X-ray Microtomography of Intermittency in Multiphase Flow at Steady State Using a Differential Imaging Method
Dataset title | X-ray Microtomography of Intermittency in Multiphase Flow at Steady State Using a Differential Imaging Method |
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Dataset creators | Martin Blunt, Imperial College London Ying Gao, Imperial College London Qatar Carbonates and Carbon Storage Research Centre |
Dataset theme | Geoscientific Information |
Dataset abstract | The images in this dataset are a sample of Bentheimer Sandstone from a micro-computed tomography (micro-CT) scan acquired with a voxel resolution of 6.00µm. We imaged the steady state flow of brine and decane in Bentheimer sandstone. We devised an experimental method based on differential imaging to examine how flow rate impacts the pore-scale distribution of fluids during coinjection. This allows us to elucidate flow regimes (connected, or breakup of the nonwetting phase pathways) for a range of fractional flows at two capillary numbers, Ca, namely 3.0E-7 and 7.5E-6. At the lower Ca, for a fixed fractional flow, the two phases appear to flow in connected unchanging subnetworks of the pore space, consistent with conventional theory. At the higher Ca, we observed that a significant fraction of the pore space contained sometimes oil and sometimes brine during the 1 h scan: this intermittent occupancy, which was interpreted as regions of the pore space that contained both fluid phases for some time, is necessary to explain the flow and dynamic connectivity of the oil phase; pathways of always oil-filled portions of the void space did not span the core. This phase was segmented from the differential image between the 30 wt % KI brine image and the scans taken at each fractional flow. Using the grey scale histogram distribution of the raw images, the oil proportion in the intermittent phase was calculated. The pressure drops at each fractional flow at low and high flow rates were measured by high precision differential pressure sensors. The relative permeabilities and fractional flow obtained by our experiment at the mm-scale compare well with data from the literature on cm-scale samples. |
Dataset content dates | 21/01/2017 – 08/02/2017 |
Dataset spatial coverage | Not Applicable |
Dataset supply format | .TXM |
Dataset language | English-United Kingdom |
Dataset discovery metadata record | Discovery Link to the dataset's BGS Discovery Metadata record |
Dataset publisher | British Geological Survey |
Dataset publication date | 20th September 2018 |
Dataset digital object identifier(DOI) | 10.5285/db27d484-55b9-4897-9f0a-3d7de343d2c6 |
Dataset citation text | Imperial College London, Qatar Carbonates And Carbon Storage Research Centre (2018): X-ray Microtomography of Intermittency in Multiphase Flow at Steady State Using a Differential Imaging Method. British Geological Survey. (dataset). http://dx.doi.org/10.5285/db27d484-55b9-4897-9f0a-3d7de343d2c6 |
Constraints and terms of use | This data set is delivered under the terms of the Open Government Licence, subject to the following acknowledgement accompanying any reproduced materials: "Imperial College London gratefully acknowledge permission to publish and funding from the Qatar Carbonates and Carbon Storage Research Centre (QCCSRC), provided jointly by Qatar Petroleum, Shell, and Qatar Science & Technology Park. Qatar Petroleum remain copyright owner." | Access the dataset | http://www.bgs.ac.uk/services/ngdc/accessions/index.html#item118450 |
Further information | Gao et al (2017) X-ray micro-tomography of intermittency in multiphase flow at steady state using a differential imaging method. Water Resources Research. DOI:10.1002/2017WR021736 |