Oceanic Methane Hydrates Fundamentals, Technological Innovations, and Sustainability
Auteurs : Chen Lin, Merey Sukru
Rounding out the reference are emerging technologies in all facets of the business including well completion and monitoring, economics aspects to consider, and environmental challenges, particularly methods to reduce the costs of methane hydrate exploration and production techniques. Rounding out a look at future trends, Oceanic Methane Hydrates covers both the basics and advances needed for today?s engineers to gain the required knowledge needed to tackle this challenging and exciting future energy source.
Section 1 Fundamentals and Models 1. Fundamentals of Methane Hydrate 2. Research and Development in Major Countries 3. Micro-Scale Concepts and Dissociation Dynamics 4. Core-Scale in-lab Experiments 5. Advancement in Numerical Simulations in Methane Hydrate Reservoirs
Section 2 Field Practice and Activities 6. Real Field Core-Sampling and Analysis 7. Reservoir-Scale Considerations and Methods 8. Real Onshore Tests in Russia, Canada and USA 9. Real Offshore Tests in Japan and China 10. Activities in the Mid-East, Europe and Other Regions 11. Comparisons of Field Activities in Different Worldwide Sites
Section 3 Emerging Technologies and Environmental Sustainability 12. Emerging Technologies 13. Economic Aspects and Environmental Issues 14. Policy Assessment and Outlook for Future
Dr. Sukru Merey is an Associate Professor in Department of Petroleum and Natural Gas Engineering, Batman University, Turkey. He graduated BSc., MSc. and PhD from Department of Petroleum and Natural Gas Engineering, Middle East Technical University, Turkey in 2009, 2013, and 2017 respectively. He worked as a well completion engineer at Turkish Petroleum Corporation more than 1 year between 2010 and 2011. His current research topics include well completion, well stimulation, reservoir simulation, adsorption, CO2 sequestration, shale gas reservoirs, coalbed methane, and gas hydrates.
- Understand real data and practice examples covering the newest developments of methane hydrate, from chemical, reservoir modelling and production testing
- Gain worldwide coverage and analysis of the most recent extraction production tests
- Cover the full range of emerging technologies and environmental sustainability including current regulations and policy outlook
Date de parution : 01-2021
Ouvrage de 468 p.
15.2x22.8 cm
Thèmes d’Oceanic Methane Hydrates :
Mots-clés :
Autonomous; Commercial production; Completion technologies; Core analysis; Core scale; Coring technologies; Countries; Depressurization; Dissociation; Dissociation dynamics; Dissociation model; Drilling technologies; Economic analysis; Energy resource; Energy resources; Environmental; Environmental issue; Environmental monitoring; Existence; Field activities; Field production; Future trend; Gas hydrate; Gas hydrates; Gas production; Geochemical analysis; Geochemistry; Geohazards; Geological settings; Geology; Geomechanical analysis; Hydrate activities; Hydrate formation; Hydrate projects; Hydrate strategies; Hydrate technology; Ignik Sikumi; Indian Sea; Interfacial dynamics; Key points; Krishna Godavari (KG) Basin; Long-term analysis; LWD data; Mackenzie Delta; Measurement; Messoyakha; Methane hydrate; Microscale; Model; Monitoring; Nankai Trough; New field techniques; New production methods; Numerical model; Offshore methane hydrate; Onshore methane hydrate; Policy; Policy analysis; Porous flow; Pressurized corer; Production; Production technologies; Production test; Project stages; Reservoir; Reservoir production; Resources estimation; Shenhu; Sustainability; Timeline; Well monitoring