Publications by authors named "Andrzej P Radlinski"
Article Synopsis
- Geological formations can effectively store gases like carbon dioxide and hydrogen due to their unique small-scale pore structures.
- This study examines the gas uptake of a porous silica aerogel, using advanced techniques like transmission electron microscopy and neutron scattering, focusing on its response to deuterated methane at high pressures.
- The research found that gas adsorption in the aerogel varies with scale, showing that the material can quickly equilibrate with external pressure without condensation, and returns to its original state when the gas is released.
A brief summary of the evolving applications of small-angle neutron scattering (SANS) to the microstructural research on geological materials in the last few decades is provided, including new developments and possible future directions. This is an account of authors' view of the interplay between the technical development of SANS instrumentation, methodology and sample environments and the progress of research on the evolution of organic matter, gas adsorption and desorption, fluid transport in the pore space and the microstructure of rocks, based mostly on their own research interests.
View Article and Find Full Text PDFWe have applied X-ray and neutron small-angle scattering techniques (SAXS, SANS, and USANS) to study the interaction between fluids and porous media in the particular case of subcritical CO2 sorption in coal. These techniques are demonstrated to give unique, pore-size-specific insights into the kinetics of CO2 sorption in a wide range of coal pores (nano to meso) and to provide data that may be used to determine the density of the sorbed CO2. We observed densification of the adsorbed CO2 by a factor up to five compared to the free fluid at the same (p, T) conditions.
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