Nanocolloids for Petroleum Engineering
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Nanocolloids for Petroleum Engineering
Fundamentals and Practices
Veliyev, Elchin F.; Vishnyakov, Vladimir; Suleimanov, Baghir A.
John Wiley & Sons Inc
09/2022
288
Dura
Inglês
9781119889595
15 a 20 dias
692
Descrição não disponível.
Nanocolloids for Petroleum Engineering:
Theoretical and Practical Approach
Baghir Suleimanov, Elchin Veliyev, Vladimir Vishnyakov
INTRODUCTION
PART A. Nanocolloids - an overview
Chapter 1. Nanocolloids classification
1.1. What is colloid?
1.2. Colloids classification
1.3. Colloids evaluation
1.4. What is nanocolloid?
Chapter 2. Nanocolloids properties
2.1. Different kind of interactions in nanocolloids
? Van der Waals interactions
? Electrostatic interaction
? Elastic-steric interaction
? Hydrophobic interaction
? Solvation interaction
? Depletion interaction
? Magnetic dipole-dipole interaction
? Osmotic repulsion
2.2. The stability of nanocolloids
2.3. Rheology of nanocolloids
? Effect of nanoparticles interaction on the colloids rheology
? Effect of nanoparticles migration on the colloids rheology
2.4. Surface Tension.Wettability
? Wettability alteration
? Surface tension
References
PART B. Reservoir Development
Chapter 3. Reservoir conditions for nanocolloids formation
3.1. In-situ formation of nano-gas emulsions
? Stability of the subcritical gas nuclei
3.2. In-situ formation of nanoaerosoles
? Stability of the subcritical liquid nuclei
Chapter 4. Nano-gas emulsions in oil field development
4.1. Hydrodynamics of nano-gas emulsions
? Flow mechanism of gasified Newtonian liquids
? Annular capillary flow scheme
? Slip effect
? Concluding remarks
? Flow of gasified Newtonian liquids in porous media at reservoir conditions
? Fundamental equations
? Apparent permeability
? Steady-state flow
4.2. Hydrodynamics of nano-gas emulsions in heavy oil reservoirs
? Flow mechanism of gasified non-Newtonian liquids
? Annular capillary flow scheme
? Slip effect
? Flow of gasified non-Newtonian liquids in porous media at reservoir conditions
? Capillary flow
? Flow in a homogeneous porous medium
? Flow in a heterogeneous porous medium
? Concluding remarks
4.3. Filed validation of slippage phenomena
4.3.1. Steady state radial flow
? Gasified Newtonian fluid flow
? Gasified non-Newtonian fluid flow
4.3.2. Unsteady state flow
4.3.3. Viscosity anomaly near to phase transition point
? Experimental procedures
? Measurement of live oil viscosity
? Phase behavior of live oil and viscosity anomaly
? Surfactant impact on phase behavior of live oil and viscosity anomaly
? Mechanism of viscosity anomaly
? Mechanism of surfactant influence on phase behavior of live oil and viscosity anomaly
? Concluding remarks
Chapter 5. Nanoaerosoles in gas condensate field development
5.1. Study of the gas condensate flow in porous medium
5.2. Mechanism of the gas condensate mixture flow
? Rheology mechanism of the gas condensate mixture during steady-state flow
a) Annular flow scheme in a porous medium capillary
b) Slippage effect
? Mechanism of porous medium wettability influence on the steady-state flow of the gas condensate
? Mechanism of pressure build-up at the unsteady-state flow of the gas condensate
? Concluding remarks
References
PART C. Production Operations
Chapter 6. An overview of nanocolloids application in production operations
Chapter 7. Nanosol for well completion
? The influence of the specific surface area and distribution of particles on the cement stone strength
? The influence of nano-SiO2 and nano-TIO2 on the cement stone strength
? Regression equation
? Concluding remarks
Chapter 8. Nano-gas emulsion for sand control
? Fluidization by gasified fluids
? Carbon dioxide gasified water as fluidizing agent
? Natural gas or air gasified water as fluidizing agent
? Chemical additives impact on fluidization process
? Water-air mixtures with surfactant additives as fluidizing agent
? Fluidization by polymer compositions
? Mechanism of observed phenomena
Chapter 9. Vibrowave stimulation impact on nano-gas emulsion flow
? Exact solution
? Approximate solution
? Concluding remarks
References
?
PART D. Enhanced Oil Recovery
Chapter 10. An overview of nanocolloids applications for EOR
? Core flooding experiments focused on dispersion phase properties
? Core flooding experiments focused on dispersion medium properties
Chapter 11. Surfactant based nanofluid
? Nanoparticle influence on surface tension in surfactant solution
? Nanoparticles influence on surfactant adsorption process
? Nanoparticles influence on oil wettability
? Nanoparticles influence on optical spectroscopy results
? Nanoparticles influence on rheological properties of the nano-suspension
? Nanoparticles influence on the processes of Newtonian oil displacement in homogeneous and heterogeneous porous medium were tested
? Concluding remarks
Chapter 12. Nanofluids for Deep Fluid Diversion
12.1. Preformed particle nanogels
? Nanogel strength evaluation
? Determination of inflection points
? Kinetic mechanism of gelation
? Core flooding experiments
? Concluding remarks
12.2. Colloidal dispersion nanogels
? Rheology
? Aging effect
? Interfacial tension
? Zeta potential
? Particle size distribution
? Resistance factor / Residual resistance factor
? Concluding remarks
?
Chapter 13. Nano-gas emulsions as displacement agent
? Oil displacement by Newtonian gasified fluid
? Oil displacement by non-Newtonian gasified fluid
? Mechanism of observed phenomena
? Field application
References
PART E. Novel Perspective Nanocolloids
Chapter 14. Metal string complex micro&nano fluids
14.1. What is metal string complexes?
14.2. Thermophysical properties of microfluids with Ni3(?3-ppza)4Cl2 metal string complex
? Microparticles of the MSC Ni3(?3-ppza)4Cl2
? Ni3-microfluid
? Fluids stability
? Thermal conductivity
? Rheology
? Surface tension
? Freezing points
? Concluding remarks
14.3. Thermophysical properties of microfluids with Ni5(?5-pppmda)4Cl2 metal string complex
? Microparticles of the metal string complex [Ni5(?5-pppmda)4Cl2]
? Micro and nanofluids preperation
? Fluids stability
? Thermal conductivity
? Rheology
? Surface tension
? Freezing points
? Concluding remarks
References
APPENDICES
Theoretical and Practical Approach
Baghir Suleimanov, Elchin Veliyev, Vladimir Vishnyakov
INTRODUCTION
PART A. Nanocolloids - an overview
Chapter 1. Nanocolloids classification
1.1. What is colloid?
1.2. Colloids classification
1.3. Colloids evaluation
1.4. What is nanocolloid?
Chapter 2. Nanocolloids properties
2.1. Different kind of interactions in nanocolloids
? Van der Waals interactions
? Electrostatic interaction
? Elastic-steric interaction
? Hydrophobic interaction
? Solvation interaction
? Depletion interaction
? Magnetic dipole-dipole interaction
? Osmotic repulsion
2.2. The stability of nanocolloids
2.3. Rheology of nanocolloids
? Effect of nanoparticles interaction on the colloids rheology
? Effect of nanoparticles migration on the colloids rheology
2.4. Surface Tension.Wettability
? Wettability alteration
? Surface tension
References
PART B. Reservoir Development
Chapter 3. Reservoir conditions for nanocolloids formation
3.1. In-situ formation of nano-gas emulsions
? Stability of the subcritical gas nuclei
3.2. In-situ formation of nanoaerosoles
? Stability of the subcritical liquid nuclei
Chapter 4. Nano-gas emulsions in oil field development
4.1. Hydrodynamics of nano-gas emulsions
? Flow mechanism of gasified Newtonian liquids
? Annular capillary flow scheme
? Slip effect
? Concluding remarks
? Flow of gasified Newtonian liquids in porous media at reservoir conditions
? Fundamental equations
? Apparent permeability
? Steady-state flow
4.2. Hydrodynamics of nano-gas emulsions in heavy oil reservoirs
? Flow mechanism of gasified non-Newtonian liquids
? Annular capillary flow scheme
? Slip effect
? Flow of gasified non-Newtonian liquids in porous media at reservoir conditions
? Capillary flow
? Flow in a homogeneous porous medium
? Flow in a heterogeneous porous medium
? Concluding remarks
4.3. Filed validation of slippage phenomena
4.3.1. Steady state radial flow
? Gasified Newtonian fluid flow
? Gasified non-Newtonian fluid flow
4.3.2. Unsteady state flow
4.3.3. Viscosity anomaly near to phase transition point
? Experimental procedures
? Measurement of live oil viscosity
? Phase behavior of live oil and viscosity anomaly
? Surfactant impact on phase behavior of live oil and viscosity anomaly
? Mechanism of viscosity anomaly
? Mechanism of surfactant influence on phase behavior of live oil and viscosity anomaly
? Concluding remarks
Chapter 5. Nanoaerosoles in gas condensate field development
5.1. Study of the gas condensate flow in porous medium
5.2. Mechanism of the gas condensate mixture flow
? Rheology mechanism of the gas condensate mixture during steady-state flow
a) Annular flow scheme in a porous medium capillary
b) Slippage effect
? Mechanism of porous medium wettability influence on the steady-state flow of the gas condensate
? Mechanism of pressure build-up at the unsteady-state flow of the gas condensate
? Concluding remarks
References
PART C. Production Operations
Chapter 6. An overview of nanocolloids application in production operations
Chapter 7. Nanosol for well completion
? The influence of the specific surface area and distribution of particles on the cement stone strength
? The influence of nano-SiO2 and nano-TIO2 on the cement stone strength
? Regression equation
? Concluding remarks
Chapter 8. Nano-gas emulsion for sand control
? Fluidization by gasified fluids
? Carbon dioxide gasified water as fluidizing agent
? Natural gas or air gasified water as fluidizing agent
? Chemical additives impact on fluidization process
? Water-air mixtures with surfactant additives as fluidizing agent
? Fluidization by polymer compositions
? Mechanism of observed phenomena
Chapter 9. Vibrowave stimulation impact on nano-gas emulsion flow
? Exact solution
? Approximate solution
? Concluding remarks
References
?
PART D. Enhanced Oil Recovery
Chapter 10. An overview of nanocolloids applications for EOR
? Core flooding experiments focused on dispersion phase properties
? Core flooding experiments focused on dispersion medium properties
Chapter 11. Surfactant based nanofluid
? Nanoparticle influence on surface tension in surfactant solution
? Nanoparticles influence on surfactant adsorption process
? Nanoparticles influence on oil wettability
? Nanoparticles influence on optical spectroscopy results
? Nanoparticles influence on rheological properties of the nano-suspension
? Nanoparticles influence on the processes of Newtonian oil displacement in homogeneous and heterogeneous porous medium were tested
? Concluding remarks
Chapter 12. Nanofluids for Deep Fluid Diversion
12.1. Preformed particle nanogels
? Nanogel strength evaluation
? Determination of inflection points
? Kinetic mechanism of gelation
? Core flooding experiments
? Concluding remarks
12.2. Colloidal dispersion nanogels
? Rheology
? Aging effect
? Interfacial tension
? Zeta potential
? Particle size distribution
? Resistance factor / Residual resistance factor
? Concluding remarks
?
Chapter 13. Nano-gas emulsions as displacement agent
? Oil displacement by Newtonian gasified fluid
? Oil displacement by non-Newtonian gasified fluid
? Mechanism of observed phenomena
? Field application
References
PART E. Novel Perspective Nanocolloids
Chapter 14. Metal string complex micro&nano fluids
14.1. What is metal string complexes?
14.2. Thermophysical properties of microfluids with Ni3(?3-ppza)4Cl2 metal string complex
? Microparticles of the MSC Ni3(?3-ppza)4Cl2
? Ni3-microfluid
? Fluids stability
? Thermal conductivity
? Rheology
? Surface tension
? Freezing points
? Concluding remarks
14.3. Thermophysical properties of microfluids with Ni5(?5-pppmda)4Cl2 metal string complex
? Microparticles of the metal string complex [Ni5(?5-pppmda)4Cl2]
? Micro and nanofluids preperation
? Fluids stability
? Thermal conductivity
? Rheology
? Surface tension
? Freezing points
? Concluding remarks
References
APPENDICES
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Well completion; Workover; Sand control; Production operations; Enhanced Oil recovery; Nanoaerosole; Nanosol; Nanofluid; Metal string complex; Nano-gas emulsion; Nanocolloids; nanocolloids formation; nanocolloids applications
Nanocolloids for Petroleum Engineering:
Theoretical and Practical Approach
Baghir Suleimanov, Elchin Veliyev, Vladimir Vishnyakov
INTRODUCTION
PART A. Nanocolloids - an overview
Chapter 1. Nanocolloids classification
1.1. What is colloid?
1.2. Colloids classification
1.3. Colloids evaluation
1.4. What is nanocolloid?
Chapter 2. Nanocolloids properties
2.1. Different kind of interactions in nanocolloids
? Van der Waals interactions
? Electrostatic interaction
? Elastic-steric interaction
? Hydrophobic interaction
? Solvation interaction
? Depletion interaction
? Magnetic dipole-dipole interaction
? Osmotic repulsion
2.2. The stability of nanocolloids
2.3. Rheology of nanocolloids
? Effect of nanoparticles interaction on the colloids rheology
? Effect of nanoparticles migration on the colloids rheology
2.4. Surface Tension.Wettability
? Wettability alteration
? Surface tension
References
PART B. Reservoir Development
Chapter 3. Reservoir conditions for nanocolloids formation
3.1. In-situ formation of nano-gas emulsions
? Stability of the subcritical gas nuclei
3.2. In-situ formation of nanoaerosoles
? Stability of the subcritical liquid nuclei
Chapter 4. Nano-gas emulsions in oil field development
4.1. Hydrodynamics of nano-gas emulsions
? Flow mechanism of gasified Newtonian liquids
? Annular capillary flow scheme
? Slip effect
? Concluding remarks
? Flow of gasified Newtonian liquids in porous media at reservoir conditions
? Fundamental equations
? Apparent permeability
? Steady-state flow
4.2. Hydrodynamics of nano-gas emulsions in heavy oil reservoirs
? Flow mechanism of gasified non-Newtonian liquids
? Annular capillary flow scheme
? Slip effect
? Flow of gasified non-Newtonian liquids in porous media at reservoir conditions
? Capillary flow
? Flow in a homogeneous porous medium
? Flow in a heterogeneous porous medium
? Concluding remarks
4.3. Filed validation of slippage phenomena
4.3.1. Steady state radial flow
? Gasified Newtonian fluid flow
? Gasified non-Newtonian fluid flow
4.3.2. Unsteady state flow
4.3.3. Viscosity anomaly near to phase transition point
? Experimental procedures
? Measurement of live oil viscosity
? Phase behavior of live oil and viscosity anomaly
? Surfactant impact on phase behavior of live oil and viscosity anomaly
? Mechanism of viscosity anomaly
? Mechanism of surfactant influence on phase behavior of live oil and viscosity anomaly
? Concluding remarks
Chapter 5. Nanoaerosoles in gas condensate field development
5.1. Study of the gas condensate flow in porous medium
5.2. Mechanism of the gas condensate mixture flow
? Rheology mechanism of the gas condensate mixture during steady-state flow
a) Annular flow scheme in a porous medium capillary
b) Slippage effect
? Mechanism of porous medium wettability influence on the steady-state flow of the gas condensate
? Mechanism of pressure build-up at the unsteady-state flow of the gas condensate
? Concluding remarks
References
PART C. Production Operations
Chapter 6. An overview of nanocolloids application in production operations
Chapter 7. Nanosol for well completion
? The influence of the specific surface area and distribution of particles on the cement stone strength
? The influence of nano-SiO2 and nano-TIO2 on the cement stone strength
? Regression equation
? Concluding remarks
Chapter 8. Nano-gas emulsion for sand control
? Fluidization by gasified fluids
? Carbon dioxide gasified water as fluidizing agent
? Natural gas or air gasified water as fluidizing agent
? Chemical additives impact on fluidization process
? Water-air mixtures with surfactant additives as fluidizing agent
? Fluidization by polymer compositions
? Mechanism of observed phenomena
Chapter 9. Vibrowave stimulation impact on nano-gas emulsion flow
? Exact solution
? Approximate solution
? Concluding remarks
References
?
PART D. Enhanced Oil Recovery
Chapter 10. An overview of nanocolloids applications for EOR
? Core flooding experiments focused on dispersion phase properties
? Core flooding experiments focused on dispersion medium properties
Chapter 11. Surfactant based nanofluid
? Nanoparticle influence on surface tension in surfactant solution
? Nanoparticles influence on surfactant adsorption process
? Nanoparticles influence on oil wettability
? Nanoparticles influence on optical spectroscopy results
? Nanoparticles influence on rheological properties of the nano-suspension
? Nanoparticles influence on the processes of Newtonian oil displacement in homogeneous and heterogeneous porous medium were tested
? Concluding remarks
Chapter 12. Nanofluids for Deep Fluid Diversion
12.1. Preformed particle nanogels
? Nanogel strength evaluation
? Determination of inflection points
? Kinetic mechanism of gelation
? Core flooding experiments
? Concluding remarks
12.2. Colloidal dispersion nanogels
? Rheology
? Aging effect
? Interfacial tension
? Zeta potential
? Particle size distribution
? Resistance factor / Residual resistance factor
? Concluding remarks
?
Chapter 13. Nano-gas emulsions as displacement agent
? Oil displacement by Newtonian gasified fluid
? Oil displacement by non-Newtonian gasified fluid
? Mechanism of observed phenomena
? Field application
References
PART E. Novel Perspective Nanocolloids
Chapter 14. Metal string complex micro&nano fluids
14.1. What is metal string complexes?
14.2. Thermophysical properties of microfluids with Ni3(?3-ppza)4Cl2 metal string complex
? Microparticles of the MSC Ni3(?3-ppza)4Cl2
? Ni3-microfluid
? Fluids stability
? Thermal conductivity
? Rheology
? Surface tension
? Freezing points
? Concluding remarks
14.3. Thermophysical properties of microfluids with Ni5(?5-pppmda)4Cl2 metal string complex
? Microparticles of the metal string complex [Ni5(?5-pppmda)4Cl2]
? Micro and nanofluids preperation
? Fluids stability
? Thermal conductivity
? Rheology
? Surface tension
? Freezing points
? Concluding remarks
References
APPENDICES
Theoretical and Practical Approach
Baghir Suleimanov, Elchin Veliyev, Vladimir Vishnyakov
INTRODUCTION
PART A. Nanocolloids - an overview
Chapter 1. Nanocolloids classification
1.1. What is colloid?
1.2. Colloids classification
1.3. Colloids evaluation
1.4. What is nanocolloid?
Chapter 2. Nanocolloids properties
2.1. Different kind of interactions in nanocolloids
? Van der Waals interactions
? Electrostatic interaction
? Elastic-steric interaction
? Hydrophobic interaction
? Solvation interaction
? Depletion interaction
? Magnetic dipole-dipole interaction
? Osmotic repulsion
2.2. The stability of nanocolloids
2.3. Rheology of nanocolloids
? Effect of nanoparticles interaction on the colloids rheology
? Effect of nanoparticles migration on the colloids rheology
2.4. Surface Tension.Wettability
? Wettability alteration
? Surface tension
References
PART B. Reservoir Development
Chapter 3. Reservoir conditions for nanocolloids formation
3.1. In-situ formation of nano-gas emulsions
? Stability of the subcritical gas nuclei
3.2. In-situ formation of nanoaerosoles
? Stability of the subcritical liquid nuclei
Chapter 4. Nano-gas emulsions in oil field development
4.1. Hydrodynamics of nano-gas emulsions
? Flow mechanism of gasified Newtonian liquids
? Annular capillary flow scheme
? Slip effect
? Concluding remarks
? Flow of gasified Newtonian liquids in porous media at reservoir conditions
? Fundamental equations
? Apparent permeability
? Steady-state flow
4.2. Hydrodynamics of nano-gas emulsions in heavy oil reservoirs
? Flow mechanism of gasified non-Newtonian liquids
? Annular capillary flow scheme
? Slip effect
? Flow of gasified non-Newtonian liquids in porous media at reservoir conditions
? Capillary flow
? Flow in a homogeneous porous medium
? Flow in a heterogeneous porous medium
? Concluding remarks
4.3. Filed validation of slippage phenomena
4.3.1. Steady state radial flow
? Gasified Newtonian fluid flow
? Gasified non-Newtonian fluid flow
4.3.2. Unsteady state flow
4.3.3. Viscosity anomaly near to phase transition point
? Experimental procedures
? Measurement of live oil viscosity
? Phase behavior of live oil and viscosity anomaly
? Surfactant impact on phase behavior of live oil and viscosity anomaly
? Mechanism of viscosity anomaly
? Mechanism of surfactant influence on phase behavior of live oil and viscosity anomaly
? Concluding remarks
Chapter 5. Nanoaerosoles in gas condensate field development
5.1. Study of the gas condensate flow in porous medium
5.2. Mechanism of the gas condensate mixture flow
? Rheology mechanism of the gas condensate mixture during steady-state flow
a) Annular flow scheme in a porous medium capillary
b) Slippage effect
? Mechanism of porous medium wettability influence on the steady-state flow of the gas condensate
? Mechanism of pressure build-up at the unsteady-state flow of the gas condensate
? Concluding remarks
References
PART C. Production Operations
Chapter 6. An overview of nanocolloids application in production operations
Chapter 7. Nanosol for well completion
? The influence of the specific surface area and distribution of particles on the cement stone strength
? The influence of nano-SiO2 and nano-TIO2 on the cement stone strength
? Regression equation
? Concluding remarks
Chapter 8. Nano-gas emulsion for sand control
? Fluidization by gasified fluids
? Carbon dioxide gasified water as fluidizing agent
? Natural gas or air gasified water as fluidizing agent
? Chemical additives impact on fluidization process
? Water-air mixtures with surfactant additives as fluidizing agent
? Fluidization by polymer compositions
? Mechanism of observed phenomena
Chapter 9. Vibrowave stimulation impact on nano-gas emulsion flow
? Exact solution
? Approximate solution
? Concluding remarks
References
?
PART D. Enhanced Oil Recovery
Chapter 10. An overview of nanocolloids applications for EOR
? Core flooding experiments focused on dispersion phase properties
? Core flooding experiments focused on dispersion medium properties
Chapter 11. Surfactant based nanofluid
? Nanoparticle influence on surface tension in surfactant solution
? Nanoparticles influence on surfactant adsorption process
? Nanoparticles influence on oil wettability
? Nanoparticles influence on optical spectroscopy results
? Nanoparticles influence on rheological properties of the nano-suspension
? Nanoparticles influence on the processes of Newtonian oil displacement in homogeneous and heterogeneous porous medium were tested
? Concluding remarks
Chapter 12. Nanofluids for Deep Fluid Diversion
12.1. Preformed particle nanogels
? Nanogel strength evaluation
? Determination of inflection points
? Kinetic mechanism of gelation
? Core flooding experiments
? Concluding remarks
12.2. Colloidal dispersion nanogels
? Rheology
? Aging effect
? Interfacial tension
? Zeta potential
? Particle size distribution
? Resistance factor / Residual resistance factor
? Concluding remarks
?
Chapter 13. Nano-gas emulsions as displacement agent
? Oil displacement by Newtonian gasified fluid
? Oil displacement by non-Newtonian gasified fluid
? Mechanism of observed phenomena
? Field application
References
PART E. Novel Perspective Nanocolloids
Chapter 14. Metal string complex micro&nano fluids
14.1. What is metal string complexes?
14.2. Thermophysical properties of microfluids with Ni3(?3-ppza)4Cl2 metal string complex
? Microparticles of the MSC Ni3(?3-ppza)4Cl2
? Ni3-microfluid
? Fluids stability
? Thermal conductivity
? Rheology
? Surface tension
? Freezing points
? Concluding remarks
14.3. Thermophysical properties of microfluids with Ni5(?5-pppmda)4Cl2 metal string complex
? Microparticles of the metal string complex [Ni5(?5-pppmda)4Cl2]
? Micro and nanofluids preperation
? Fluids stability
? Thermal conductivity
? Rheology
? Surface tension
? Freezing points
? Concluding remarks
References
APPENDICES
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