Development, verification, and validation of the parallel transport code AZTRAN

AZTRAN is a 3D parallel SN neutron transport code developed for the AZTLAN Platform project, an initiative devoted to developing a Mexican platform for analysis and design of nuclear reactors. AZTRAN solves the multi-group discrete-ordinates form of the neutron transport equation in 3D Cartesian geo...

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Bibliographic Details
Published in:Progress in nuclear energy (New series) 2021-07, Vol.137, p.103792, Article 103792
Main Authors: Duran-Gonzalez, Julian, del Valle-Gallegos, Edmundo, Reyes-Fuentes, Melisa, Gomez-Torres, Armando, Xolocostli-Munguia, Vicente
Format: Article
Language:English
Subjects:
3-D printers
3-D technology
C5G7 benchmarks
Cartesian coordinates
Discrete-ordinates code
Domain decomposition methods
Neutron transport code
Neutrons
Nuclear reactors
Numerical analysis
Parallel code with domain decomposition
Studies
Transport equations
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Summary:AZTRAN is a 3D parallel SN neutron transport code developed for the AZTLAN Platform project, an initiative devoted to developing a Mexican platform for analysis and design of nuclear reactors. AZTRAN solves the multi-group discrete-ordinates form of the neutron transport equation in 3D Cartesian geometry applying the nodal RTN-0 method and the domain decomposition method for its parallelization. To verify and start the validation process, the C5G7 MOX Benchmarks were used. The accuracy of the serial solver was demonstrated by comparing the numerical results of the keff and normalized pin powers with the reference solutions. Excellent agreement and good consistency were obtained, showing errors reduce as the spatial and angular discretizations refine. The parallel implementation is also demonstrated. The speed-up is significant as the number of processors increases without losing quality in the numerical results and reaching efficiencies over 80% in the 2D cases and 85% in the 3D cases. •AZTRAN is a transport parallel code based on discrete ordinates and domain decomposition.•Verification of AZTRAN code is done by means of C5G7 Benchmarks.•Very good performance of the parallelization implemented in AZTRAN is demonstrated.
ISSN:0149-1970
1878-4224
DOI:10.1016/j.pnucene.2021.103792