On development of in-core fuel system for PWR reactors: Part I generation of macroscopic cross sections using SCALE 6.0 for use in nodal calculation

Autores/as

DOI:

https://doi.org/10.15392/bjrs.v10i1.1738

Palabras clave:

in-core fuel management, PWR, benchmark, SCALE

Resumen

This work presents the description of the first part of a methodology applied to perform In-Core Fuel Management (ICFM) in Pressurized Water Reactor (PWR). The ICFM of a PWR reactor consists on defining the best charging or recharging pattern of fuel assemblies inside a reactor for an operational cycle. This means, finding a suitable arrangement of fuel assemblies that optimizes the performance of the reactor, which complies with all safety criteria. Genetic algorithms (GAs) are used to select the arrangements that interact with the reactor physics simulation code, holding the neutron characteristics of each fuel assembly. Therefore, a reliable and fast code was developed accordingly. The consolidated technique of coarse mesh node code that numerically solves the multigroup diffusion equation for two groups of energy, fast and thermal neutrons, in two dimensions was selected. In this type of code, it is essential that each fuel assembly is homogenized and characterized by its macroscopic cross sections, for each reactor’s burnup condition. The cross sections are generated with the support of SCALE 6.0, computational platform developed by the Reactor and Nuclear Systems Division (RNSD), from the Oak Ridge National Laboratory (ORNL). The completeness of the qualification and validation of the results obtained from the homogenization of the fuel assembly by the SCALE was performed comparing the results with actual data of a benchmark reactor. The fully documented Almaraz Nuclear Power Plant provided by the International Atomic Energy Agency (IAEA)-TECDOC-815, has been used as benchmark with successful results.

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Biografía del autor/a

  • Pedro Henrique Silva Rodrigues, Universidade Federal do ABC
    PhD Student in the Graduate Program on Energy, UFABC, Santo André, Brazil
  • José Rubens Maiorino, Universidade Federal do ABC
    Professor in the Graduate Program on Energy, UFABC, Santo André, Brazil
  • Roberto Asano Júnior, Universidade Federal do ABC
    Researcher in the Graduate Program on Energy, UFABC, Santo André, Brazil 

Referencias

P. J. Turinsky and G. T. Parks, “Advances in Nuclear Fuel Management for Light Water Reactors,” in Advances in Nuclear Science and Technology, Kluwer Academic Publishers, 2002, pp. 137–165. doi: 10.1007/0-306-47088-8_6.

M.L. Jayalal, S.A.V. Satya Murty, and M Sai Baba, “A Survey of Genetic Algorithm Applications in Nuclear Fuel Management,” Journal of Nuclear Engineering & Technology, vol. 4, no. 1, pp. 45–62, 2014.

IAEA, “In-Core Fuel Management Code Package Validation for PWRs / IAEA-TECDOC-815,” Aug. 1995.

S. Pinem, T. M. Sembiring, and T. Surbakti, “Pwr Fuel Macroscopic Cross Section Analysis for Calculation Core Fuel Management Benchmark,” Journal of Physics: Conference Series, vol. 1198, no. 2, p. 22065, Apr. 2019, doi: 10.1088/1742-6596/1198/2/022065.

B. T. Rearden and M. A. S. Jessee, “SCALE Code System - ORNL/TM-2005/39,” 2016.

K. Okumura, T. Kugo, K. Kaneko, and K. Tsuchihashi, “SRAC2006: A comprehensive neutronics calculation code system,” Feb. 2007.

M. D. DeHart, “TRITON: A Two-Dimensional Transport and Depletion Module for Characterization of Spent Nuclear Fuel,” Jan. 2009.

I. C. Gauld, O. W. Hermann, and R. M. Westfall, “ORIGEN-S: SCALE System Module to Calculate Fuel Depletion, Actinide Transmutation, Fission Product Buildup and Decay, and Associated Radiation Source Terms,” Jan. 2009.

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Publicado

2022-02-18

Número

Vol. 10 Núm. 1 (2022)

Sección

Articles

Licencia

Derechos de autor 2022 Brazilian Journal of Radiation Sciences (BJRS)

Creative Commons License

Esta obra está bajo una licencia internacional Creative Commons Atribución 4.0.

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Cómo citar

On development of in-core fuel system for PWR reactors: Part I generation of macroscopic cross sections using SCALE 6.0 for use in nodal calculation. Brazilian Journal of Radiation Sciences (BJRS), Rio de Janeiro, Brazil, v. 10, n. 1, 2022. DOI: 10.15392/bjrs.v10i1.1738. Disponível em: https://bjrs.org.br/revista/index.php/REVISTA/article/view/1738. Acesso em: 17 jul. 2025.