《現(xiàn)代完井工程(英文版)》為英文版,內(nèi)容論述了現(xiàn)代完井工程的新概念、新思路,并系統(tǒng)地提出了完井工程的定義、理論基礎(chǔ)、工程內(nèi)容和系統(tǒng)程序。是一本系統(tǒng)完整的完井工程專著!冬F(xiàn)代完井工程(英文版)》可供從事油田鉆井、釆油、井下作業(yè)和油田開(kāi)發(fā)設(shè)計(jì)技術(shù)人員應(yīng)用,也可供石油院校教學(xué)參考。
INTRODUCTION
Basis of Well Completion Engineering
1.1 Grounds of Reservoir Geology and Reservoir Engineering
1.2 Core Analysis Techniques
1.3 Reservoir Sensitivity to Fluid and Working Fluid Damage Evaluation
1.4 Reservoir Stress Sensitivity Analysis
1.5 IN-SITU Stress and Mechanical Parameters of Rock
1.6 Technological Grounds of Petroleum Production Engineering
References
2 Well Completion Mode Selection
2.1 Vertical, Slant and Directional Well Completion
2.2 Horizontal Well Completion
2.3 Underbalanced Well Completion
2.4 Basic Requirements, Grounds and Flow Chart of Well Completion Mode Selection
References
3 Selection and Determination of Tubing and Production Casing Sizes
3.1 Overview
3.2 Overview of Nodal Analysis
3.3 Selection and Determination of Tubing and Production Casing Sizes for Flowing Wells
3.4 Selection and Determination of Tubing and Production Casing Sizes for Gas Wells
3.5 Selection and Determination of Tubing and Production Casing Sizes for Artificial Lift Wells
3.6 Effects of Stimulation on Tubing and Production Casing Size Selection
3.7 Selection and Determination of Tubing and Production Casing Sizes for Heavy Oil and High Pour-Point Oil Production Wells
References
4 Completion and Perforating Fluids
4.1 Functions of Drilling and Completion Fluid and Basic Requirements
4.2 Drilling and Completion Fluid Systems and Application
4.3 Shield-Type Temporary Plugging Technique
4.4 Drilling and Completion Fluid for Complicated Reservoir
4.5 Perforating Fluid
References
5 Production Casing and Cementing
5.1 Basic Requirements for Production Casing Design and Integrity Management of
Production Casing
5.2 Hole Structure and Types of Casing
5.3 Strength of Casing and Strength Design of Casing String
5.4 Cementing
5.5 Production Casing and Cementing for Complex Type Wells
References
6 Perforating
6.1 Perforating Technology
6.2 Factors of Influencing Perforated Well Productivity
6.3 Perforating Differential Pressure Design
6.4 Optimizing Perforation Design
References
7 Well Completion Formation Damage Evaluation
7.1 Overview
7.2 Principle of Formation Damage Evaluation by Well Testing
7.3 Formation Damage Diagnosing in Homogeneous Reservoir by Graphic Characteristics
7.4 Graphic Characteristics of Dual Porosity Reservoirs and Reservoirs with Hydraulically Created Fracture
7.5 Distinction of Stimulation Effect by Graphic Characteristics
7.6 Quantitative Interpretation of Degree of Formation Damage
7.7 Well Logging Evaluation of Formation Damage Depth
References
8 Measures for Putting Well into Production
8.1 Preparations before Putting into Production
8.2 Main Measures for Putting into Production
8.3 Physical and Chemical Blocking Removal
8.4 Hydraulic Fracturing for Putting into Production
8.5 Acidizing for Putting into Production
8.6 High Energy Gas Fracturing for Putting into Production
8.7 Flowing Back
References
9 Well Completion Tubing String
9.1 Oil Well Completion Tubing String
9.2 Gas Well Completion Tubing String
9.3 Separate-Layer Water Injection String
9.4 Heavy Oil Production Tubing String
9.5 Completion Tubing String Safety System
9.6 Tubing String Mechanics
References
10 Wellhead Assembly
10.1 Oil-Well Christmas Tree and Tubinghead
10.2 Gas-Well Christmas Tree and Tubinghead
10.3 Water Injection and Thermal Production Wellhead Assembly
10.4 Common Components of Wellhead Assembly
References
11 Oil and Gas Well Corrosion and Corrosion Prevention ..
11.1 Related Calculation of Oil and Gas Well Corrosion
11.2 Oil and Gas Well Corrosion Mechanism and Classification
11.3 Material Selection for Corrosive Environment of Oil and Gas Wells..
11.4 Oil and Gas Well Corrosion Prevention Design
11.5 Tubing and Casing Corrosion Prevention for Sour Gas Reservoir ..
References