Download PDFOpen PDF in browserNumerical Simulation of Three-Dimensional Incompressible Fluid Flow in Curved Pipes: FSI Vs CFDEasyChair Preprint no. 945910 pages•Date: December 12, 2022AbstractThe present paper aims to show the numerical results of an incompressible fluid flow in curved pipes for three-dimensional space using a fluid-structure interaction (FSI) model. A tetrahedral element is employed to discretize the Navier-Stokes equation for a fluid part and the elastic model for the solid domain. Strong coupling is used for FSI iteration to satisfy the balance conditions at the fluid-solid interface. The current approach is firstly validated by comparison of numerical solution with experimental data for a 90-degree curved pipe in the rigid wall using the CFD model. In addition, the pressure wave propagation in a straight tube is used for FSI validation. Then the algorithm is adopted for calculating the FSI method for the 90-degree curved pipe. The comparison of the FSI and CFD model is shown in detail in this curved pipe. The present work can be used for bio-mechanical prediction, such as the blood flow in coronary artery vessels. Keyphrases: CFD, curved pipes, fluid-structure interaction, Incompressible fluid flow, Navier-Stokes equation
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