UT-GOM2-2 Prospectus [electronic resource] : Science and Sample Distribution Plan

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Tác giả:

Ngôn ngữ: eng

Ký hiệu phân loại: 333.8 Subsurface resources

Thông tin xuất bản: Washington, D.C. : Oak Ridge, Tenn. : United States. Office of the Assistant Secretary of Energy for Fossil Energy ; Distributed by the Office of Scientific and Technical Information, U.S. Dept. of Energy, 2021

Mô tả vật lý: Medium: ED : , digital, PDF file.

Bộ sưu tập: Metadata

ID: 261675

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 The University of Texas (UT), Genesis of Methane Hydrate in Coarse-Grained Systems: Northern Gulf of Mexico Slope Project (GOM2), will perform the UT-GOM2-2 drilling and coring expedition in the Terrebonne Basin, Gulf of Mexico outer continental shelf. This is the scientific plan for the acquisition, storage, analysis, and distribution of core and other collected samples for UT-GOM2-2.<
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  The UT-GOM2-2 expedition will sample and analyze the physical, chemical, and biological properties of the hydrate-bearing layers, thereby illuminating the origin, dynamic behavior, and response of this system to perturbation (whether by climate or energy production). A systematic measurement program will sample the hydrate-bearing layer from the seafloor downward. Novel technology, developed during the project, will be used to extract cores from a mile beneath the ocean and study those cores in laboratories worldwide, while keeping the samples under their original pressure. Samples taken near the seafloor will constrain the flux of carbon from the sediment into to the ocean and determine whether there have been recent temperature perturbations at the ocean floor. Through sampling of the microbes, and analysis of the surrounding pore fluid, we will illuminate the depths and rates at which microbes are generating methane beneath the seafloor. Our analyses will inform biological, geochemical, and geomechanical models to constrain the role of gas hydrates in the carbon cycle and the potential for gas hydrates as an energy resource.<
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  We will drill and core two vertical wells to 9652 ft below sea level in the offshore Gulf of Mexico in Terrebonne Basin, Walker Ridge Block 313. We will spend 41 days at sea mobilizing, executing and demobilizing. We will spend an additional 18 days performing dockside analysis to complete the analysis of the recovered core.<
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  We will characterize the Orange sand and Upper Blue sand hydrate reservoirs and their bounding units, contrast hydrate reservoir properties at different structural levels within the Upper Blue dipping sand, characterize dissolved methane concentration and gas molecular composition with depth, measure the in-situ temperature and pressure profile, and determine the high resolution geochemical, geobiological, and sedimentary profiles in the upper 250 feet below the sea floor (fbsf).<
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  Pressure core and conventional core will be collected in two holes adjacent to previously drilled wells. We will use the DOE Pressure Coring Tool with Ball Valve (PCTB) to obtain pressure core. In the first hole, only pressure core will be acquired using the PCTB in the face bit configuration (PCTB-FB). In the second hole, conventional core will be collected using Geotek?s APC or XCB coring tool and pressure core will be collected using the PCTB in the cutting shoe configuration (PCTB-CS). In the second hole, temperature and pressure measurements will also be made.<
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  We will use the Geotek?s Pressure Core Analysis and Transfer System (PCATS) to log and X-Ray image the pressure cores. PCATS will also be used to subsample the recovered pressure cores at hydrate-stable conditions and to transfer samples to pressurized storage chambers. On-board and dockside, subsamples will undergo quantitative degassing to determine dissolved methane and hydrate concentrations. Pressure core in storage chambers will be transported to UT and stored at the UT Pressure Core Center (PCC) and other institutions.<
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  Conventional cores will be processed on board and dockside. On-board, conventional core will be run through a Geotek IR Scanner to create a thermal image to identify where hydrate dissociation had just occurred. Sections of conventional and depressurized core will be cut for microbiology, pore water analysis, and moisture and density analysis (MAD). Sections for pore water analysis will be squeezed and ephemeral pore water measurements will be completed on board. Preserved pore water samples will be shipped to the University of Washington (UW) for analysis. Microbiology samples will be sent to Oregon State University for analysis. MAD samples will be sent to Tufts University for analysis.<
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  The conventional and depressurized core will be CT 3D scanning, Geotek MSCL whole core logging, core splitting, split core scanning, primary litho- and biostratigraphy. Additional whole core samples will be cut for geomechanical testing after whole core scanning. Subsamples of split core will be shipped to the University of New Hampshire (UNH), UT, and others for secondary litho- and biostratigraphy. Split core archival and working halves will be placed in long term cold storage at UT.<
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  The Preliminary Expedition Report will be issued 2 months post-expedition. The Expedition Report will be published 1-year post-expedition. We are eager to support hydrate science by the broader community and requests for data and/or samples can be made to UT.<
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