Geological Controls for Gas Hydrate Formations and Unconventionals tells the story of unconventional hydrocarbon resources, especially gas hydrates, tight gas, shale gas, liquid- rich shale, and shale oil, to future generations. It presents the most current research in unconventionals, covering structural constituents of continental margins and their role in generating hydrocarbons. Additionally, this book answers basic questions regarding quantifications and characterizations, distributions, modes of occurrence, physical and chemical properties, and more - in essence, all the information that is necessary to improve the models for precision prediction of the enigma of gas hydrates and other unconventionals. Blending geology, geophysics, geomechanics, petrophysics, and reservoir engineering, it explains in simple language the scientific concepts that are necessary to develop geological and reservoir models for unconventionals. Serving as a focal point for geoscientists and engineers conducting research that focuses on reservoir characteristics of unconventionals, Geological Controls for Gas Hydrate Formations and Unconventionals is a useful resource for a variety of other specialiststies including physicists, geochemists, exploration geologists, and petroleum and reservoir engineers. It details the key factors for successful exploration and development of unconventional reservoirs including discovery, data evaluation, full-field development, production, and abandonment, along with a vivid description ofn the worldwide occurrence of unconventional hydrocarbons.
- Includes a range of datasets that provide detailed workflows for geological modeling
- Presents theoretical and real data analysis from different parts of the world, making its content practical and implementable in a range of gas hydrate exploration and extraction scenarios
- Features more than 200 figures and illustrations to highlight key concepts
2. Sedimentation Pattern
3. Methane Generation
4. Rock Properties of Sediments
5. Tectonics and Gas Hydrates
6. Fluid Flows
7. Reservoir Characteristics
8. Case Histories
9. Gas hydrate and geological Hazards
10. The Prospects
Dr. Sanjeev Rajput is a Principal Advisor Geophysics, Oil and Gas Development with Baker Hughes, Malaysia and has 15 years of diverse experience in oil and gas industry. He obtained a B.Sc in Physics and Mathematics in 1998 from M.J.P. Rohilkhand University, India and a Master of Technology (M.Tech) in Applied Geophysics in 2001 from Kurukshetra University, Kurukshetra, India. In 2007, he graduated with a Ph.D. from Kurukshetra University, Kurukshetra, India, specializing in 4C seismic data analysis and quantitative interpretation. Sanjeev began his career as a Marine Geophysicist with CGG International before going for his post-doctorate fellowship with University of Texas at Austin, USA. As a Reservoir Geophysicist with Schlumberger in 2007 he was involved in Full Field Review, Mature Field development, and Quantitative Interpretation of Geophysical data. He joined CSIRO Australia in 2009 as a Senior Research Scientist and moved on as Principal Scientist. His consulting work was focused on geophysical data analysis and quantitative interpretation of oil and gas fields. Sanjeev joined Baker Hughes in 2013 in Kuala Lumpur, Malaysia. His work is primarily on Mature Oil and Gas field development, Unconventional hydrocarbon exploration and development, and Quantitative Interpretation and production enhancement. He is a member of SEG, EAGE, and SPE. He has authored greater than 50 international publications.
Thakur, Naresh Kumar
Dr. Naresh Kumar Thakur eceived his Masters in 1970 from Osmania University, Hyderabad, India and Ph.D. from Bombay University, Bombay in 1984. With more than 40 years of research experience in diversified geological and geophysical experimentations, he is presently focusing his research on unconventional hydrocarbon exploration. He has more than 70 peer reviewed papers and two US patents in his credit. He served as a member of United Nations Convention on the Law of the Sea (UNCLOS) and elect representative for five years.