A two-phase model for fast geomorphic shallow flows

A two-phase model for fast geomorphic shallow flows

The paper introduces a 2D shallow water model based on a two-phase formulation for the analysis of fast geomorphic transients occurring in the context of river morphodynamics. Mass and momentum conservation principles are separately imposed for both phases. The model naturally accounts for non-equil...

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Veröffentlicht in:International journal of sediment research 2012-12, Vol.27 (4), p.409-425
Hauptverfasser: GRECO, Massimo, IERVOLINO, Michele, LEOPARDI, Angelo, VACCA, Andrea
Format: Artikel
Sprache:eng
Schlagworte:
Computer simulation
Dam-break flows
Eigenvalues analysis
Freshwater
Geomorphology
Mathematical analysis
Mathematical models
Morphodynamic model
Non-equilibrium sediment transport
Phases
Sediments
Shallow water
Two dimensional
Two-phase shallow-water model
动量守恒
固体输送
模型显示
水模型
沉积动力学
河流地貌
流动条件
浅水流动
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Zusammenfassung:The paper introduces a 2D shallow water model based on a two-phase formulation for the analysis of fast geomorphic transients occurring in the context of river morphodynamics. Mass and momentum conservation principles are separately imposed for both phases. The model naturally accounts for non-equilibrium solid transport, since neither instantaneous adaptation hypothesis nor any lag equation is employed to represent sediment dynamics. The hyperbolic character of the proposed model is shown to be preserved independently on the flow conditions. Results from numerical simulations of both 1D and 2D test-cases are compared with literature experimental data and with available numerical solutions.
ISSN:1001-6279
DOI:10.1016/s1001-6279(13)60001-3