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Full Description
Emerging Nanotechnologies and Solutions in Enhanced Oil Recovery: Advanced Concepts Supporting the Energy Transition supplies today's engineer and researcher with the latest methods and processes to learn and apply while lowering environmental impact. Supported by a diverse cast of global contributors, the reference dives into the role nanotechnology is playing in enhanced oil recovery, including nano-assisted chemical, thermal, water and gas-based methods, smart chemicals in nanoencapsulation, and nanoparticle-stabilized foam for mobility control. Other advances discussed include ionic liquids application, microbial biotechnology, and electrical EOR techniques. Case studies, visuals, and mathematical modeling at pore-scale, core-scale, and field-scale evaluation are all covered. Rounding out with chapters addressing water, air, and soil pollution challenges as well as CO2 storage in EOR activity, this book delivers the knowledge engineers need today to improve on critical assets while keeping a sustainability mindset.
Contents
1. Introduction to Nanotechnology for Enhancing Oil Recovery
2. Nano-Assisted Chemical EOR Methods
3. Nano-Assisted Thermal EOR Methods
4. Other Nano-Assisted Water and Gas-Based EOR Methods
5. Nanoencapsulation Technology for Enhancing Oil Recovery
6. Introduction to foam flooding techniques
7. Nanoparticle-stabilized foam
8. Flow behavior of nanoparticle-armored bubbles
9. Nanoparticle-stabilized foam for mobility control
10. EOR of low-permeability cores
11. Ionic Liquids Application for Enhancing Oil Recovery
12. Microbial Biotechnology for Enhancing Oil Recovery
13. Electrical EOR techniques
14. Formation damage potential in novel enhanced oil recovery technologies
15. Mathematical Modelling and simulations studies
16. Application of molecular dynamic simulation for enhancing oil recovery
17. Environmental issues during enhanced oil recovery
18. Role of enhanced oil recovery technologies on energy transition
