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Domain decomposition methods for the neutron diffusion problem

Author

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  • Guérin, Pierre
  • Baudron, Anne-Marie
  • Lautard, Jean-Jacques

Abstract

The neutronic simulation of a nuclear reactor core is performed using the neutron transport equation, and leads to an eigenvalue problem in the steady-state case. Among the deterministic resolution methods, simplified transport (SPN) or diffusion approximations are often used. The MINOS solver developed at CEA Saclay uses a mixed dual finite element method for the resolution of these problems, and has shown his efficiency. In order to take into account the heterogeneities of the geometry, a very fine mesh is generally required, and leads to expensive calculations for industrial applications. In order to take advantage of parallel computers, and to reduce the computing time and the local memory requirement, we propose here two domain decomposition methods based on the MINOS solver. The first approach is a component mode synthesis method on overlapping subdomains: several eigenmodes solutions of a local problem on each subdomain are taken as basis functions used for the resolution of the global problem on the whole domain. The second approach is an iterative method based on a non-overlapping domain decomposition with Robin interface conditions. At each iteration, we solve the problem on each subdomain with the interface conditions given by the solutions on the adjacent subdomains estimated at the previous iteration. Numerical results on parallel computers are presented for the diffusion model on realistic 2D and 3D cores.

Suggested Citation

  • Guérin, Pierre & Baudron, Anne-Marie & Lautard, Jean-Jacques, 2010. "Domain decomposition methods for the neutron diffusion problem," Mathematics and Computers in Simulation (MATCOM), Elsevier, vol. 80(11), pages 2159-2167.
  • Handle: RePEc:eee:matcom:v:80:y:2010:i:11:p:2159-2167
    DOI: 10.1016/j.matcom.2010.04.009
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