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In Honor of Nobel Laureate Dr. Avram Hershko
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SIPS 2024 takes place from October 20 - 24, 2024 at the Out of the Blue Resort in Crete, Greece

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More than 500 abstracts submitted from over 50 countries


Featuring many Nobel Laureates and other Distinguished Guests

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Oral Presentations


SESSION:
CompositeMonPM3-R8
Monteiro International Symposium on Composite, Ceramic & Nano Materials Processing, Characterization & Applications (10th Intl. Symp.)
Mon. 21 Oct. 2024 / Room: Ariadni B
Session Chairs: Afonso Rangel Garcez De Azevedo; Henry Alonso Colorado Lopera; Student Monitors: TBA

16:45: [CompositeMonPM311] OS
COMPARATIVE CRITICALITY ASSESSMENT OF A HYPOTHETICAL FUEL ELEMENT WITH 316 STAINLESS STEEL-CLAD RODS DOPED WITH SiC THROUGH COMPUTATIONAL SIMULATION: AN UPDATED ANALYSIS
Ary Machado De Azevedo1; Thomaz Jacintho Lopes2; Sergio Monteiro1; Marcos Paulo Cavaliere de Medeiros1; Fernando Manuel Araújo Moreira1; André Ben-Hur Da Silva Figueiredo1
1Military Institute of Engineering, Rio de Janeiro, Brazil; 2Military Institute of Engineering, Duque de Caxias, Brazil
Paper ID: 219 [Abstract]

This study explored the influence of incorporating silicon carbide (SiC) nanoparticles into Stainless Steel 316 on the performance of nuclear fuel using computational simulations with the MCNP5 software[1]. The findings revealed that the introduction of SiC had minimal impact on the effective multiplication factor (keff), suggesting that this modification could be a viable approach to enhancing fuel characteristics without compromising efficacy[2-3]]. Furthermore, the integration of SiC could provide added advantages such as improved thermal stability and resistance to corrosion. These results underscore the potential of SiC as a promising additive for enhancing the safety and efficiency of nuclear fuel elements in reactors, opening avenues for future advancements and research in nuclear energy[4-5]. The results for the effective multiplication factor (keff) with a rod coated and doped with 10% SiC showed keff = 1.12759 ± 0.00064. Compared to the undoped reference value of keff = 1.12086 ± 0.00064, there is a relative increase in criticality of approximately 0.6%. The computational simulation using MCNP5 with kcode provided a detailed analysis of nuclear fuel criticality. The data indicate that doping Stainless Steel 316 with SiC nanoparticles increased the effective multiplication factor (keff) by about 0.6%. This suggests that adding SiC significantly affects neutron production, which is crucial for the safety and efficiency of nuclear reactors[6]. These results point to potential improvements in nuclear fuel performance. Including SiC may offer additional benefits such as greater thermal stability, corrosion resistance, and reduced deformation, contributing to the safety and longevity of fuel elements[7-8]. Moreover, maintaining energy production without compromising neutron efficiency is promising, allowing for advancements in the materials used in nuclear reactor construction. Therefore, the neutron results obtained in this simulation highlight SiC's potential as an effective additive to enhance nuclear fuel properties, paving the way for future research and developments in nuclear energy.

References:
[1] MURTY, K. Linga; CHARIT, Indrajit. Structural materials for Gen-IV nuclear reactors: Challenges and opportunities. Journal of nuclear materials, v. 383, n. 1-2, p. 189-195, 2008.
[2] LAMARSH, John R. et al. Introduction to nuclear engineering. Upper Saddle River, NJ: Prentice hall, 2001.
[3] DUDERSTADT, James J.; HAMILTON, Louis J. Nuclear reactor analysis. Wiley, 1976.
[4] PETTERSSON, Kjell et al. Nuclear fuel behaviour in loss-of-coolant accident (LOCA) conditions. 2009.
[5] OZBEN, Tamer; KILICKAP, Erol; CAKIR, Orhan. Investigation of mechanical and machinability properties of SiC particle reinforced Al-MMC. Journal of materials processing technology, v. 198, n. 1-3, p. 220-225, 2008.
[6] AKBARPOUR, M. R. et al. Microstructural development and mechanical properties of nanostructured copper reinforced with SiC nanoparticles. Materials Science and Engineering: A, v. 568, p. 33-39, 2013.
[7] ISHIKAWA, Kyohei et al. Effect of Molybdenum Content on the Hardenability and Precipitation Behaviors of Boron Steel Austenitized at High Temperatures. ISIJ International, v. 64, n. 5, p. 847-858, 2024.
[8] PINEM, Surian; SEMBIRING, Tagor Malem; SURBAKTI, Tukiran. Neutronic parameters analysis of a PWR fuel element using silicon carbide claddings with SRAC2006/NODAL3 codes. In: AIP Conference Proceedings. AIP Publishing, 2019.


17:25 POSTERS/EXHIBITION - Ballroom Foyer