Title of article
A pan-shape transuranic burner core with a low sodium void worth
Author/Authors
Kim، نويسنده , , Sang Ji; Cho، نويسنده , , Nam Zin; Kim، نويسنده , , Young Jin ، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2000
Pages
14
From page
435
To page
448
Abstract
A 1575 MWt transuranic (TRU) burner reactor core with a low sodium void worth has been
developed by devising a pan-shaped active core design. The core consists of two types of fule sub-
assemblies that dier in the height of the fueled regions. This strategy has allowed an extreme
``pancakingʹʹ of the inner core region while the radial dimension increase is limited by placing
longer fuels in the outer core region. The fuel cycle analysis has been performed in the equilibrium
cycle consisting of external feed fuel with reprocessed typical PWR spent fuel and ®ssile makeup
with recycled TRU elements. The neutronic performance characteristics obtained from the equili-
brium cycle analysis show that it would work safely as well as economically as measured in terms
of burnup reactivity swing peak power density Doppler coecient TRU burning and sodium
void worth. The core has relatively low double power peaks in both the inner and outer cores
without enrichment zoning and this enables to make an active core volume smaller. The developed
TRU burner core has been subjected to an extensive parametric study on the reprocessing schemes.
Investigations are given for sodium void worth transmutation capability burnup reactivity swing
and minor actinide (MA) contents. Through this series of study a variant of the TRU burner core
that is aimed at preferentially burning MA has been determined. This MA burner core uses U-235
as well as the homogeneously recycled TRU elements. This MA burner core consumes 140 kg of
MA per year without penalizing the sodium void reactivity observed in the TRU burner core.
Finally the combined introduction of developed TRU and MA burner cores shows the functional
eectiveness of reducing PWR discharged TRU inventory.
Journal title
Annals of Nuclear Energy
Serial Year
2000
Journal title
Annals of Nuclear Energy
Record number
405413
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