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Title: A Pressurized Water Reactor Plutonium Incinerator Based on Thorium Fuel and Seed-Blanket Assembly Geometry

Journal Article · · Nuclear Technology
OSTI ID:20822215
 [1];  [1];  [2]
  1. Ben-Gurion University of the Negev (Israel)
  2. Brookhaven National Laboratory (United States)
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A pressurized water reactor (PWR) fuel cycle is proposed, whose purpose is the elimination and degradation of weapons-grade plutonium. This Radkowsky thorium-fuel Pu incinerator (RTPI) cycle is based on a core and assemblies retrofittable to a Westinghouse-type PWR. The RTPI assembly, however, is a seed-blanket unit. The seed is supercritical, loaded with Pu-Zr alloy as fuel in a high moderator-to-fuel ratio configuration. The blanket is subcritical, loaded mainly with ThO{sub 2}, generating and burning {sup 233}U in situ. Blankets are loaded once every 6 yr. The seed fuel management scheme is based on three batches, with one-third of the seed modules replaced every year. The core generates 1100 MW(electric). Equilibrium conditions are achieved with the second seed loading. For equilibrium conditions, the annual average of disposed (loaded) Pu is 1210 kg, of which 702 kg are completely eliminated, and 508 kg are discharged, but with significantly degraded isotopics (i.e., with a high percentage of even mass isotopes). Spontaneous fissions per second in a gram of this degraded Pu are {approx}500, resulting in significantly increased proliferation resistance.Every 6 yr the blanket discharge contains 780 kg of {sup 233}U (including {sup 233}Pa) and 36 kg of {sup 235}U. However, the blankets are initially loaded with an amount of natural uranium selected such that these U fissile isotopes constitute only 12% of the total U discharge, a percentage equivalent to 20% {sup 235}U enrichment; hence, both the discharged uranium isotopics satisfy proliferation-resistant criteria.The RTPI control variables, namely, the moderator temperature coefficient, the reactivity per ppm boron, and the control rods worth, are about equal to those of a PWR. The RTPI spent-fuel stockpile ingestion toxicity over a period of ten million years is about the same as the counterpart toxicities of a regular, or a mixed-oxide (MOX), PWR. Compared with known PWR MOX variants, the RTPI is, per 1000 MW(electric) and per annum, a significantly more efficient incinerator of weapons-grade plutonium.

OSTI ID:
20822215
Journal Information:
Nuclear Technology, Vol. 132, Issue 2; Other Information: Copyright (c) 2006 American Nuclear Society (ANS), United States, All rights reserved. http://epubs.ans.org/; Country of input: International Atomic Energy Agency (IAEA); ISSN 0029-5450
Country of Publication:
United States
Language:
English

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Related Subjects

11 NUCLEAR FUEL CYCLE AND FUEL MATERIALS
BORON
CONTROL ROD WORTHS
EQUILIBRIUM
FUEL CYCLE
FUEL MANAGEMENT
MODERATORS
NATURAL URANIUM
PLUTONIUM
PROTACTINIUM 233
PWR TYPE REACTORS
REACTIVITY
SPENT FUELS
SPONTANEOUS FISSION
TEMPERATURE COEFFICIENT
THORIUM
THORIUM OXIDES
TOXICITY
URANIUM 233
URANIUM 235
WEAPONS