內容簡介
《Reservoir Diagenesis and Quality Prediction》凶樂頸拳巴您霸由
中國地質大學出版社出禁蘭翻版。
圖書目錄
Chapter 1 Introduction
1.1 Overview
1.2 Glossary
1.3 Abbreviations
Chapter 2 Tools and Techniques
2.1 At what stage of exploration or production can the tools be applied?
2.2 How reliable are the tools?
2.3 Further reading
Chapter 3 Diagenesis of Ciastic and Carbonate Rocks
3.1 Introduction
3.2 Clastic diagenesis
3.3 Carbonate diagenesis
Chapter 4 Rock Mechanics Related to Reservoir
4.1 Underground stresses
4.2 Pore pressure
4.3 Sedimentological aspects
4.4 Mechanical properties of sedimentary rocks
Chapter 5 Lithofacies
5.1 Why consider lithofacies?
5.2 What is lithofacies7
5.3 How does sandstone composition affect reservoir quality?
5.4 How does texture affect porosity?
5.5 How does texture affect permeability?
5.6 What is the effect of fabric on reservoir quality?
5.7 What are the effects of bedding and sedimentary structures on reservoir quality?
5.8 How are depositional environments,primary lithofacies and K—φ related?棵舉屑
5.9 Conclusions
Chapter 6 Carbonate Sequences(173)
6.1 What are the most important controls on reservoir quality in carbonate sequences?
6.2 Sulphates
6.3 Karstification
6.4 Compaction
6.5 Fractures
6.6 Predicting reservoir quality in limestones
6.7 How can we predict permeability?
Chapter 7 Compaction
7.1 What is compaction?符估
7.2 How does compaction affect reservoir quality?
7.3 How does compaction operate?妹戲榜
7.4 What are the controls on compaction?
Chapter 8 Quartz
8.1 How does quartz cement affect reservoir quality?
8.2 What is quartz?
8.3 How to identify quartz cements?
8.4 Where does quartz cement come from?
8.5 What controls quartz cement distribution?陵櫃榜白
8.6 Amount of quartz cement
8.7 What controls quartz cement precipitation?
8.8 Analyzing quartz cement
8.9 Summary
Chapter 9 Clays
9.1 What are clay minerals?
9.2 How do we distinguish between detrital and diagenetic clays?
9.3 Effect of clay minerals on reservoir quality
9.4 Illite
9.5 Chlorite
9.6 Kaolinite
9.7 Smectite
9.8 Other clays
Chapter 10 Carbonate Cements in Clastics
10.1 What is carbonate cements?
10.2 What is the form of carbonate cementation?
10.3 How does carbonate cement effect reservoir quality?
10.4 Tools and techniques for use with carbonate cements
10.5 Source of carbonate cements
10.6 Timing of cementation
10.7 Reservoir connectivity
10.8 Depositional environments and carbonate cements
Chapter 11 Secondary Porosity
11.1 What causes secondary porosity?
11.2 Types of secondary pores
11.3 How does secondary porosity affect reservoir quality?
11.4 What views do other oil companies have on secondary porosity?
11.5 Possible mechanisms of secondary porosity generation
11.6 How can we recognize secondary porosity?
11.7 Conclusions
Chapter 12 Faults and Fractures
12.1 The effects of faults and fractures on reservoir quality
12.2 Where are we most likely to encounter faults and fractures?
12.3 How do faults and factures affect reservoir quality?
12.4 What makes a fracture or fault non—conductive?
12.5 Fault and fracture cementation
12.6 Timing and source of cementation
12.7 Fracture conductivity with the host matrix
12.8 The importance of fracture porosity
12.9 The importance of fracture permeability
12.10 Fault sealing
12.11 Conclusions
Chapter 13 How Can We Predict Porosity?
13.1 Principles
13.2 Porosity data
13.3 Statistics
13.4 Case History
13.5 How to use this information to predict porosity?
13.6 Effects of diagenesis and porosity modification on net pay
Chapter 14 How Can We Predict Permeability?
14.1 What is permeability?
14.2 Empirical prediction of permeability
14.3 Limitations of empirical approaches
14.4 What's the effect of compaction?
14.5 How to predict permeability?
14.6 Where next?
Chapter 15 How Can We Predict Reservoir Connectivity and Compartmentalization
15.1 Reservoir compartmentalization
15.2 Types of compartmentalization
15.3 What can fluid composition tell us about reservoir compartment alization?
15.4 Conclusions
References
5.8 How are depositional environments,primary lithofacies and K—φ related?
5.9 Conclusions
Chapter 6 Carbonate Sequences(173)
6.1 What are the most important controls on reservoir quality in carbonate sequences?
6.2 Sulphates
6.3 Karstification
6.4 Compaction
6.5 Fractures
6.6 Predicting reservoir quality in limestones
6.7 How can we predict permeability?
Chapter 7 Compaction
7.1 What is compaction?
7.2 How does compaction affect reservoir quality?
7.3 How does compaction operate?
7.4 What are the controls on compaction?
Chapter 8 Quartz
8.1 How does quartz cement affect reservoir quality?
8.2 What is quartz?
8.3 How to identify quartz cements?
8.4 Where does quartz cement come from?
8.5 What controls quartz cement distribution?
8.6 Amount of quartz cement
8.7 What controls quartz cement precipitation?
8.8 Analyzing quartz cement
8.9 Summary
Chapter 9 Clays
9.1 What are clay minerals?
9.2 How do we distinguish between detrital and diagenetic clays?
9.3 Effect of clay minerals on reservoir quality
9.4 Illite
9.5 Chlorite
9.6 Kaolinite
9.7 Smectite
9.8 Other clays
Chapter 10 Carbonate Cements in Clastics
10.1 What is carbonate cements?
10.2 What is the form of carbonate cementation?
10.3 How does carbonate cement effect reservoir quality?
10.4 Tools and techniques for use with carbonate cements
10.5 Source of carbonate cements
10.6 Timing of cementation
10.7 Reservoir connectivity
10.8 Depositional environments and carbonate cements
Chapter 11 Secondary Porosity
11.1 What causes secondary porosity?
11.2 Types of secondary pores
11.3 How does secondary porosity affect reservoir quality?
11.4 What views do other oil companies have on secondary porosity?
11.5 Possible mechanisms of secondary porosity generation
11.6 How can we recognize secondary porosity?
11.7 Conclusions
Chapter 12 Faults and Fractures
12.1 The effects of faults and fractures on reservoir quality
12.2 Where are we most likely to encounter faults and fractures?
12.3 How do faults and factures affect reservoir quality?
12.4 What makes a fracture or fault non—conductive?
12.5 Fault and fracture cementation
12.6 Timing and source of cementation
12.7 Fracture conductivity with the host matrix
12.8 The importance of fracture porosity
12.9 The importance of fracture permeability
12.10 Fault sealing
12.11 Conclusions
Chapter 13 How Can We Predict Porosity?
13.1 Principles
13.2 Porosity data
13.3 Statistics
13.4 Case History
13.5 How to use this information to predict porosity?
13.6 Effects of diagenesis and porosity modification on net pay
Chapter 14 How Can We Predict Permeability?
14.1 What is permeability?
14.2 Empirical prediction of permeability
14.3 Limitations of empirical approaches
14.4 What's the effect of compaction?
14.5 How to predict permeability?
14.6 Where next?
Chapter 15 How Can We Predict Reservoir Connectivity and Compartmentalization
15.1 Reservoir compartmentalization
15.2 Types of compartmentalization
15.3 What can fluid composition tell us about reservoir compartment alization?
15.4 Conclusions
References