Core Reactor Calculation Using the Adaptive Remeshing with a Current Error Estimator


Autoria(s): JOSPIN, Reinaldo Jacques; AGHINA, Luiz Osório; HENDRIKX, Martijn W.; NERY, Domingos Eugênio de Sá
Data(s)

06/09/2016

06/09/2016

2007

Resumo

With the objective to improve the reactor physics calculation on a 2D and 3D nuclear reactor via the Diffusion Equation, an adaptive automatic finite element remeshing method, based on the elementary area (2D) or volume (3D) constraints, has been developed. The adaptive remeshing technique, guided by a posteriori error estimator, makes use of two external mesh generator programs: Triangle and TetGen. The use of these free external finite element mesh generators and an adaptive remeshing technique based on the current field continuity show that they are powerful tools to improve the neutron flux distribution calculation and by consequence the power solution of the reactor core even though they have a minor influence on the critical coefficient of the calculated reactor core examples. Two numerical examples are presented: the 2D IAEA reactor core numerical benchmark and the 3D model of the Argonauta research reactor, built in Brasil.

Identificador

http://carpedien.ien.gov.br:8080/handle/ien/1807

Idioma(s)

eng

Publicador

Instituto de Engenharia Nuclear

Brasil

IEN

Direitos

openAccess

Palavras-Chave #Core Reactor #Remeshing Technique
Tipo

conferenceObject