MATRIX EXPONENTIAL METHODS FOR PARALLEL COMPUTING OF ISOTOPIC DEPLETION AND SPECIES TRANSPORT FOR MOLTEN SALT REACTOR ANALYSIS

Taylor Zack; Collins Benjamin; Maldonado Ivan

doi:10.1051/epjconf/202124706047

EPJ Web of Conferences (Jan 2021)

MATRIX EXPONENTIAL METHODS FOR PARALLEL COMPUTING OF ISOTOPIC DEPLETION AND SPECIES TRANSPORT FOR MOLTEN SALT REACTOR ANALYSIS

Taylor Zack,
Collins Benjamin,
Maldonado Ivan

Affiliations

Taylor Zack: University of Tennessee, Knoxville Circle Park Dr Knoxville
Collins Benjamin: Oak Ridge National Laboratory
Maldonado Ivan: University of Tennessee, Knoxville Circle Park Dr Knoxville

DOI: https://doi.org/10.1051/epjconf/202124706047
Journal volume & issue: Vol. 247
p. 06047

Abstract

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Matrix exponential methods have long been utilized for isotopic depletion in nuclear fuel calculations. In this paper we discuss the development of such methods in addition to species transport for liquid fueled molten salt reactors (MSRs). Conventional nuclear reactors work with fixed fuel assemblies in which fission products and fissile material do not transport throughout the core. Liquid fueled molten salt reactors work in a much different way, allowing for material to transport throughout the primary reactor loop. Because of this, fission product transport must be taken into account. The set of partial differential equations that apply are discretized into systems of first order ordinary differential equations (ODEs). The exact solution to the set of ODEs is herein being estimated using the matrix exponential method known as the Chebychev Rational Approximation Method (CRAM).

Published in EPJ Web of Conferences

ISSN: 2100-014X (Online)
Publisher: EDP Sciences
Country of publisher: France
LCC subjects: Science: Physics
Website: http://www.epj-conferences.org/

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