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Exponential Time Differencing Schemes for Fuel Depletion and Transport in Molten Salt Reactors: Theory and Implementation

Zack Taylor, Benjamin S. Collins, G. Ivan Maldonado

Nuclear Science and Engineering / Volume 196 / Number 5 / May 2022 / Pages 497-525

Technical Paper / dx.doi.org/10.1080/00295639.2021.1996197

Received:July 15, 2021
Accepted:October 11, 2021
Published:March 28, 2022

A numerical framework for modeling depletion and mass transport in liquid-fueled molten salt reactions is presented based on exponential time differencing. The solution method involves using the finite volume method to transform the system of partial differential equations (PDEs) into a much larger system of ordinary differential equations. The key part of this method involves solving for the exponential of a matrix. We explore six different algorithms to compute the exponential in a series of progression problems that explore physical transport phenomena in molten salt reactors. This framework shows good results for solving linear parabolic PDEs with each of the six matrix exponential algorithms. For large problems, the series solvers such as Padé and Taylor have large run times, which can be mitigated by using the Krylov subspace.