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dc.contributor.advisorSarg, J. F. (J. Frederick)
dc.contributor.authorJobe, Tiffany Dawn
dc.date.accessioned2007-01-03T04:51:55Z
dc.date.accessioned2022-02-09T08:50:27Z
dc.date.available2007-01-03T04:51:55Z
dc.date.available2022-02-09T08:50:27Z
dc.date.issued2013
dc.identifierT 7218
dc.identifier.urihttps://hdl.handle.net/11124/78714
dc.description2013 Spring.
dc.descriptionIncludes color illustrations, color maps.
dc.descriptionIncludes bibliographical references.
dc.description.abstractThe Lower Cretaceous Thamama Group host some of the world's most prolific oil and gas reservoirs, yet the key controls on reservoir quality and production are poorly understood. This dissertation focuses on a volumetrically significant, algal-dominated, low-permeability, microporous reservoir within the Thamama 1 interval. The following includes the sedimentology , chemostratigraphy and quantitative pore architecture of the Thamama 1A as it relates to lithofacies, including the stratigraphic framework and depositional environments of this reservoir interval. The Thamama 1A represents an overall deepening upward, transgressive deposit on a low angle carbonate ramp with depositional settings ranging from distal outer ramp to distal inner ramp environments. For correlation purposes [delta]13C and [delta]18O stable isotope analysis resulted in completing a previously incomplete chemostratigraphic section for the paleo-Bab basin. These new and comprehensives curves provide valuable tool for inter- and intra-field correlation. Results from this study also provide a new understanding of the effects of pore architecture on fluid flow. A new methodology for microporosity quantification using QEMSCAN® technology is presented which is capable of imaging microporosity that is below optical resolution. This new method provides a more robust and accurate estimate of porosity, pore size, and pore shape distribution in microporous reservoirs. Results are compared to a variety of other analytical techniques including nitrogen gas adsorption and mercury porosimetry. Total porosity, pore size, and pore shape distribution, permeability and specific surface areas are measured and tortuosities are calculated. Porosity values as well as pore size distributions agreed both quantitatively and qualitatively across all techniques. In addition, pore architecture data showed a clear distinction between lithofacies types, indicating that physical rock properties are likely to control fluid flow and reservoir response. Understanding the pore architecture and its effects on fluid flow will help to optimize reservoir production and ultimately perhaps increase EOR recoveries from this large oil and gas field.
dc.format.mediumborn digital
dc.format.mediumdoctoral dissertations
dc.languageEnglish
dc.language.isoeng
dc.publisherColorado School of Mines. Arthur Lakes Library
dc.relation.ispartof2010-2019 - Mines Theses & Dissertations
dc.rightsCopyright of the original work is retained by the author.
dc.subjectQEMSCAN
dc.subjectcarbonate
dc.subjectchemostratigraphy
dc.subjectmicroporosity
dc.subjectpore architecture
dc.subjectsedimentology
dc.subject.lcshSedimentology -- United Arab Emirates
dc.subject.lcshChemostratigraphy -- United Arab Emirates
dc.subject.lcshCarbonates -- United Arab Emirates
dc.subject.lcshHydrocarbon reservoirs -- United Arab Emirates
dc.subject.lcshPorosity
dc.titleSedimentology, chemostratigraphy and quantitative pore architecture in microporous carbonates: examples from a giant oil field offshore Abu Dhabi, U.A.E.
dc.typeText
dc.contributor.committeememberHumphrey, John D.
dc.contributor.committeememberPlink-Björklund, Piret
dc.contributor.committeememberGraves, Ramona M.
dc.contributor.committeememberSteuber, Thomas
thesis.degree.nameDoctor of Philosophy (Ph.D.)
thesis.degree.levelDoctoral
thesis.degree.disciplineGeology and Geological Engineering
thesis.degree.grantorColorado School of Mines


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