Description |
1 online resource |
Contents |
880-01 Introduction -- Cased-Hole Logging Environment -- Reservoir Fluid Properties -- Flow Regimes -- Flowmeters -- Radioactive Tracer Logs -- Fluid Identification -- Temperature Logging -- Noise Logging -- Interpretation -- Formation Evaluation Through Casing -- Cement Bond Logging -- Casing Inspection -- Well and Field Monitoring -- Appendixes: Production Logging Charts and Tables -- General Bibliography -- Index |
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880-01/(S Machine generated contents note: Objectives of Production Logging -- Reservoir Performance -- Completion Problems -- Production and Injection Profiles -- Gauging Treatment Effectiveness -- Petroleum Reservoirs -- Modern Production Logging Tools -- Tools for Formation Properties -- Tools for Fluid Typing and Monitoring -- Tools for Completion Inspection -- Quick Reference to Production Logging Tools -- Bibliography -- Planning a Production Logging Job -- Pressure-Control Equipment -- Borehole Environment -- Choosing Production Logs -- Conveyance Methods -- Answers to Text Questions -- PVT Refresher Course -- Single-Component Hydrocarbon System -- Multicomponent Hydrocarbon System -- Oil Reservoirs -- Condensate Reservoirs -- Dry-Gas Reservoir -- Composition of Natural Oils and Gases -- Fluid Properties -- Water -- Gas -- Oil -- Oil Formation Volume Factor -- Practical Applications -- Answers to Text Questions -- Appendix: Standard pressures and temperatures -- Bibliography -- Laminar and Turbulent Flow -- Unit Conversions -- Velocity -- Flow Rate -- Flow Regimes -- Holdup -- Bibliography -- Answers to Text Questions -- Applications -- Packer and Basket Flowmeters -- Continuous Flowmeters -- Full-Bore Flowmeters -- Combination Tools -- Interpretation of Flowmeter Surveys -- Measurements in Deviated Holes -- Measurements in Horizontal Holes -- Oxygen Activation Logging -- Radioactive Tracers and Thermometers -- Bibliography -- Answers to Text Question -- Applications -- Well Treatment -- Tracer Ejector Tool -- Velocity Shot -- Timed-Run Analysis -- Choice of Radioactive Tracer Materials -- Monitoring Natural Radioactive Deposits -- Carbon Dioxide Injection -- Bibliography -- Answers to Text Questions -- Tools Available -- Gradiomanometer -- Fluid Density Tool (Gamma Ray Absorption) -- Resonator (Vibrator) -- Capacitance (Dielectric) Tools -- Array Capacitance Tools -- Fluid Resistivity Measurements -- Optical Fluid Density -- Fluid Sampler -- Manometer -- Other Measurements -- Bibliography -- Answers to Text Question -- Resistance Temperature Detector (RTD) -- Thermistors -- Diodes -- Fundamentals -- Bottomhole Temperature Extrapolation -- Cement-Top Evaluation -- Lost-Circulation Zones -- Temperature Profiles in Production and Injection Wells -- General -- Liquid Production -- Gas Production -- Water Injection -- Gas Injection -- Logging Techniques -- Shut-In Temperature Surveys -- Differential-Temperature Surveys -- Radial Differential-Temperature Tool -- Bibliography -- Answer to Text Question -- Tools Available -- Operating Principle -- Interpretation -- Noise and Temperature Combinations -- Noise and Flowmeter Combinations -- Fiber Optic Sensors -- Bibliography -- Holdup Equations -- Practical Applications -- Flowmeter and Gradiomanometer Combinations -- Bibliography -- Answers to Text Questions -- Tools and Techniques Available -- Resistivity Through Casing -- Gamma Ray Log -- Origin of Natural Gamma Rays -- Abundance of Naturally Occurring Radioactive Minerals -- Operating Principle of Gamma ray Tools -- Calibration of Gamma Ray Detectors and Logs -- Time Constants -- Perturbing Effects on Gamma Ray Logs -- Estimating Shale Content from Gamma Ray Logs -- Gamma Ray Spectroscopy -- Interpretation of Natural Gamma Ray Spectra Logs -- Pulsed Neutron Logging -- Principle of Measurement -- Log Presentations -- Capture Cross Sections -- Basic Interpretation -- Shaly Formations -- Finding Interpretation Parameters -- Reservoir Monitoring Time-Lapse Technique -- Log-Inject-Log -- Departure Curves -- Depth of Investigation -- Inelastic Gamma Ray Logging -- Carbon/Oxygen Logging -- C/O Logging for TOC -- Cased-Hole Wireline Formation Tester -- Appendix 1: Interpretation of Pulsed Neutron Logs -- Using the Dual-Water Method -- Finding Parameters -- Finding φ&T and Vdc -- Solving for J and Swe -- Appendix 2: Radioactive Elements, Minerals, and Rocks -- Bibliography -- Answers to Text Questions -- Principles of Oil-Well Cementing -- Principles of Cement Bond Logging -- Tools Available -- Operating Principles -- Amplitude Measurement -- Travel-Time Measurement -- Wave-Train Display -- At Stretching -- Cycle Skipping -- Gating Systems -- Deviated Holes and Eccentered Tools -- Interpretation -- Cement Compressive Strength -- Partial Cementation -- Wave-Train Signatures -- Free Pipe -- Free Pipe in Deviated Hole -- Well-Cemented Pipe -- Quick-Look for Conventional CBL Interpretation -- Microannulus/Channeling -- Radial Differential Temperature Logging -- Ultrasonic Cement Bond Logging -- Log Quality Control -- Appendix: Frequently Used Casing Dimensions -- Bibliography -- Answers to Text Questions -- Caliper Logs -- Tubing Profiles -- Casing Profiles -- Electrical-Potential Logs -- Electromagnetic Devices -- Electromagnetic Thickness Tool (ETT) -- Pipe Analysis Log (PAL) -- Flux Leakage -- Eddy Currents -- Tool Principle -- Interpretation -- Borehole Televiewers -- Bibliography -- Fiber Optic Sensing -- DTS Applications -- Advantages of Fiber Optic Sensors -- Disadvantages of Fiber Optic Sensors -- Types of Fiber Optics -- Operating Principle -- Rayleigh Scattering -- Brillouin Scattering -- Raman Scattering -- Practical Applications of Light Scattering in DTS -- DAS (DSTS or DTSS) Applications -- Fiber Optic Placement -- Types of DTS/DAS Installations -- DTS Applications -- Combining DTS with Microseismic (MSM) -- DAS Applications -- Thermocouple vs. DTS Measurements -- Bibliography -- Appendix A: Conversion Factors Between Metric, API, and US Measures -- Appendix B: Average Fluid Velocity Versus Tubing Size -- Appendix C: Average Fluid Velocity Versus Casing Size -- Appendix D: Average Fluid Velocity -- Appendix E: Quick Guide to Biphasic Flow Interpretation |
Summary |
This book addresses vital issues, such as the evaluation of shale gas reservoirs and their production. Topics include the cased-hole logging environment, reservoir fluid properties; flow regimes; temperature, noise, cement bond, and pulsed neutron logging; and casing inspection. Production logging charts and tables are included in the appendices. The work serves as a comprehensive reference for production engineers with upstream E & P companies, well logging service company employees, university students, and petroleum industry training professionals. This book also: · Provides methods of conveying production logging tools along horizontal well segments as well as measurements of formation electrical resistivity through casing · Covers new information on fluid flow characteristics in inclined pipe and provides new and improved nuclear tool measurements in cased wells · Includes updates on cased-hole wireline formation testing |
Analysis |
fossiele energie |
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fossil energy |
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brandstoffen |
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fuels |
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engineering |
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civiele techniek |
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civil engineering |
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geofysica |
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geophysics |
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Engineering (General) |
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Techniek (algemeen) |
Bibliography |
Includes bibliographical references and index |
Notes |
Online resource; title from PDF title page (SpringerLink, viewed December 1, 2014) |
Subject |
Oil well logging.
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Oil reservoir engineering.
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Oil well drilling.
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Fossil fuel technologies.
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Geophysics.
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Meteorology & climatology.
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TECHNOLOGY & ENGINEERING -- Mining.
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Oil reservoir engineering
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Oil well drilling
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Oil well logging
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Form |
Electronic book
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ISBN |
9781493920686 |
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1493920685 |
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1493920677 |
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9781493920679 |
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