Mineralogical And Facies Variations Within The Utica Shale Ohio Using Visible Derivative Spectroscopy Principal Component Analysis And Multivariate Clustering PDF Download

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Mineralogical and Facies Variations Within the Utica Shale, Ohio Using Visible Derivative Spectroscopy, Principal Component Analysis, and Multivariate Clustering

Mineralogical and Facies Variations Within the Utica Shale, Ohio Using Visible Derivative Spectroscopy, Principal Component Analysis, and Multivariate Clustering
Author: Julie M Bloxson (Bloxson)
Publisher:
Total Pages: 207
Release: 2017
Genre: Appalachian Basin
ISBN:
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The Ordovician Utica Shale is an extensive and important part of the Appalachian Basin subsurface, providing a source for Paleozoic hydrocarbon reservoirs, acting as an unconventional hydrocarbon reservoir, and of interest as an impermeable cap rock for carbon dioxide sequestration in Cambrian formations. The Utica Shale is mostly in the subsurface, with little outcrops in areas of interest, and those that do exist are typically within the Appalachian Mountains (New York). To observe changes in subsurface formations, a combination of core and well logging can provide an extensive look into the subsurface. Here we present a non-destructive core-logging technique to quickly assess mineralogy variations on the Ordovician Trenton/Lexington Limestone, Point Pleasant Formation, and Utica Shale in Ohio. These core logging results, along with several previously measured core mineralogy, were then correlated to well logging electrofacies to extrapolate mineralogy and rock type from a few location to across the state. These were then mapped to identify controls on deposition during the Upper Ordovician in Ohio. Although typically assumed that the only controls on deposition during this time period are the primarily the Appalachian, and to a lesser extent Michigan, Basins, Precambrian basement structures, such as the Waverly Arch, Utica Mountain Fault, and Harlem Fault, have influence on deposition and sediment mixing also. Finally, the Sebree Trough, which has previously been reported to stop in southwest Ohio, appears to have allowed for dark, calcite-poor shales to continue deposition towards northeast Ohio, as a possible trough-like feature extending off of the Sebree Trough. The Trenton/Lexington Limestones, Point Pleasant Formation, and Utica Shale are not homogenous rock types, deposited across the state, but rather variable in both facies and thickness.

Nanopetrophysics of the Utica Shale, Appalachian Basin , Ohio, USA

Nanopetrophysics of the Utica Shale, Appalachian Basin , Ohio, USA
Author: Okwuosa Francis Chukwuma
Publisher:
Total Pages: 68
Release: 2019
Genre:
ISBN:
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The introduction of horizontal drilling combined with the ability to perform multiple stage hydraulic fracture treatment has enabled the oil and gas industry to explore previously unexploitable source formations, where it is estimated that 85% of the original reserves still resides. The application of these techniques provides economic gas and oil flow in extremely low porosity and permeability reservoirs. The Utica play, like the Bakken, Eagle ford, Marcellus, Haynesville, Permian and Niobrara plays are the current focus for unconventional reservoir exploration in the United States where it is estimated that shale gas and oil production from these plays would reach 80 billion cubic feet per day and 9.6 million barrels per day, respectively, by the year 2020 (EIA, 2014). However, despite these recent advances in production techniques used in stimulating tight shale reservoirs, most shale wells are still characterized by overall low recovery and steady steep decline in production typical to unconventional plays. The Utica Shale is not excluded from this, with production from this play showing an initial decline rate of 65% after its first year of production. This may be as a result of the low pore connectivity and very narrow pores that affects movement of hydrocarbon from the shale matrix to the well bore. A number of factors such as pressure volume and temperature (pvt), pore grain composition, multiphase fluid flow have been attributed to this observed phenomenon in shale reservoirs. However, researchers have not investigated the pore structure of the nanopores storing and transporting hydrocarbon.This study will evaluate pore-size distribution and pore connectivity of Utica Shale samples obtained from J. Goins (GS-3), Prudential (1-A) and Fred Barth (#3) wells in Ohio. Using mercury intrusion porosimetry, fluid (DI water, API brine and n-decane) and trace rimbibition, and edge-only accessible porosity tests, we were able to investigate the pore structure, edge accessible porosity, and the degree to which wettability is associated with mineral and organic kerogen phases. The MICP tests gave us initial sample characterization of basic petrophysical properties (porosity, permeability, pore-size distribution, and tortuosity). We examined imbibition behavior and imbibed tracer distribution for fluids (API brine or n-decane) to examine the association of tracers with mineral or kerogen phases using LA-ICP-MS mapping to measure the presence of tracersin each fluid. Mercury intrusion capillary pressure analyses shows that the Utica pores are predominantly in the nanometer size range, with measured average pore-throat diameter of 4 nm to 6 nm across the study location. Imbibition slopes shows an evidence of low pore connectivity which is consistent with percolation theory interpretation of low connectivity and may be due to the observed small pore-throat distribution. These innovative approaches are significant because they may hold the key to understanding fluid flow and pore structure in the nanopores by stipulating the limited accessibility and connectivity in the Utica Shale.

Total Organic Carbon Variability in the Utica Shale of Northwest Ohio

Total Organic Carbon Variability in the Utica Shale of Northwest Ohio
Author: Kyle J. Cox
Publisher:
Total Pages: 62
Release: 2012
Genre:
ISBN:
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Abstract: The Utica Shale is an Ordovician age rock unit found throughout most of Ohio and much of the Northeastern United States. Recently, the Utica's potential as a source and reservoir for hydrocarbons (oil and natural gas) has become an important topic in Ohio. If the Utica contains large amounts producible of oil and gas, the economic impact on the state could be very significant. Due to its hydrocarbon generating potential, there is a great amount of ongoing research focusing on the Utica. Most of this investigation targets the Utica in Eastern Ohio since geologic factors in the area (history of oil and gas production, the unit resides within a window of ideal formation depth below the surface) and preliminary explorations indicate a high likelihood that producible amounts of hydrocarbon reside in the formation in that part of the state. Similar factors (though not as ideal) may exist in the Northwestern portion of the state, however little research has considered this area. The purpose of this study was to investigate the hydrocarbon potential of the Utica Shale in Northwestern Ohio by measuring TOC values of rock samples from the area, and investigating how these values vary throughout the area. Total Organic Carbon, more commonly referred to as TOC, is one important indicator of a geologic units potential as a source rock. It is a measurement of the concentration of organic material in a rock which is necessary for the generation of hydrocarbons. TOC measurements from the Utica in Northwest Ohio were obtained by acidifying rock samples from the Utica in the study area to remove Inorganic Carbon from the samples followed by combusting them in an Elemental Analyzer which measured the remaining, and thus organic, Carbon. 34 samples were obtained from 16 wells in 10 counties of Northwest Ohio. Results showed limited hydrocarbon potential for the area. The average TOC was 1.38% and the 34 samples ranged from 0.73 to 2.75% TOC with the majority of samples falling between 1 and 2%. No strong trends in the variability of the TOC by location were identified. Future research following the same methodology with a larger sample area or a closer-spaced sample frequency across the study area could reveal trends that were too broad or narrow to be identified by measuring the sampled wells.

Unconventional Reservoir Geomechanics

Unconventional Reservoir Geomechanics
Author: Mark D. Zoback
Publisher: Cambridge University Press
Total Pages: 495
Release: 2019-05-16
Genre: Business & Economics
ISBN: 1107087074
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A comprehensive overview of the key geologic, geomechanical and engineering principles that govern the development of unconventional oil and gas reservoirs. Covering hydrocarbon-bearing formations, horizontal drilling, reservoir seismology and environmental impacts, this is an invaluable resource for geologists, geophysicists and reservoir engineers.

Seismic Attributes for Prospect Identification and Reservoir Characterization

Seismic Attributes for Prospect Identification and Reservoir Characterization
Author: Satinder Chopra
Publisher: SEG Books
Total Pages: 474
Release: 2007
Genre: Science
ISBN: 1560801417
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Introducing the physical basis, mathematical implementation, and geologic expression of modern volumetric attributes including coherence, dip/azimuth, curvature, amplitude gradients, seismic textures, and spectral decomposition, the authors demonstrate the importance of effective colour display and sensitivity to seismic acquisition and processing.

Coupled Geochemical and Nano-petrophysics of the Utica Play, Appalachian Basin, Ohio, U.S.A.

Coupled Geochemical and Nano-petrophysics of the Utica Play, Appalachian Basin, Ohio, U.S.A.
Author: Dillon Worley
Publisher:
Total Pages: 140
Release: 2019
Genre:
ISBN:
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Being more extensive than the Marcellus Play, the Utica Play covers from New York state in the north to northeastern Kentucky and Tennessee in the south. The Utica Play is a stacked play consisting of organic-rich mudstones from upper Ordovician units of Utica Shale, Point Pleasant, and the Logana member of the Lexington/Trenton Limestone. This study will focus on the pore structure and rock-fluid interaction and with relation to the rocks geochemical properties to assess the Utica Play. To achieve this research purpose, 7 core samples and 16 cuttings, with different maturities were collected from various wells, to study rocks from Utica Shale, Point Pleasant, and Lexington Limestone, as well as the Kope Formation which is immediately above the Utica Shale. The research investigated the nano-petrophysics by the means of mercury injection capillary pressure (MICP), helium porosity and permeability, low-pressure nitrogen gas physisorption, contact angle, and spontaneous imbibition. The geochemistry of rocks was analyzed by pyrolysis and total organic content (TOC) measurements, while mineralogy was determined by X-ray diffraction (XRD). MICP results indicate that clay-rich formations have more intra-clay, organic-matter, and intragranular pores (2.8-50 nm in pore throats), while the more carbonate-rich samples possess a more prevalent amount of intragranular and intergranular pores (~ 100 nm in pore throats). Mineralogically speaking, carbonate and clay have an inverse relationship, as clay increases carbonate decreases. Samples have a low connectivity for the hydrophilic pore network but high for the hydrophobic pore network. From pyrolysis, S1 shows a positive correlation with MICP porosity. However, the Utica Shale and Point Pleasant Formation show a negative correlation suggesting OM may play a negative role in porosity development. Carbonate is not a controlling factor but influences overall porosity. When compared to other unconventional reservoirs, the Utica Play shows similar traits of hardness, brittleness, organic richness, porosity and permeability as other successful unconventional plays. For the Utica Play, this study provides a better understanding of pore structure and how thermal maturity can reduce porosity in mature samples due to the infilling of bitumen and mineralogy, specifically carbonate, influence porosity. Our mineralogy, petrophysical, and geochemical results support the Point Pleasant Formation being the target of the Utica Play. The better sustain production rate of Well B compared to Well A could be due to the more favorable petrophysical and geochemical properties of the Point Pleasant Formation. Knowing the petrophysical and geochemical characteristics of the Utica Play could aid in well placement, well design, and hydraulic fracture design and optimization.

Understanding Oil and Gas Shows and Seals in the Search for Hydrocarbons

Understanding Oil and Gas Shows and Seals in the Search for Hydrocarbons
Author: John Dolson
Publisher: Springer
Total Pages: 498
Release: 2016-06-15
Genre: Technology & Engineering
ISBN: 3319297104
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This book explains in detail how to use oil and gas show information to find hydrocarbons. It covers the basics of exploration methodologies, drilling and mud systems, cuttings and mud gas show evaluation, fundamental log analysis, the pitfalls of log-calculated water saturations, and a complete overview of the use of pressures to understand traps and migration, hydrodynamics, and seal and reservoir quantification using capillary pressure. Also included are techniques for quickly generating pseudo-capillary pressure curves from simple porosity/permeability data, with examples of how to build spreadsheets in Excel, and a complete treatment of fluid inclusion analysis and fluid inclusion stratigraphy to map migration pathways. In addition, petroleum systems modeling and fundamental source rock geochemistry are discussed in depth, particularly in the context of unconventional source rock evaluation and screening tools for entering new plays. The book is heavily illustrated with numerous examples and case histories from the author’s 37 years of exploration experience. The topics covered in this book will give any young geoscientist a quick start on a successful career and serve as a refresher for the more experienced explorer.