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An evaluation of steady-state-based pressure-saturation predictions in gas-condensate reservoirs under various reservoir and well operating conditions
C. Johnson,
M. Jamiolahmady
Institute for GeoEnergy Engineering
School of Energy, Geoscience, Infrastructure and Society
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Article
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peer-review
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Citation (Scopus)
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Dive into the research topics of 'An evaluation of steady-state-based pressure-saturation predictions in gas-condensate reservoirs under various reservoir and well operating conditions'. Together they form a unique fingerprint.
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INIS
prediction
100%
evaluation
100%
saturation
100%
steady-state conditions
100%
gas condensates
100%
condensates
44%
levels
22%
gases
22%
increasing
22%
simulation
16%
curves
16%
fluids
16%
data
11%
volume
11%
reservoir fluids
11%
values
5%
variations
5%
comparative evaluations
5%
weight
5%
mixtures
5%
nonlinear problems
5%
liquids
5%
mobility
5%
partial differential equations
5%
rocks
5%
permeability
5%
sensitivity
5%
calculation methods
5%
pressure dependence
5%
flow rate
5%
Engineering
Condensate Gas
100%
Saturation Pressure
100%
Condensate
88%
Wellbore
44%
Reservoir Fluid
22%
Transients
22%
Nonlinearity
11%
Flow Rate
11%
Fluid Property
11%
Gas-Phase
11%
Rock Type
11%
Liquid Saturation
11%
Relative Permeability
11%
near-Wellbore Region
11%
Priori Knowledge
11%
Flow Pressure
11%
Fluid Mixture
11%
Partial Differential Equation
11%