Enhanced Oil Recovery
Proceedings of the third European Symposium on Enhanced Oil Recovery, held in Bournemouth, U.K., September 21-23, 1981
Elsevier (Publisher)
Published on 1. January 1981
596 pages
978-0-08-086867-7 (ISBN)
Description
Enhanced Oil Recovery
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10/1981
Elsevier
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Content
- Front Cover
- Enhanced Oil Recovery
- Copyright Page
- Table of Contents
- Foreword
- Part I: Chemical Flooding
- Chapter 1. Keynote Paper: "Fundamental Aspects of Surfactant-Polymer Flooding Process
- Chapter 2. Surfactants for EOR Processes in High-Salinity Systems
- Product Selection and Evaluation
- Chapter 3. Preliminary Studies of the Behaviour or Some Commercially Available Surfactants in Hydrocarbon-Brine-Mineral Systems
- Chapter 4. The Provision of Laboratory Data for EOR Simulation
- Chapter 5. Experimental Study and Interpretation of Surfactant Retention in Porous Media
- Chapter 6. The EACN of a Crude Oil: Variations with Cosurfactant and Water Oil Ratio
- Chapter 7. Dynamic Interfacial Phenomena Related to EOR
- Chapter 8. Behaviour of Surfactants in EOR Applications at High Temperatures
- Chapter 9. Surfactant Slug Displacement Efficiency in Reservoirs
- Chapter 10. Some Aspects of the Injectivity of Non-Newtonian Fluids in Porous Media
- Chapter 11. Basic Rheological Behaviour of Xanthan Polysaccharide Solutions in Porous Media: Effects of Pore Size and Polymer Concentration
- Chapter 12. The Chateaurenard (France) Polymer Flood Field Test.
- Chapter 13. Caustic Flooding in the Wilmington Field, California, Laboratory Modelling and Field Results
- Part II: Miscible Gas Displacement
- Chapter 14. Keynote Paper: "Miscible Displacement: Its Potential for Enhanced Oil Recovery"
- Chapter 15. Theoretical Aspects of Calculating the Performance of CO2 as an EOR Process in North Sea Reservoirs
- Chapter 16. A New Linear Displacement Model with Mass Transfer Between Phases, Adapted to CO2 Injection
- Chapter 17. Oil Recovery by Carbon Dioxide, the results of Scaled Physical Models and Field Pilots
- Chapter 18. Laboratory Testing Procedures for Miscible Floods
- Chapter 19. Complex Study of CO2 Flooding in Hungary
- Chapter 20. An Iterative Method for Phase Equilibria Calculations with Particular Application to Multicomponent Miscible Systems
- Chapter 21. Phase Equilibrium Calculations in the Near-Critical Region
- Chapter 22. The Effect of Simulated CO2 Flooding on the Permeability of Reservoir Rocks
- Part III: Numerical Methods
- Chapter 23. Keynote Paper: "Computer Modelling of EOR Processes"
- Chapter 24. Three-Dimensional Numerical Simulation of Steam Injection
- Chapter 25. Special Techniques for Fully Implicit Simulators
- Chapter 26. Some Considerations Concerning the Efficiency of Chemical Flood Simulators
- Chapter 27. Control of Numerical Dispersion in Compositional Simulation
- Chapter 28. Interphase Mass Transfer Effects in Implicit Black Oil Simulators
- Part IV: Experimental Techniques
- Chapter 29. A Novel Device for CO2 Flooding
- Chapter 30. The Use of Slim Tube Displacement Experiments in the Assessment of Miscible Gas Projects
- Chapter 31. Nuclear Measurements of Fluid Saturations in EOR Flood Experiments
- Chapter 32. Characterisation of EOR Polymers as to Size in Solution
- Chapter 33. Visualization of the Behaviour of EOR Reagents in Displacements in Porous Media
- Part V: Thermal Recovery Methods
- Chapter 34. Keynote Paper: "The Interplay Between Research and Field Operations in the Development of Thermal Recovery Methods"
- Chapter 35. U.S. Department of Energy R & D on Downhole Steam Generator for the Recovery of Heavy Oil
- Chapter 36. Steam Drive - The Successful Enhanced Oil Recovery Technology
- Chapter 37. Down Hole Steam Generation using a Pulsed Burner
- Chapter 38. Hot Caustic Flooding
- Part VI: United States Research Programme
- Chapter 39. Enhanced Oil Recovery Research and Development in the United States and in the U.S. Department of Energy
- Author Index
