Fei Jiang
Fei Jiang
Assistant Professor, Yamaguchi University, Kyushu University
Verified email at yamaguchi-u.ac.jp - Homepage
Title
Cited by
Cited by
Year
Characterization of immiscible fluid displacement processes with various capillary numbers and viscosity ratios in 3D natural sandstone
T Tsuji, F Jiang, KT Christensen
Advances in Water Resources 95, 3-15, 2016
722016
Elucidating the role of interfacial tension for hydrological properties of two-phase flow in natural sandstone by an improved lattice Boltzmann method
Fei Jiang, Takeshi Tsuji, Changhong Hu
Transport in Porous Media, 2014
392014
Changes in pore geometry and relative permeability caused by carbonate precipitation in porous media
F Jiang, T Tsuji
Physical Review E 90 (5), 053306, 2014
372014
Impact of interfacial tension on residual CO2 clusters in porous sandstone
F Jiang, T Tsuji
Water Resources Research 51 (3), 1710-1722, 2015
262015
Estimation of three‐phase relative permeability by simulating fluid dynamics directly on rock‐microstructure images
F Jiang, T Tsuji
Water Resources Research 53 (1), 11-32, 2017
252017
Numerical simulation of a rising CO2 droplet in the initial accelerating stage by a multiphase lattice Boltzmann method
F Jiang, C Hu
Applied Ocean Research 45, 1-9, 2014
172014
The study of heterogeneous two‐phase flow around small‐scale heterogeneity in porous sandstone by measured elastic wave velocities and lattice Boltzmann method simulation
K Kitamura, F Jiang, AJ Valocchi, S Chiyonobu, T Tsuji, KT Christensen
Journal of Geophysical Research: Solid Earth 119 (10), 7564-7577, 2014
142014
Numerical investigations on the effect of initial state CO2 topology on capillary trapping efficiency
F Jiang, T Tsuji
International Journal of Greenhouse Gas Control 49, 179-191, 2016
122016
Analysis of the accuracy and pressure oscillation of the lattice Boltzmann method for fluid–solid interactions
X Li, F Jiang, C Hu
Computers & Fluids 129, 33-52, 2016
102016
Pore Geometry Characterization by Persistent Homology Theory
F Jiang, T Tsuji, T Shirai
Water Resources Research 54 (6), 4150-4163, 2018
92018
Impact of the kinetic boundary condition on porous media flow in lattice Boltzmann formulation
S Singh, F Jiang, T Tsuji
Physical Review E 96 (013303), 2017
82017
Evolution of hydraulic and elastic properties of reservoir rocks due to mineral precipitation in CO2 geological storage
T Tsuji, T Ikeda, F Jiang
Computers & Geosciences 126, 84-95, 2019
62019
Application of Lattice Boltzmann Method for Simulation of Turbulent Diffusion from a CO2 Lake in Deep Ocean
F Jiang, C Hu
Journal of Novel Carbon Resource Sciences 5, 10-18, 2012
52012
Anomalous Dispersion in Pore-Scale Simulations of Two-Phase Flow
D Triadis, F Jiang, D Bolster
Transport in Porous Media 126 (2), 337-353, 2019
32019
Mathematical Modeling of Rock Pore Geometry and Mineralization: Applications of Persistent Homology and Random Walk
T Tsuji, F Jiang, A Suzuki, T Shirai
Forum” Math-for-Industry”, 95-109, 2016
32016
Compression analysis of the gray and white matter of the spinal cord
N Nishida, F Jiang, J Ohgi, A Tanaka, Y Imajo, H Suzuki, M Funaba, ...
Neural Regeneration Research 15 (7), 1344, 2020
22020
Four-dimensional observation of ductile fracture in sintered iron using synchrotron X-ray laminography
Y Ozaki, Y Mugita, M Aramaki, O Furukimi, S Oue, F Jiang, T Tsuji, ...
Powder Metallurgy 62 (2), 146-154, 2019
22019
Finite Element Method Analysis of Compression Fractures on Whole-Spine Models Including the Rib Cage
N Nishida, J Ohgi, F Jiang, S Ito, Y Imajo, H Suzuki, M Funaba, ...
Computational and Mathematical Methods in Medicine 2019, 2019
22019
Effect of intercostal muscle contraction on rib motion in humans studied by finite element analysis
G Zhang, X Chen, J Ohgi, F Jiang, S Sugiura, T Hisada
Journal of Applied Physiology 125 (4), 1165-1170, 2018
22018
Interfacial tension effect on cluster size distributions for residual trapping of CO2 in sandstones
F Jiang, T Tsuji
Energy Procedia 63, 5483-5489, 2014
22014
The system can't perform the operation now. Try again later.
Articles 1–20