This study compares the capabilities of two numerical models that simulate the behaviour of compacted saturated MX-80 bentonite exposed to different chemical environments. Both codes have different approaches: one of them is a reactive transport model, and the other is a hydrogeomechanical model. The study shows that the combined use of both approaches provides a useful basis for designing bentonite barriers in the geological disposal of high-level nuclear waste. Although, their application is now limited to simple geometries and boundary conditions, the proposed approaches are a first step towards a fully thermo-hydro-mechano-chemical model. It is also shown that there is a need for a greater understanding of the chemomechanical coupling t...
This work describes the development of a numerical module with a multiphysics structure to simulate ...
International audienceGeological disposal of radioactive wastes relies on a multiple barrier system ...
Deep disposal of high-level radioactive waste is the preferred solution worldwide for the long-term ...
Understanding the mechanical behaviour of compacted bentonite upon re-saturation is of outmost impor...
Deep geological disposal is currently the most feasible option for the long-term isolation of radioa...
Radioactive waste disposal, as the final step of the open nuclear fuel cycle, is an important proces...
The long-term safety of nuclear waste repositories in crystalline rock rely to a large extent on the...
Experimental studies show that compacted bentonite used as a backfill material for nuclear waste rep...
Bentonite-based materials are being currently considered in several countries as a backfill componen...
Vor dem Anwendungshintergrund der Ablagerung von radioaktivem Abfall in tiefen geologischen Formatio...
Abstract The reactive transport framework ORCHESTRA was used to implement a dual porosity reactive ...
The established concept for the protection of the biosphere from high-level nuclear wastes consists ...
Safety of great deep repository design has been investigated for high-level radioactive waste dispos...
Bentonite is a material considered to be used as a component of a barrier in deep geological reposit...
Geological disposal of radioactive wastes relies on a multiple barrier system to provide long-term c...
This work describes the development of a numerical module with a multiphysics structure to simulate ...
International audienceGeological disposal of radioactive wastes relies on a multiple barrier system ...
Deep disposal of high-level radioactive waste is the preferred solution worldwide for the long-term ...
Understanding the mechanical behaviour of compacted bentonite upon re-saturation is of outmost impor...
Deep geological disposal is currently the most feasible option for the long-term isolation of radioa...
Radioactive waste disposal, as the final step of the open nuclear fuel cycle, is an important proces...
The long-term safety of nuclear waste repositories in crystalline rock rely to a large extent on the...
Experimental studies show that compacted bentonite used as a backfill material for nuclear waste rep...
Bentonite-based materials are being currently considered in several countries as a backfill componen...
Vor dem Anwendungshintergrund der Ablagerung von radioaktivem Abfall in tiefen geologischen Formatio...
Abstract The reactive transport framework ORCHESTRA was used to implement a dual porosity reactive ...
The established concept for the protection of the biosphere from high-level nuclear wastes consists ...
Safety of great deep repository design has been investigated for high-level radioactive waste dispos...
Bentonite is a material considered to be used as a component of a barrier in deep geological reposit...
Geological disposal of radioactive wastes relies on a multiple barrier system to provide long-term c...
This work describes the development of a numerical module with a multiphysics structure to simulate ...
International audienceGeological disposal of radioactive wastes relies on a multiple barrier system ...
Deep disposal of high-level radioactive waste is the preferred solution worldwide for the long-term ...