Geochemical characteristics of pyrolysis gas from epimetamorphic rocks in the northern basement of Songliao Basin,Northeast China |
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Authors: | Yang Chun Luo Xia Li Jian Li ZhiSheng Liu QuanYou Wang YuLin |
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Affiliation: | 1.Department of Earth Sciences, Zhejiang University, Hangzhou, 310027, China ;2.Research Institute of Petroleum Exploration and Development (Langfang Branch), Langfang, 065007, China ;3.Research Institute of Petroleum Exploration and Development, Beijing, 100083, China ;4.Department of Source and Environment, Liaoning Technical University, Fuxin, 123000, China ; |
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Abstract: | The Xushen gas field, located in the north of Songliao Basin, is a potential giant gas area for China in the future. Its proved reserves have exceeded 1000×108 m3 by the end of 2005. But, the origin of natural gases from the deep strata is still in debating. Epimetamorphic rocks as a potential gas source are widely spreading in the northern basement of Songliao Basin. According to pyrolysis experiments for these rocks in the semi-confined system, gas production and geochemistry of alkane gases are discussed in this paper. The Carboniferous-Permian epimetamorphic rocks were heated from 300°C to 550°C, with temperature interval of 50°C. The gas production was quantified and measured for chemical and carbon isotopic compositions. Results show that δ 13C1 is less than −20‰, carbon isotope trend of alkane gas is δ 13C1<δ 13C2<δ 13C3 or δ 13C1<δ 13C2>δ 13C3, these features suggest that the gas would be coal-type gas at high-over maturity, not be inorganic gas with reversal trend of gaseous alkanes (δ 13C1>δ 13C2>δ 13C3). These characteristics of carbon isotopes are similar with the natural gas from the basin basement, but disagree with gas from the Xingcheng reservoir. Thus, the mixing gases from the pyrolysis gas with coal-typed gases at high-over maturity or oil-typed gases do not cause the reversal trend of carbon isotopes. The gas generation intensity for epimetamorphic rocks is 3.0×108–23.8×108 m3/km2, corresponding to R o from 2.0% to 3.5% for organic matter. |
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