Analysis of Double-encapsulated Fuel Rods

Hales, Jason Dean; Medvedev, Pavel G; Novascone, Stephen Rhead; Perez, Danielle Marie; Williamson, Richard L

Title: Analysis of Double-encapsulated Fuel Rods

Conference · Mon Sep 01 00:00:00 EDT 2014

OSTI ID:1236814

Hales, Jason Dean ^[1]; Medvedev, Pavel G ^[1]; Novascone, Stephen Rhead ^[1]; Perez, Danielle Marie ^[1]; Williamson, Richard L ^[1]

Idaho National Laboratory

In an LWR fuel rod, the cladding encapsulates the fuel, contains fission products, and transfers heat directly to the water coolant. In some situations, it may be advantageous to separate the cladding from the coolant through use of a secondary cladding or capsule. This may be done to increase confidence that the fuel or fission products will not mix with the coolant, to provide a mechanism for controlling the rod temperature, or to place multiple experimental rodlets within a single housing. With an axisymmetric assumption, it is possible to derive closed-form expressions for the temperature profile in a fuel rod using radially-constant thermal conductivity in the fuel. This is true for both a traditional fuel-cladding rod and a double-encapsulated fuel (fuel, cladding, capsule) configuration. Likewise, it is possible to employ a fuel performance code to analyse both a traditional and a double-encapsulated fuel. In the case of the latter, two sets of gap heat transfer conditions must be imposed. In this work, we review the equations associated with radial heat transfer in a cylindrical system, present analytic and computational results for a postulated power and gas mixture history for IFA-744, and describe the analysis of the AFC-2A, 2B metallic fuel alloy experiments at the Advanced Test Reactor, including the effect of a release of fission products into the cladding-capsule gap. The computational results for these two cases were obtained using BISON, a fuel performance code under development at Idaho National Laboratory.

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Research Organization:: Idaho National Lab. (INL), Idaho Falls, ID (United States)

Sponsoring Organization:: USDOE Office of Nuclear Energy (NE)

DOE Contract Number:: AC07-05ID14517

OSTI ID:: 1236814

Report Number(s):: INL/CON-14-32155

Resource Relation:: Conference: Enlarged Halden Programme Group Meeting 2014, Roros, Norway, 9/7/2014 - 9/12/2014

Country of Publication:: United States

Language:: English

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