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Investigation of gas flow in shale gas reservoirs in the transition regime
C. Christou
*
,
K. Dadzie
*
Corresponding author for this work
Institute of Mechanical, Process & Energy Engineering
School of Engineering & Physical Sciences
Research output
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Contribution to conference
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Paper
›
peer-review
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INIS
gases
100%
investigations
100%
gas flow
100%
shale gas
100%
simulation
60%
knudsen number
60%
monte carlo method
40%
porous materials
40%
slip flow
40%
navier-stokes equations
40%
transition flow
40%
comparative evaluations
20%
range
20%
equations
20%
geometry
20%
resolution
20%
fluids
20%
tomography
20%
kinetics
20%
shales
20%
boltzmann equation
20%
mean free path
20%
Engineering
Knudsen Number
100%
Gas Flow
100%
Shale Gas
100%
Gas Reservoir
100%
Porous Structure
66%
Direct Simulation
66%
Slip Flow Regime
66%
Similarities
33%
Tight Gas
33%
Pore Diameter
33%
Dimensional Geometry
33%
Boltzmann Equation
33%
Fluid Method
33%
Mean Free Path
33%
Material Science
Shale Gas
100%
Tomography
100%
Gas Flow
100%
Mathematics
Direct Simulation Monte Carlo
100%
Monte Carlo Study
50%
Boltzmann Equation
50%
Mean Free Path
50%