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Numerical simulations of flow patterns in the human left ventricle model with a novel dynamic mesh morphing approach based on radial basis function
Fei Xu,
Saša Kenjereš
*
*
Corresponding author for this work
ChemE/Transport Phenomena
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Article
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peer-review
8
Citations (Scopus)
37
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Dive into the research topics of 'Numerical simulations of flow patterns in the human left ventricle model with a novel dynamic mesh morphing approach based on radial basis function'. Together they form a unique fingerprint.
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Earth and Planetary Sciences
Mesh
100%
Fluid Dynamics
100%
Flow Distribution
100%
Model
100%
Approach
100%
Experiment
100%
Show
50%
Agreement
50%
Wall
50%
Investigation
50%
Accuracy
50%
Boundary
50%
Volume
50%
Particle Image Velocimetry
50%
INIS
dynamics
100%
humans
100%
computerized simulation
100%
simulation
66%
computational fluid dynamics
66%
prediction
33%
mimic
33%
particles
33%
motion
33%
reliability
33%
images
33%
volume
33%
lagrangian
33%
valves
33%
accuracy
33%
walls
33%
Engineering
Models
100%
Computer Simulation
100%
Radial Basis Function
100%
Experiments
50%
Dynamic Motion
25%
Good Agreement
25%
Mathematics
Numerical Simulation
100%
Computational
50%
Dynamic Approach
25%
Material Science
Computational Fluid Dynamics
100%
Particle Image Velocimetry
50%
Chemical Engineering
Velocity Measurement
100%