Sanchez Abad N, Vinuesa R, Schlatter P, Andersson M, Karlsson M (2020)
Publication Type: Journal article
Publication year: 2020
Book Volume: 10
Article Number: 025033
Journal Issue: 2
DOI: 10.1063/1.5142703
Computational fluid dynamics (CFD) is currently a versatile tool used for flow characterization in diverse areas of industry and research; however, its application in medical devices is less developed due to high regulatory standards for safety purposes. In this context, the development of a rigorous and standardized CFD methodology is essential in order to improve the accuracy and ensure the reliability of biomedical applications. To that end, the Food and Drug Administration (FDA) proposed a benchmark model of an idealized medical device to provide a common ground for verification and validation processes. Previous studies have evaluated the potential of conventional turbulence models to predict the relevant flow features in the FDA nozzle but have also been deemed inaccurate or exhibited high dependency on the numerical scheme. Furthermore, validation of computational results relied on previous experiments performed with particle image velocimetry (PIV), which also exhibited noticeable uncertainties. Here, we perform direct numerical simulations (DNSs) of the flow through the FDA nozzle configuration, at Reynolds numbers based on the throat diameter Re
APA:
Sanchez Abad, N., Vinuesa, R., Schlatter, P., Andersson, M., & Karlsson, M. (2020). Simulation strategies for the Food and Drug Administration nozzle using Nek5000. AIP Advances, 10(2). https://doi.org/10.1063/1.5142703
MLA:
Sanchez Abad, Nour, et al. "Simulation strategies for the Food and Drug Administration nozzle using Nek5000." AIP Advances 10.2 (2020).
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