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BL
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| Record Number
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854494
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| Main Entry
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Green, Don W.
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| Title & Author
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Enhanced Oil Recovery.
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| Edition Statement
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2nd ed.
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| Publication Statement
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Richardson, TX :: SPE,, 2018.
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| Series Statement
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SPE International textbook series
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| Page. NO
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1 online resource (912 pages)
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| ISBN
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161399494X
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: 161399625X
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: 9781613994948
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: 9781613996256
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9781613994948
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| Notes
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7.7 Viscosity and Density of Microemulsions.
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| Bibliographies/Indexes
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Includes bibliographical references and indexes.
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| Contents
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Half title; Title page; Copyright page; Dedication; About the Authors; Preface; Table of Contents; Chapter 1: Introduction to EOR Processes; 1.1 Definition of EOR; 1.2 Target Oil Resource for EOR Processes; 1.3 Idealized Characteristics of an EOR Process; 1.4 General Classifications and Description of EOR Processes; 1.5 Potential of the Different Processes; 1.6 Screening Criteria for Process Applicability; 1.7 Organization of the Textbook; Chapter 2: Microscopic Displacement ofFluids in a Reservoir; 2.1 Introduction; 2.2 Capillary Forces; 2.3 Viscous Forces; 2.4 Phase Trapping.
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2.5 Mobilization of Trapped Phases-Alteration of Viscous/Capillary Force Ratio2.6 Mobilization of Trapped Phases-Role of Phase Behavior; Chapter 3: Displacement in Linear Systems; 3.1 Introduction; 3.2 Waterflood Performance-Frontal-Advance Equations; 3.3 Viscous Waterflood in a Linear System; 3.4 Viscous Waterflood in a Linear System Initially at Interstitial Water Saturation; 3.5 Chemical Flooding in a Linear System; 3.6 Applications of the Chemical Flooding Model; 3.7 Displacement of Slugs; 3.8 Dispersion During Miscible Displacement.
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3.9 Viscous Fingering-Instability in Displacement FrontsChapter 4: Macroscopic Displacement of Fluidsin a Reservoir; 4.1 Introduction; 4.2 Volumetric Displacement Efficiency and Material Balance; 4.3 Volumetric Displacement Efficiency Expressed as the Product of Areal and Vertical Displacement Efficiencies; 4.4 Definition and Discussion of Mobility Ratio; 4.5 Areal Displacement Efficiency; 4.6 Vertical Displacement Efficiency; 4.7 Volumetric Displacement Efficiency; Chapter 5: Mobility-Control Processes; 5.1 Introduction; 5.2 Process Description.
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5.3 Physical and Chemical Characteristicsof Polymers5.4 Flow of Polymers Through Porous Media; 5.5 Polymer-Augmented Waterflood; 5.6 In-Situ Permeability Modification; 5.7 Field Experience; 5.8 Mobility Control To Maintain Chemical Slug Integrity; 5.9 Foam as an EOR Agent; 5.10 WAG Process; Chapter 6: Miscible Displacement Processes; 6.1 Introduction; 6.2 General Description of Miscible Displacement; 6.3 Principles of Phase Behavior Related to Miscibility; 6.4 FCM Process; 6.5 MCM Process; 6.6 Experimental Verification of the Role of Phase Behavior in Miscible Displacement.
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6.7 Measurement and Prediction of the MMP or MME in a Multiple-Contact Process6.8 Fluid Properties in Miscible Displacement; 6.9 Factors Affecting Microscopic and Macroscopic Displacement Efficiencyof Miscible Processes; 6.10 Miscible Displacement Performance Modeling; 6.11 Design Procedures and Criteria; 6.12 Field Experience; Chapter 7: Chemical Flooding; 7.1 Introduction; 7.2 Description of the Micellar/Polymer Process; 7.3 Surfactants; 7.4 Phase Behavior of Microemulsions; 7.5 Phase Behavior and IFT; 7.6 Variables Affecting Phase Behavior and IFT.
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| Subject
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Secondary recovery of oil.
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| Subject
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Secondary recovery of oil.
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| Dewey Classification
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622.3382
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| LC Classification
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TN871.37.G744 2018
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| Added Entry
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Wilhite, G. Paul.
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