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Computational rheology for pipeline and annular flow / / by Wilson C. Chin
| Computational rheology for pipeline and annular flow / / by Wilson C. Chin |
| Autore | Chin Wilson C |
| Edizione | [1st ed.] |
| Pubbl/distr/stampa | Boston, : Gulf Pub., c2001 |
| Descrizione fisica | 1 online resource (271 p.) |
| Disciplina | 622/.3382 |
| Soggetto topico |
Oil well drilling
Petroleum pipelines - Fluid dynamics - Mathematical models Wells - Fluid dynamics - Mathematical models |
| ISBN |
1-281-01981-X
9786611019815 0-08-050248-2 |
| Formato | Materiale a stampa  |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Front Cover; Computational Rheology for Pipeline and Annular Flow; Copyright Page; Contents; Preface; Chapter 1. Introduction: Basic Principles and Applications; Why Study Rheology?; Review of Analytical Results; Overview of Annular Flow; Review of Prior Annular Models; The New Computational Models; Practical Applications; Philosophy of Numerical Modeling; References; Chapter 2. Eccentric, Nonrotating, Annular Flow; Theory and Mathematical Formulation; Boundary Conforming Grid Generation; Numerical Finite Difference Solution; Detailed Calculated Results; References
Chapter 3. Concentric, Rotating, Annular FlowGeneral Governing Equations; Exact Solution for Newtonian Flows; Narrow Annulus Power Law Solution; Analytical Validation; Differences Between Newtonian and Power Law Flows; More Applications Formulas; Detailed Calculated Results; References; Chapter 4. Recirculating Annular Vortex Flows; What Are Recirculating Vortex Flows?; Motivating Ideas and Controlling Variables; Detailed Calculated Results; How to Avoid Stagnant Bubbles; A Practical Example; References; Chapter 5. Applications to Drilling and Production; Cuttings Transport in Deviated Wells Evaluation of Spotting Fluids for Stuck PipeCementing Applications; Coiled Tubing Return Flows; Heavily Clogged Stuck Pipe; Conclusions; References; Chapter 6. Bundled Pipelines: Coupled Annular Velocity and Temperature; Computer Visualization and Speech Synthesis; Coupled Velocity and Temperature Fields; References; Chapter 7. Pipe Flow Modeling in General Ducts; Newtonian Flow in Circular Pipes; Finite Difference Method; Newtonian Flow in Rectangular Ducts; General Boundary Conforming Grid Systems; Clogged Annulus and Stuck Pipe Modeling; References; Chapter 8. Solids Deposition Modeling Mudcake Buildup on Porous RockDeposition Mechanics; Sedimentary Transport; Slurry Transport; Waxes and Paraffins, Basic Ideas; Hydrate Control; Modeling Concepts and Integration; Wax Buildup Due to Temperature Differences; Deposition and Flowfield Interaction; Detailed Calculated Examples; References; Chapter 9. Pipe Bends, Secondary Flows, Fluid Heterogeneities; Modeling Non-Newtonian Duct Flow in Pipe Bends; Straight, Closed Ducts; Hagen-Poiseuille Flow Between Planes; Flow Between Concentric Plates; Flows in Closed Curved Ducts; Fluid Heterogeneities and Secondary Flows; References Chapter 10. Advanced Modeling MethodsComplicated Problem Domains; Convergence Acceleration; Fast Solutions to Laplace's Equation; Special Rheological Models; Software Notes; References; Index; Author Biography |
| Record Nr. | UNINA-9911004800103321 |
Chin Wilson C
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| Boston, : Gulf Pub., c2001 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
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Managed pressure drilling : modeling, strategy, and planning / / Wilson C. Chin
| Managed pressure drilling : modeling, strategy, and planning / / Wilson C. Chin |
| Autore | Chin Wilson C |
| Pubbl/distr/stampa | Oxford ; ; Boston, : Gulf Professional Pub., c2012 |
| Descrizione fisica | 1 online resource (409 p.) |
| Disciplina | 622/.3381 |
| Soggetto topico |
Managed pressure drilling (Petroleum engineering)
Oil well drilling Wells - Fluid dynamics - Mathematical models |
| ISBN |
1-283-39624-6
9786613396242 0-12-385125-4 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Front Cover; Managed Pressure Drilling; Copyright Page; Contents; Preface; About the Author; 1. Fluid Mechanics Challenges and Technology Overview; Challenges in Annular Flow Modeling; Simulation challenges met and exceeded; Why Computational Rheology?; Broad Principles and Numerical Consistency; What we're not; What we can solve and more; Closing Introductory Remarks; Section 1.1. Managed pressure drilling fluid flow challenges; Newtonian pipe flow; Bingham plastic pipe flow; Power law fluid pipe flow; Herschel-Bulkley pipe flow; Ellis fluid pipe flow; Annular flow solutions
Section 1.2. MPD flow simulator: Steady, two-dimensional, single-phase flowConsistency Checks; Section 1.3. MPD flow simulator: Transient, two-dimensional, single-phase flow; 2. General Theory and Physical Model Formulation; Example 2.1. Newtonian flow circular cylindrical coordinates; Concentric, steady, two-dimensional flows without influx; Eccentric, steady, two-dimensional flow; Example 2.2. Shear-thinning and non-Newtonian flow effects; Governing equations; Simple rheological models; Examples; Field and laboratory examples Example 2.3. Curvilinear grid formulation for highly eccentric annular flows with general non-Newtonian fluids without rotationGoverning equations; Rheological flow models; Power law fluids; Herschel-Bulkley yield stress fluids; Borehole configuration; Early approach, viscosity derivatives omitted; Additional postprocessing formulas; Boundary-conforming, curvilinear grid generation; Exact viscosity model after 2010; Extensions for yield stress fluids; Example 2.4. Curvilinear grid formulation for eccentric annular flows with general non-Newtonian fluids with rotation 3. Numerical Analysis and Algorithm Development StrategiesExample 3.1. Grid generation for eccentric annular flow; Thompson's Mapping; Some reciprocity relations; Conformal mapping limits; Solutions to mesh-generation equations; Boundary conditions; Fast iterative solutions; On Laplacian transformations; Example 3.2. Mappings for flows in singly connected ducts; Example 3.3. Solids deposition modeling and applications; Mudcake buildup on porous rock; Depositional mechanics; Sedimentary transport; Slurry transport; Waxes and paraffins: Basic ideas; More complications Wax precipitation in detailWax deposition control; Modeling dynamic wax deposition; Hydrate control; Recapitulation; Modeling concepts and integration; Wax buildup due to temperature differences; Simulating erosion; Deposition and flow field interaction; Detailed calculated examples; Example 3.4. Finite difference details for annular flow problems; Concentric Newtonian flow; Eccentric flow details; 4. Steady, Two-Dimensional, Non-Newtonian, Single-Phase, Eccentric Annular Flow; Example 4.1. Newtonian flow eccentric annulus applications; Concentric annulus Newtonian flow validations Example 4.2. Power law flow in eccentric annuli |
| Record Nr. | UNINA-9911006547403321 |
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Chin Wilson C
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| Oxford ; ; Boston, : Gulf Professional Pub., c2012 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
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Measurement while drilling (MWD) signal analysis, optimization and design / / by Wilson C. Chin [and five others] ; cover design by Kris Hackerott
| Measurement while drilling (MWD) signal analysis, optimization and design / / by Wilson C. Chin [and five others] ; cover design by Kris Hackerott |
| Autore | Chin Wilson C |
| Pubbl/distr/stampa | Hoboken, New Jersey : , : Scrivener Publishing : , : Wiley, , 2014 |
| Descrizione fisica | 1 online resource (382 p.) |
| Disciplina | 622/.33810287 |
| Soggetto topico |
Oil well logging, Electric
Oil well drilling Orientation - Measurement Wells - Fluid dynamics Flow meters |
| ISBN |
1-118-83169-1
1-118-83172-1 1-118-83170-5 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Cover; Title Page; Copyright Page; Contents; Opening Message; Preface; Acknowledgements; 1 Stories from the Field, Fundamental Questions and Solutions; 1.1 Mysteries, Clues and Possibilities; 1.2 Paper No. AADE-11-NTCE-74, "High-Data-Rate Measurement-While-Drilling System for Very Deep Wells," updated; 1.2.1 Abstract; 1.2.2 Introduction; 1.2.3 MWD telemetry basis; 1.2.4 New telemetry approach; 1.2.5 New technology elements; 1.2.5.1 Downhole source and signal optimization; 1.2.5.2 Surface signal processing and noise removal; 1.2.5.3 Pressure, torque and erosion computer modeling
1.2.5.4 Wind tunnel analysis: studying new approaches 1.2.5.5 Example test results; 1.2.6 Conclusions; 1.2.7 Acknowledgements; 1.2.8 References; 1.3 References; 2 Harmonic Analysis: Six-Segment Downhole Acoustic Waveguide; 2.1 MWD Fundamentals; 2.2 MWD Telemetry Concepts Re-examined; 2.2.1 Conventional pulser ideas explained; 2.2.2 Acoustics at higher data rates; 2.2.3 High-data-rate continuous wave telemetry; 2.2.4 Drillbit as a reflector; 2.2.5 Source modeling subtleties and errors; 2.2.6 Flowloop and field test subtleties; 2.2.7 Wind tunnel testing comments 2.3 Downhole Wave Propagation Subtleties 2.3.1 Three distinct physical problems; 2.3.2 Downhole source problem; 2.4 Six-Segment Downhole Waveguide Model; 2.4.1 Nomenclature; 2.4.2 Mathematical formulation; 2.4.2.1 Dipole source, drill collar modeling; 2.4.2.2 Harmonic analysis; 2.4.2.3 Governing partial differential equations; 2.4.2.4 Matching conditions at impedance junctions; 2.4.2.5 Matrix formulation; 2.4.2.6 Matrix inversion; 2.4.2.7 Final data analysis; 2.5 An Example: Optimizing Pulser Signal Strength; 2.5.1 Problem definition and results; 2.5.2 User interface 2.5.3 Constructive interference at high frequencies 2.6 Additional Engineering Conclusions; 2.7 References; 3 Harmonic Analysis: Elementary Pipe and Collar Models; 3.1 Constant area drillpipe wave models; 3.1.1 Case (a), infinite system, both directions; 3.1.2 Case (b), drillbit as a solid reflector; 3.1.3 Case (c), drillbit as open-ended reflector; 3.1.4 Case (d), "finite-finite" waveguide of length 2L; 3.1.5 Physical Interpretation; 3.2 Variable area collar-pipe wave models; 3.2.1 Mathematical formulation; 3.2.2 Example calculations; 3.3 References 4 Transient Constant Area Surface and Downhole Wave Models 4.1 Method 4-1. Upgoing wave reflection at solid boundary, single transducer deconvolution using delay equation, no mud pump noise; 4.1.1 Physical problem; 4.1.2 Theory; 4.1.3 Run 1. Wide signal - low data rate; 4.1.4 Run 2. Narrow pulse width - high data rate; 4.1.5 Run 3. Phase-shift keying or PSK; 4.1.6 Runs 4,and 5. Phase-shift keying or PSK, very high data rate; 4.2 Method 4-2. Upgoing wave reflection at solid boundary, single transducer deconvolution using delay equation, with mud pump noise; 4.2.1 Physical Problem 4.2.2 Software note |
| Record Nr. | UNINA-9910790931703321 |
|
Chin Wilson C
|
||
| Hoboken, New Jersey : , : Scrivener Publishing : , : Wiley, , 2014 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Measurement while drilling (MWD) signal analysis, optimization and design / / by Wilson C. Chin [and five others] ; cover design by Kris Hackerott
| Measurement while drilling (MWD) signal analysis, optimization and design / / by Wilson C. Chin [and five others] ; cover design by Kris Hackerott |
| Autore | Chin Wilson C |
| Pubbl/distr/stampa | Hoboken, New Jersey : , : Scrivener Publishing : , : Wiley, , 2014 |
| Descrizione fisica | 1 online resource (382 p.) |
| Disciplina | 622/.33810287 |
| Soggetto topico |
Oil well logging, Electric
Oil well drilling Orientation - Measurement Wells - Fluid dynamics Flow meters |
| ISBN |
1-118-83169-1
1-118-83172-1 1-118-83170-5 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Cover; Title Page; Copyright Page; Contents; Opening Message; Preface; Acknowledgements; 1 Stories from the Field, Fundamental Questions and Solutions; 1.1 Mysteries, Clues and Possibilities; 1.2 Paper No. AADE-11-NTCE-74, "High-Data-Rate Measurement-While-Drilling System for Very Deep Wells," updated; 1.2.1 Abstract; 1.2.2 Introduction; 1.2.3 MWD telemetry basis; 1.2.4 New telemetry approach; 1.2.5 New technology elements; 1.2.5.1 Downhole source and signal optimization; 1.2.5.2 Surface signal processing and noise removal; 1.2.5.3 Pressure, torque and erosion computer modeling
1.2.5.4 Wind tunnel analysis: studying new approaches 1.2.5.5 Example test results; 1.2.6 Conclusions; 1.2.7 Acknowledgements; 1.2.8 References; 1.3 References; 2 Harmonic Analysis: Six-Segment Downhole Acoustic Waveguide; 2.1 MWD Fundamentals; 2.2 MWD Telemetry Concepts Re-examined; 2.2.1 Conventional pulser ideas explained; 2.2.2 Acoustics at higher data rates; 2.2.3 High-data-rate continuous wave telemetry; 2.2.4 Drillbit as a reflector; 2.2.5 Source modeling subtleties and errors; 2.2.6 Flowloop and field test subtleties; 2.2.7 Wind tunnel testing comments 2.3 Downhole Wave Propagation Subtleties 2.3.1 Three distinct physical problems; 2.3.2 Downhole source problem; 2.4 Six-Segment Downhole Waveguide Model; 2.4.1 Nomenclature; 2.4.2 Mathematical formulation; 2.4.2.1 Dipole source, drill collar modeling; 2.4.2.2 Harmonic analysis; 2.4.2.3 Governing partial differential equations; 2.4.2.4 Matching conditions at impedance junctions; 2.4.2.5 Matrix formulation; 2.4.2.6 Matrix inversion; 2.4.2.7 Final data analysis; 2.5 An Example: Optimizing Pulser Signal Strength; 2.5.1 Problem definition and results; 2.5.2 User interface 2.5.3 Constructive interference at high frequencies 2.6 Additional Engineering Conclusions; 2.7 References; 3 Harmonic Analysis: Elementary Pipe and Collar Models; 3.1 Constant area drillpipe wave models; 3.1.1 Case (a), infinite system, both directions; 3.1.2 Case (b), drillbit as a solid reflector; 3.1.3 Case (c), drillbit as open-ended reflector; 3.1.4 Case (d), "finite-finite" waveguide of length 2L; 3.1.5 Physical Interpretation; 3.2 Variable area collar-pipe wave models; 3.2.1 Mathematical formulation; 3.2.2 Example calculations; 3.3 References 4 Transient Constant Area Surface and Downhole Wave Models 4.1 Method 4-1. Upgoing wave reflection at solid boundary, single transducer deconvolution using delay equation, no mud pump noise; 4.1.1 Physical problem; 4.1.2 Theory; 4.1.3 Run 1. Wide signal - low data rate; 4.1.4 Run 2. Narrow pulse width - high data rate; 4.1.5 Run 3. Phase-shift keying or PSK; 4.1.6 Runs 4,and 5. Phase-shift keying or PSK, very high data rate; 4.2 Method 4-2. Upgoing wave reflection at solid boundary, single transducer deconvolution using delay equation, with mud pump noise; 4.2.1 Physical Problem 4.2.2 Software note |
| Record Nr. | UNINA-9910806871303321 |
|
Chin Wilson C
|
||
| Hoboken, New Jersey : , : Scrivener Publishing : , : Wiley, , 2014 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||