Radioactive waste disposal, as the final step of the open nuclear fuel cycle, is an important process to protect humans and the environment from harmful effects of ionising radiation. Approaching the construction of the geological repository, the understanding and predictability of the behavior of engineered barrier material becomes more important than ever. Therefore, a number of research studies are being focused on the experimental and numerical analysis of the engineered barrier material state and behavior under repository conditions. Engineered barrier material will be in contact with the host rock and waste packages, and its properties and behavior will be governed by complex and coupled thermo-hydro-mechanical processes. This paper p...
This study compares the capabilities of two numerical models that simulate the behaviour of compacte...
Vor dem Anwendungshintergrund der Ablagerung von radioaktivem Abfall in tiefen geologischen Formatio...
International audienceIn this paper, a comparative modelling exercise from the DECOVALEX-2015 projec...
Coupled physical processes will take place in a multibarrier disposal system for spent nuclear fuel ...
Geological disposal of radioactive wastes relies on a multiple barrier system to provide long-term c...
International audienceGeological disposal of radioactive wastes relies on a multiple barrier system ...
Deep geological disposal is currently the most feasible option for the long-term isolation of radioa...
The conditions of the bentonite in an engineered barrier for high-level radioactive waste disposal w...
In most of the concept designs for nuclear waste disposals, bentonite-based materials are used to se...
Deep disposal of high-level radioactive waste is the preferred solution worldwide for the long-term ...
International audienceA comparative modelling exercise involving several independent teams from the ...
The management of radioactive wastes is a significant environmental issue facing the international ...
Bentonite-based materials are being currently considered in several countries as a backfill componen...
International audienceBentonite-based materials have been considered in many countries as engineered...
This study compares the capabilities of two numerical models that simulate the behaviour of compacte...
Vor dem Anwendungshintergrund der Ablagerung von radioaktivem Abfall in tiefen geologischen Formatio...
International audienceIn this paper, a comparative modelling exercise from the DECOVALEX-2015 projec...
Coupled physical processes will take place in a multibarrier disposal system for spent nuclear fuel ...
Geological disposal of radioactive wastes relies on a multiple barrier system to provide long-term c...
International audienceGeological disposal of radioactive wastes relies on a multiple barrier system ...
Deep geological disposal is currently the most feasible option for the long-term isolation of radioa...
The conditions of the bentonite in an engineered barrier for high-level radioactive waste disposal w...
In most of the concept designs for nuclear waste disposals, bentonite-based materials are used to se...
Deep disposal of high-level radioactive waste is the preferred solution worldwide for the long-term ...
International audienceA comparative modelling exercise involving several independent teams from the ...
The management of radioactive wastes is a significant environmental issue facing the international ...
Bentonite-based materials are being currently considered in several countries as a backfill componen...
International audienceBentonite-based materials have been considered in many countries as engineered...
This study compares the capabilities of two numerical models that simulate the behaviour of compacte...
Vor dem Anwendungshintergrund der Ablagerung von radioaktivem Abfall in tiefen geologischen Formatio...
International audienceIn this paper, a comparative modelling exercise from the DECOVALEX-2015 projec...