Reduced order modeling of parametrized pulsatile blood flows: hematocrit percentage and heart rate
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Publication:6085392
DOI10.1016/j.ijengsci.2023.103943MaRDI QIDQ6085392
Roberto Carlos Cabrales, Ricardo Reyes, Catalina Farías, Camilo Bayona-Roa, Ernesto Castillo
Publication date: 12 December 2023
Published in: International Journal of Engineering Science (Search for Journal in Brave)
Cites Work
- Computational fluid dynamic simulation of human carotid artery bifurcation based on anatomy and volumetric blood flow rate measured with magnetic resonance imaging
- Numerical simulation of pulsatile non-Newtonian flow in the carotid artery bifurcation
- The GNAT method for nonlinear model reduction: effective implementation and application to computational fluid dynamics and turbulent flows
- Blood flow through arteries in a pathological state: a theoretical study
- A mathematical modeling of pulsatile flow in carotid artery bifurcation
- Proper orthogonal decomposition closure models for turbulent flows: a numerical comparison
- Numerical study of bifurcation blood flows using three different non-Newtonian constitutive models
- An unsteady analysis of non-Newtonian blood flow through tapered arteries with a stenosis
- Enablers for robust POD models
- Time dependent subscales in the stabilized finite element approximation of incompressible flow problems
- Blood-flow models of the circle of Willis from magnetic resonance data
- Galerkin v. least-squares Petrov-Galerkin projection in nonlinear model reduction
- Finite element modeling of blood in arteries
- Comparison of some finite element methods for solving the diffusion-convection-reaction equation
- Effects of shear-dependent viscosity and hematocrit on blood flow
- Effect of real and whole blood rheology on flow through an axisymmetric stenosed artery
- Semi-implicit fluid-structure interaction in biomedical applications
- Numerical study of the use of residual- and non-residual-based stabilized VMS formulations for incompressible power-law fluids
- Three-dimensional flows of incompressible Navier-Stokes fluids in tubes containing a sinus, with varying slip conditions at the wall
- Dynamic term-by-term stabilized finite element formulation using orthogonal subgrid-scales for the incompressible Navier-Stokes problem
- Numerical verification of a non-residual orthogonal term-by-term stabilized finite element formulation for incompressible convective flow problems
- Numerical modeling of laminar and chaotic natural convection flows using a non-residual dynamic VMS formulation
- Fast simulations of patient-specific haemodynamics of coronary artery bypass grafts based on a POD-Galerkin method and a vascular shape parametrization
- Impact of geometric uncertainty on hemodynamic simulations using machine learning
- Reduced order modeling for parametrized generalized Newtonian fluid flows
- A Survey of Projection-Based Model Reduction Methods for Parametric Dynamical Systems
- Efficient non-linear model reduction via a least-squares Petrov-Galerkin projection and compressive tensor approximations
- Fourier analysis of an equal-order incompressible flow solver stabilized by pressure gradient projection
- Model Order Reduction in Fluid Dynamics: Challenges and Perspectives
- State Estimation with Model Reduction and Shape Variability. Application to biomedical problems
- Variational multiscale proper orthogonal decomposition: Navier‐stokes equations
- A Model Incorporating Some of the Mechanical and Biochemical Factors Underlying Clot Formation and Dissolution in Flowing Blood
- Data-driven reduced order modelling for patient-specific hemodynamics of coronary artery bypass grafts with physical and geometrical parameters
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