Deep disposal of high-level radioactive waste is the preferred solution worldwide for the long-term disposal of nuclear waste. This concept involves a series of geological and engineered barriers that provide isolation of the waste from the biosphere. Most designs involve bentonite clays as seals in different forms. During the operation of the repository, the bentonite will be subjected to a series of complex thermo-hydro-mechanical phenomena that will interact with each other. Predicting the long-term safety of geological repositories thus involve a rigorous analysis of these multi-physical processes. This paper presents a review of recent numerical approaches and analyses that have aimed to improve the understanding of processes that will...
Bentonite makes an important contribution to the performance of the engineered barriers in most radi...
Subsurface manipulations such as those expected from the disposal of heat-emanating radioactive wast...
Bentonite-based materials are being currently considered in several countries as a backfill componen...
International audienceGeological disposal of radioactive wastes relies on a multiple barrier system ...
Geological disposal of radioactive wastes relies on a multiple barrier system to provide long-term c...
peer reviewedIn a few years, safe and definitive solutions should be ready to manage large quantitie...
Repositories in deep clay geological formations are considered one of the most promising solutions f...
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 storage of high level radioactive waste is still an unresolved problem of the nuclear industry, ...
The conditions of the bentonite in an engineered barrier for high-level radioactive waste disposal w...
Assessing the performance of deep geological repositories for heat-generating radioactive waste requ...
peer reviewedAssessing the performance of deep geological repositories for heat-generating radioacti...
Ensuring the long-term safety of radioactive waste disposal is an environmental topic of utmost impo...
The storage of nuclear waste is still an unresolved problem of the nuclear industry, being geologica...
Bentonite makes an important contribution to the performance of the engineered barriers in most radi...
Subsurface manipulations such as those expected from the disposal of heat-emanating radioactive wast...
Bentonite-based materials are being currently considered in several countries as a backfill componen...
International audienceGeological disposal of radioactive wastes relies on a multiple barrier system ...
Geological disposal of radioactive wastes relies on a multiple barrier system to provide long-term c...
peer reviewedIn a few years, safe and definitive solutions should be ready to manage large quantitie...
Repositories in deep clay geological formations are considered one of the most promising solutions f...
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 storage of high level radioactive waste is still an unresolved problem of the nuclear industry, ...
The conditions of the bentonite in an engineered barrier for high-level radioactive waste disposal w...
Assessing the performance of deep geological repositories for heat-generating radioactive waste requ...
peer reviewedAssessing the performance of deep geological repositories for heat-generating radioacti...
Ensuring the long-term safety of radioactive waste disposal is an environmental topic of utmost impo...
The storage of nuclear waste is still an unresolved problem of the nuclear industry, being geologica...
Bentonite makes an important contribution to the performance of the engineered barriers in most radi...
Subsurface manipulations such as those expected from the disposal of heat-emanating radioactive wast...
Bentonite-based materials are being currently considered in several countries as a backfill componen...