An evaluation of steady-state-based pressure-saturation predictions in gas-condensate reservoirs under various reservoir and well operating conditions

Earth and Planetary Sciences

• Condensate 100%
• Surface Pressure 100%
• Reservoir 62%
• Steady State 50%
• Gas Condensate 50%
• Increasing 50%
• Trend 50%
• Saturation Curve 37%
• Gas 37%
• Prediction 37%
• Temperature 25%
• Datum 25%
• Literature 25%
• Volume 25%
• Incorporation 12%
• Transient Pressure 12%
• Flow Velocity 12%
• Reservoir Simulation 12%
• Investigation 12%
• Impact 12%
• Value 12%
• Condition 12%
• Examination 12%
• Response 12%
• Evaluation 12%
• Sensitivity 12%
• Variation 12%
• Mobility 12%
• Purpose 12%
• Calculation 12%
• Difference 12%
• Fraction 12%
• Rate 12%
• Assumption 12%

Engineering

• Condensate 100%
• Saturation Pressure 87%
• Wellbore 50%
• Simulation Model 37%
• Prediction 37%
• Reservoir Fluid 25%
• Fluid 25%
• Temperature 25%
• Characteristics 25%
• Compute 12%
• Flow Rate 12%
• Fluid Property 12%
• Gas-Phase 12%
• Rock Type 12%
• Liquid Saturation 12%
• Relative Permeability 12%
• near-Wellbore Region 12%
• Nonlinearities 12%
• Priori Knowledge 12%
• Flow Pressure 12%
• Highlight 12%
• Fluid Mixture 12%
• Evaluation 12%
• Transients 12%
• Wells 12%

Chemistry

• Pressure 100%
• Saturation 100%
• Procedure 62%
• Concentration 50%
• Gas 37%
• Volume 25%
• Analytical Method 25%
• Reaction Temperature 25%
• Flow Kinetics 12%
• Flow 12%
• Number 12%
• Weight 12%
• Rate 12%
• Compound Mobility 12%