Understanding Geologic Carbon Sequestration and Gas Hydrate from Molecular Simulation

Understanding Geologic Carbon Sequestration and Gas Hydrate from Molecular Simulation systematically introduces CO2 geological sequestration and gas hydrate at the molecular-scale, with research including interfacial properties of multiphase, multicomponent systems, hydrogen bonding properties, adsorption characteristics of CO2CH4 in the pore, kinetic properties of decomposition/nucleation/growth of gas hydrate, the influence of additives on gas hydrate growth dynamics, and hydrate prevention and control technology. This book focuses on research-based achievements and provides a comprehensive look at global progress in the field. Because there are limited resources available on carbon geologic sequestration technology and gas hydrate technology at the molecular level, this book fills a gap in scientific literature and elucidates on further research. Distills learnings for fundamental and advanced knowledge of molecular simulation in carbon dioxide and gas hydrate storageSynthesizes knowledge about the development status of CGS technology and hydrate technology in the molecular field - tackling these technologies from a microscopic perspectiveAnalyzes scientific problems related to CGS technology and hydrate technology based on molecular simulation methodsExplores challenges relative to carbon dioxide and hydrate storageProvides hierarchical analysis combined with the authors' own research-based case studies for enhanced comprehension and application INDICE: 1. Background 2. Molecular simulation basics 3. Interfacial tension and wettability 4. Hydrogen bonding characteristics 5. CO2/CH4 adsorption characteristics 6. Dissociation of gas hydrate 7. Gas hydrate nucleation mechanisms 8. Gas hydrate growth 9. Anti-agglogation of gas hydrate 10. Case studies 11. Outlooks

• ISBN: 978-0-443-21765-4
• Editorial: Elsevier
• Encuadernacion: Rústica
• Páginas: 542
• Fecha Publicación: 14/03/2024
• Nº Volúmenes: 1
• Idioma: Inglés