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Practical Petrophysics Volume 62 1st Edition by Martin Kennedy ISBN 0444632700 9780444632708
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Practical Petrophysics Volume 62 1st Edition Martin Kennedy Digital Instant Download
ISBN(s): 9780444632708, 0444632700
Edition: 1
File Details: PDF, 49.58 MB
Year: 2015
Language: english
Practical Petrophysics Volume 62 1st Edition by Martin Kennedy – Ebook PDF Instant Download/Delivery: 0444632700, 9780444632708
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Product details:
ISBN 10: 0444632700
ISBN 13: 9780444632708
Author: Martin Kennedy
Practical Petrophysics looks at both the principles and practice of petrophysics in understanding petroleum reservoirs. It concentrates on the tools and techniques in everyday use, and addresses all types of reservoirs, including unconventionals.
The book provides useful explanations on how to perform fit for purpose interpretations of petrophysical data, with emphasis on what the interpreter needs and what is practically possible with real data. Readers are not limited to static reservoir properties for input to volumetrics, as the book also includes applications such as reservoir performance, seismic attribute, geo-mechanics, source rock characterization, and more.
Practical Petrophysics Volume 62 1st Table of contents:
- Series Editor’s Preface
- Preface
- Chapter 1: Introduction
- Abstract
- 1.1. What is petrophysics?
- 1.2. Early history
- 1.3. Petrophysical data
- 1.4. Quantitative description of mixtures
- 1.5. The practice of petrophysics and petrophysics in practice
- 1.6. The petrophysical model
- 1.7. Physical properties of rocks
- 1.8. Fundamentals of log analysis
- 1.9. A word on nomenclature
- 1.10. The future of the profession
- Chapter 2: Petrophysical Properties
- Abstract
- 2.1. Introduction
- 2.2. Porosity
- 2.3. Saturation
- 2.4. Permeability
- 2.5. Shale and clay volume (Vshale and Vclay)
- 2.6. Relationships between properties
- 2.7. Heterogeneity and anisotropy
- 2.8. Net, pay and averaging
- 2.9. Unconventional reservoirs
- Chapter 3: Core and Other Real Rock Measurements
- Abstract
- 3.1. Introduction
- 3.2. Types of core
- 3.3. Core measurements
- 3.4. Preparation for analysis
- 3.5. Core porosity
- 3.6. Grain density
- 3.7. Permeability
- 3.8. Special core analysis
- 3.9. Oil and gas shales
- 3.10. Cuttings
- Chapter 4: Logs Part I: General Characteristics and Passive Measurements
- Abstract
- 4.1. Introduction
- 4.2. Wireline and logging while drilling
- 4.3. Characteristics of logs
- 4.4. Volume of investigation of logs
- 4.5. Passive log measurements
- Chapter 5: Logs Part II: Porosity, Resistivity and Other Tools
- Abstract
- 5.1. Introduction
- 5.2. Density tools
- 5.3. Neutron logs
- 5.4. Sonic
- 5.5. Nuclear magnetic resonance
- 5.6. Resistivity
- 5.7. More uses of neutrons: geochemical logs
- 5.8. Environmental corrections
- 5.9. Conclusions
- Chapter 6: Introduction to Log Analysis: Shale Volume and Parameter Picking
- Abstract
- 6.1. Introduction
- 6.2. Fundamentals: equations and parameters
- 6.3. Preparation
- 6.4. Parameter picking and displaying logs
- 6.5. Shale volume
- 6.6. Combining shale volume curves
- Chapter 7: Log Analysis Part I: Porosity
- Abstract
- 7.1. Introduction to porosity
- 7.2. Porosity calculation fundamentals
- 7.3. Single log porosity methods
- 7.4. Methods involving more than one input curve
- 7.5. Nuclear magnetic resonance
- 7.6. Integration with core data
- 7.7. Oil and gas shales
- Chapter 8: Log Analysis Part II: Water Saturation
- Abstract
- 8.1. Introduction
- 8.2. Basic principles
- 8.3. Water saturation from resistivity
- 8.4. Back to the rocks. What controls the saturation parameters?
- 8.5. Uncertainty and error analysis
- 8.6. Conductive minerals and shaly-sand equations
- 8.7. Conclusions
- Chapter 9: Hydrocarbon Corrections
- Abstract
- 9.1. Introduction
- 9.2. Integrating density porosity with Archie saturation
- 9.3. Complications and refinements
- 9.4. The neutron log re-visited
- Chapter 10: Fluid Distribution
- Abstract
- 10.1. Introduction
- 10.2. Gravitational forces and buoyancy
- 10.3. Capillary forces
- 10.4. Water in porous rocks
- 10.5. Wettability
- 10.6. Interfacial tension and capillary pressure
- 10.7. Capillary pressure curves
- 10.8. Putting it all together: real rocks and real fluids
- 10.9. Developing a saturation-height function
- 10.10. The free water level and formation testers
- 10.11. Conclusions
- Chapter 11: Permeability Re-visited
- Abstract
- 11.1. Introduction
- 11.2. Characteristics of permeability
- 11.3. Permeability data
- 11.4. Permeability prediction
- 11.5. Kozeny–Carmen equation
- 11.6. Permeability as a function of porosity and irreducible water saturation
- 11.7. Analogues and rock types
- 11.8. More log-based methods
- 11.9. A case study
- Chapter 12: Complex Lithology
- Abstract
- 12.1. Introduction
- 12.2. Photo-electric factor
- 12.3. Density–neutron cross-plot
- 12.4. Case study: limestone–dolomite systems
- 12.5. Geochemical tools
- Chapter 13: Thin Bed Pays: Dealing with the Limitations of Log Resolution
- Abstract
- 13.1. Introduction
- 13.2. The problem of log resolution
- 13.3. Thomas-Stieber method
- 13.4. Resistivity and saturation
- 13.5. Image logs
- 13.6. NMR logs
- Chapter 14: Geophysical Applications
- Abstract
- 14.1. Introduction
- 14.2. Integrated transit time and the time–depth curve
- 14.3. Sonic calibration
- 14.4. Fluid substitution
- 14.5. Borehole gravity surveys
- 14.6. Deep reading resistivity surveys
- 14.7. Conclusions
- Chapter 15: Epilogue: High-Angle Wells
- Abstract
- 15.1. Introduction
- 15.2. Logging high-angle wells
- 15.3. Formation anisotropy and thin beds
- 15.4. Conclusions
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