Automatic measurement of contact angle in pore-space images

•A novel method has been developed to automatically extract contact angles from pore-space images with high accuracy.•This work provides a rapid method to provide an accurate characterization of pore-scale wettability, allowing hundreds of thousands of points to be measured on a single image.•Both a...

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Bibliographic Details
Published inAdvances in water resources Vol. 109; pp. 158 - 169
Main Authors AlRatrout, Ahmed, Raeini, Ali Q, Bijeljic, Branko, Blunt, Martin J
Format Journal Article
LanguageEnglish
Published Oxford Elsevier Ltd 01.11.2017
Elsevier Science Ltd
Subjects
Accuracy
Ambient temperature
Brines
Carbon dioxide
Carbon sequestration
Contact angle
Curvature
Fluids
Image processing
Interfaces
Measurement
Methods
Oil
Reservoirs
Rocks
Saline water
Smoothing
Storage
Three dimensional imaging
Vectors
Wettability
X ray microtomography
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Summary:•A novel method has been developed to automatically extract contact angles from pore-space images with high accuracy.•This work provides a rapid method to provide an accurate characterization of pore-scale wettability, allowing hundreds of thousands of points to be measured on a single image.•Both a water-wet and a mixed-wet rock have been analysed.•Our measurements allow researchers to define more realistic contact angle distributions, which can be used to more accurately predict multiphase fluid flow in pore-scale models. A new approach is presented to measure the in-situ contact angle (θ) between immiscible fluids, applied to segmented pore-scale X-ray images. We first identify and mesh the fluid/fluid and fluid/solid interfaces. A Gaussian smoothing is applied to this mesh to eliminate artifacts associated with the voxelized nature of the image, while preserving large-scale features of the rock surface. Then, for the fluid/fluid interface we apply an additional smoothing and adjustment of the mesh to impose a constant curvature. We then track the three-phase contact line, and the two vectors that have a direction perpendicular to both surfaces: the contact angle is found from the dot product of these vectors where they meet at the contact line. This calculation can be applied at every point on the mesh at the contact line. We automatically generate contact angle values representing each invaded pore-element in the image with high accuracy. To validate the approach, we first study synthetic three-dimensional images of a spherical droplet of oil residing on a tilted flat solid surface surrounded by brine and show that our results are accurate to within 3° if the sphere diameter is 2 or more voxels. We then apply this method to oil/brine systems imaged at ambient temperature and reservoir pressure (10MPa) using X-ray microtomography (Singh et al., 2016). We analyse an image volume of diameter approximately 4.6  mm and 10.7  mm long, obtaining hundreds of thousands of values from a dataset with around 700 million voxels. We show that in a system of altered wettability, contact angles both less than and greater than 90° can be observed. This work provides a rapid method to provide an accurate characterization of pore-scale wettability, which is important for the design and assessment of hydrocarbon recovery and carbon dioxide storage.
ISSN:0309-1708
1872-9657
DOI:10.1016/j.advwatres.2017.07.018