Javier Samper

TL;DR: TransQUI as discussed by the authors is a general 2D finite element multi-component reactive transport code, which is well suited to deal with complex real-world thermo-hydro-geochemical problems for single-phase variably water saturated porous media flow systems.

TL;DR: In this paper, a general methodology for solving the inverse problem of multicomponent reactive solute transport in porous media is presented, which relies on hydraulic heads, aqueous and total concentrations, water fluxes and water contents.

TL;DR: In this paper, the authors present a general and compact formulation of fractures in groundwater flow finite element models, in which fractures are discretized by means of 1D elements rather than by using 2D elements.

TL;DR: In this article, the authors present a numerical methodology for the dynamic simulation of the hydrogeological transient conditions induced by the tunnel front advance, based on the use of a Cauchy boundary condition at the points lying along the tunnel according to which water discharge, Q, is computed as the product of a leakage coefficient, α, and the head difference, (H − h ), where H is the prescribed head at the tunnel wall and h is the hydraulic head in the fractured rock in the close vicinity of the tunnel.

TL;DR: In this article, a comparative study on climate change and its impacts on coastal aquifers is performed for three Mediterranean areas using the ENSEMBLES projections that consider the A1b scenario.