In vitro−in silico correlation of three-dimensional turbulent flows in an idealized mouth-throat model

Abstract: There exists an ongoing need to improve the validity and accuracy of computational fluid dynamics (CFD) simulations of turbulent airflows in the extra-thoracic and upper airways. Yet, a knowledge gap remains in providing experimentally-resolved 3D flow benchmarks with sufficient data density and completeness for useful comparison with widely-employed numerical schemes. Motivated by such shortcomings, the present work details to the best of our knowledge the first attempt to deliver in vitro − in silico cor… Show more

“…RANS is widely used for industrial applications and is relatively computationally efficient compared to LES and DNS, which requires high computational resources. However, RANS may not accurately capture unsteady and three-dimensional turbulent flow fields, which is essential in aerosol dispersion [8]. RANS computational investigation using turbulence models such as Standard-RNG-Realizable k-ϵ and SST k-ω turbulence flow can provide insights into the behaviour of aerosols in indoor environments [9].…”

Comparative Evaluation of Four RANS Turbulence Models for Aerosol Dispersion from a Cough

“…RANS is widely used for industrial applications and is relatively computationally efficient compared to LES and DNS, which requires high computational resources. However, RANS may not accurately capture unsteady and three-dimensional turbulent flow fields, which is essential in aerosol dispersion [8]. RANS computational investigation using turbulence models such as Standard-RNG-Realizable k-ϵ and SST k-ω turbulence flow can provide insights into the behaviour of aerosols in indoor environments [9].…”

Comparative Evaluation of Four RANS Turbulence Models for Aerosol Dispersion from a Cough