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Author

Fanchi, John R.

Title Integrated flow modeling / John R. Franchi.

Imprint

Amsterdam ; New York : Elsevier, 2000.

Connect to
Available to Pittsburg State University patrons only.

Copies

Location	Call No.	OPAC Message	Status
Axe Elsevier ScienceDirect Ebook	Electronic Book	---	Available

Edition	1st ed.
Description	1 online resource (xv, 287 pages) : illustrations
	text txt rdacontent
	computer c rdamedia
	online resource cr rdacarrier
Series	Developments in petroleum science ; 49
	Developments in petroleum science ; 49.
Bibliography	Includes bibliographical reference (pages 273-280) and index.
Note	Print version record.
Contents	Overview -- Reservoir structure -- Porosity -- Permeability -- Critical sample size -- Petrophysical model -- Relative permeability -- Capillary pressure -- Extended rock-fluid interactions -- Fluid properties -- Fluid displacement -- Formulation of flow equations -- Source/sink terms -- Solution of the extended flow equations -- IFLO applications Original Research Article -- Appendices -- Introduction to IFLO -- Initialization data -- Recurrent data -- Program supplement.
	Cover -- Contents -- About the Author -- Preface -- Chapter 1. Overview -- 1.1 Program Overview -- 1.2 Conventional Black Oil Simulator Equations -- 1.3 Extended Black Oil Simulator Equations -- 1.4 Program Operation -- 1.5 Input Data File- ITEMP. DAT -- 1.6 Output Data Files -- Exercises -- Chapter 2. Reservoir Structure -- 2.1 Coordinate Orientation -- 2.2 Traditional Mapping -- 2.3 Computer Generated Maps -- 2.4 Geostatistical Mapping -- 2.5 Bulk Volume and Net Volume -- Exercises -- Chapter 3. Porosity -- 3.1 Porosity Defined -- 3.2 Net Pore Volume and Saturation -- 3.3 Statistics of Porosity Distributions -- 3.4 Characteristic Volume -- Exercises -- Chapter 4. Permeability -- 4.1 Darcy's Law -- 4.2 Permeability -- 4.3 Directional De pendence of Permeability -- 4.4 Permeability Averaging -- Exercises -- Chapter 5. Critical Sample Size -- 5.1 Critical Sample Size for Porosity -- 5.2 Permeability Distributions -- 5.3 Critical Sample Size for Permeability -- 5.4 Measures of Permeability Heterogeneity -- Exercises -- Chapter 6. Petrophysical Model -- 6.1 Compressional and Shear Velocities -- 6.2 Estimates of Moduli -- 6.3 Moduli from Acoustic Velocities -- 6.4 Acoustic Impedance and Reflection Coefficient -- 6.5 Geostatistical Correlations -- Exercises -- Chapter 7. Relative Permeability -- 7.1 Effective Permeability and Relative Permeability -- 7.2 Two-Phase Relative Permeability -- 7.3 Averaging Relative Permeability Data -- 7.4 Two-Phase Relative Permeability Correlations -- 7.5 Three-Phase Relative Permeability Correlations -- Exercises -- Chapter 8. Capillary Pressure -- 8.1 Basic Concepts -- 8.2 Capillary Pressure -- 8.3 Capillary Pressure Measurements -- 8.4 Capillary Pressure Correlation Methods -- Exercises -- Chapter 9. Extended Rock-Fluid Interactions -- 9.1 Miscible Conditions -- 9.2 Solid Precipitation -- 9.3 Water Blocking -- 9.4 Mobility Control -- 9.5 Effective Relative Permeability and Capillary Pressure -- 9.6 Transmissibility -- Exercises -- Chapter 10. Fluid Properties -- 10.1 Fundamental Fluid Property Concepts -- 10.2 Black Oil Model PVT Data -- 10.3 Extrapolating Saturated Curves -- 10.4 Bubble Point Tracking -- 10.5 Extended Fluid Properties Model -- Exercises -- Chapter 11. Fluid Displacement -- 11.1 Mobility -- 11.2 Fractional Flow -- 11.3 Recovery Efficiency -- 11.4 Production Stages -- 11.5 Miscible Displacement Models -- Exercises -- Chapter 12. Formulation of Flow Equations -- 12.1 Conservation of Mass -- 12.2 Flow Equations for Three-Phase Flow -- 12.3 Recasting the Flow Equations -- 12.4 Introduction of the Capillary Pressure Concept -- 12.5 Extended Black Oil Simulator Equations -- Exercises -- Chapter 13. Source/Sink Terms -- 13.1 Productivity Index -- 13.2 Rate Constraint Representation -- 13.3 Pressure Constraint Representation -- 13.4 Well Constra.
Summary	Integrated Flow Modeling presents the formulation, development and application of an integrated flow simulator (IFLO). Integrated flow models make it possible to work directly with seismically generated data at any time during the life of the reservoir. An integrated flow model combines a traditional flow model with a petrophysical model. The text discusses properties of porous media within the context of multidisciplinary reservoir modeling, and presents the technical details needed to understand and apply the simulator to realistic problems. Exercises throughout the text direct the reader to software applications using IFLO input data sets and an executable version of IFLO provided with the text. The text-software combination provides the resources needed to convey both theoretical concepts and practical skills to geoscientists and engineers.
Language	English.
Subject	Hydrocarbon reservoirs -- Mathematical models.
	R�servoirs d'hydrocarbures -- Mod�les math�matiques.
	TECHNOLOGY & ENGINEERING -- Petroleum.
	Hydrocarbon reservoirs -- Mathematical models
Other Form:	Print version: Franchi, John R. Integrated flow modeling. 1st ed. Amsterdam ; New York : Elsevier Science B.V., 2000 0444505008 9780444505002 (DLC) 00047608 (OCoLC)45420015
ISBN	0444505008
	9780444505002
	9780080534817 (electronic)
	0080534813 (electronic)
Standard No.	AU@ 000042577483
	DEBBG BV039831737
	DEBBG BV042309146
	DEBSZ 367772590
	DEBSZ 482439939
	NZ1 12432831
	NZ1 12461418
	NZ1 15194821
	NZ1 15595208