ACCELERATION OF A 2-DIMENSIONAL, 2-ENERGY GROUP NEUTRON NOISE SOLVER BASED ON A DISCRETE ORDINATES METHOD IN THE FREQUENCY DOMAIN

Huaiqian Yi; Paolo Vinai; Christophe Demazière

doi:10.1051/epjconf/202124721005

All issues

Volume 247 (2021)

EPJ Web Conf., 247 (2021) 21005

Abstract

Open Access

Issue		EPJ Web Conf. Volume 247, 2021 PHYSOR2020 – International Conference on Physics of Reactors: Transition to a Scalable Nuclear Future


Article Number		21005
Number of page(s)		8
Section		CORTEX
DOI		https://doi.org/10.1051/epjconf/202124721005
Published online		22 February 2021

EPJ Web of Conferences 247, 21005 (2021)
https://doi.org/10.1051/epjconf/202124721005

ACCELERATION OF A 2-DIMENSIONAL, 2-ENERGY GROUP NEUTRON NOISE SOLVER BASED ON A DISCRETE ORDINATES METHOD IN THE FREQUENCY DOMAIN

Huaiqian Yi, Paolo Vinai and Christophe Demazière

Chalmers University of Technology, Department of Physics, Division of Subatomic and Plasma Physics, 412 96 Gothenburg, Sweden

huaiqian@chalmers.se
vinai@chalmers.se
demaz@chalmers.se

Published online: 22 February 2021

Abstract

The acceleration of the convergence rate is studied for a neutron transport solver to simulate 2-D, 2-energy-group neutron noise problems in the frequency domain. The Coarse Mesh Finite Difference (CMFD) method is compared to the Diffusion Synthetic Acceleration (DSA) method. Numerical tests are performed using heterogeneous system configurations with different boundary conditions. The CMFD scheme leads to a better convergence rate. The results also show that CMFD can accelerate neutron noise problems in a wide range of perturbation frequencies with almost equal efficiency. An unstable convergence behavior is nevertheless observed in problems with purely reflective boundary conditions. Stabilization techniques such as performing multiple transport sweeps, underrelaxing the flux update, and using the lpCMFD method are investigated and improvements can be obtained.

Key words: Reactor neutron noise / discrete ordinates / CMFD

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