Pore-scale dynamics and the multiphase Darcy law
| Dataset title | Pore-scale dynamics and the multiphase Darcy law |
|---|---|
| Dataset creators | Ying Gao, Imperial College London Branko Bijeljic, Imperial College London Martin J. Blunt, Imperial College London |
| Dataset theme | Geoscientific Information |
| Dataset abstract | A pore-scale experimental investigation of microscopic steady-state flow during co-injection from very low to high flow rates in the pore space of a sandstone is applied using 4D synchrotron X-ray micro-tomography to advance our understanding of flow regimes. We report the results of micro-CT imaging experiments directly visualizing the simultaneous flow of both a wetting and a non-wetting fluid through a Bentheimer sandstone, at pore-scale resolution. For small flow rates, both fluids flow through unchanging, distinct, bicontinuous 3D pathways. At higher flow rates, however, the non-wetting fluid continually breaks up into discrete ganglia; these are then advected through the medium. We propose that the non-wetting fluid breaks up when the sum of the viscous forces exerted by the wetting and the non-wetting fluids exceed the capillary forces at the pore scale. |
| Dataset content dates | 09/12/2017 - 12/12/2017 |
| Dataset spatial coverage | Not applicable |
| Dataset supply format | rar |
| 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 | 26th February 2019 |
| Dataset digital object identifier(DOI) | 10.5285/8e8669ee-1496-432a-8c98-5651d7bf4495 |
| Dataset citation text | Gao, Y., Bijeljic, B., Blunt, M.J. (2019): Pore-scale dynamics and the multiphase Darcy law. British Geological Survey. (Dataset). http://dx.doi.org/10.5285/8e8669ee-1496-432a-8c98-5651d7bf4495 |
| 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 | https://www.bgs.ac.uk/services/services/ngdc/accessions/index.html#item126031 |