The design and optimization of a radiation shield for the Tehran Research Reactor's neutron diffraction facility

• Published in: Progress in nuclear energy (New series) Vol. 148; p. 104224
• Main Authors: Menarebazari, Z. Aslani, Jafari, H., Gholamzadeh, Z., Bavarnegin, E., Siavoshi Fakhr, F.
• Format: Journal Article
• Language: English
• Published: Oxford Elsevier Ltd 01.06.2022; Elsevier BV
• Subjects: Atoms & subatomic particles; Design optimization; Dosage; Dose rate; Gamma rays; Iron; MCNPX; Moderators; Monte Carlo simulation; Neutron diffraction; Neutron diffractometry; Neutron shield; Neutrons; Nuclear reactors; Paraffins; Photon shield; Radiation transport; TRR; Neutron diffractometry; Neutron shield; MCNPX; TRR; Dose rate; Photon shield
• ISSN: 0149-1970; 1878-4224
• DOI: 10.1016/j.pnucene.2022.104224

In this paper, a novel optimal radiation shield for the Tehran research reactor's neutron powder diffraction facility was designed to reduce undesirable neutron and gamma dose rates. A layer-by-layer methodology was considered based on the design approach to achieve a dose rate of less than 30 μSv/hr. MCNPX was used for this purpose as a Monte Carlo radiation transport code. A combination of neutron and gamma absorbers and moderators was employed to create this shield. The results indicated that the shield's six distinct layers met the design objective, totaling 65 cm in thickness. This newly designed shield comprises 15 cm paraffin, 15 cm Portland iron concrete, another 15 cm paraffin, 5 cm solid boric acid, another 10 cm Portland iron concrete, and 10 cm lead. The neutron and photon dose rates are 9.35 and 12.81 μSv/hr, respectively, which is one-sixteenth and one-third of the current facility shield. Validation of the simulation was accomplished by comparing the results for the current shield to experimental data.