UsefulLinks
Engineering
Petroleum Engineering
Reservoir Engineering
1. Introduction to Reservoir Engineering
2. Fundamental Properties of Reservoir Rocks
3. Properties of Reservoir Fluids
4. Fluid Flow in Porous Media
5. Reservoir Drive Mechanisms
6. Material Balance and Reserves Estimation
7. Pressure Transient Analysis
8. Water Influx and Aquifer Performance
9. Secondary Recovery
10. Enhanced Oil Recovery
11. Reservoir Simulation
4.
Fluid Flow in Porous Media
4.1.
Flow Fundamentals
4.1.1.
Continuum Assumption
4.1.2.
Flow Regimes
4.1.2.1.
Laminar Flow
4.1.2.2.
Turbulent Flow
4.1.2.3.
Transition Flow
4.1.3.
Reynolds Number
4.2.
Single-Phase Flow
4.2.1.
Darcy's Law Applications
4.2.1.1.
Linear Flow
4.2.1.2.
Radial Flow
4.2.1.3.
Spherical Flow
4.2.2.
Flow Equations
4.2.2.1.
Steady-State Flow
4.2.2.2.
Unsteady-State Flow
4.2.2.3.
Pseudo-Steady-State Flow
4.2.3.
Diffusivity Equation
4.2.3.1.
Derivation
4.2.3.2.
Assumptions
4.2.3.3.
Boundary Conditions
4.2.3.4.
Analytical Solutions
4.2.4.
Well Performance
4.2.4.1.
Productivity Index
4.2.4.2.
Skin Factor
4.2.4.2.1.
Mechanical Skin
4.2.4.2.2.
Completion Skin
4.2.4.2.3.
Partial Penetration
4.2.4.3.
Wellbore Storage
4.3.
Multiphase Flow
4.3.1.
Relative Permeability
4.3.1.1.
Measurement Methods
4.3.1.2.
Correlations
4.3.1.3.
Hysteresis
4.3.2.
Capillary Forces
4.3.3.
Fractional Flow Theory
4.3.3.1.
Fractional Flow Function
4.3.3.2.
Fractional Flow Curves
4.3.3.3.
Water Cut Analysis
4.3.4.
Buckley-Leverett Theory
4.3.4.1.
Assumptions
4.3.4.2.
Shock Front
4.3.4.3.
Saturation Profiles
4.3.4.4.
Breakthrough Time
4.3.5.
Mobility Ratio
4.3.6.
Capillary Number
4.3.7.
Heterogeneity Effects
4.3.7.1.
Layered Systems
4.3.7.2.
Areal Heterogeneity
4.3.7.3.
Permeability Variations
Previous
3. Properties of Reservoir Fluids
Go to top
Next
5. Reservoir Drive Mechanisms