Digital Rock Physics in Cuttings Using High-Resolution Thin Section Scan Images

Author:

Caja Miguel Ángel1ORCID,Castillo José Nicolás1,Santos Carlos Alberto1,Pérez-Jiménez José Luis1,Fernández-Díaz Pedro Ramón1,Blázquez Vanesa1,Esteve Sergi2,Campos José Rafael2,Bover-Arnal Telm2ORCID,Martín-Martín Juan Diego2ORCID

Affiliation:

1. Repsol Technology Lab, C/Agustin de Betancourt, s/n, Móstoles, 28935 Madrid, Spain

2. Department of Mineralogy, Petrology and Applied Geology, University of Barcelona, Martí i Franquès, s/n, 08028 Barcelona, Spain

Abstract

Digital rock physics (DRP) has undergone significant advancements in the use of various imaging techniques to acquire three-dimensional volumes and images of rock samples for the computation of petrophysical properties. This study focuses on developing a DRP workflow using high-resolution thin section scans for computing porosity and permeability in cuttings samples. The workflow was tested on quarry sandstone plug samples and artificially generated pseudo-cuttings before applying it to real cuttings from oil and gas wells. The results show that the porosity and permeability values obtained through the DRP workflow are statistically equivalent to those obtained through conventional routine core analysis (RCAL). The workflow was also able to handle the presence of various lithologies in real cuttings samples. The study demonstrates the feasibility of obtaining porosity and permeability values in cutting samples using the DRP approach, offering a fast and cost-effective methodology that provides additional data and allows linking petrophysical properties to image data from the cuttings.

Funder

Repsol Technology Lab

Publisher

MDPI AG

Subject

Geology,Geotechnical Engineering and Engineering Geology

Reference31 articles.

1. The future of rock physics: Computational methods vs. lab testing;Dvorkin;First Break.,2008

2. Digital Rock Physics: A Geological Driven Workflow for the Segmentation of Anisotropic Ruhr Sandstone;Balcewicz;Front. Earth Sci.,2021

3. Riepe, L., and Knackstedt, M. (2013, January 18–19). Quantitative Mineralogical and Petrophysical Analysis of Cuttings. Proceedings of the Petroleum Geoscience Conference & Exhibition, Kuala Lumpur, Malaysia.

4. Digital rock physics benchmarks—Part I: Imaging and segmentation;Combaret;Comput. Geosci.,2013

5. Numerical estimation of rock properties and textural facies classification of core samples using X-ray Computed Tomography images;Jouini;Appl. Math. Model.,2017

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