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Geochemical characteristics and hydrocarbon expulsion of source rocks in the first member of the Qingshankou Formation in the Qijia‐Gulong Sag, Songliao Basin, Northeast China: Evaluation of shale oil resource potential

Zhipeng Huo, Shibo Hao, Bo Liu, Jinchuan Zhang, Jianghui Ding, Xuan Tang, Changrong Li, Xiaofei Yu

2020Energy Science & Engineering27 citationsDOIOpen Access PDF

Abstract

Abstract In recent years, there has been significant progress in shale oil exploration in the first member of the Qingshankou Formation (K 2 qn 1 ) in the Qijia‐Gulong Sag, Songliao Basin, Northeast China: It shows good prospects for shale oil. However, the recognized lack of the geochemical and hydrocarbon generation and expulsion characteristics of K 2 qn 1 source rocks limits an accurate evaluation of shale oil resource. This study systematically investigated the geological and geochemical characteristics, hydrocarbon generation and expulsion, and shale oil potential of the K 2 qn 1 source rocks. The results show that the K 2 qn 1 mudstones were mainly deposited in the semideep and deep lacustrine facies under reducing and weak reducing conditions. Compared with the southern Gulong Sag, the northern Qijia Sag has a higher salinity, more abundant prosperous aquatic organisms, and a greater paleoproductivity. The K 2 qn 1 source rocks are pervasive and continuous in the entire sag, with maximum thicknesses greater than 110 m. They have a higher organic matter (OM) abundance (2.40% of the average TOC), are dominated by type I and II 1 kerogen, and are mature (0.8%‐0.1.3% VR ), which indicate that they are good to excellent source rocks and have significant hydrocarbon generation potential. The source rocks in the Qijia Sag have a higher OM abundance, a better OM type, and a lower OM maturity than those in the Gulong Sag. The threshold and peak hydrocarbon expulsion values for marlstone source rocks are 0.85% VR and 0.95% VR , respectively. The volumes of hydrocarbons generated and expulsed from the K 2 qn 1 source rocks are 121.8 × 10 8 t and 46.9 × 10 8 t, respectively, with a retention efficiency of 61.5%. The in‐place and recoverable resources of shale oil are 74.9 × 10 8 t and (12.0‐13.5) × 10 8 t, respectively, indicating that the entire sag has a significant shale oil potential, especially the Qijia Sag.

Topics & Concepts

Source rockOil shaleGeologyGeochemistryMaturity (psychological)FaciesKerogenStructural basinHydrocarbonOrganic matterTotal organic carbonPetroleumPetroleum engineeringPetrologyGeomorphologyPaleontologyEnvironmental chemistryOrganic chemistryPsychologyChemistryDevelopmental psychologyHydrocarbon exploration and reservoir analysisAtmospheric and Environmental Gas DynamicsGeological Studies and Exploration