly-changing bed conditions, e.g., for growing ripples. Where repeated observations of the changing bed conditions are available, the ensemble and spatially-averaged versions of these equations can be used for more detailed analyses of the flow dynamics. The double-averaged (in space and phase or time) equations of mass and momentum conservation are shown to be appropriate for analyses of flows over fixed rough beds and equilibrium ripples. The value of the present framework is highlighted herein by its application to PIV-measured oscillatory-flow velocities, stresses and vorticities over growing and equilibrium wave-induced intermediate-depth orbital-vortex ripples. In particular, discussions are provided regarding the mechanisms by which gravity-induced and pressure-gradient-induced momentum is transferred to the bed, with the analysis framework naturally and explicitly including the combination of the full range of fluid stresses and boundary form and skin friction drag that is important in defining the flow mechanics.
Czasopismo
Rocznik
Strony
698--733
Opis fizyczny
bibliogr. 31 poz.
Twórcy
autor
autor
Bibliografia
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  • Coleman, S.E., and V.I. Nikora (2008), A unifying framework for particle entrainment, Water Resour. Res. 44, W04415, DOI: 10.1029/2007WR006363.
  • Coleman, S.E., E. Schlicke, and S. Blackbourn (2005), Growth of wave-induced ripples, Proc. 4th IAHR Symposium on River, Coastal and Estuarine Morphodynamics, Urbana, IL, 4-7 October, 963-971.
  • Davies, A.G., and C. Villaret (1999), Eulerian drift induced by progressive waves above rippled and very rough beds, J. Geophys. Res. 104, C1, 1465-1488.
  • Davis, J.P., D.J. Walker, M. Townsend, and I.R. Young (2004), Wave-formed sediment ripples: transient analysis of ripple spectral development, J. Geophys. Res. 109, C07020, 15 pp.
  • Dean, R.G., and R.A. Dalrymple (1991), Water wave mechanics for engineers and scientists, Advanced Series on Ocean Engineering 2, World Scientific Publ. Co., Singapore.
  • Faraci, C., and E. Foti (2002), Geometry, migration and evolution of small-scale bedforms generated by regular and irregular waves, Coastal Engineering 47, 35-52.
  • Giménez-Curto, L.A., and M.A. Corniero Lera (1996), Oscillating turbulent flow over very rough surfaces, J. Geophys. Res. 101, C9, 20,745-20,758.
  • Hsu, T.-J., T. Sakakiyama, and P.L.-F. Liu (2002), A numerical model for wave motions and turbulent flows in front of a composite breakwater, Coastal Engineering 46, 25-50.
  • Huang, C.-J., and C.-M. Dong (2002), Propagation of water waves over rigid rippled beds, J. Waterway, Port, Coastal, and Ocean Engrg. 128, 5, 190-201.
  • Hughes, S.A. (1993), Physical models and laboratory techniques in coastal engineering, Advanced Series on Ocean Engineering 7, World Scientific Publ. Co., Singapore.
  • Isaacson, M. (1991), Measurement of regular wave reflection, J. Waterway, Port, Coastal, and Ocean Engrg. 117, 6, 553-569.
  • Liu, P.L.-F., K.A. Al-Banaa, and E.A. Cowen (2004), Water wave induced boundary layer flows above a rippled bed. In: 'PIV and Water Waves', Advances in Coastal and Ocean Engineering 9, World Scientific Publ. Co., Singapore.
  • Lofquist, K. (1978), Sand Ripple Growth in an Oscillatory-Flow Water Tunnel, Technical Paper 78-5, Coastal Engineering Research Center, US Army Corps of Engineering, 101 pp.
  • Longuet-Higgins, M.S. (1997), Progress toward understanding how waves break, Proc. 21st Symposium on Naval Hydrodynamics, Trondheim, Norway, June 1996, National Academy Press, Washington, DC.
  • Lowe, R.J., J.R. Koseff, and S.G. Monismith (2005a), Oscillatory flow through submerged canopies: 1. Velocity structure, J. Geophys. Res. 110, C10016, 17 pp.
  • Lowe, R.J., J.R. Koseff, S.G. Monismith, and J.L. Falter (2005b), Oscillatory flow through submerged canopies: 2. Canopy mass transfer, J. Geophys. Res. 110, C10017, 14 pp.
  • Nielsen, P. (1992), Coastal Bottom Boundary Layers and Sediment Transport, Advanced Series on Ocean Engineering 4, World Scientific Publ. Co., Singapore.
  • Nikora, V.I., D.G. Goring, I. McEwan, and G. Griffiths (2001), Spatially-averaged open-channel flow over a rough bed, J. Hydraul. Engrg. ASCE 127, 2, 123-133.
  • Nikora, V.I., I. McEwan, S.R. McLean, S.E. Coleman, D. Pokrajac, and R. Walters (2007), Double-averaging concept for rough-bed open-channel and overland flows: Theoretical background, J. Hydraul. Engrg. ASCE 133, 8, 873-883.
  • Ranasoma, K.I.M., and J.F.A. Sleath (1992), Velocity measurements close to rippled beds, Proc. 23rd Int. Conf. Coastal Engrg., American Society of Civil Engineers, 2383-2396.
  • Raudkivi, A.J. (1998), Loose Boundary Hydraulics, 4th ed., A.A. Balkema, The Netherlands, 512 pp.
  • Rousseaux, G., H. Yoshikawa, A. Stegner, and J.E. Wesfreid (2004), Dynamics of transient eddy above rolling-grain ripples, Phys. Fluids 16, 4, 1049-1058.
  • Schlicke, E., S.E. Coleman, and V.I. Nikora (2005), A PIV investigation into the interaction between wave motion and sediment ripples, 4th IAHR Symposium on River, Coastal and Estuarine Morphodynamics, Urbana, IL, 981-989.
  • Schlicke, E., S.M. Cameron, and S.E. Coleman (2007), Galvanometer-based PIV for liquid flows, Flow Measurement and Instrumentation 18, 27-36.
  • Sleath, J.F.A. (1987), Turbulent oscillatory flow over rough beds, J. Fluid Mechanics 182, 369-409.
  • Svendsen, I.A., and I.G. Jonsson (1976), Hydrodynamics of Coastal Regions, Technical University of Denmark.
  • van der Werf, J.J., J.S. Doucette, T. O'Donoghue, and J.S. Ribberink (2007), Detailed measurements of velocities and suspended sand concentrations over full-scale ripples in regular oscillatory flow, J. Geophys. Res. 112, F02012, DOI: 10.1029/2006JF000614.
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  • Whitaker, S. (1999), The Method of Volume Averaging, Kluwer Academic Publishers, Dordrecht.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BSL7-0027-0010
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