| Description |
1 online resource (229 pages) |
| Contents |
Cover; Title Page; Copyright Page ; Abstract; Contents; Preface; Introduction: A Brief Historical Background and Description of the Problem; 1 Scientific Foundation for Enhanced Oil Recovery and Production Stimulation; 1.1 The Practical Results of Near-Wellbore Formation Cleaning by Wave Stimulation; 1.2 The Scientific Fundamentals of the First Generation Wave Technology for Stimulation of Production Processes; 1.2.1 Large-Scale Laboratory Experiments at Shell Test Facilities; 1.2.2 Resonances in Near-Wellbore Formation. Resonances in Perforations |
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1.2.3 Excitation of Oscillations in Micro-Pores by One- Dimensional Longitudinal Macro-Waves in a Medium. Resonances. Transformation of Micro-Oscillations in Pores to Macro-Flows of Fluid. The Capillary Effect 1.2.4 Cleaning of Horizontal Wells; 1.2.5 Preliminary Results; 1.3 Stimulation of Entire Reservoirs by First-Generation Wave Methods for Enhanced Oil Recovery. Resonance Macro- and Micro-Mechanics of Petroleum Reservoirs: A Scientific Foundation for Enhanced Oil Recovery; 2 Remove Micro-Particles by Harmonic External Actions |
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2.1 An Analysis of the Forces Acting on Pore-Contaminating Particles under a Harmonic External Action2.2 Conditions for the Detachment of a Solid Particle from the Wall of a Pore under Harmonic External Action; 2.3 The Criterion of Successful Harmonic Wave Stimulation. Criterion Determination Procedure; 2.4 Summary; 3 Remove Micro-Particles by Impact Waves; 3.1 Determining Flow Parameters behind an Impact Wave; 3.2 Assessing the Forces That Act on a Particle as the Front of an Impact Wave Is Passing |
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3.3 Conditions for the Detachment of a Solid Particle from the Wall of a Pore under the Action of a Passing Impact Wave3.4 The Criterion for Successful Wave Stimulation by Impact Waves. Criterion Determination Procedure; 3.5 Summary; 4 The Wave Mechanisms of Motion of Capillary-Trapped Oil; 4.1 The Conditions for the Detachment of a Droplet from the Wall of a Pore; 4.2 The Case of Harmonic Action on a Capillary-Trapped Droplet; 4.3 The Case of Impact Wave Action on a Capillary-Trapped Droplet; 4.4 Summary; 5 Action of Wave Forces on Fluid Droplets and Solid Particles in Pore Channels |
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5.1 The Mechanism of Trapping of Large Oil Droplets in a Waterflooded Reservoir. Propulsion of Droplets by One-Dimensional Nonlinear Wave Forces5.2 The Average Flow of Fluid Caused by Oscillations in a Saturated Porous Medium with a Stationary Matrix and Inhomogeneous Porosity ; 5.2.1 The Statement of the Problem; 5.2.2 Calculation Results; 5.3 Fluid Flows Caused by Oscillations in Cone-Shaped Pores; 5.3.1 The Statement of the Problem; 5.3.2 Calculation Results; 6 The Mobilization of Droplets and Blobs of Capillary-Trapped Oil from Microcavities; 6.1 The Mathematical Statement of the Problem |
| Notes |
6.2 The Natural Frequency of Gravity-Capillary Waves on Oil-Water and Oil-Surfactant Interfaces in Pores |
| Bibliography |
Includes bibliographical references and index |
| Notes |
Print version record |
| Subject |
Secondary recovery of oil.
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Secondary recovery of oil.
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| Form |
Electronic book
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| Author |
Ganiev, O. R
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Ganiev, R. F
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Ukrainsky, L. E
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| ISBN |
9781119293835 |
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1119293839 |
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