Scientific Basis for Nuclear Waste Management VI: Symposium Held November 1982 in Boston, Massachusetts, U.S.A.Douglas G. Brookins |
Contents
THE SCIENTIFIC BASIS FOR LONGTERM PREDICTION OF WASTEFORM | 1 |
DETERMINATION OF CRYSTAL SITE OCCUPANCY IN AN IMPROVED SYNROCD | 9 |
A SINGLE PHASE NZP CERAMIC RADIOACTIVE WASTE FORM | 15 |
Copyright | |
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Common terms and phrases
actinide activity Alamosa River analysis anhydrite basalt Basis for Nuclear behavior borosilicate glass brine calcine calculated canister cement ceramic chemical composition concentration containing corrosion crystalline deionized water diffusion disposal dissolution dose effects elements Elsevier Science Publishing energy Equation evaporites experimental Figure flow fluid formation fracture geologic groundwater grout halite hydration hydrogen ion exchange irradiated leach rate leach tests leachate mass loss material matrix measured melter microcracks minerals National Laboratory Nuclear Waste Nuclear Waste Management nuclides oxidation particles permeability phase porosity precipitate quartz radioactive waste radionuclides ratio reaction release repository resin rock SA/V salt samples Scientific Basis Shale shown silicate siltstones simulated sodium soil solid solubility solution sorbed sorption species specimens static leach surface layer Symp SYNROC Table temperature thermal thickness tobermorite trench waters tritium tuff values waste form waste glass Waste Management x-ray zeolites zirconolite