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Mitigation of PWR fuel assembly vibrations using bio-inspired nozzles

Ibrahim Gad-el-Hak, Njuki W. Mureithi, Kostas Karazis and Brian Painter

Article (2023)

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Abstract

Jet flows injected in a transverse flow need rapid and effective mixing for various applications ranging from medicine injection into bloodstreams to nuclear pressurized water reactors (PWRs). Inspired by marine organisms, spiral snails, and sharks, bio-inspired nozzles are proposed and experimentally investigated to explore their advantages in suppressing nuclear fuel assembly vibrations. It has been observed that a combination of axial flow and jet cross-flow causes vibrations of fuel rods and potential wear at spacer grid supports. Marine biomimetics is used to improve the mixing between the jet flow and surrounding fluid flows. Inspired by the structure of gastropod shells, a variable whorl spacing nozzle is proposed to induce a swirling jet flow to enhance the mixing rate with the flow inside the reactor cores. In addition, the smooth maneuverability of the sharks highlights the importance to include gill slits structure into nozzles. This work focuses on mitigating PWR fuel assembly vibrations using two biomimetic nozzles, a snail nozzle and a shark nozzle. These two nozzles are proposed to improve the mixing rate between the injected flow and the primary coolant flow, resulting in a reduced jet flow effect on fuel rods. A single-span mock-up PWR array is designed, fabricated, and instrumented to mimic the real nuclear fuel assembly. The array is experimentally tested under combined axial flow and jet cross-flow to investigate its dynamical behavior. Three different nozzles, a basic circular nozzle, a snail nozzle, and a shark nozzle, are tested. The research investigates the ability of the proposed marine biomimetic nozzles to suppress the vibration of the rod bundle by comparing the results from the three tested nozzles. The obtained results suggest that the proposed snail-inspired biomimetic nozzle is significantly better than the circular nozzle since it reduces rod bundle vibration by increasing flow mixing. A 50% reduction was achieved by implementing it instead of the circular nozzle. More importantly, the shark-inspired nozzle delays the critical jet flow rate, at which the unstable vibration occurs in the rod bundle, by 20%. In addition to delaying instability, a vibration amplitude reduction of 87.5% was obtained using the proposed shark-inspired nozzle compared to the circular nozzle. The results are promising for various applications including gas burners, combustion chambers, and chemical reactors for providing efficient and rapid mixing between two fluid streams.

Subjects: 2100 Mechanical engineering > 2100 Mechanical engineering
Department: Department of Mechanical Engineering
Funders: Framatome Canada Ltd., Natural Sciences and Engineering Research Council of Canada (NSERC)
PolyPublie URL: https://publications.polymtl.ca/56710/
Journal Title: Scientific Reports (vol. 13, no. 1)
Publisher: Nature Portfolio
DOI: 10.1038/s41598-023-47469-y
Official URL: https://doi.org/10.1038/s41598-023-47469-y
Date Deposited: 27 Nov 2023 16:09
Last Modified: 27 Sep 2024 14:32
Cite in APA 7: Gad-el-Hak, I., Mureithi, N. W., Karazis, K., & Painter, B. (2023). Mitigation of PWR fuel assembly vibrations using bio-inspired nozzles. Scientific Reports, 13(1), 20128 (15 pages). https://doi.org/10.1038/s41598-023-47469-y

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