1. Mixed gas sources induced co-existence of sI and sII gas hydrates in the Qiongdongnan Basin, South China Sea.
- Author
-
Wei, Jiangong, Wu, Tingting, Zhu, Linqi, Fang, Yunxin, Liang, Jinqiang, Lu, Hailong, Cai, Wenjiu, Xie, Zhiyuan, Lai, Peixin, Cao, Jun, and Yang, Tianbang
- Subjects
- *
GAS hydrates , *NATURAL gas , *CARBON isotopes , *ISOTOPIC analysis , *STABLE isotopes , *RAMAN spectroscopy - Abstract
Crystal structure and gas source are two important aspects in studying natural gas hydrate systems. In 2018, Guangzhou Marine Geological Survey carried out its fifth natural gas hydrate drilling expedition (GMGS5) in the Qiongdongnan basin of the South China Sea. In this paper, analyses of gas composition, stable carbon isotopes and Raman spectroscopy were conducted on twelve gas hydrate samples recovered at drill site W08, at depths of 17–170 m below seafloor. The results show that the main component of the hydrate-bound gas is methane (72.5–97.5%), mixed with other hydrocarbon gases (ethane: 1.9–12.1%, propane: 0.1–11.3%, i-butane: 0.0–3.5%, n-butane: 0.0–0.2% and C 5+ : 0.0–0.2%). The δ13C of methane, ethane and propane in the hydrate-bound gases are −63.6 ~ −51.9‰, −29.2 ~ −26.6‰ and −25.6 ~ −23.7‰, respectively. The hydrate-bound gas is inferred to be a mixture of microbial and thermogenic gases. Raman spectroscopic analysis indicates that structure I and structure II gas hydrates co-exist in the samples. Structure II gas hydrate is increasingly being discovered in the South China Sea, and it is suggested that natural gas hydrate resources might be underestimated and need to be re-evaluated. • Gas hydrates were sampled from multiple strata by drilling in the Qiongdongnan Basin in the South China Sea. • Gas compositions and isotopic analyses show the hydrate-bound gases are of mixed origin. • Raman spectroscopic analysis shows the coexistence of sI and sII gas hydrates. [ABSTRACT FROM AUTHOR]
- Published
- 2021
- Full Text
- View/download PDF