Augmenting Xray micro-CT data with MICP data for high resolution pore-microstructural and flow modelling of carbonate rocks.

Extracting pore size distribution from xray data.

Lead Invsestigator: Olubukola Ishola ([email protected])
Co-Investigator: Javier Vilcaez
Associated Paper: Augmenting Xray micro-CT data with MICP data for high resolution pore-microstructural and flow modelling of carbonate rocks.
DOI:

The notebook demonstrates the workflow for obtaining pore size distribution from binarized micro-CT images. The general principle involves identifying each pore, estimating the volume of each pore, and ultimately determining the radius of a sphere with an equivalent volume of each pore. There is also an option to analyse the sample to see if it is representative.

Name		Name	Last commit message	Last commit date
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README.md		README.md
xray_to_psd.ipynb		xray_to_psd.ipynb

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Augmenting Xray micro-CT data with MICP data for high resolution pore-microstructural and flow modelling of carbonate rocks.

Extracting pore size distribution from xray data.

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Augmenting Xray micro-CT data with MICP data for high resolution pore-microstructural and flow modelling of carbonate rocks.

Extracting pore size distribution from xray data.

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