Determining PGAA collimator plug design using Monte Carlo simulation

Determining PGAA collimator plug design using Monte Carlo simulation

The aim of this work is to help inform the decision for choosing a convenient material for the PGAA (Prompt Gamma Activation Analysis) collimator plug to be installed at the tangential channel of the Moroccan Triga Mark II Research Reactor. Two families of materials are usually used for collimator c...

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Main Authors: A. Jalil, A. Chetaine, H. Amsil, K. Embarch, A. Benchrif, K. Laraki, H. Marah
Format: Article
Language:English
Published: Elsevier 2021-03-01
Series:Nuclear Engineering and Technology
Subjects:
Neutron
Gamma rays
Prompt gamma activation analysis
Lead
Carbon steel
Collimator
Online Access:http://www.sciencedirect.com/science/article/pii/S1738573320308354
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spelling doaj-0c591e5d991f402d80e0d4c134e932132021-03-03T04:20:54ZengElsevierNuclear Engineering and Technology1738-57332021-03-01533942948Determining PGAA collimator plug design using Monte Carlo simulationA. Jalil0A. Chetaine1H. Amsil2K. Embarch3A. Benchrif4K. Laraki5H. Marah6Mohammed V University of Rabat, Rabat, Morocco; Corresponding author.Mohammed V University of Rabat, Rabat, MoroccoNuclear Centre of Energy, Science and Nuclear Techniques, MoroccoNuclear Centre of Energy, Science and Nuclear Techniques, MoroccoNuclear Centre of Energy, Science and Nuclear Techniques, MoroccoNuclear Centre of Energy, Science and Nuclear Techniques, MoroccoNuclear Centre of Energy, Science and Nuclear Techniques, MoroccoThe aim of this work is to help inform the decision for choosing a convenient material for the PGAA (Prompt Gamma Activation Analysis) collimator plug to be installed at the tangential channel of the Moroccan Triga Mark II Research Reactor. Two families of materials are usually used for collimator construction: a mixture of high-density polyethylene (HDPE) with boron, which is commonly used to moderate and absorb neutrons, and heavy materials, either for gamma absorption or for fast neutron absorption. An investigation of two different collimator designs was performed using N-Particle Monte Carlo MCNP6.2 code with the ENDF/B-VII.1 and MCLIP84 libraries. For each design, carbon steel and lead materials were used separately as collimator heavy materials. The performed study focused on both the impact on neutron beam quality and the neutron–gamma background at the exit of the collimator beam tube. An analysis and assessment of the principal findings is presented in this paper, as well as recommendations.http://www.sciencedirect.com/science/article/pii/S1738573320308354NeutronGamma raysPrompt gamma activation analysisLeadCarbon steelCollimator
collection DOAJ
language English
format Article
sources DOAJ
author A. Jalil
A. Chetaine
H. Amsil
K. Embarch
A. Benchrif
K. Laraki
H. Marah
spellingShingle A. Jalil
A. Chetaine
H. Amsil
K. Embarch
A. Benchrif
K. Laraki
H. Marah
Determining PGAA collimator plug design using Monte Carlo simulation
Nuclear Engineering and Technology
Neutron
Gamma rays
Prompt gamma activation analysis
Lead
Carbon steel
Collimator
author_facet A. Jalil
A. Chetaine
H. Amsil
K. Embarch
A. Benchrif
K. Laraki
H. Marah
author_sort A. Jalil
title Determining PGAA collimator plug design using Monte Carlo simulation
title_short Determining PGAA collimator plug design using Monte Carlo simulation
title_full Determining PGAA collimator plug design using Monte Carlo simulation
title_fullStr Determining PGAA collimator plug design using Monte Carlo simulation
title_full_unstemmed Determining PGAA collimator plug design using Monte Carlo simulation
title_sort determining pgaa collimator plug design using monte carlo simulation
publisher Elsevier
series Nuclear Engineering and Technology
issn 1738-5733
publishDate 2021-03-01
description The aim of this work is to help inform the decision for choosing a convenient material for the PGAA (Prompt Gamma Activation Analysis) collimator plug to be installed at the tangential channel of the Moroccan Triga Mark II Research Reactor. Two families of materials are usually used for collimator construction: a mixture of high-density polyethylene (HDPE) with boron, which is commonly used to moderate and absorb neutrons, and heavy materials, either for gamma absorption or for fast neutron absorption. An investigation of two different collimator designs was performed using N-Particle Monte Carlo MCNP6.2 code with the ENDF/B-VII.1 and MCLIP84 libraries. For each design, carbon steel and lead materials were used separately as collimator heavy materials. The performed study focused on both the impact on neutron beam quality and the neutron–gamma background at the exit of the collimator beam tube. An analysis and assessment of the principal findings is presented in this paper, as well as recommendations.
topic Neutron
Gamma rays
Prompt gamma activation analysis
Lead
Carbon steel
Collimator
url http://www.sciencedirect.com/science/article/pii/S1738573320308354
work_keys_str_mv AT ajalil determiningpgaacollimatorplugdesignusingmontecarlosimulation
AT achetaine determiningpgaacollimatorplugdesignusingmontecarlosimulation
AT hamsil determiningpgaacollimatorplugdesignusingmontecarlosimulation
AT kembarch determiningpgaacollimatorplugdesignusingmontecarlosimulation
AT abenchrif determiningpgaacollimatorplugdesignusingmontecarlosimulation
AT klaraki determiningpgaacollimatorplugdesignusingmontecarlosimulation
AT hmarah determiningpgaacollimatorplugdesignusingmontecarlosimulation
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