《石油高等院校特色教材:油氣滲流力學(英文版)》從驅動力和驅動方式出發,在對達西定律分析的基礎上,遵循由淺入深的認識規律,詳細介紹了單相不可壓縮液體的穩定滲流理論、剛性水壓驅動下的油井幹擾理論、微可壓縮流體的不穩定滲流理論、天然氣的滲流規律、水驅油理論、油氣兩相滲流理論、流體在雙重介質中的滲流理論、非牛頓液體滲流理論等。
基本介紹
- 書名:石油高等院校特色教材:油氣滲流力學
- 作者:李璗 陳軍斌
- 出版日期:2012年6月1日
- 語種:英語
- ISBN:9787502189631
- 外文名:Mechanics of Oil and Gas Flow in Porous Media
- 出版社:石油工業出版社
- 頁數:251頁
- 開本:16
- 定價:29.00
內容簡介,圖書目錄,
內容簡介
《石油高等院校特色教材:油氣滲流力學(英文版)》可作為石油工程、石油地質、地下水工程、油田化學等專業本科生教材,也可作為相關專業研究生的參考書,還可供從事油氣田勘探與開發的科研技術人員參考。
圖書目錄
Chapter 1 Basic law of percolation
1.1 Static state in reservoirs
1.2 Driving forces and driving mode in reservoir
1.3 Darcy's law
1.4 The limitations of Darcy' s law and non-Darcy percolation
Exercises
Chapter 2 Steady state percolation of single-phase incompressible fluid
2.1 Three basic forms of percolation
2.2 Planar one-dimensional steady state percolation of single-phase incompressible fluid.
2.3 Planar radial fluid flow of single-phase incompressible fluid
2.4 Imperfect well
2.5 Systematic well testing( Step rate testing)
2.6 Differential equation of single-phase fluid percolation
Exercises
Chapter 3 Interference theory of wells under rigid water drive
3.1 Phenomenon of interference of wells
3.2 Superposition principle of potential
3.3 Method of mirror
3.4 Application of complex function theory in the planar percolation field
Exercises
Chapter 4 Unsteady state percolation of slightly compressible fluid
4.1 The physical process of elastic fluid percolation towards wells
4.2 The planar one-dimensional unsteady state percolation in semi-infinite formation
4.3 Pressure transient law of elastic fluid unsteady state percolation towards well bore
4.4 Approximate solution of pressure change of fluid percolation towards well in finite closed elastic formation
4.5 Multi interference of wells of elastic unsteady state percolation
4.6 Unsteady state well testing analysis
Exercises
Chapter 5 Percolation law of natural gas
5.1 Properties of natural gas and its basic differential equation of percolation
5.2 Steady state percolation of gas
5.3 Unsteady state percolation of gas
Exercises
Chapter 6 Foundation of water/oil displacement theory
6.1 Piston like displacement of oil by water
6.2 Bottom water coning
6.3 Theoretical foundation of non-piston like displacement of oil by water
Exercises
Chapter 7 Percolation theory of oil-gas two phases( dissolved gas drive)
7.1 Basic differential equation of oil-gas two-phases percolation
7.2 Oil-gas two-phase steady state percolation
7.3 Unsteady state percolation of gassy fluid
Exercises
Chapter 8 Flow in dual-media
8.1 Flow characteristics in dual-media
8.2 Basic flow equation of single-phase slightly compressible fluid in dual-media
8.3 Pressure distribution in infinite dual-media
8.4 Oil-water two-phase flow in the dual-media
8.5 Flow of fluid in pure fracture formation
Exercises
Chapter 9 Percolation of non-Newtonian liquid
9.1 Mechanical behavior and type of non-Newtonian liquid
9.2 Percolation of non-Newtonian power law liquid
Exercises
Chapter 10 Theory of similarity
10.1 Concept of similarity
10.2 Kinematical and dynamic similarity
10.3 Scaled physical model and law of similarity
10.4 Dimension analysis examples for the known equations of physical system
10.5 Examples of analog
10.6 Partial similarity in the scaling models
10.7 Special aspects of standard fitting of porous medium model
Exercises
Appendix
Appendix A Flow equation in cylindrical coordinate
Appendix B To obtain the solution of one-dimensional unsteady state flow by the Laplace transformation
Appendix C Calculation procedure of error function eft(x)
Appendix D Calculation procedure of exponential integral function -Ei(-x)
Appendix E Calculation procedure of function F(x)
Appendix F Conversion relationship between the commonly used units in reservoir engineering
Appendix G Factor and signs of commonly used prefixes in SI system and imperial system of unit
References
1.1 Static state in reservoirs
1.2 Driving forces and driving mode in reservoir
1.3 Darcy's law
1.4 The limitations of Darcy' s law and non-Darcy percolation
Exercises
Chapter 2 Steady state percolation of single-phase incompressible fluid
2.1 Three basic forms of percolation
2.2 Planar one-dimensional steady state percolation of single-phase incompressible fluid.
2.3 Planar radial fluid flow of single-phase incompressible fluid
2.4 Imperfect well
2.5 Systematic well testing( Step rate testing)
2.6 Differential equation of single-phase fluid percolation
Exercises
Chapter 3 Interference theory of wells under rigid water drive
3.1 Phenomenon of interference of wells
3.2 Superposition principle of potential
3.3 Method of mirror
3.4 Application of complex function theory in the planar percolation field
Exercises
Chapter 4 Unsteady state percolation of slightly compressible fluid
4.1 The physical process of elastic fluid percolation towards wells
4.2 The planar one-dimensional unsteady state percolation in semi-infinite formation
4.3 Pressure transient law of elastic fluid unsteady state percolation towards well bore
4.4 Approximate solution of pressure change of fluid percolation towards well in finite closed elastic formation
4.5 Multi interference of wells of elastic unsteady state percolation
4.6 Unsteady state well testing analysis
Exercises
Chapter 5 Percolation law of natural gas
5.1 Properties of natural gas and its basic differential equation of percolation
5.2 Steady state percolation of gas
5.3 Unsteady state percolation of gas
Exercises
Chapter 6 Foundation of water/oil displacement theory
6.1 Piston like displacement of oil by water
6.2 Bottom water coning
6.3 Theoretical foundation of non-piston like displacement of oil by water
Exercises
Chapter 7 Percolation theory of oil-gas two phases( dissolved gas drive)
7.1 Basic differential equation of oil-gas two-phases percolation
7.2 Oil-gas two-phase steady state percolation
7.3 Unsteady state percolation of gassy fluid
Exercises
Chapter 8 Flow in dual-media
8.1 Flow characteristics in dual-media
8.2 Basic flow equation of single-phase slightly compressible fluid in dual-media
8.3 Pressure distribution in infinite dual-media
8.4 Oil-water two-phase flow in the dual-media
8.5 Flow of fluid in pure fracture formation
Exercises
Chapter 9 Percolation of non-Newtonian liquid
9.1 Mechanical behavior and type of non-Newtonian liquid
9.2 Percolation of non-Newtonian power law liquid
Exercises
Chapter 10 Theory of similarity
10.1 Concept of similarity
10.2 Kinematical and dynamic similarity
10.3 Scaled physical model and law of similarity
10.4 Dimension analysis examples for the known equations of physical system
10.5 Examples of analog
10.6 Partial similarity in the scaling models
10.7 Special aspects of standard fitting of porous medium model
Exercises
Appendix
Appendix A Flow equation in cylindrical coordinate
Appendix B To obtain the solution of one-dimensional unsteady state flow by the Laplace transformation
Appendix C Calculation procedure of error function eft(x)
Appendix D Calculation procedure of exponential integral function -Ei(-x)
Appendix E Calculation procedure of function F(x)
Appendix F Conversion relationship between the commonly used units in reservoir engineering
Appendix G Factor and signs of commonly used prefixes in SI system and imperial system of unit
References
