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AbstractAbstract
[en] Analyses were performed using the US Advanced Liquid Metal Reactor (ALMR) core design to determine the feasibility of using it as an 99Tc burner while reducing the sodium-void coefficient. A layer of 99Tc of variable thickness was inserted around the core midplane in Rows 2 through 5 and all blanket assemblies were replaced with fuel assemblies. The results indicate that a core with a 34-cm-thick layer in Rows 2 through 5 has the optimum characteristics of sodium-void coefficient, 99Tc destruction rate, and fuel enrichment
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Jun 1993; 13 p; Global '93: international conference and technology exhibition; Seattle, WA (United States); 12-17 Sep 1993; CONF-9309151--5; CONTRACT AC06-87RL10930; Also available from OSTI as DE93016827; NTIS; US Govt. Printing Office Dep
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Report
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Conference
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BETA DECAY RADIOISOTOPES, BETA-MINUS DECAY RADIOISOTOPES, ENERGY SOURCES, EVALUATION, FUELS, HOURS LIVING RADIOISOTOPES, INTERMEDIATE MASS NUCLEI, INTERNAL CONVERSION RADIOISOTOPES, ISOMERIC TRANSITION ISOTOPES, ISOTOPES, MATERIALS, NUCLEI, ODD-EVEN NUCLEI, RADIOISOTOPES, REACTIVITY COEFFICIENTS, REACTOR COMPONENTS, REACTOR MATERIALS, REACTORS, TECHNETIUM ISOTOPES, YEARS LIVING RADIOISOTOPES
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