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Medientyp:
E-Artikel
Titel:
A Numerical Study on Oscillatory Flow-Induced Sediment Motion over Vortex Ripples
Beteiligte:
Chen, Xin;
Yu, Xiping
Erschienen:
American Meteorological Society, 2015
Erschienen in:Journal of Physical Oceanography
Sprache:
Nicht zu entscheiden
DOI:
10.1175/jpo-d-14-0031.1
ISSN:
0022-3670;
1520-0485
Entstehung:
Anmerkungen:
Beschreibung:
<jats:title>Abstract</jats:title><jats:p>A two-dimensional, two-phase flow model is applied to the study of sediment motion over vortex ripples under oscillatory flow conditions. The Reynolds-averaged continuity equations and momentum equations for both the fluid and sediment phases, which include the drag force, the added mass force, the lift force for interphase coupling, and the standard <jats:italic>k</jats:italic>–<jats:italic>ε</jats:italic> turbulence model as well as the Henze–Tchen particle turbulence model for closure, are numerically solved with a finite-volume method. The model is effective over the whole depth from the undisturbed sandy bed to the low concentration region above the ripples. Neither a reference concentration nor a pickup function is required over the ripple bed as in a conventional advection–diffusion model. There is also no need to identify the bed load and the suspended load. The study focuses on the effects of erodible ripples on the intrawave flow and sediment motion over the ripples. The computational results show reasonable agreement with the available laboratory data. It is demonstrated that the formation–ejection process of vortices and the trapping–lifting process of sediment over vortex ripples can be well described by the two-phase flow model. The numerical model can also accurately predict the vertical distribution of the mean sediment concentration.</jats:p>