An efficient numerical model for liquid water uptake in porous material and its parameter estimation

27 Feb 2019 · Jumabekova Ainagul LOCIE, Berger Julien LOCIE, Dutykh Denys LAMA, CNRS, Meur Hervé Le LM-Orsay, Foucquier Aurélie CEA, LITEN, INES, Pailha Mickaël LOCIE, Ménézo Christophe LOCIE ·

The goal of this study is to propose an efficient numerical model for the predictions of capillary adsorption phenomena in a porous material. The Scharfetter-Gummel numerical scheme is proposed to solve an advection-diffusion equation with gravity flux. Its advantages such as accuracy, relaxed stability condition, and reduced computational cost are discussed along with the study of linear and nonlinear cases. The reliability of the numerical model is evaluated by comparing the numerical predictions with experimental observations of liquid uptake in bricks. A parameter estimation problem is solved to adjust the uncertain coefficients of moisture diffusivity and hydraulic conductivity.

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An efficient numerical model for liquid water uptake in porous material and its parameter estimation

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