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Intro; Foreword; Preface; Part I: Contaminant Migration in Complex Environment; Part II: Numerical Modeling of Fluid Flow Under Heterogeneous Conditions; Part III: Synergetic Effects of Heat and Mass Transfer in Porous Media; Contents; Editors and Contributors; Contaminant Migration in Complex Environment; 1 Fines Migration in Aquifers and Oilfields: Laboratory and Mathematical Modelling; 1 Introduction; 2 Fine Particles Mobilisation, Migration and Straining Under High Velocities; 2.1 Physics of Fines Detachment, Transport and Straining in Porous Media.
2.2 Governing System for Suspension-Colloidal Transport and Detachment in Porous Media2.3 Analytical Model for One-Dimensional Suspension-Colloidal Flow with Fines Mobilisation and Straining; 2.3.1 Exact Analytical Solution for Injection at Constant Rate; 2.3.2 Analytical Solution for Multiple Injections; 2.4 Using the Laboratory Results to Adjust the Analytical Model; 2.4.1 Tuning the Rheological Model Parameters from Laboratory Coreflooding Data; 2.4.2 Results; 2.5 Summary and Discussion; 3 Fines Detachment and Migration at Low Salinity; 3.1 Laboratory Study; 3.1.1 Experimental Setup.
3.1.2 Materials3.2 Methodology; 3.3 Experimental Results; 3.4 Analytical Model for Slow Fines Migration and Delayed Particle Release; 3.5 Treatment of Experimental Data; 3.6 Summary and Discussion; 4 Fines Detachment and Migration at High Temperature; 4.1 Experimental Results and Model Prediction; 4.2 Using Sensitivity of Ionic Strength to Characterise Fines Mobilisation; 4.3 Summary and Discussion; 5 Fines Migration in Gas and CBM Reservoirs; 6 Conclusions; Acknowledgements; References; 2 Migration and Capillary Entrapment of Mercury in Porous Media; 1 Introduction.
2 Two-Phase Flow Phenomena3 Mechanisms of Entrapment; 4 Capillary, Viscous and Gravity Forces; 5 Measurement of Capillary Pressure as a Function of Water Saturation; 6 Empirical Models of Capillary Pressure-Saturation Curves; 7 Dimensionless Numbers; 8 Conclusions; References; 3 New Insight into Immiscible Foam for Enhancing Oil Recovery; 1 Introduction; 2 Experimental Description; 2.1 Materials; 2.2 Experimental Setup; 2.3 CT Scanner; 2.4 Experimental Procedure; 3 Results and Discussion; 3.1 Primary Drainage and Imbibition; 3.2 Gas Flooding; 3.3 Foam Flooding; 3.3.1 CT Scan Images.
3.3.2 Saturation Profiles3.3.3 Foam Mobility Reduction Factor; 3.3.4 Incremental Oil Recovery by Foam; 3.3.5 Foam EOR Mechanism; 4 Conclusions; Acknowledgements; References; Numerical Modeling of Fluid Flow Under Heterogeneous Conditions; 4 Numerical Simulation of Flows in a Channel with Impermeable and Permeable Walls Using Finite Volume Methods; 1 Introduction; 2 Numerical Methods; 2.1 CFD Domain and Boundary Conditions; 2.2 CFD Mesh and Mesh-Independent Test; 3 Results and Discussion; 3.1 Flow and Pressure Drop in Channels with &!blank; No-Slip Walls.
2.2 Governing System for Suspension-Colloidal Transport and Detachment in Porous Media2.3 Analytical Model for One-Dimensional Suspension-Colloidal Flow with Fines Mobilisation and Straining; 2.3.1 Exact Analytical Solution for Injection at Constant Rate; 2.3.2 Analytical Solution for Multiple Injections; 2.4 Using the Laboratory Results to Adjust the Analytical Model; 2.4.1 Tuning the Rheological Model Parameters from Laboratory Coreflooding Data; 2.4.2 Results; 2.5 Summary and Discussion; 3 Fines Detachment and Migration at Low Salinity; 3.1 Laboratory Study; 3.1.1 Experimental Setup.
3.1.2 Materials3.2 Methodology; 3.3 Experimental Results; 3.4 Analytical Model for Slow Fines Migration and Delayed Particle Release; 3.5 Treatment of Experimental Data; 3.6 Summary and Discussion; 4 Fines Detachment and Migration at High Temperature; 4.1 Experimental Results and Model Prediction; 4.2 Using Sensitivity of Ionic Strength to Characterise Fines Mobilisation; 4.3 Summary and Discussion; 5 Fines Migration in Gas and CBM Reservoirs; 6 Conclusions; Acknowledgements; References; 2 Migration and Capillary Entrapment of Mercury in Porous Media; 1 Introduction.
2 Two-Phase Flow Phenomena3 Mechanisms of Entrapment; 4 Capillary, Viscous and Gravity Forces; 5 Measurement of Capillary Pressure as a Function of Water Saturation; 6 Empirical Models of Capillary Pressure-Saturation Curves; 7 Dimensionless Numbers; 8 Conclusions; References; 3 New Insight into Immiscible Foam for Enhancing Oil Recovery; 1 Introduction; 2 Experimental Description; 2.1 Materials; 2.2 Experimental Setup; 2.3 CT Scanner; 2.4 Experimental Procedure; 3 Results and Discussion; 3.1 Primary Drainage and Imbibition; 3.2 Gas Flooding; 3.3 Foam Flooding; 3.3.1 CT Scan Images.
3.3.2 Saturation Profiles3.3.3 Foam Mobility Reduction Factor; 3.3.4 Incremental Oil Recovery by Foam; 3.3.5 Foam EOR Mechanism; 4 Conclusions; Acknowledgements; References; Numerical Modeling of Fluid Flow Under Heterogeneous Conditions; 4 Numerical Simulation of Flows in a Channel with Impermeable and Permeable Walls Using Finite Volume Methods; 1 Introduction; 2 Numerical Methods; 2.1 CFD Domain and Boundary Conditions; 2.2 CFD Mesh and Mesh-Independent Test; 3 Results and Discussion; 3.1 Flow and Pressure Drop in Channels with &!blank; No-Slip Walls.