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AbstractAbstract
[en] The purpose of this project is to investigate the biological hazards associated with uranium-thorium breeder fuels and fuel recycle process solutions. Initial studies emphasize the metabolism and long-term biological effects of inhaled 233U-232U nitrate and oxide fuel materials andof 231Pa, a major, long-lived, radioactive waste product
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Source
Drucker, H.; Pacific Northwest Lab., Richland, WA (USA); p. 83-85; Feb 1983; p. 83-85; Available from NTIS, PC A08/MF A01; 1 as DE83007585
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Report
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BIOLOGICAL RADIATION EFFECTS, CITRATES, DISTRIBUTION, FECES, INHALATION, KIDNEYS, LIVER, LUNG CLEARANCE, LUNGS, METABOLISM, PROTACTINIUM 231, PROTACTINIUM COMPOUNDS, RADIOMETRIC ANALYSIS, RADIONUCLIDE KINETICS, SKELETON, THORIUM CYCLE, TISSUES, TOXICITY, URANIUM 232, URANIUM 233, URANIUM OXIDES, URANYL NITRATES, URINE
ACTINIDE COMPOUNDS, ACTINIDE NUCLEI, ALPHA DECAY RADIOISOTOPES, BIOLOGICAL EFFECTS, BIOLOGICAL MATERIALS, BIOLOGICAL WASTES, BODY, BODY FLUIDS, CARBOXYLIC ACID SALTS, CHALCOGENIDES, CHEMICAL ANALYSIS, CLEARANCE, DIGESTIVE SYSTEM, EVEN-EVEN NUCLEI, EVEN-ODD NUCLEI, EXCRETION, FUEL CYCLE, GLANDS, HEAVY NUCLEI, INTAKE, ISOTOPES, KINETICS, MATERIALS, NITRATES, NITROGEN COMPOUNDS, NUCLEI, ODD-EVEN NUCLEI, ORGANS, OXIDES, OXYGEN COMPOUNDS, PROTACTINIUM ISOTOPES, QUANTITATIVE CHEMICAL ANALYSIS, RADIATION EFFECTS, RADIOISOTOPES, RESPIRATORY SYSTEM, URANIUM COMPOUNDS, URANIUM ISOTOPES, URANYL COMPOUNDS, WASTES, YEARS LIVING RADIOISOTOPES
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