Oxidation of Spent Fuel During Fuel Handling Accidents Test Plan

Jason M. Harp; Andrew T. Nelson

doi:10.2172/1606891

Oxidation of Spent Fuel During Fuel Handling Accidents Test Plan

Jason M. Harp, Andrew T. Nelson

Advanced Fuel Fabrication and Instrument

Research output: Other contribution › Technical Report

Abstract

The transfer of commercial spent nuclear fuel (CSNF) from transport or dry storage cask into final repository cask represents a scenario where fuel elements are potentially at risk to exposure to air and elevated temperatures. In the event of an accident during handling operations, the facility cooling may cease to function, and the temperature of the fuel would begin to rise due to decay heat generation. CSNF is generally stored in an inert environment, but handling operations could be performed in an air environment. If any damaged fuel elements are present during this postulated accident the fuel could begin to oxidize from UO₂ to U₃O₈. If the oxidation event is severe, volume expansion from oxidation could result in large-scale cladding failure and large releases of CSNF debris into the transfer facility. Depending on the design of the fuel handling facility, any SNF release could have an impact on off-site dose.

Original language	English
Place of Publication	United States
DOIs	https://doi.org/10.2172/1606891
State	Published - 2019

Keywords

11 NUCLEAR FUEL CYCLE AND FUEL MATERIALS
12 MANAGEMENT OF RADIOACTIVE AND NON-RADIOACTIVE WASTES FROM NUCLEAR FACILITIES

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10.2172/1606891

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title = "Oxidation of Spent Fuel During Fuel Handling Accidents Test Plan",

abstract = "The transfer of commercial spent nuclear fuel (CSNF) from transport or dry storage cask into final repository cask represents a scenario where fuel elements are potentially at risk to exposure to air and elevated temperatures. In the event of an accident during handling operations, the facility cooling may cease to function, and the temperature of the fuel would begin to rise due to decay heat generation. CSNF is generally stored in an inert environment, but handling operations could be performed in an air environment. If any damaged fuel elements are present during this postulated accident the fuel could begin to oxidize from UO2 to U3O8. If the oxidation event is severe, volume expansion from oxidation could result in large-scale cladding failure and large releases of CSNF debris into the transfer facility. Depending on the design of the fuel handling facility, any SNF release could have an impact on off-site dose.",

keywords = "11 NUCLEAR FUEL CYCLE AND FUEL MATERIALS, 12 MANAGEMENT OF RADIOACTIVE AND NON-RADIOACTIVE WASTES FROM NUCLEAR FACILITIES",

author = "Harp, \{Jason M.\} and Nelson, \{Andrew T.\}",

year = "2019",

doi = "10.2172/1606891",

language = "English",

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T1 - Oxidation of Spent Fuel During Fuel Handling Accidents Test Plan

AU - Harp, Jason M.

AU - Nelson, Andrew T.

PY - 2019

Y1 - 2019

N2 - The transfer of commercial spent nuclear fuel (CSNF) from transport or dry storage cask into final repository cask represents a scenario where fuel elements are potentially at risk to exposure to air and elevated temperatures. In the event of an accident during handling operations, the facility cooling may cease to function, and the temperature of the fuel would begin to rise due to decay heat generation. CSNF is generally stored in an inert environment, but handling operations could be performed in an air environment. If any damaged fuel elements are present during this postulated accident the fuel could begin to oxidize from UO2 to U3O8. If the oxidation event is severe, volume expansion from oxidation could result in large-scale cladding failure and large releases of CSNF debris into the transfer facility. Depending on the design of the fuel handling facility, any SNF release could have an impact on off-site dose.

AB - The transfer of commercial spent nuclear fuel (CSNF) from transport or dry storage cask into final repository cask represents a scenario where fuel elements are potentially at risk to exposure to air and elevated temperatures. In the event of an accident during handling operations, the facility cooling may cease to function, and the temperature of the fuel would begin to rise due to decay heat generation. CSNF is generally stored in an inert environment, but handling operations could be performed in an air environment. If any damaged fuel elements are present during this postulated accident the fuel could begin to oxidize from UO2 to U3O8. If the oxidation event is severe, volume expansion from oxidation could result in large-scale cladding failure and large releases of CSNF debris into the transfer facility. Depending on the design of the fuel handling facility, any SNF release could have an impact on off-site dose.

KW - 11 NUCLEAR FUEL CYCLE AND FUEL MATERIALS

KW - 12 MANAGEMENT OF RADIOACTIVE AND NON-RADIOACTIVE WASTES FROM NUCLEAR FACILITIES

U2 - 10.2172/1606891

DO - 10.2172/1606891

M3 - Technical Report

CY - United States

ER -

Oxidation of Spent Fuel During Fuel Handling Accidents Test Plan

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Keywords

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