The 2nd Edition of Carbonate Reservoirs aims to educate graduate students and industry professionals on the complexities of porosity evolution in carbonate reservoirs. In the intervening 12 years since the first edition, there have been numerous studies of value published that need to be recognized and incorporated in the topics discussed. A chapter on the impact of global tectonics and biological evolution on the carbonate system has been added to emphasize the effects of global earth processes and the changing nature of life on earth through Phanerozoic time on all aspects of the carbonate system. The centerpiece of this chapter-and easily the most important synthesis of carbonate concepts developed since the 2001 edition-is the discussion of the CATT hypothesis, an integrated global database bringing together stratigraphy, tectonics, global climate, oceanic geochemistry, carbonate platform characteristics, and biologic evolution in a common time framework. Another new chapter concerns naturally fractured carbonates, a subject of increasing importance, given recent technological developments in 3D seismic, reservoir modeling, and reservoir production techniques.
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Table of Contents
1. The basic nature of carbonate sediments and sedimentation 2. The application of concepts of sequence statigraphy to carbonate rock sequences 3. The impact of global tectonics and biologic evolution on the carbonate system 4. The nature and classification of carbonate porosity 5. Carbonate diagenesis: Introduction and tools 6. Marine diagenetic environment 7. Evaporative marine diagenetic environment 8. Meteoric diagenetic environment 9. Summary of early diagenesis and porosity modification of carbonate reservoirs in a sequence stratigraphic and climatic framework 10. Burial diagenetic environment 11. Natural fracturing in carbonate reservoirs 12. Case histories
Authors
Clyde H. Moore Colorado School of Mines, Golden, CO, USA and Louisiana State University, Baton Rouge, LA, USA.622101e1.jpg
Dr. Clyde H. Moore received his BS degree in Geology from Louisiana State University, Baton Rouge and his MS and PhD degrees from the University of Texas in Austin. He spent a number of years as a research geologist with Shell Development Company in Houston, Texas and Ventura, California. During this period he studied Cretaceous carbonate sequences in Texas, modern clastic coastal depositional environments along the Atlantic coast, and Tertiary clastic sequences in the marginal basins of the Pacific coast. He joined the geology faculty at Louisiana State University in 1966 and retired as Professor Emeritus in 1997. During his tenure at LSU his research interests and the work of his students spanned all aspects of carbonate geology from modern sediments to ancients rock sequences around the world. His main focus in his later years at LSU was the nature and evolution of porosity in carbonate reservoirs. This research was sponsored by an industrial associates program. At present he is a research professor at the Colorado School of Mines in Golden, Colorado. He is an active consultant and teaches industrial seminars for Oil and Gas Consultants Inc (OGCI). His seminars include Carbonate Reservoirs and Sequence Stratigraphy. He was a Distinguished Lecturer for AAPG and recently received the AAPG Distinguished Educator award. He resides in Lakewood, Colorado.
Office address: Department of Geology Colorado School of Mines Golden, CO 80401, USA Ph. 303 273 3805 Fax 303 273 3857 Email:
William J. Wade Flagstaff, USA.
