40 research outputs found
Comparison of some probabilistic methods for analyzing slope stability problem
Get PDFAbstract The study aims at comparing the results of different probabilistic methods such as the perturbation method, Spectral Stochastic Finite Element Method (SSFEM
Pore-scale Modeling of Viscous Flow and Induced Forces in Dense Sphere Packings
Full text linkWe propose a method for effectively upscaling incompressible viscous flow in
large random polydispersed sphere packings: the emphasis of this method is on
the determination of the forces applied on the solid particles by the fluid.
Pore bodies and their connections are defined locally through a regular
Delaunay triangulation of the packings. Viscous flow equations are upscaled at
the pore level, and approximated with a finite volume numerical scheme. We
compare numerical simulations of the proposed method to detailed finite element
(FEM) simulations of the Stokes equations for assemblies of 8 to 200 spheres. A
good agreement is found both in terms of forces exerted on the solid particles
and effective permeability coefficients
Using methane biological oxidation to partially finance sustainable waste management systems and closure of dumpsites in the Southern Mediterranean region
No full textUsing methane biological oxidation in soil as a tool to finance closure of dumpsites across the Mediterranean Basin
No full textDoes Sleep Really Matter? Examining Sleep among Salespeople as Boundary Role Personnel for Key Job Factors
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Monitoring of leachate quality stored in gas ventilation pipes for evaluating the degree of landfill stabilization
No full textSimulation of gas concentration during the process of air injection and extraction in a landfill
No full textNumerical simulations to assess the tracer dilution method for measurement of landfill methane emissions
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