Development of an Adjoint Flux Calculation Technique for Exact Perturbation Theory in Monte Carlo Code MCS

Yunki Jo; Deokjung Lee

doi:10.1051/epjconf/202430210003

All issues

Volume 302 (2024)

EPJ Web Conf., 302 (2024) 10003

Abstract

Open Access

Issue		EPJ Web Conf. Volume 302, 2024 Joint International Conference on Supercomputing in Nuclear Applications + Monte Carlo (SNA + MC 2024)


Article Number		10003
Number of page(s)		10
Section		Sensitivity Analysis
DOI		https://doi.org/10.1051/epjconf/202430210003
Published online		15 October 2024

EPJ Web of Conferences 302, 10003 (2024)
https://doi.org/10.1051/epjconf/202430210003

Development of an Adjoint Flux Calculation Technique for Exact Perturbation Theory in Monte Carlo Code MCS

Yunki Jo¹ and Deokjung Lee¹^,2^*

¹ Department of Nuclear Engineering, Ulsan National Institute of Science and Technology, 50 UNIST-gil, Eonyang-eup, Ulju-gun, Ulsan, 44919, Republic of Korea
² Advanced Nuclear Technology and Services, 406-21 Jonga-ro, Jung-gu, Ulsan, 44429, Republic of Korea

^* Corresponding author: deokjung@unist.ac.kr

Published online: 15 October 2024

Abstract

A calculation technique computing the adjoint flux of perturbed system is developed for the exact perturbation theory in Monte Carlo transport. By using a correlated sampling and iterated fission probability methods together, the adjoint flux of perturbed system is calculated during a forward Mote Carlo simulation of an unperturbed system. In the method, no additional particle simulation is required to compute the adjoint flux of perturbed system. The exact perturbation method is implemented in the Monte Carlo code MCS. The results of perturbation method for k-eigenvalue change are compared against differential operator sampling, adjoint-weighted perturbation, and direct perturbation methods for the Godiva benchmark and PLUS7 fuel assembly.

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