Petrophysical characterization and fluids transport in unconventional reservoirs /

Petrophysical Characterization and Fluids Transport in Unconventional Reservoirs presents a comprehensive look at these new methods and technologies for the petrophysical characterization of unconventional reservoirs, including recent theoretical advances and modeling on fluids transport in unconven...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Otros Autores: Cai, Jianchao (Editor ), Hu, Xiangyun (Editor )
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Amsterdam : Elsevier, 2019.
Edición:First edition.
Temas:
Earth sciences.
Chemical engineering.
Chemical Engineering
Sciences de la terre.
G�enie chimique.
earth sciences.
chemical engineering.
TECHNOLOGY & ENGINEERING > Power Resources > General.
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Front Cover; Petrophysical Characterization and Fluids Transport in Unconventional Reservoirs; Copyright; Contents; Contributors; Preface; Part 1: Petrophysical Characterization; Chapter 1: Characterizing Pore Size Distributions of Shale; 1. Introduction; 2. Scanning Electron Microscopy; 2.1. Sample Preparation; 2.2. Image Analysis; 2.3. Bakken Example Analysis; 3. Gas Adsorption; 3.1. Sample Preparation; 3.2. Longmaxi Sample Analysis; 3.3. Model Choice; 4. Mercury Intrusion Capillary Pressure Test; 4.1. Case Study; 4.2. Comparison of the PSD from MICP and Gas Adsorption; 5. Conclusions
  • AcknowledgmentsChapter 2: Petrophysical Characterization of the Pore Structure of Coal; 1. Introduction; 2. Samples, Experiments and Methods; 2.1. Samples; 2.2. NMR Theory and Experiments; 2.3. Theory of Centrifuge Experiment; 3. T2 Distributions of the Coal Samples; 4. Determination of T2 Cutoff Value; 5. Pore Structure Characterization Using NMR; 5.1. Pore Classification Based on an NMR Fluid Typing Method; 5.2. Characterization of Pore Size Distribution; 5.3. Characterization of Porosity; 6. Characterization of Permeability; 7. Conclusions; Acknowledgments
  • Chapter 3: Characterization of Petrophysical Properties in Tight Sandstone Reservoirs1. Introduction; 2. Characterization and Analysis of Tight Sandstone Pore Structures; 2.1. Pore Structure Characterization With Thin Section, FE-SEM, and X-CT; 2.2. Pore Structure Characterization With HPMI; 2.3. Pore Structure Characterization With RMI; 2.4. Pore Structure Characterization With NMR; 2.5. Pore Structure Characterization With N2GA; 3. Petrophysical Properties of Tight Sandstone; 3.1. Intrinsic Permeability of Tight Sandstone; 3.2. Apparent Gas Permeability of Tight Sandstone
  • 3.3. Liquid Permeability of Tight Sandstone3.4. Low-Velocity Non-Darcy Flow in Tight Sandstone; 4. Conclusions; Acknowledgments; Chapter 4: Multifractal Analysis of Pore Structure of Tight Oil Reservoirs Using Low-Field NMR Measurements; 1. Introduction; 2. Methodology; 2.1. Multifractal Theory; 2.2. Relationship Between NMR T2 Time and Pore Size; 3. Samples and Experiments; 4. Petrophysical Parameters and Mineralogical Characteristics; 5. Multifractal Characteristics; 6. Relationship Between Mineral Contents and Multifractal Parameters
  • 7. Relationship Between Petrophysical and Multifractal Parameters8. Comparison With Sandstone Reservoirs; 9. Conclusions; Acknowledgment; Chapter 5: Investigation and Quantitative Evaluation of Organic-Related Pores in Unconventional Reservoirs; 1. Introduction; 2. Materials and Methods; 2.1. Geological Settings; 2.2. Low-Field NMR Test; 2.3. Petrophysical Measurements; 2.4. Geochemical Experiments; 2.5. Petrographic and Mineralogy Analysis; 3. Quantification of the Organic-Related Pores; 4. Relationship With Geochemical Parameters; 5. Prediction Using Petrophysical Data; 6. Conclusions

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