Core analysis : a best practice guide /

Annotation

Detalles Bibliográficos
Clasificación:Libro Electrónico
Otros Autores: McPhee, Colin (Editor ), Reed, Jules (Editor ), Zubizarreta, Izaskun (Editor )
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Amsterdam, Netherlands : Elsevier, 2015.
Colección:Developments in petroleum science ; volume 64.
Temas:
Drill core analysis > Handbooks, manuals, etc.
Analyse de carottes de sondage > Guides, manuels, etc.
TECHNOLOGY & ENGINEERING > Mining.
Drill core analysis
Handbook
handbooks.
Handbooks and manuals
Handbooks and manuals.
Guides et manuels.
Acceso en línea:Texto completo
Texto completo
Tabla de Contenidos:
  • Front Cover; Core Analysis: A Best Practice Guide; Copyright; Contents; Series Editor�s Preface; Preface; Chapter 1: Best Practice in Coring and Core Analysis; 1.1. Core Analysis Data: The Foundation of Formation Evaluation; 1.2. Core Analysis Data Uncertainty; 1.2.1. Reasons and Consequences; 1.2.2. Reducing Uncertainty; 1.3. Core Analysis Management Framework; 1.3.1. Core Analysis Planning and Design; 1.3.2. Programme Design Considerations; 1.3.3. Core Analysis Focal Points; 1.3.4. Real-Time Quality Control; 1.4. Best Practice in Core Analysis: An Overview.
  • 1.4.1. Coring, Core Handling and Core Processing1.4.2. Sample Preparation; 1.4.3. Routine Core Analysis; 1.4.4. Special Core Analysis; 1.4.5. Geomechanics Tests; 1.4.6. Quality Control Procedures and Diagnostics; 1.4.7. Example Core Analysis Programmes; 1.4.8. Benefits; References; Chapter 2: Wellsite Core Acquisition, Handling and Transportation; 2.1. Coring Systems; 2.1.1. Conventional Full-Diameter Coring Systems; 2.1.2. Wireline-Retrievable Cores; 2.1.3. Gel Coring Systems; 2.1.4. Liquid and Gas Retention Coring Systems; 2.1.4.1. Sponge Coring; 2.1.4.2. Liquid Capture Systems.
  • 2.1.4.3. Pressure-Retaining Systems2.1.5. Oriented Coring; 2.1.6. Sidewall Cores; 2.2. Conventional Coring Operations; 2.2.1. Health, Safety and Environmental Considerations; 2.2.2. Coring Team; 2.2.3. Managing Coring Risks; 2.3. Coring Fluids; 2.3.1. Mud Types; 2.3.2. Mud Tracers; 2.3.2.1. Water-Soluble Tracers; 2.3.2.2. Oil-Soluble Tracers; 2.4. Core Damage and Core Fluid/Petrophysical Property Alteration; 2.4.1. Fluid Saturation Alteration; 2.4.2. Stress Release; 2.4.2.1. Pore Pressure Dissipation; 2.4.2.2. Shear Failure and Compressive Damage; 2.4.3. Wettability Alteration.
  • 2.4.3.1. Definition2.4.3.2. Native Reservoir Wettability Controls; 2.4.3.2.1. Oil Type/Composition; 2.4.3.2.2. Brine Chemistry; 2.4.3.2.3. Grain/Mineral Type; 2.4.3.3. Wettability Alteration Mechanisms: Drilling Mud; 2.4.3.4. Pressure and Temperature Reduction; 2.5. Best Practice in Wellsite Handling; 2.5.1. Core Recovery on Rig Floor; 2.5.2. Linear Layout and Marking; 2.5.3. Wellsite Gamma-Ray Scanning; 2.5.4. Wellsite Liner Cutting; 2.5.5. Wellsite Core Stabilisation and Preservation; 2.5.5.1. Freezing; 2.5.5.2. Resin Consolidation; 2.5.5.3. Foam and Gypsum Stabilisation.
  • 2.5.5.4. Gypsum Versus Foam: Advantages and Limitations2.5.6. Wellsite Sampling; 2.5.6.1. Reasons for Sampling; 2.5.6.2. Sampling Methods; 2.5.6.3. Dean-Stark and Water Analysis Plugs; 2.5.6.4. Shale Preservation; 2.5.7. Core Transportation; 2.5.8. Coring Report; 2.6. Special Handling Considerations for Difficult Rock Types; 2.6.1. Unconsolidated Core; 2.6.2. Carbonates; 2.6.3. Shaly Sands; 2.6.4. Shales; 2.6.5. Coal; References; Recommended Reading; Chapter 3: Core Laboratory Processing and Screening; 3.1. Introduction; 3.2. Core Receipt and Cutting; 3.3. CT Scanning; 3.4. Gamma Ray Logging.

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