Quantitative determination of organic adsorption capacity in the Palaeozoic shales from South China

• Main Authors: Sibo Wang, Zhiguang Song, Jia Xia, Yuan Gao, YaoPing Wang, Taotao Cao
• Format: Article
• Language: English
• Published: SAGE Publishing 2021-05-01
• Series: Energy Exploration & Exploitation
• Online Access: https://doi.org/10.1177/0144598720983036

In this study, the methane adsorption capacity of kerogen isolated from the Cambrian, Silurian, and Permian shales and the impact of soluble organic matter (SOM) on the adsorption capacity of these shales were investigated. The results reveal that 1) the adsorption capacity of kerogen varies in a broad range, from 14.48 to 23.22 cm 3 /g for the Cambrian kerogens, from 15.50 to 36.06 cm 3 /g for the Silurian kerogens, and from 10.71 to 11.15 cm 3 /g for the Permian kerogens; 2) the kerogen adsorption accounts for 33.67–70.23% of the total adsorption capacity of these Palaeozoic extracted shales, demonstrating that kerogen is the primary adsorbing substance in shales; 3) the adsorption isotherms of kerogen in highly mature Cambrian and Silurian shales are similar to those of Triassic coal, while the isotherms of kerogen in the relatively immature Permian shales are similar to those of the immature oil shales; and 4) the SOM demonstrates a significant impact on the adsorption capacity of shales as the removal of SOM can cause a maximum increase of 34.29% or a decrease of 23.36% in the total adsorption capacity of shales. However, there is no clear understanding of the impact of SOM on the methane sorption of shales.