Add to ORKGThe code RETRASO (REactive TRAnsport of SOlutes) simulates reactive transport of dissolved and gaseous species in non-isothermal saturated or unsaturated problems. Possible chemical reactions include aqueous complexation (including redox reactions), sorption, precipitation-dissolution of minerals and gas dissolution. Various models for sorption of solutes on solids are available, from experimental relationships (linear KD, Freundlich and Langmuir isotherms) to cation exchange and surface complexation models (constant capacitance, diffuse layer and triple layer models). Precipitation-dissolution and aqueous complexation can be modelled in equilibrium or according to kinetic laws. For the numerical solution of the reactive transport equations...
Modeling transport of reactive solutes is a challenging problem, necessary for understanding the fat...
This thesis focuses on solutions of reactive transport problems in porous media. The principle mecha...
In this thesis, we show how the common equations for flow in porous media can be expanded to account...
The code RETRASO (REactive TRAnsport of SOlutes) simulates reactive transport of dissolved and gaseo...
International audienceMost reactive transport codes and algorithms decouple the flow from the reacti...
The numerical modeling of reactive transport in a porous medium has important applications in hydrol...
This work was also published as a Rice University thesis/dissertation: http://hdl.handle.net/1911/1...
Subsurface contamination problems of metals and radionuclides are ubiquitous. Metals and radionuclid...
Reactive transport modelling has wide applications in geosciences. In the field of hydrogeology, it h...
A mathematical model has been developed to describe the simultaneous transport of water, heat, and ...
The assessment of mineral deposits, the analysis of hydrothermal convection systems, the performance...
One-dimensional transport of solutes in a saturated porous medium has been simulated using a numeric...
The couplings among fluid flow, advective and dispersive/diffusive transport, and chemical reactions...
Coupled solute transport and reaction models are computationally demanding when multispecies, multid...
One-dimensional transport of solutes in a saturated porous medium has been simulated using a numeric...
Modeling transport of reactive solutes is a challenging problem, necessary for understanding the fat...
This thesis focuses on solutions of reactive transport problems in porous media. The principle mecha...
In this thesis, we show how the common equations for flow in porous media can be expanded to account...
The code RETRASO (REactive TRAnsport of SOlutes) simulates reactive transport of dissolved and gaseo...
International audienceMost reactive transport codes and algorithms decouple the flow from the reacti...
The numerical modeling of reactive transport in a porous medium has important applications in hydrol...
This work was also published as a Rice University thesis/dissertation: http://hdl.handle.net/1911/1...
Subsurface contamination problems of metals and radionuclides are ubiquitous. Metals and radionuclid...
Reactive transport modelling has wide applications in geosciences. In the field of hydrogeology, it h...
A mathematical model has been developed to describe the simultaneous transport of water, heat, and ...
The assessment of mineral deposits, the analysis of hydrothermal convection systems, the performance...
One-dimensional transport of solutes in a saturated porous medium has been simulated using a numeric...
The couplings among fluid flow, advective and dispersive/diffusive transport, and chemical reactions...
Coupled solute transport and reaction models are computationally demanding when multispecies, multid...
One-dimensional transport of solutes in a saturated porous medium has been simulated using a numeric...
Modeling transport of reactive solutes is a challenging problem, necessary for understanding the fat...
This thesis focuses on solutions of reactive transport problems in porous media. The principle mecha...
In this thesis, we show how the common equations for flow in porous media can be expanded to account...