A Roe-type scheme for two-phase shallow granular flows over variable topography

Pelanti, Marica; Bouchut, François; Mangeney, Anne

doi:10.1051/m2an:2008029

Cited by 120 publications

(192 citation statements)

References 54 publications

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“…Pitman & Le [4] developed a depth-averaged version of Jackson's [5] three-dimensional, two-phase granular-fluid equations, and various extensions of their model have been proposed (e.g. [6][7][8]). These models are expressed as hyperbolic systems of partial differential equations, yet they possess an unstable elliptic degeneracy associated with loss of hyperbolicity in particular flow regimes [6,9].…”

Section: Introductionmentioning

confidence: 99%

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A depth-averaged debris-flow model that includes the effects of evolving dilatancy. II. Numerical predictions and experimental tests

2014

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We evaluate a new depth-averaged mathematical model that is designed to simulate all stages of debris-flow motion, from initiation to deposition. A companion paper shows how the model's five governing equations describe simultaneous evolution of flow thickness, solid volume fraction, basal pore-fluid pressure and two components of flow momentum. Each equation contains a source term that represents the influence of state-dependent granular dilatancy. Here, we recapitulate the equations and analyse their eigenstructure to show that they form a hyperbolic system with desirable stability properties.To solve the equations, we use a shock-capturing numerical scheme with adaptive mesh refinement, implemented in an open-source software package we call D-Claw. As tests of D-Claw, we compare model output with results from two sets of largescale debris-flow experiments. One set focuses on flow initiation from landslides triggered by rising pore-water pressures, and the other focuses on downstream flow dynamics, runout and deposition. D-Claw performs well in predicting evolution of flow speeds, thicknesses and basal pore-fluid pressures measured in each type of experiment. Computational results illustrate the critical role of dilatancy in linking coevolution of the solid volume fraction and porefluid pressure, which mediates basal Coulomb friction and thereby regulates debris-flow dynamics.

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Section: Introductionmentioning

confidence: 99%

“…[6][7][8]). These models are expressed as hyperbolic systems of partial differential equations, yet they possess an unstable elliptic degeneracy associated with loss of hyperbolicity in particular flow regimes [6,9].…”

Section: Introductionmentioning

confidence: 99%

A depth-averaged debris-flow model that includes the effects of evolving dilatancy. II. Numerical predictions and experimental tests

2014

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“…Granular gases have lately been the subject of considerable theoretical, numerical and experimental studies [9,30,29,33,31]. In this work we consider a continuum model for granular-gas flow, in which the dynamics are accounted for by a hyperbolic conservation law with relaxation.…”

Section: 2mentioning

confidence: 99%

An exponential time-differencing method for monotonic relaxation systems

Aursand

Evje

Flåtten

et al. 2014

Applied Numerical Mathematics

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Abstract. We present first and second-order accurate exponential time differencing methods for a special class of stiff ODEs, denoted as monotonic relaxation ODEs. Some desirable accuracy and robustness properties of our methods are established. In particular, we prove a strong form of stability denoted as monotonic asymptotic stability, guaranteeing that no overshoots of the equilibrium value are possible. This is motivated by the desire to avoid spurious unphysical values that could crash a large simulation.We present a simple numerical example, demonstrating the potential for increased accuracy and robustness compared to established Runge-Kutta and exponential methods. Through operator splitting, an application to granulargas flow is provided.

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“…In the model by Berzi et al [8][9][10] for a twolayer flow with a sediment-water mixture in the lower layer and clean water in the upper layer, σ s n 1 = 0 is presumed at the layer interface and, as in Fraccarollo and Capart [3], a uniform υ along the avalanche depth is considered -this is different from (24). Here we use (24), which is based on (23), and deal with a solid volume fraction which slightly deviates from uniformity along the depth, except, eventually, near the layer interface. We introduce Boussinesq coefficients (see below) to account for these deviations, and let υ at the interface assume a value determined from experiments (Egashira et al [30] used υ = 0.05, cf.…”

Section: Intrinsic Modeling Equationsmentioning

confidence: 99%

“…Moreover, noting that the trend in avalanche modeling is to account for curvature effects (see, e.g., Sivakumaran et al [14], Dewals et al [15], Iverson [16], Pudasaini et al [17,18], Bouchut and Westdickenberg [19], De Toni and Scotton [20], Bouchut et al [21], Tai and Kuo [22], Tai and Lin [23], Pelanti et al [24], Luca et al [25][26][27]5]), emphasis is on the description of the flow on arbitrary terrain, using the approach initiated by Bouchut and Westickenberg [19], and not on the formulation of constitutive laws, even if we indicate such laws as possible choices. In particular, the shallow saturated mixture in the lower layer is treated in Truesdell's sense, in the same manner as it has been done by Luca et al [27].…”

Section: Introductionmentioning

confidence: 99%

Modeling Shallow Over-Saturated Mixtures on Arbitrary Rigid Topography

Luca

Kuo

Hutter³

et al. 2012

J. mech.

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In this paper a system of depth-integrated equations for over-saturated debris flows on threedimensional topography is derived. The lower layer is a saturated mixture of density preserving solid and fluid constituents, where the pore fluid is in excess, so that an upper fluid layer develops above the mixture layer. At the layer interface fluid mass exchange may exist and for this a parameterization is needed. The emphasis is on the description of the influence on the flow by the curvature of the basal surface, and not on proposing rheological models of the avalanching mass. To this end, a coordinate system fitted to the topography has been used to properly account for the geometry of the basal surface. Thus, the modeling equations have been written in terms of these coordinates, and then simplified by using (1) the depth-averaging technique and (2) ordering approximations in terms of an aspect ratio ε which accounts for the scale of the flowing mass. The ensuing equations have been complemented by closure relations, but any other such relations can be postulated. For a shallow two-layer debris with clean water in the upper layer, flowing on a slightly curved surface, the equilibrium free surface is shown to be horizontal.

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A Roe-type scheme for two-phase shallow granular flows over variable topography

Cited by 120 publications

References 54 publications

A depth-averaged debris-flow model that includes the effects of evolving dilatancy. II. Numerical predictions and experimental tests

A depth-averaged debris-flow model that includes the effects of evolving dilatancy. II. Numerical predictions and experimental tests

An exponential time-differencing method for monotonic relaxation systems

Modeling Shallow Over-Saturated Mixtures on Arbitrary Rigid Topography

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