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基于成藏过程重建研究渤中凹陷西北缘陡坡带油气差异聚集机理
引用本文:郝鹏,杨纪磊,张旭东,臧春艳,陈容涛,王波,税蕾蕾,王思惠,蔡涛. 基于成藏过程重建研究渤中凹陷西北缘陡坡带油气差异聚集机理[J]. 现代地质, 2021, 35(4): 1124-1135. DOI: 10.19657/j.geoscience.1000-8527.2021.029
作者姓名:郝鹏  杨纪磊  张旭东  臧春艳  陈容涛  王波  税蕾蕾  王思惠  蔡涛
作者单位:1.中海油能源发展股份有限公司工程技术分公司 中海油实验中心, 天津 3004522.中海石油(中国)有限公司 天津分公司,天津 300459
摘    要:渤海湾盆地渤中凹陷西北缘陡坡带油气分布"西贫东富",成藏条件复杂.利用储层定量荧光技术、傅立叶红外光谱技术、原油地球化学参数、流体包裹体岩相学,结合埋藏史、热史及构造演化,从古流体和现代流体特征角度进行系统定时定量化成藏过程恢复,研究差异成藏原因.研究表明,陡坡带经历了两期油气充注过程,第一期开始于明化镇组沉积早期(距...

关 键 词:流体包裹体  储层定量荧光  古油藏  断层活动速率  成藏过程  陡坡带  渤中凹陷
收稿时间:2020-05-05
修稿时间:2020-07-15

Mechanism of Differential Oil-gas Distribution in the Steep-slope Zone (Northwestern Margin of Bozhong Sag): Evidence from Reconstruction of Hydrocarbon Accumulation
HAO Peng,YANG Jilei,ZHANG Xudong,ZANG Chunyan,CHEN Rongtao,WANG Bo,SHUI Leilei,WANG Sihui,CAI Tao. Mechanism of Differential Oil-gas Distribution in the Steep-slope Zone (Northwestern Margin of Bozhong Sag): Evidence from Reconstruction of Hydrocarbon Accumulation[J]. Geoscience of Geosciences, 2021, 35(4): 1124-1135. DOI: 10.19657/j.geoscience.1000-8527.2021.029
Authors:HAO Peng  YANG Jilei  ZHANG Xudong  ZANG Chunyan  CHEN Rongtao  WANG Bo  SHUI Leilei  WANG Sihui  CAI Tao
Affiliation:1. CNOOC Experimental Center, Engineering Technology Branch Company of CNOOC Energy Technology & Services Limited, Tianjin 300452,China2. CNOOC Tianjin Company, Tianjin 300459,China
Abstract:Hydrocarbon distribution is low in the western part but high in the eastern part of the steep-slope zone in the northwestern margin of Bozhong sag (Bohai Bay Basin), and the reservoir-forming conditions are complex. Based on fluid inclusions petrographic observation, quantitative grain fluorescence technology, Fourier transform infrared spectroscopy (FTIR), and crude oil geochemical properties, and combined with the thermal, and burial history and tectonic evolution, the hydrocarbon accumulation process was unraveled from the paleo- and modern fluid characteristics. Besides, the reason of differential oil-gas distribution was also discussed. Our results define two hydrocarbon charging stages in the study area: stage one started at the early deposition of the Minghuazhen Formation (7 Ma), when the lowly-mature oil was sourced from the Shahejie Formation in the southeast. It has experienced short-range migration and formed reservoirs in the Paleogene sequences in the eastern part of the area. The charging scale is low at this stage. Stage two occurred in the middle deposition stage of the Minghuazhen Formation (5.3 Ma). The highly-mature hydrocarbons may have ascended from east to west, and formed large-scale paleo-oil reservoirs in the Paleogene sequences. During the late deposition stage of the Minghuazhen Formation (3.7 Ma), the activity of boundary faults was strengthened, and the activity rate in the western part of the area was higher than that in the eastern part. The faults may have changed from being hydrocarbon seal to fluid conduits. The Paleogene paleo-oil reservoirs in the western part of the area were largely destroyed, and the oil-water interface of the paleo-oil reservoir in the Dongying Formation (3rd member) moved upward, with the hydrocarbon ascending to shallow formation. During the Quaternary sedimentation (2.2 Ma), the fault activity weakened and the current reservoirs were gradually formed. The hydrocarbon distribution pattern in the steep-slope zone of the northwestern margin of Bozhong sag are likely controlled by the distance from the source rock, the different reservoir formation stages, and the deformation intensity difference of the boundary faults.
Keywords:fluid inclusions  quantitative grain fluorescence  paleo-oil reservoir  fault activity rate  accumulation process  steep-slope zone  Bozhong sag  
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