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20:59 Jan 11, 2018 |
English to Polish translations [PRO] Science - Mining & Minerals / Gems | |||||||
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| Selected response from: Frank Szmulowicz, Ph. D. United States Local time: 08:05 | ||||||
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3 | pakiet przepływu pracy dla analizy właściwości skał za pomocą metod komputerowej petrofizyki skał |
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Digital Rock Petrophysics |
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Digital Rock Petrophysics workflow suite pakiet przepływu pracy dla analizy właściwości skał za pomocą metod komputerowej petrofizyki skał Explanation: Methods used to analyze rock properties based on 2D and 3D digital images are collectively known as digital rock petrophysics, and are being used at an accelerated pace to quantify the storage and production potential of spatially complex rocks. https://repositories.lib.utexas.edu/handle/2152/62228?show=f... |
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Reference: Digital Rock Petrophysics Reference information: Pore Scale Imaging of Unconventional Reservoirs in Petrophysical Workflows Terri Olson (Digital Rock Petrophysics) Imaging technology has advanced in recent years to enable investigation of pore systems in very fine-grained reservoirs. A review of state-of-the-art techniques will include methods focused on nanometer- and micron-scale observations plus integration across scales. Pore type, pore size, pore connectivity, wettability, mineralogy and fabric are among the aspects that are best addressed with such techniques in microporous reservoirs. Questions that these methods address will be discussed, along with their relevance to petrophysical interpretation and their place in formation evaluation workflows. Case studies will be shown to illustrate application of pore-scale imaging to assessing tight sandstone and “shale” plays. Applications to tight sandstone in the Green River Formation in the Uinta Basin in Utah include imaging wettability with FESEM and associating altered wettability with specific mineral phases; and detecting formation damage mechanisms in SEM images taken before and after exposure to completion fluids. Shale examples of workflows include combining MicroCT images, mineral maps, FESEM images, and FIBSEM image data to yield both insight and quantitative results. Issues with image data, potential pitfalls in interpretation, and new frontiers for core analysis based on imaging techniques will also be covered. http://dwls.spwla.org/2017_Spring_Workshop.htm#Olson -------- Digital Rock Petrophysics LLC (entity ID 20161164524) is a business entity registered with Colorado Secretary of State - https://opengovus.com/colorado-business/20161164524 |
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