- 作者:Juan-André ; s Lozano ; Nuria Garcí ; a-Herranz ; Carol Ahnert ; José ; -Marí ; a Aragoné ; s
- 刊名:Annals of Nuclear Energy
- 出版年:2008
- 出版时间:December 2008
- 年:2008
- 卷:35
- 期:12
- 页码:2365-2374
- 全文大小:510 K
The details about the generalization to multigroups and 3D, as well as the implementation of the method are given. The transverse integration procedure is the scheme chosen to extend the ACMFD formulation to multidimensional problems. The role of the transverse leakage treatment in the accuracy of the nodal solutions is analyzed in detail: the involved assumptions, the limitations of the method in terms of nodal width, the alternative approaches to implement the transverse leakage terms in nodal methods – implicit or explicit −, and the error assessment due to transverse integration. A new approach for solving the control rod “cusping” problem, based on the direct application of the ACMFD method, is also developed and implemented in ANDES.
The solver architecture turns ANDES into an user-friendly, modular and easily linkable tool, as required to be integrated into common software platforms for multi-scale and multi-physics simulations. ANDES can be used either as a stand-alone nodal code or as a solver to accelerate the convergence of whole core pin-by-pin code systems. The verification and performance of the solver are demonstrated using both proof-of-principle test cases and well-referenced international benchmarks.