Formation testing : pressure transient and contamination analysis / / Wilson C. Chin [and four others] |
Autore | Chin Wilson C. |
Pubbl/distr/stampa | Salem, Massachusetts ; ; Hoboken, New Jersey : , : Scrivener Publishing : , : John Wiley & Sons, , 2014 |
Descrizione fisica | 1 online resource (484 p.) |
Disciplina | 622/.33820287 |
Soggetto topico |
Reservoir oil pressure - Testing
Contamination (Technology) Oil well logging |
ISBN |
1-118-83114-4
1-118-83117-9 1-118-83115-2 |
Classificazione | SCI024000 |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
Cover; Title Page; Copyright Page; Contents; Opening Message; Preface; Acknowledgements; Part 1 Modern Ideas in Job Planning and Execution; 1. Basic Ideas, Challenges and Developments; 1.1 Background and introduction; 1.2 Existing models, implicit assumptions and limitations; 1.2.1 Exponential tight zone approximation; 1.2.2 Permeability and anisotropy from steady-state dual-probe data; 1.2.3 Three-probe, vertical well interpretation method; 1.2.4 Gas pumping; 1.2.5 Material balance method; 1.2.6 Conventional three-dimensional numerical models; 1.2.7 Uniform flux dual packer models
1.3 Tool development, testing and deployment - role of modeling and "behind the scenes" at CNOOC/COSL1.3.1 Engineering analysis, design challenges, solutions; 1.3.2 From physics to math to engineering - inverse problem formulation; 1.3.2.1 Simplified theoretical model; 1.3.2.2 More detailed finite element model; 1.3.3 Design chronicle - people, places and things; 1.3.4 Bohai Bay activities; 1.3.5 Middle East operations; 1.4 Book objectives and presentation plan; 1.5 References; 2. Forward Pressure and Contamination Analysis in Single and Multiphase Compressible Flow 2.1 Single-phase source flow models2.1.1 Qualitative effects of storage and skin; 2.2 Dual packer and dual probe flows; 2.2.1 A detailed calculation; 2.3 Supercharging, mudcake growth and pressure interpretation; 2.3.1 Supercharge numerical simulation; 2.3.2 Industry perspectives on "buildup versus drawdown,"; 2.4 Boundary and azimuthal effects in horizontal wells; 2.5 Contamination clean-up at the source probe; 2.6 Sampling-while-drilling tools and clean-up efficiency; 2.6.1 What happens with very short invasion times; 2.6.2 What happens with longer invasion times; 2.7 References 3. Inverse Methods for Permeability, Anisotropy and Formation Boundary Effects Assuming Liquids3.1 New inverse methods summary; 3.2 New inverse modeling capabilities; 3.2.1 Module FT-00; 3.2.2 Module FT-01; 3.2.3 Module FT-03; 3.2.4 Module FT-PTA-DDBU; 3.3 Inverse examples - dip angle, multivalued solutions and skin; 3.3.1 Forward model, Module FT-00; 3.3.2 Inverse model, Module FT-01 - multivalued solutions; 3.3.3 Effects of dip angle - detailed calculations; 3.3.4 Inverse "pulse interaction" approach for low permeability zones 3.4 Computational notes on complex complementary error function evaluation3.5 Source model - analytical and physical limitations; 3.6 Full three-dimensional transient Darcy flow model for horizontal wells; 3.7 Phase delay inverse method and electromagnetic analogy; 3.8 Source model applications to dual packers; 3.9 Closing remarks; 3.10 References; Part II Math Models, Results and Detailed Examples; 4. Multiphase Flow and Contamination - Transient Immiscible and Miscible Modeling with Fluid Compressibility; 4.1 Invasion, supercharging and multiphase pumping 4.1.1 Invasion and pumping description |
Record Nr. | UNINA-9910140282303321 |
Chin Wilson C.
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||
Salem, Massachusetts ; ; Hoboken, New Jersey : , : Scrivener Publishing : , : John Wiley & Sons, , 2014 | ||
![]() | ||
Lo trovi qui: Univ. Federico II | ||
|
Formation testing : pressure transient and contamination analysis / / Wilson C. Chin [and four others] |
Autore | Chin Wilson C. |
Pubbl/distr/stampa | Salem, Massachusetts ; ; Hoboken, New Jersey : , : Scrivener Publishing : , : John Wiley & Sons, , 2014 |
Descrizione fisica | 1 online resource (484 p.) |
Disciplina | 622/.33820287 |
Soggetto topico |
Reservoir oil pressure - Testing
Contamination (Technology) Oil well logging |
ISBN |
1-118-83114-4
1-118-83117-9 1-118-83115-2 |
Classificazione | SCI024000 |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
Cover; Title Page; Copyright Page; Contents; Opening Message; Preface; Acknowledgements; Part 1 Modern Ideas in Job Planning and Execution; 1. Basic Ideas, Challenges and Developments; 1.1 Background and introduction; 1.2 Existing models, implicit assumptions and limitations; 1.2.1 Exponential tight zone approximation; 1.2.2 Permeability and anisotropy from steady-state dual-probe data; 1.2.3 Three-probe, vertical well interpretation method; 1.2.4 Gas pumping; 1.2.5 Material balance method; 1.2.6 Conventional three-dimensional numerical models; 1.2.7 Uniform flux dual packer models
1.3 Tool development, testing and deployment - role of modeling and "behind the scenes" at CNOOC/COSL1.3.1 Engineering analysis, design challenges, solutions; 1.3.2 From physics to math to engineering - inverse problem formulation; 1.3.2.1 Simplified theoretical model; 1.3.2.2 More detailed finite element model; 1.3.3 Design chronicle - people, places and things; 1.3.4 Bohai Bay activities; 1.3.5 Middle East operations; 1.4 Book objectives and presentation plan; 1.5 References; 2. Forward Pressure and Contamination Analysis in Single and Multiphase Compressible Flow 2.1 Single-phase source flow models2.1.1 Qualitative effects of storage and skin; 2.2 Dual packer and dual probe flows; 2.2.1 A detailed calculation; 2.3 Supercharging, mudcake growth and pressure interpretation; 2.3.1 Supercharge numerical simulation; 2.3.2 Industry perspectives on "buildup versus drawdown,"; 2.4 Boundary and azimuthal effects in horizontal wells; 2.5 Contamination clean-up at the source probe; 2.6 Sampling-while-drilling tools and clean-up efficiency; 2.6.1 What happens with very short invasion times; 2.6.2 What happens with longer invasion times; 2.7 References 3. Inverse Methods for Permeability, Anisotropy and Formation Boundary Effects Assuming Liquids3.1 New inverse methods summary; 3.2 New inverse modeling capabilities; 3.2.1 Module FT-00; 3.2.2 Module FT-01; 3.2.3 Module FT-03; 3.2.4 Module FT-PTA-DDBU; 3.3 Inverse examples - dip angle, multivalued solutions and skin; 3.3.1 Forward model, Module FT-00; 3.3.2 Inverse model, Module FT-01 - multivalued solutions; 3.3.3 Effects of dip angle - detailed calculations; 3.3.4 Inverse "pulse interaction" approach for low permeability zones 3.4 Computational notes on complex complementary error function evaluation3.5 Source model - analytical and physical limitations; 3.6 Full three-dimensional transient Darcy flow model for horizontal wells; 3.7 Phase delay inverse method and electromagnetic analogy; 3.8 Source model applications to dual packers; 3.9 Closing remarks; 3.10 References; Part II Math Models, Results and Detailed Examples; 4. Multiphase Flow and Contamination - Transient Immiscible and Miscible Modeling with Fluid Compressibility; 4.1 Invasion, supercharging and multiphase pumping 4.1.1 Invasion and pumping description |
Record Nr. | UNINA-9910813528803321 |
Chin Wilson C.
![]() |
||
Salem, Massachusetts ; ; Hoboken, New Jersey : , : Scrivener Publishing : , : John Wiley & Sons, , 2014 | ||
![]() | ||
Lo trovi qui: Univ. Federico II | ||
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Formation testing : low mobility pressure transient analysis / / Wilson C. Chin [and three others] |
Pubbl/distr/stampa | Hoboken, New Jersey : , : Scrivener Publishing : , : Wiley, , 2016 |
Descrizione fisica | 1 online resource (314 pages) : illustrations (some color), photographs |
Disciplina | 622.18282 |
Collana | Advances in Petroleum Engineering |
Soggetto topico |
Reservoir oil pressure
Oil well logging |
ISBN |
1-118-92595-5
1-118-92598-X 1-118-92596-3 |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Record Nr. | UNINA-9910137228603321 |
Hoboken, New Jersey : , : Scrivener Publishing : , : Wiley, , 2016 | ||
![]() | ||
Lo trovi qui: Univ. Federico II | ||
|
Formation testing : low mobility pressure transient analysis / / Wilson C. Chin [and three others] |
Pubbl/distr/stampa | Hoboken, New Jersey : , : Scrivener Publishing : , : Wiley, , 2016 |
Descrizione fisica | 1 online resource (314 pages) : illustrations (some color), photographs |
Disciplina | 622.18282 |
Collana | Advances in Petroleum Engineering |
Soggetto topico |
Reservoir oil pressure
Oil well logging |
ISBN |
1-118-92595-5
1-118-92598-X 1-118-92596-3 |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Record Nr. | UNINA-9910814122903321 |
Hoboken, New Jersey : , : Scrivener Publishing : , : Wiley, , 2016 | ||
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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 |
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 | ||
![]() | ||
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 |
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 | ||
![]() | ||
Lo trovi qui: Univ. Federico II | ||
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