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A platform for research: civil engineering, architecture and urbanism
Admissible Thermal Loading in Geological Formations. Consequences on Radioactive Waste Disposal Methods. Vol. 2. Granite Formations
Every granite formation possesses, the following main characteristics: presence of fissures; physico-chemical alterability; presence of internal or peripheral heterogeneities. From samples at ambient temperature, sound granite is found to have the properties of a hard, elastic rock with a relatively low thermal conductivity. Its natural permeability is low or very low, and most of the percolating water passes through fissures affecting the rock mass. In this report are examined: effects of heat on cavity stability, mechanical interaction between conditioned wastes and the geological environment, effects on the stability of infilling materials, heat effects on the host rock and underground water, assessment of the permissible thermal load and design of the storage facility. (Atomindex citation 15:034295)
Admissible Thermal Loading in Geological Formations. Consequences on Radioactive Waste Disposal Methods. Vol. 2. Granite Formations
Every granite formation possesses, the following main characteristics: presence of fissures; physico-chemical alterability; presence of internal or peripheral heterogeneities. From samples at ambient temperature, sound granite is found to have the properties of a hard, elastic rock with a relatively low thermal conductivity. Its natural permeability is low or very low, and most of the percolating water passes through fissures affecting the rock mass. In this report are examined: effects of heat on cavity stability, mechanical interaction between conditioned wastes and the geological environment, effects on the stability of infilling materials, heat effects on the host rock and underground water, assessment of the permissible thermal load and design of the storage facility. (Atomindex citation 15:034295)
Admissible Thermal Loading in Geological Formations. Consequences on Radioactive Waste Disposal Methods. Vol. 2. Granite Formations
1982
552 pages
Report
No indication
English
Radioactive Wastes & Radioactivity , Selected Studies In Nuclear Technology , Radiation Pollution & Control , Radioactive Waste Disposal , Geologic Formations , Temperature Effects , Geologic Deposits , Granites , Ground Water , Heat Transfer , High-Level Radioactive Wastes , Radionuclide Migration , Thermal Diffusion , Underground Disposal , ERDA/052002 , ERDA/580300
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