A benchmark study of numerical schemes for one‐dimensional arterial blood flow modelling
Hæmodynamical simulations using one‐dimensional (1D) computational models exhibit
many of the features of the systemic circulation under normal and diseased conditions …
many of the features of the systemic circulation under normal and diseased conditions …
The dicrotic notch analyzed by a numerical model
Divergent concepts on the origin of the dicrotic notch are widespread in medical literature
and education. Since most medical textbooks explain the origin of the dicrotic notch as …
and education. Since most medical textbooks explain the origin of the dicrotic notch as …
Modeling blood flow in viscoelastic vessels: the 1D augmented fluid–structure interaction system
Nowadays mathematical models and numerical simulations are widely used in the field of
hemodynamics, representing a valuable resource to better understand physiological and …
hemodynamics, representing a valuable resource to better understand physiological and …
Modeling blood flow in networks of viscoelastic vessels with the 1-D augmented fluid–structure interaction system
A noteworthy aspect in blood flow modeling is the definition of the mechanical interaction
between the fluid flow and the biological structure that contains it, namely the vessel wall …
between the fluid flow and the biological structure that contains it, namely the vessel wall …
A time-dependent non-Newtonian extension of a 1D blood flow model
AR Ghigo, PY Lagree, JM Fullana - Journal of Non-Newtonian Fluid …, 2018 - Elsevier
Blood pulsatility, aneurysms, stenoses and general low shear stress hemodynamics
enhance non-Newtonian blood effects which generate local changes in the space-time …
enhance non-Newtonian blood effects which generate local changes in the space-time …
Comparison of the Windkessel model and structured-tree model applied to prescribe outflow boundary conditions for a one-dimensional arterial tree model
Abstract One-dimensional (1D) modeling is a widely adopted approach for studying wave
propagation phenomena in the arterial system. Despite the frequent use of the Windkessel …
propagation phenomena in the arterial system. Despite the frequent use of the Windkessel …
Computational analysis of one-dimensional models for simulation of blood flow in vascular networks
GV Krivovichev - Journal of Computational Science, 2022 - Elsevier
The paper is devoted to the comparison of one-dimensional models, used for the simulation
of blood flow in elastic vessels. The inviscid, Newtonian, and non-Newtonian models of …
of blood flow in elastic vessels. The inviscid, Newtonian, and non-Newtonian models of …
Flexible thermal ground planes fabricated with printed circuit board technology
LA Liew, CY Lin, R Lewis… - Journal of …, 2017 - asmedigitalcollection.asme.org
Thermal ground planes (TGPs) are passive thermal management devices that utilize the
phase-change of a working fluid to achieve high thermal conductivity and low thermal …
phase-change of a working fluid to achieve high thermal conductivity and low thermal …
Hybrid physics-based and data-driven modeling of vascular bifurcation pressure differences
Reduced-order models allow for the simulation of blood flow in patient-specific vasculatures.
They offer a significant reduction in computational cost and wait time compared to traditional …
They offer a significant reduction in computational cost and wait time compared to traditional …
First blood: An efficient, hybrid one‐and zero‐dimensional, modular hemodynamic solver
Abstract Low‐dimensional (1D or 0D) models can describe the whole human blood
circulation, for example, 1D distributed parameter model for the arterial network and 0D …
circulation, for example, 1D distributed parameter model for the arterial network and 0D …