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An Advanced One-Dimensional Finite Element Model for Incompressible Thermally Expandable Flow

Rui Hu

Nuclear Technology / Volume 190 / Number 3 / June 2015 / Pages 313-322

Technical Paper / Thermal Hydraulics / dx.doi.org/10.13182/NT14-78

First Online Publication:April 16, 2015
Updated:June 1, 2015

This paper provides an overview of a new one-dimensional finite element flow model for incompressible but thermally expandable flow. The flow model was developed for use in system analysis tools for whole-plant safety analysis of sodium fast reactors. Although the pressure-based formulation was implemented, the use of integral equations in the conservative form ensured the conservation laws of the fluid. A stabilization scheme based on streamline-upwind/Petrov-Galerkin and pressure-stabilizing/Petrov-Galerkin formulations is also introduced. The flow model and its implementation have been verified by many test problems, including density wave propagation, steep gradient problems, discharging between tanks, and the conjugate heat transfer in a heat exchanger.