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非均质模型理论及其在页岩气藏开发中的应用(英文版)
作者:彭维红,张海翔,徐勇 著
出版社:中国矿业大学出版社
出版时间:2019-12-01
ISBN:9787564645236
定价:¥38.00
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内容简介
This book discusses the inhomogeneous model and its application in shale gas reservoirs,including: permeability prop-erties of single-fractured porous media, flow mechanisms in fractured porous medium, flow mechanisms in vuggy porous media, fluid flow in naturally fractured-vuggy carbonate reservoirs, shale gas transport and storage mechanism on micro-scopic scale, flow regimes of heterogeneous shale gas reservoirs, flowback regimes of fracturing fluid, and analysis of poten-tial contamination risk in a shallow aquifer from hydraulically-fractured shale.This book can be used as a reference for graduate students, senior college students, university teachers and resear-chers in the fields of computational fluid mechanics,science and engineering numerical analysis.
作者简介
暂缺《非均质模型理论及其在页岩气藏开发中的应用(英文版)》作者简介
目录
1 Introduction
1.1 Research background and significance
1.2 Research status at home and abroad
1.3 The main contents of this book
2 Permeability Properties of Single-fractured Porous Media
2.1 Single-fractured porous media model
2.2 Study on the permeability properties of different coupling model
2.3 Equivalent method of fractured medium
2.4 Chapter summary
3 Flow Mechanisms in Fractured Porous Medium
3.1 Seepage simulation of fractured medium
3.2 Fluid-solid coupling simulation of fractured medium
3.3 Heat-fluid-solid coupling simulation of fractured medium
3.4 Chapter summary
4 Flow Mechanisms in Vuggy Porous Media
4.1 Coupling simulation of Darcy-Stokes
4.2 Research on mechanism of multi-field coupling for vuggy porous media
4.3 Heat-fluid-solid coupling simulation of vuggy porous media
4.4 Chapter summary
5 Fluid Flow in Naturally Fractured-vuggy Carbonate Reservoirs
5.1 Mathematical model
5.2 Model verification
5.3 Model application
5.4 Conclusions
6 Shale Gas Transport and Storage Mechanism on Microscopic Scale
6.1 Flow regime determined by Knudsen number
6.2 Apparent permeability
6.3 Adsorption and desorption
6.4 Chapter summary
7 Flow Regimes of Heterogeneous Shale Gas Reservoirs
7.1 Fluid flow model
7.2 Numerical results
7.3 Discussion
7.4 Conclusions
8 Research on Flowback of Fracturing Fluid
8.1 Two-phase flow in hydraulic fractures
8.2 Two-phase flow in equivalent region
8.3 Gas phase permeability
8.4 Chapter summary
9 Analysis of Potential Contamination Risk in a Shallow Aquifer from Hydraulically-Fractured Shale
9.1 Mathematical model
9.2 Model verification
9.3 Model application
9.4 Conclusions
Reference
1.1 Research background and significance
1.2 Research status at home and abroad
1.3 The main contents of this book
2 Permeability Properties of Single-fractured Porous Media
2.1 Single-fractured porous media model
2.2 Study on the permeability properties of different coupling model
2.3 Equivalent method of fractured medium
2.4 Chapter summary
3 Flow Mechanisms in Fractured Porous Medium
3.1 Seepage simulation of fractured medium
3.2 Fluid-solid coupling simulation of fractured medium
3.3 Heat-fluid-solid coupling simulation of fractured medium
3.4 Chapter summary
4 Flow Mechanisms in Vuggy Porous Media
4.1 Coupling simulation of Darcy-Stokes
4.2 Research on mechanism of multi-field coupling for vuggy porous media
4.3 Heat-fluid-solid coupling simulation of vuggy porous media
4.4 Chapter summary
5 Fluid Flow in Naturally Fractured-vuggy Carbonate Reservoirs
5.1 Mathematical model
5.2 Model verification
5.3 Model application
5.4 Conclusions
6 Shale Gas Transport and Storage Mechanism on Microscopic Scale
6.1 Flow regime determined by Knudsen number
6.2 Apparent permeability
6.3 Adsorption and desorption
6.4 Chapter summary
7 Flow Regimes of Heterogeneous Shale Gas Reservoirs
7.1 Fluid flow model
7.2 Numerical results
7.3 Discussion
7.4 Conclusions
8 Research on Flowback of Fracturing Fluid
8.1 Two-phase flow in hydraulic fractures
8.2 Two-phase flow in equivalent region
8.3 Gas phase permeability
8.4 Chapter summary
9 Analysis of Potential Contamination Risk in a Shallow Aquifer from Hydraulically-Fractured Shale
9.1 Mathematical model
9.2 Model verification
9.3 Model application
9.4 Conclusions
Reference
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