摘要 | 第4-5页 |
abstract | 第5页 |
Chapter 1 Introduction | 第8-17页 |
1.1 Introduction | 第8-10页 |
1.2 Literature Review | 第10-13页 |
1.3 Objectives of the research | 第13-15页 |
1.3.1 Main objective of research | 第13-14页 |
1.3.2 Specific objectives | 第14页 |
1.3.3 Significance of the research study | 第14-15页 |
1.4 Research approach | 第15页 |
1.5 Research out put | 第15页 |
1.6 Research Study Timeframe | 第15-17页 |
Chapter 2 Measurement of shale core properties | 第17-28页 |
2.1 General physical properties of shale | 第17-19页 |
2.2 Sensitivity characteristics of shale cores | 第19-22页 |
2.3 Experimental Study on Stress Sensitivity of Shale Rock with Fractures | 第22-24页 |
2.4 Variation of shale rock permeability with pore pressures | 第24-26页 |
2.5 Variation of shale rock permeability with increase in compaction | 第26-28页 |
Chapter 3 Measurement of dynamic adsorption and diffusion | 第28-36页 |
3.1 Methane, non-steady state current | 第28-30页 |
3.2 Change the inlet pressure effect on the flow of methane gas in shale | 第30-32页 |
3.3 Measurement of Methane gas adsorption rate | 第32-36页 |
Chapter 4 IAD and DAD model flow and adsorbtion | 第36-76页 |
4.1 Section of analysis of experimental fitting results | 第47-63页 |
4.1.1 Fitting adsorption data analysis | 第49-53页 |
4.1.2 Fitting desorption rates in experimental analyses | 第53-57页 |
4.1.3 Shale gas transmission and storage in model | 第57-59页 |
4.1.4 Model application | 第59-62页 |
4.1.5 Productivity Model Construction of Fractured Tight Matrix Based on theStress-dependent Permeability Analysis | 第62-63页 |
4.2 Derivation model with fractures | 第63-72页 |
4.2.1 The solution from model evaluation | 第66-68页 |
4.2.2 Effects of Delayed adsorption on Production | 第68-70页 |
4.2.3 Effect of Adsorbtion rate on Production | 第70-72页 |
4.3 Gas Adsorbtion Effect on a Horizontal Flow Model and Its Effect On production | 第72-76页 |
Chapter 5 Conclusion and Recommendations | 第76-78页 |
5.1 conclusions | 第76-77页 |
5.2 Recommendations | 第77-78页 |
Appendices | 第78-80页 |
Reference | 第80-87页 |
Acknowledgement | 第87页 |