The Technology of High-level Nuclear Waste Disposal: Advances in the Science and Engineering of the Management of High-level Nuclear Wastes |
Contents
Earth Science Developments in Support of Waste Isolation | 3 |
Preliminary Assessment of Shales and Other Argillaceous Rocks | 16 |
The Use of Radiogenic Noble Gases for Dating Groundwater | 42 |
Copyright | |
13 other sections not shown
Common terms and phrases
actinides adsorption americium analysis argillite assessment Avery Island basalt Basin brine calculated canister clay coefficient colloid colloid formation concentration containing curves decay depths developed DOE Report dose rate effects elements Energy evaluate experimental F-center Figure fission flow fluid frac fracture geologic gradient granite groundwater heat heater borehole helium host rock hydraulic hydraulic conductivity increase interactions irradiation isotopes leach rates materials measured mechanism ments methods migration minerals moisture collection natural rock salt neodymium NTIS Nuclear Waste nuclide Oklo orbit Pacific Northwest Pacific Northwest Laboratory permeability plug plutonium potential predictions pressure properties radiation Radioactive Waste radionuclides ratio Rd values reactor zones region rock mass rock salt ruthenium samples Serne shaft shales shown in Fig solubility solution sorption space disposal spent fuel storage stress studies surface Table technetium temperature thermal thick tion transport ture underground uranium waste form Waste Isolation