G. Klubertanz scite author profile

SUMMARYThis paper addresses various issues concerning the modelling of solid-liquid-air coupling in multiphase porous media with an application to unsaturated soils. General considerations based on thermodynamics permit the derivation and discussion of the general form of field equations; two cases are considered: a three phase porous material with solid, liquid and gas, and a two phase porous material with solid, liquid and empty space. Emphasis is placed on the presentation of differences in the formulation and on the role of the gas phase. The finite element method is used for the discrete approximation of the partial differential equations governing the problem. The two formulations are then analysed with respect to a documented drainage experiment carried out by the authors. The merits and shortcomings of the two approaches are shown.

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Identification of mechanisms for landslide type initiation of debris flows

Klubertanz

Laloui

Vulliet

2009

Engineering Geology

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The modelling of debris flow initiation in slopes is addressed in this paper. First, possible factors governing debris flow initiation are established. Then, a coupled hydro-mechanical model for deformable porous media with two pore fluids that is used to assess the problem of the debris flow initiation in slopes is briefly outlined. Various ways to identify failure and to approach the transition of the failed mass into a debris flow are discussed in the framework of small strain theory and elasto-plastic behaviour. A parametric study was carried out to evaluate the relative importance of the most commonly cited parameters that are assumed to influence debris flow initiation. It was found that the slope angle is of minor importance in the development of slope instability under loading due to internal water supply. Transient behaviour was found to be decisive, and some critical combinations of water supply over time yielded situations that were likely to encourage the onset of debris flow. The significant role of permeability as a function of the degree of saturation in relation to the water supply is demonstrated. The proposed three-phase model is shown to be an adequate and promising way to address debris flow initiation.

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Calibration of an elasto-plastic constitutive model by a constrained optimisation procedure

Cekerevac¹,

Girardin

Klubertanz³

et al. 2006

Computers and Geotechnics

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Miscible and immiscible multiphase flow in deformable porous media

Klubertanz

Bouchelaghem

Laloui

et al. 2003

Mathematical and Computer Modelling

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Compaction of an Eutric Cambisol under heavy wheel traffic in Switzerland — field data and modelling

Gysi

Klubertanz

Vulliet

2000

Soil and Tillage Research

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G. Klubertanz

Solid–liquid–air coupling in multiphase porous media

Identification of mechanisms for landslide type initiation of debris flows

Calibration of an elasto-plastic constitutive model by a constrained optimisation procedure

Miscible and immiscible multiphase flow in deformable porous media

Compaction of an Eutric Cambisol under heavy wheel traffic in Switzerland — field data and modelling

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