全部 标题 作者
关键词 摘要

OALib Journal期刊
ISSN: 2333-9721
费用:99美元

查看量下载量

Distribution and Geochemical Characteristics of Source Rocks in Chang 7 Member of Qilicun Oilfield in Ordos Basin

DOI: 10.4236/oalib.1109945, PP. 1-9

Subject Areas: Petroleum Geology

Keywords: Qilicun Oilfield, Hydrocarbon Source Rock, Evaluation of Tight Oil Reservoir Forming Conditions, Chang 7

Full-Text   Cite this paper   Add to My Lib

Abstract

In the past, the research on tight oil accumulation in the eastern part of Shanbei slope of Ordos basin is relatively weak, mainly because the effective source rock is not developed in this area, and the crude oil is migrated from Chang 7 source rock in the center of the lake basin. Taking Qilicun Oilfield in Yan’an area as an example, this paper studies the reservoir-forming conditions of Chang 7 tight oil according to the methods and means of well logging, thin section identification, reservoir physical properties and core description, source rock geochemistry and so on. the results show that the hydrocarbon source rocks of Chang 7 member in the study area can be divided into black shale and dark mudstone with a wide distribution range, and the thickness of hydrocarbon source rocks is thinned from southwest to northeast as a whole. Organic geochemical indexes of source rocks reveal that Chang 7 black shale is a high quality source rock. The sand bodies of each subformation of Chang 7 are distributed, but the thickness of the single layer is thin and the physical property of the reservoir is poor, so it is a typical tight reservoir. The comprehensive analysis of the reservoir forming conditions of Chang 7 shows that the study area has a good source rock foundation, poor reservoir conditions and superior reservoir assemblage, but due to the development of vertical macroscopic microfractures, the oil generated by vertical Chang 7 source rocks is mainly overpass Chang 7 reservoir, and the probability of accumulation is small, which indicates that the exploration potential of Chang 7 reservoir in this area is poor as a whole.

Cite this paper

Maimaitimin, W. , Xu, C. and Chen, S. (2023). Distribution and Geochemical Characteristics of Source Rocks in Chang 7 Member of Qilicun Oilfield in Ordos Basin. Open Access Library Journal, 10, e9945. doi: http://dx.doi.org/10.4236/oalib.1109945.

References

[1]  Yao, G.Q., Ma, Z., Zhao, Y.C., et al. (1995) Reservoir Characteristics of Distributary Channel Sand Body in Shallow Water Delta. Journal of Petroleum, 16, 24-31.
[2]  Zhang, C.M., Yin, T.J., Zhu, Y.J., et al. (2010) Sedimentary Model of Shallow Water Delta. Journal of Sedimentation, 28, 933-944.
[3]  Xu, X.F. (2019) Study on Oil and Gas Enrichment Law of Chang 2 in South Haojiaping Area of Ansai Oilfield. Master’s Thesis, Chang’an University, Xi’an.
[4]  Fu, J.H., Yu, J., Xu, L.M., Niu, X.B., Feng, S.B., Wang, X.J., You, Y. and Li, T. (2015) New Progress in Tight Oil Exploration and Development and Main Controlling Factors of Scale Enrichment in Ordos Basin. PetroChina Exploration, 20, 9-19.
[5]  Ningbo (2020) Study on Reservoir Forming Conditions of Chang 6 Tight Reservoir in Zhifang Area of Ordos Basin. Master’s Thesis, Xi’an University of Petroleum, Xi’an.
[6]  Han, Z.H., Zhao, J.Z., et al. (2020) Discovery and Geochemical Characteristics of Source Rocks of Chang 7 Member of “Margin” in the Eastern Triassic Lacustrine Basin, Ordos Basin. Petroleum Experimental Geology, 991-1000.
[7]  Bai, Z.H. (2012) Study on the Controlling Effect of Chang 6 Reservoir Heterogeneity on Reservoir in Wujiawan Area of Zizhou Oilfield. Master’s Thesis, Xi’an University of Petroleum, Xi’an.
[8]  Passey, Q.R., CREaney, S., Kulla, J.B., et al. (1990) A Practical Model for Organic Richness from Porosity and Resistivity Logs. AAPG Bulletin, 74, 1777-1794. https://doi.org/10.1306/0C9B25C9-1710-11D7-8645000102C1865D
[9]  Yang, T.T., Fan, G.Z., Lu, F.L., Wang, B., Wu, J.W. and Lu, Y.T. (2013) Logging Response Characteristics and Identification and Evaluation Methods of Source Rocks. Natural Gas Geoscience, 24, 414-422.
[10]  China National Petroleum Corporation. (1995) SY/T 5735-1995, Geochemical Evaluation Method of Continental Source Rocks. Petroleum Industry Press, Beijing.
[11]  Huang, D.F. and Li, J.C. (1982) X Diagram of Kerogen Type Classification. Geochemistry, No. 1, 21-30.
[12]  Wu, L.Y. and Gu, X.Z. (1986) Application of Pyrolysis Technology to the Study of Source Rocks in China. Acta Petroleologica Sinica, 7, 13-19.
[13]  Wang, Q., Fu, X.W., Xu, Z.M., et al. (2005) Application of Stable Carbon Isotopes in Oil and Gas Geochemistry and Existing Problems. Natural Gas Geochemistry, 16, 233-237.

Full-Text


comments powered by Disqus

Contact Us

service@oalib.com

QQ:3279437679

WhatsApp +8615387084133

WeChat 1538708413