Your search keyword '"Songze Li"' showing total 2 results

1. Multiphase Hydrocarbons from Carboniferous Reservoir Rocks and Their Origin in the Donghetang Area, Western Tabei Uplift, Tarim Basin, NW China

Author

Xiong Yunbin, Huaimin Xu, Songze Li, Junwei Zhao, Tongwen Jiang, Jingwen Li, Weilu Li, Zhongchao Li, and Zhicheng Lei

Subjects

Geophysics, Carboniferous, 0211 other engineering and technologies, Geochemistry, Tarim basin, Geology, 02 engineering and technology, 010502 geochemistry & geophysics, China, 01 natural sciences, 021101 geological & geomatics engineering, 0105 earth and related environmental sciences

Abstract

—The Carboniferous Donghe sandstone reservoir is the most important target in the Tabei Uplift of the Tarim Basin, which contains a range of hydrocarbon types, including bitumen, heavy oil, condensate oil, light oil, crude oil, and hydrocarbon gas, and has high contents of CO2 and N2. The origin of multiple phase hydrocarbons from Carboniferous reservoir rocks in the Donghetang area, Western Tabei Uplift, is documented in this paper based on integral analysis of the geochemistry, pyrolysis, and carbon isotopes of the bulk composition and light composition hydrocarbons. Oil–source correlations determined that the paleoreservoir hydrocarbons that formed from Permian to Triassic derived from the Lower Ordovician (O1) source rocks and that those of the present-day reservoir that formed in the Neogene derived from Middle–Upper Ordovician (O2-3) source rocks. During the uplift episode lasting from Permian to Triassic, the hydrocarbons in the entire paleoreservoir underwent water washing, biodegradation, and bacterial sulfate reduction (BSR), resulting in residual bitumen, heavy oil, H2S, and pyrites in the paleoreservoir. The high CO2 and N2 contents originated from volcanic degassing due to volcanic activity from Permian to Early Triassic. The present-day reservoirs underwent gas washing and evaporative fractionation due to natural gas charging that originated from oil cracking and kerogen degradation in the deeper reservoirs; this resulted in fractionation and formed condensate oil and light oil with a high wax content in the residual crude oil. Based on this research, it was concluded that the diverse hydrocarbon phases in the Donghetang area were primarily attributed to water washing, biodegradation, BSR, volcanic degassing, gas washing, and evaporative fractionation.

Published

2019

2. Multiphase Hydrocarbons from Carboniferous Reservoir Rocks and Their Origin in the Donghetang Area, Western Tabei Uplift, Tarim Basin, NW China.

Author

Zhicheng Lei, Huaimin Xu, Tongwen Jiang, Zhongchao Li, Jingwen Li, Weilu Li, Yunbin Xiong, Songze Li, and Junwei Zhao

Subjects

HYDROCARBON analysis, CARBONIFEROUS Period, RESERVOIR rocks, SANDSTONE analysis, GAS reservoirs

Abstract

The Carboniferous Donghe sandstone reservoir is the most important target in the Tabei Uplift of the Tarim Basin, which contains a range of hydrocarbon types, including bitumen, heavy oil, condensate oil, light oil, crude oil, and hydrocarbon gas, and has high contents of CO2 and N2. The origin of multiple phase hydrocarbons from Carboniferous reservoir rocks in the Donghetang area, Western Tabei Uplift, is documented in this paper based on integral analysis of the geochemistry, pyrolysis, and carbon isotopes of the bulk composition and light composition hydrocarbons. Oil-source correlations determined that the paleoreservoir hydrocarbons that formed from Permian to Triassic derived from the Lower Ordovician (O1) source rocks and that those of the present-day reservoir that formed in the Neogene derived from Middle-Upper Ordovician (O2-3) source rocks. During the uplift episode lasting from Permian to Triassic, the hydrocarbons in the entire paleoreservoir underwent water washing, biodegradation, and bacterial sulfate reduction (BSR), resulting in residual bitumen, heavy oil, H2S, and pyrites in the paleoreservoir. The high CO2 and N2 contents originated from volcanic degassing due to volcanic activity from Permian to Early Triassic. The present-day reservoirs underwent gas washing and evaporative fractionation due to natural gas charging that originated from oil cracking and kerogen degradation in the deeper reservoirs; this resulted in fractionation and formed condensate oil and light oil with a high wax content in the residual crude oil. Based on this research, it was concluded that the diverse hydrocarbon phases in the Donghetang area were primarily attributed to water washing, biodegradation, BSR, volcanic degassing, gas washing, and evaporative fractionation. [ABSTRACT FROM AUTHOR]

Published

2019