Abstract
The identification of the oil-source correlation plays a significant role in petroleum exploration and development. In this study, we identify the oil-source correlation by a hierarchical cluster analysis method combined with traditional methods. The results shed light on the oil-source correlation in Minfeng area and revealed the oil migration and accumulation process. The crude oil in different structural belts and different horizons has different geochemical characteristics. According to the four types of crude oil and their planner distribution, it was considered that the crude oil mainly migrates along with favorable sand bodies and unconformity surfaces in the lateral direction and then charged and accumulated in the glutenite of Sha3 and Sha4 members since the area from sag to Yan Jia Oil and the gas field was lacking of oil source faults. Further analysis shows that the traps of fault blocks in Yong’anzhen are formed in the same phase, while the crude oil generated in the early stage is charged and accumulated in the fault block of the near source. Along with increasing of the buried depth of source rocks, the overlying source rocks gradually entered into the hydrocarbon generation phase, when crude oil started to charge in the fault blocks farther away.
Highlights
IntroductionIdentifying the source of discovered oil ( called oil-source correlation) is of vital significance for oil petroleum exploration and development [1]
Identifying the source of discovered oil is of vital significance for oil petroleum exploration and development [1]
The oilsource relationship is well correlated through the systematic collection and analysis of crude oil and oil sand samples, and the hydrocarbon migration and accumulation process are revealed in the Minfeng area
Summary
Identifying the source of discovered oil ( called oil-source correlation) is of vital significance for oil petroleum exploration and development [1]. Steranes are mainly derived from phytosterols in plankton, among which the distribution of C27-C28-C29 sterol homologs can be used to indicate different sedimentary environments and are widely used in oil-source correlation. There are many methods during the treatment process of geochemical data in oil-source correlation, such as the direct inspection of chromatograms [7], the homologous series distribution pattern [8], 2D/3D ternary plots, or cross-plots of biomarkers ratio [9]. To overcome the above limitations, researchers adopt multivariate statistical analysis methods in the oil-source correlation, which can process multiple geochemical parameters and large numbers of samples simultaneously [13, 14]. The oilsource relationship is well correlated through the systematic collection and analysis of crude oil and oil sand samples, and the hydrocarbon migration and accumulation process are revealed in the Minfeng area
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