To study the seepage and deformation characteristics of coal at high temperatures, coal
samples from six different regions were selected and subjected to computed tomography …

To study the evolution law of the pore and fracture structures during the spontaneous
combustion of coal, a self-built high-temperature tube furnace was used in the experiment to …

Abstract Three-dimensional (3D) X-ray micro-computed tomography (μCT) has been widely
used in petroleum engineering because it can provide detailed pore structural information …

Abstract Characterization and modeling of unconventional reservoirs are quite challenging
as the fluid flow through nanoporous media is not well-understood due to complexity of such …

Pore systems become very complex in heterogeneous reservoirs such as low-permeability
and tight sandstones for macropores and micropores both exist in such reservoirs. Although …

Petrophysical rock properties are the crucial point of any reservoir characterization project
and represent fundamental input parameters for any simulation. To obtain reservoir …

Mitigating greenhouse gas emissions by underground carbon dioxide storage or by
coupling intermittent renewable energy with underground hydrogen storage are solutions …

Despite the crucial role of the variability of pore type across a rock unit in determining the
outputs of the corresponding rock physics model, existing models are known to consider a …

The development of tight hydrocarbon resources has a significant impact on the future of the
energy market. Digital Rock Physics (DRP) is technically recognized as an effective method …

Granite residual soil is widely distributed in southeastern China. Notably, this soil easily
softens when exposed to water and is easily damaged when subjected to stress, and these …