Oil and Gas Research

Reservoir quality analysis

Every operator has thousands of feet of old core stored in warehouses along with numerous cuttings and thin sections. A digital library of these samples, composed of 3D and 2D images, provides geologists a fast and statistically robust way of evaluating a play by examining previously obtained well cores. These digital rock models combine whole-core computed tomography, microCT, optical and scanning electron microscopy (SEM), and DualBeam technology (focused ion beam and SEM) data through image analysis and visualization software. Previously, these individual observations would be orphaned as traditional methods provide results without context and insight. Digital rock modeling offers analytical and characterization capabilities along with the ability to archive and rapidly share information. Most importantly, it links observed properties to the fundamental nature of the reservoir.

• Obtain accurate clay speciation and textural context with a single method
• Set up automated workflows to guarantee consistent, objective analysis
• Increase confidence in the accuracy of your results

Multi-scale analysis

Reservoir rocks are dominated by heterogeneity and laminations. To maximize the recovery of hydrocarbons from such reservoirs, accurate characterization of the rock micro-structure is required. This involves not only understanding of the individual rock types and laminations but also the interplay of the various rock types that make up the reservoir. Characterization of subsurface porosity, saturation, and wettability are critical for determining the type and volume of fluids that will be produced. Unfortunately, a single imaging tool cannot resolve both micro-scale pore connectivity and large-scale features.

In order to completely characterize these unconventional systems, multi-scale, multi-modal imaging is required. Thermo Fisher Scientific offers software solutions that correlate X-ray tomography and microscopy imaging with energy-dispersive X-ray spectroscopy (EDS) for elemental analysis. This combination of tools relates microscale observations to the sub-nanometer-scale 3D visualization of pore-system connectivity. It also generates wettability and in situ fluid saturation information, allowing you to upscale microscopic results to the core-plug and log scale.

• Track the distribution of features accurately across scales
• Create statistically valid datasets for representative, quantitative property assessment
• Easily generate automated, objective acquisition and analysis workflows