描述
开 本: 16开纸 张: 胶版纸包 装: 平装是否套装: 否国际标准书号ISBN: 9787502194734
内容简介
《测井原理与应用》是有关测井技术的双语教材,共分九章,**章至第三章详细介绍了各种电法测井、声波测井和放射性测井的原理方法及相关应用。
第四章至第六章主要介绍生产测井、核磁共振测井技术、随钻测井技术。另外,从现场应用的角度,教材在第七章介绍了5700成像测井技术、Excel 2000测井系列和Sondex生产测井系列。第八章比较详细地讲述了岩石力学方面基础知识,裂缝产生的原因和分布规律,井壁稳定性和地层出砂等复杂情况,以及测井技术在石油工程方面的应用。第九章比较系统地介绍了如何进行测井曲线的定性定量分析和测井资料的综合解释方法。
《测井原理与应用》适合石油类高校的勘查技术与工程、石油工程、资源勘查与工程等专业的本科生或研究生学习使用,也可以作为相关专业现场工作人员的参考用书。本书由刘红岐等编。
目 录
Introduction of Well Logging
0.1 Introduction
0.2 What is well logging
0.3 Development of Well Logging
0.4 History of Schlumberger Well Logging
0.5 Classification and applications of well logging
Chapter 1 Electrical Logging
1.1 The Foundation of Electrical Resistivity
1.2 Spontaneous Potential Logging
1.3 Resistivity Logs
Chapter 2 Sonic Logs
2.1 The Foundational Principle of Acoustic Logs
2.2 Sonic Log
2.3 Acoustic Wave Amplitude Logging
2.4 Ultra-Sonic Imager Logs(USI)
2.5 UltraSonic Borehole Imager (UBI)
2.6 Circumferential Borehole Imaging Log (CBIL)
Chapter 3 Nuclear Logs
3.1 Gamma Ray Logs
3.2 Gamma-Gamma Ray Logs
3.3 Rudimentary Knowledge of Neutron logs
3.4 Neutron Logs
3.5 C/O
Chapter 4 Nuclear Magnetic Resonance
4.1 Fundamental of Nuclear Magnetic Resonance(NMR)
4.2 The Development of Nuclear Magnetic Resonance Tool
4.3 LWD-NMR
4.4 Applications of Nuclear Magnetic Resonance
4.5 Summary
Chapter 5 Production Logging
5.1 Definition Production Logging
5.2 Spinner Flowmeter Logging
5.3 Fluid-Identification Logs
5.4 Radioactive-Tracer Logging
5.5 Other Production Well Logging
Chapter 6 Logging While Drilling (LWD)
6.1 Schlumberger Scope LWD Series
6.2 LWD technology of Halliburton
6.3 Integrated MWD and LWD Instruments of Baker Hughes
6.4 Resistivity Measurements While Drilling
6.5 Density Measurements While Drilling
6.6 Nuclear Measurements While Drilling
6.7 Sonic Measurements While Drilling
6.8 Geosteering
Chapter 7 The Advanced Well Logging Technology
7.1 Eclips-5700
7.2 Excell-2000 WellLogging System
7.3 Sondex Production Logging System and Fluid Testing and Pressure Logs …
7.4 Cased-hole Resistivity Measurements (CHFR)
Chapter 8 Rock Mechanics
8.1 Basic Stress and Strain Analysis
8.2 Natural Fracture Classification and Stress Analysis
8.3 Critical Pressure and Stress Relationship in the Borehole
8.4 Rock Drillability
8.5 Borehole Stability
8.6 Shale chemical Alteration
Chapter 9 Integrated Interpretation of Well Logging Data
9.1 Reservoir Classification
9.2 Formation Evaluation
9.3 Method to Determine Lithology: M-N PLOT
9.4 U MID Plot
9.5 Resistivity vs Porosity Crossplot (Pickett map)
9.6 Porosity Determination in Complex Conditions
9.7 Resistivity Ratio Methods to Identify Fluid Type
9.8 Permeability Calculation
9.9 Structure Analysis
9.10 Multi-Well Integrated Interpretation
Appendix A
Appendix B
Appendix C
References
0.1 Introduction
0.2 What is well logging
0.3 Development of Well Logging
0.4 History of Schlumberger Well Logging
0.5 Classification and applications of well logging
Chapter 1 Electrical Logging
1.1 The Foundation of Electrical Resistivity
1.2 Spontaneous Potential Logging
1.3 Resistivity Logs
Chapter 2 Sonic Logs
2.1 The Foundational Principle of Acoustic Logs
2.2 Sonic Log
2.3 Acoustic Wave Amplitude Logging
2.4 Ultra-Sonic Imager Logs(USI)
2.5 UltraSonic Borehole Imager (UBI)
2.6 Circumferential Borehole Imaging Log (CBIL)
Chapter 3 Nuclear Logs
3.1 Gamma Ray Logs
3.2 Gamma-Gamma Ray Logs
3.3 Rudimentary Knowledge of Neutron logs
3.4 Neutron Logs
3.5 C/O
Chapter 4 Nuclear Magnetic Resonance
4.1 Fundamental of Nuclear Magnetic Resonance(NMR)
4.2 The Development of Nuclear Magnetic Resonance Tool
4.3 LWD-NMR
4.4 Applications of Nuclear Magnetic Resonance
4.5 Summary
Chapter 5 Production Logging
5.1 Definition Production Logging
5.2 Spinner Flowmeter Logging
5.3 Fluid-Identification Logs
5.4 Radioactive-Tracer Logging
5.5 Other Production Well Logging
Chapter 6 Logging While Drilling (LWD)
6.1 Schlumberger Scope LWD Series
6.2 LWD technology of Halliburton
6.3 Integrated MWD and LWD Instruments of Baker Hughes
6.4 Resistivity Measurements While Drilling
6.5 Density Measurements While Drilling
6.6 Nuclear Measurements While Drilling
6.7 Sonic Measurements While Drilling
6.8 Geosteering
Chapter 7 The Advanced Well Logging Technology
7.1 Eclips-5700
7.2 Excell-2000 WellLogging System
7.3 Sondex Production Logging System and Fluid Testing and Pressure Logs …
7.4 Cased-hole Resistivity Measurements (CHFR)
Chapter 8 Rock Mechanics
8.1 Basic Stress and Strain Analysis
8.2 Natural Fracture Classification and Stress Analysis
8.3 Critical Pressure and Stress Relationship in the Borehole
8.4 Rock Drillability
8.5 Borehole Stability
8.6 Shale chemical Alteration
Chapter 9 Integrated Interpretation of Well Logging Data
9.1 Reservoir Classification
9.2 Formation Evaluation
9.3 Method to Determine Lithology: M-N PLOT
9.4 U MID Plot
9.5 Resistivity vs Porosity Crossplot (Pickett map)
9.6 Porosity Determination in Complex Conditions
9.7 Resistivity Ratio Methods to Identify Fluid Type
9.8 Permeability Calculation
9.9 Structure Analysis
9.10 Multi-Well Integrated Interpretation
Appendix A
Appendix B
Appendix C
References
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