Fractal characterization of nanopore structure in shale, tight sandstone and mudstone from the ordos basin of China using nitrogen adsorption

Abstract

The characteristics of the nanopore structure in shale, tight sandstone and mudstone from the Ordos Basin of China were investigated by X-ray diffraction (XRD) analysis, porosity and permeability tests and low-pressure nitrogen adsorption experiments. Fractal dimensions D 1 and D 2 were determined from the low relative pressure range (0 < 0.4) and the high relative pressure range (0.4 < 1) of nitrogen adsorption data, respectively, using the Frenkel–Halsey–Hill (FHH) model. Relationships between pore structure parameters, mineral compositions and fractal dimensions were investigated. According to the International Union of Pure and Applied Chemistry (IUPAC) isotherm classification standard, the morphologies of the nitrogen adsorption curves of these 14 samples belong to the H2 and H3 types. Relationships among average pore diameter, Brunner-Emmet-Teller (BET) specific surface area, pore volume, porosity and permeability have been discussed. The heterogeneities of shale nanopore structures were verified, and nanopore size mainly concentrates under 30 nm. The average fractal dimension D 1 of all the samples is 2.1187, varying from 1.1755 to 2.6122, and the average fractal dimension D 2 is 2.4645, with the range from 2.2144 to 2.7362. Compared with D 1 , D 2 has stronger relationships with pore structure parameters, and can be used for analyzing pore structure characteristics.