Bio-medical Fluids Engineering: Presented at the 1995 ASME/JSME Fluids Engineering and Laser Anemometry Conference and Exhibition, August 13-18, 1995, Hilton Head, South Carolina
R. A. Gerbsch, K. Ohba
American Society of Mechanical Engineers, Jan 1, 1995 - Biomedical engineering - 53 pages
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COMPUTATIONAL MODELING OF BIOFLUID FLOWS
CARDIOVASCULAR FLUID MECHANICS
45 degrees AAA bulge AAA wall Abdominal Aortic Aneurysm anastomosis anastomotic artery diameters Atherosclerosis axial bifurcation Bio-Medical Fluids Engineering Biomechanical Engineering bypass cardiac cycle Computational Fluid Dynamics curvature curved daughter tube deceleration degrees opening angle distal downstream end-to-side equations floor flow field flow patterns flow rate flow waveform Giddens graft geometry grid heart valve prosthesis hemodynamics hood length host artery in-vitro model in-vivo inflow inlet inside intimal hyperplasia Journal of Biomechanical junction kinetic energy maximum midplane Navier-Stokes equations normalized turbulent numerical simulation numerical solution Ojha outflow parent tube peak systole plane pressure drop pressure gradient Prosthetic Heart Valve pulsatile flow recirculation region restenosis Reynolds number secondary flow shear stress gradients shown in Figure stagnation point steady flow streamlines symmetry systole Tapered straight tube Taylor temporal acceleration thrombus turbulent kinetic energy turbulent shear stress unsteady vascular graft velocity field velocity profiles vortex wall shear stress WSSG