Computational Geomechanics: Unconfined Flow Analysis

In course

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Description

This lecture covers the analysis of unconfined steady-state flow in geomechanics, focusing on the relationship between pressure, permeability, and boundary conditions. It explains the use of fixed-point and Newton-Raphson iterative schemes to solve non-linear systems, emphasizing the importance of under-relaxation for convergence. The lecture also discusses the construction of the Jacobian matrix and the solution of the tangent operator. Practical considerations for implementing boundary conditions and ensuring convergence are highlighted.

Instructor

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Official source

https://mediaspace.epfl.ch/media/0_xngpcsay

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Ontological neighbourhood

Mathematics

Analysis: Numerical analysis, Calculus, Differential anaysis

Mathematical logic: Set theory

Algebra: Linear algebra

Civil engineering

Hydrology: Hydrogeology

Physics

Condensed matter physics: Phase transitions

Mechanics: Fluid mechanics

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