Követés
Saman Ebrahimi
Saman Ebrahimi
E-mail megerősítve itt: scarletmail.rutgers.edu
Cím
Hivatkozott rá
Hivatkozott rá
Év
Numerical study of mixing and heat transfer in mixed electroosmotic/pressure driven flow through T-shaped microchannels
S Ebrahimi, A Hasanzadeh-Barforoushi, A Nejat, F Kowsary
International Journal of Heat and Mass Transfer 75, 565-580, 2014
742014
A computational study of red blood cell deformability effect on hemodynamic alteration in capillary vessel networks
S Ebrahimi, P Bagchi
Scientific reports 12 (1), 1-19, 2022
342022
Motion of a capsule in a curved tube
S Ebrahimi, P Balogh, P Bagchi
Journal of Fluid Mechanics 907, 2020
152020
Unsteady pulsating characteristics of the fluid flow through a sudden expansion microvalve
A Nejat, F Kowsary, A Hasanzadeh-Barforoushi, S Ebrahimi
Microfluidics and Nanofluidics 17, 623-637, 2014
152014
Simulation of a falling droplet in a vertical channel with rectangular obstacles
A Merdasi, S Ebrahimi, A Moosavi, MB Shafii, F Kowsary
European Journal of Mechanics-B/Fluids 68, 108-117, 2018
142018
Numerical simulation of collision between two droplets in the T-shaped microchannel with lattice Boltzmann method
A Merdasi, S Ebrahimi, A Moosavi, MB Shafii, F Kowsary
Aip Advances 6 (11), 2016
142016
Inertial and non-inertial focusing of a deformable capsule in a curved microchannel
S Ebrahimi, P Bagchi
Journal of Fluid Mechanics 929, A30, 2021
112021
A new computational fluid dynamics study of a liquid-liquid hydrocyclone in the two phase case for separation of oil droplets and water
K Sharifi, TJ Behbahani, S Ebrahimi, M Sabeti, S Soflaee
Brazilian Journal of Chemical Engineering 36, 1601-1612, 2020
72020
Application of Machine Learning in Predicting Blood Flow and Red Cell Distribution in Capillary Vessel Networks
S Ebrahimi, P Bagchi
Journal of Royal Society Interface 19 (193), 2022
52022
Investigation on the problem of unsteady flow between parallel porous plates using Homotopy perturbation method
A Hasanzadeh, S Ebrahimi, DD Ganji
Int. J. of Appl. Math and Mech 9 (18), 96-115, 2013
22013
Physics Informed Neural Network application on mixing and heat transfer in combined electroosmotic-pressure driven flow
A Merdasi, S Ebrahimi, X Yang, R Kunz
Chemical Engineering and Processing-Process Intensification 193, 109540, 2023
12023
Study the Geometrical Effects on the Unsteady Pulsatile Flow Through a Microchannel With a Sudden Step Shape
A Nejat, F Kowsary, S Ebrahimi, A Hasanzadeh
ASME International Mechanical Engineering Congress and Exposition 56321 …, 2013
12013
Machine learning techniques for predicting microvascular network hemodynamics
S Ebrahimi, P Bagchi
Physiology 39 (S1), 791, 2024
2024
Predicting capillary vessel network hemodynamics in silico by machine learning
S Ebrahimi, P Bagchi
PNAS Nexus 3 (2), pgae043, 2024
2024
Predicting 3D and skewed velocity and hematocrit distributions in networks of capillary blood vessels using machine learning models
S Ebrahimi, P Bagchi
Bulletin of the American Physical Society, 2023
2023
Application of Physics Informed Neural Networks (PINNs) on combined electroosmotic-pressure driven flow
A Merdasi, S Ebrahimi
Bulletin of the American Physical Society, 2023
2023
Machine learning for predicting microvascular network hemodynamics
S Ebrahimi, P Bagchi
Bulletin of the American Physical Society 67, 2022
2022
Inertial and Non-Inertial Microfluidics of Deformable Particles, and Red Blood Cell-Resolved Capillary Network Hemodynamics with Machine-Learning Applications
S Ebrahimi
Rutgers The State University of New Jersey, School of Graduate Studies, 2022
2022
Red Blood Cell‐resolved 3D Computational Modeling of Blood Flow in Physiologically Realistic Microvascular Networks
P Bagchi, S Ebrahimi
The FASEB Journal 34 (S1), 1-1, 2020
2020
Red cell-resolved blood flow modeling in in vivo-like microvascular networks: predicting hemodynamic changes due to loss of red cell deformability
S Ebrahimi, P Bagchi
Bulletin of the American Physical Society, 2019
2019
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Cikkek 1–20