LAUSR

Abstract Wettability plays a significant role in exploration and exploitation of shale gas. However, the characterization and evaluation of the wettability of gas shale is a challenge due to the complexity and heterogeneity of components and pore structure. The objective of this paper is to characterize the wettability of gas shale and analyze its relationships with mineral composition, total organic carbon (TOC), and nuclear magnetic resonance (NMR) T 2 spectrum by a series of parallel experiments of oil (water) contact angles, NMR, and rock composition analysis on core samples of Longmaxi Formation drilled from shale gas wells in Jiaoshiba gas field, Sichuan Basin, China. The study shows that: ① the gas shale is both water-wet and oil-wet and prone to be oil-wet with water contact angle (θ w ) ranging from 32° to 41.5°; ② the mineral composition together with TOC jointly affects θ w ; the quartz mineral and TOC have a negative effect on θ w , whereas clay minerals have a positive influence on θ w of gas shale; ③ the θ w shows distinctive correlations to the characteristic of T 2 spectrums; Recognized as a crucial parameter describing the characteristic of the T 2 spectrum, the geometric mean of T 2 spectrum (T 2 g ) is considered as a preferable model parameter to relate the θ w and the T 2 spectrum. Thus, novel equations for predicting contact angle by NMR are proposed.