Title Cased-hole log analysis and reservoir performance monitoring / Richard M. Bateman

Edition Second edition Published New York : Springer, [2014] ©2015

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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 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 fossil energy brandstoffen fuels engineering civiele techniek civil engineering geofysica geophysics Engineering (General) 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. Oil reservoir engineering. Oil well drilling. Fossil fuel technologies. Geophysics. Meteorology & climatology. TECHNOLOGY & ENGINEERING -- Mining. Oil reservoir engineering Oil well drilling Oil well logging Form Electronic book ISBN 9781493920686 1493920685 1493920677 9781493920679

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