Topics
rockGenre
nuclear fuelChemical compound
A heat stress of rocks is an important problem in connection with underground storage of waste nuclear fuel. Thermomechanical stress in rock mass and concrete support was studied on the base of mathematic modelling. Conclusion show, that thermomechanical stresses in rock and support influence stability state of an underground openings
The increase of temperature of a low-permeability, fluid-saturated media may trigger significant the...
The drift of a High Level Nuclear Waste (HLNW) Repository were subjected to 2-D thermal loading resu...
A generic test of the geologic storage of spent-fuel assemblies from an operating nuclear reactor is...
The thermal heating caused by the deposition of spent nuclear fuel containers increases the in situ ...
The initial stress of rock was estimated and analyzed based on the geological survey information col...
The underground is a vast region, which is, too a large extent, unused by man. It has a large potent...
Micromechanical fracture modeling on underground nuclear waste storage: Coupled mechanical, thermal...
This paper summarizes the technical efforts for resolving issues on rock mechanics as applied to dev...
In this report a Critical Path Method (CPM) diagram and a logic net are proposed for the design cycl...
Underground burial of radioactive wastes in hard rock may be an effective and safe means of isolatin...
In deep underground engineering, rock usually encounters a high temperature problem. The stress–stra...
The long-lived high-level spent nuclear has to be isolated from environment for the protection of ec...
The underground silo was constructed as a facility for the disposal of low- and intermediate-level r...
Conceptual geological repositories are generally used for disposing spent nuclear wastes containing ...
The solution of stability and safety of underground repositories of the spent nuclear fuel requires ...
The increase of temperature of a low-permeability, fluid-saturated media may trigger significant the...
The drift of a High Level Nuclear Waste (HLNW) Repository were subjected to 2-D thermal loading resu...
A generic test of the geologic storage of spent-fuel assemblies from an operating nuclear reactor is...
The thermal heating caused by the deposition of spent nuclear fuel containers increases the in situ ...
The initial stress of rock was estimated and analyzed based on the geological survey information col...
The underground is a vast region, which is, too a large extent, unused by man. It has a large potent...
Micromechanical fracture modeling on underground nuclear waste storage: Coupled mechanical, thermal...
This paper summarizes the technical efforts for resolving issues on rock mechanics as applied to dev...
In this report a Critical Path Method (CPM) diagram and a logic net are proposed for the design cycl...
Underground burial of radioactive wastes in hard rock may be an effective and safe means of isolatin...
In deep underground engineering, rock usually encounters a high temperature problem. The stress–stra...
The long-lived high-level spent nuclear has to be isolated from environment for the protection of ec...
The underground silo was constructed as a facility for the disposal of low- and intermediate-level r...
Conceptual geological repositories are generally used for disposing spent nuclear wastes containing ...
The solution of stability and safety of underground repositories of the spent nuclear fuel requires ...
The increase of temperature of a low-permeability, fluid-saturated media may trigger significant the...
The drift of a High Level Nuclear Waste (HLNW) Repository were subjected to 2-D thermal loading resu...
A generic test of the geologic storage of spent-fuel assemblies from an operating nuclear reactor is...
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