Study Of Numerical Schemes For The Cfd Simulation Of Human Airways

Computational fluid dynamics (CFD) is increasingly used nowadays to capture air and particle transport in the human respiratory tract. In the present study, computer tomography (CT) scan based respiratory tract model is used for the CFD simulation. The main objective of the present study is to compare different pressure-velocity schemes (SIMPLE, SIMPLEC, PISO and COUPLED schemes) in terms of convergence and computational time. Numerical simulation is done for the three inhalation flow rates, namely 20, 40 and 60 L/min for predictions of flow phenomena inside the sixth-generation human respiratory model and also to predict the effects of flow parameters; pressures and velocity on the sixth-generation human respiratory tract. The SST k-omega model with low Reynolds number corrections is used to capture the turbulence effect. The findings will be useful for medical practitioner to understand complex airflow patterns in the human airways. Also, pressure and velocity distribution inside the human respiratory tract model will help to define the medical phenomena in core engineering terms.