Acoustic and Vibrational Enhanced Oil Recovery. George V. Chilingar

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Acoustic and Vibrational Enhanced Oil Recovery - George V. Chilingar


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Relative Permeability and Residual Saturation 11.4 Enhanced Oil Recovery 11.5 Electrokinetically Enhanced Oil Recovery 11.6 DCEOR (EEOR) and Energy Storage 11.7 Electrochemical Basis for DCEOR 11.8 DCEOR Field Operations 11.9 DCEOR Field Demonstrations 11.10 Produced Fluid Changes 11.11 Laboratory Measurements 11.12 Technology Comparisons 11.13 Summary 11.14 Nomenclature References

      17  Addendum

      18  Nomenclature

      19  Symbols

      20  About the Authors

      21  Index

      22  Also of Interest

      23  End User License Agreement

      List of Illustrations

      1 Chapter 1Figure 1.1 Decrease in the water cut in three wells after an earthquake: 1 = Mak...Figure 1.2 Schematic diagram of electrokinetic double layer (I: Immobile layer, ...Figure 1.3 Schematic diagram of EEOR (Electrical Enhanced Oil Recovery) electrod...

      2 Chapter 2Figure 2.1 Relative intensity of vibration fields E/E0 vs. reservoir thickness H...Figure 2.2 Distribution of relative vibration intensity

averaged over the rese...Figure 2.3 Vibration velocity distribution in a fracture (solid curves) and over...Figure 2.4 Vibration in a liquid volume at progressive vibrations of the fractur...Figure 2.5 Schematic advance of a mixture of a wetting and nonwetting liquids in...Figure 2.6 Velocity distribution in unconsolidated reservoir at transverse vibra...

      3 Chapter 3Figure 3.1 Water flow in a cylindrical channel of some length L in the vibration...Figure 3.2 Movement of droplet of the horizontal non-uniform surface. (a) Pictur...Figure 3.3 Asymmetry types causing vibratory displacement. (a) As observed by ob...Figure 3.4 Particle motion within the vibrating medium with resistance. (a) Pict...Figure 3.5 Particle motion on an inclined flat surface in a harmonic vibration f...Figure 3.6 φ parameter vs. ω and R.Figure 3.7 Particle motion in a straight-linear cylindrical pore channel. (a) Pi...Figure 3.8 Schematic of emergence of vibratory lifting force. (a) As seen by obs...Figure 3.9 Effect of the vibrating pore channels’ configuration on the direction...Figure 3.10 Schematic directional fluid motion in vibrating pore channels. (a) A...Figure 3.11 Directional displacement of a vibrating kerosene droplet within a ca...

      4 Chapter 4Figure 4.1 Effective heat conductivity for porous samples in a vibration field v...Figure 4.2 The temperature changes in the heat and vibration fields. 1. The heat...Figure 4.3 Injected hot water temperature vs. vibration power. 1, 2, and 3. Vibr...Figure 4.4 Gas hydrate decomposition in a vibration field. 1. Without vibration ...Figure 4.5 An installation scheme of measuring eigenpolarization potential of th...Figure 4.6 Permeability change in natural cores in the vibration field. 1. 11 kH...Figure 4.7 A nomogram for evaluation acceptable vibration pressure. a/b =: 1. −1...Figure 4.8 Amplitudes of maximum acceptable vibration pressures vs. the hardened...

      5 Chapter 5Figure 5.1 Schematic of the lab installation for a study of the three-phase flow...Figure 5.2 The schematics of the lab installation for a study of three-phase flo...Figure 5.3 Oil displacement by water with various parameters in a vibration fiel...Figure 5.4 The displacement nature and variation of pressure gradient ΔP in the ...Figure 5.5 Oil by water (of various salinities) displacement from a clayey reser...Figure 5.6 Oil by mineralized water displacement from a clayey reservoir in a vi...Figure 5.7 Effect of water salinity on the oil recovery from a shaly reservoir i...Figure 5.8 The displacement at the flow of alkaline water in a shaly reservoir i...Figure 5.9 The displacement at the flow of mineralized water in a shaly reservoi...Figure 5.10 The oil displacement at the direct-flow capillary soaking of reservo...Figure 5.11 Direct-flow (curves 1 and 2) and counterflow (curves 3 and 4) natura...Figure 5.12 Pressure gradient change at capillary soaking with vibration. 1. No ...Figure 5.13 Capillary pression function (Leverett function) f(s) and relative ph...Figure 5.14 Gravity flow against the absolute permeability and function of absol...Figure 5.15 Relative phase permeability vs. gravity flow. 1. kn1(s), kw1(s); 2. ...Figure 5.16 Oil and water gravity flow in the vibration field.Figure 5.17 Scheme of movement of droplet in pore channel in the filed of vibrat...

      6 Chapter 6Figure 6.1 Computed interrelations between the oil and water phase permeabilitie...Figure 6.2 Experimental values of phase permeabilities interrelation between the...Figure 6.3 Changes in the oil and water phase permeability ratio vs. water satur...Figure 6.4 Capillary pressure vs. water saturation based on results of gravity f...Figure 6.5 Water saturation change at the model oil displacement by distilled wa...Figure 6.6 Schematic acoustic pressure change at the formation pressure higher t...Figure 6.7 Schematic lab installation for a study of the effect of the intraform...Figure 6.8 Saturation pressure vs. time after the vibration stops. p0 is the sat...Figure 6.9 Heptane-propane mix saturation pressure vs. power of the vibration so...Figure 6.10 The gas bubble number in 1 cm3 at water de-gassing in vibration fiel...Figure 6.11 Increase in the oil-gas mix volume with the acoustic pressure increa...Figure 6.12 Formation water saturation change after the vibroseismic action in t...

      7 Chapter 7Figure 7.1 Elastic wave intensity corresponding to minimum threshold values of o...Figure 7.2 Laboratory setup layout to diagnose acoustic radiations of the stress...Figure


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