Preliminary prediction and evaluation on source rock in low exploration basin—A case study from the northeast depression, South Yellow Sea basin, East China

Qiang Cao; Jiaren Ye; Wei Wang; Wanzhong Shi; Chunfeng Chen

doi:10.1007/s12583-009-0070-8

Journal of Earth Science ›› 2009, Vol. 20 ›› Issue (5) : 836 -847. DOI: 10.1007/s12583-009-0070-8

Article

Preliminary prediction and evaluation on source rock in low exploration basin—A case study from the northeast depression, South Yellow Sea basin, East China

Author information +

History +

PDF

Abstract

Low exploration activity fields (e.g., deep formation, deep water, and new exploration areas) are of great importance for petroleum exploration. The prediction of source rocks is critical to the preliminary evaluation of low exploration activity fields, which will determine the early strategic electoral district and decision of exploration activity. The northeast depression is a new exploration area at the South Yellow Sea basin at present. Based on lots of seismic data in the study area and a few of well data in adjacent homologous depression, the early evaluation of source rock in the northeast depression was finished by comprehensively using the techniques of geological analogy, geophysical inversion and basin modeling, and an integrated methodology about preliminary evaluation of source rocks to low exploration activity fields is also presented. The methodology consists of three aspects: (1) prediction of the main formation of major source rocks, based on analogy analysis of seismic reflection characteristics and quality of source rocks in adjacent homologous depression; (2) method of seismic attribution to determine the thickness of source rocks; and (3) prediction of vitrinite reflectance, based on basin modeling technique to determine the maturation of source rocks. The results suggest that the source rock of the Taizhou (泰州) Formation is the most important interval for hydrocarbon generation in the northeast depression, which is characterized as high TOC, fine OM type, huge thickness, and high maturity. The western subdepression is the most important hydrocarbon kitchen in the northeast depression.

Keywords

geological analogy / seismic attribution / source rock / South Yellow Sea basin / northeast depression

Cite this article

Download citation ▾

Qiang Cao, Jiaren Ye, Wei Wang, Wanzhong Shi, Chunfeng Chen. Preliminary prediction and evaluation on source rock in low exploration basin—A case study from the northeast depression, South Yellow Sea basin, East China. Journal of Earth Science, 2009, 20(5): 836-847 DOI:10.1007/s12583-009-0070-8

登录浏览全文

4963

注册一个新账户忘记密码

References

Publishing order | Descend order by publishing year | Descend order by cited within

[1]	Cai Q. Z.. Regional Geology and Geotectonic Environment of Petroliferous Basins in the Yellow Sea. Marine Geology Letters, 2002, 18(11): 8-12.

[2]	Cai Q. Z.. Relationship between Sino-Korean Orogenic Belt Traversing Yellow Sea and Basin Evolution and Hydrocarbon Generation in North and South Yellow Sea Basins. Oil & Gas Geology, 2005, 26(2): 185-192.

[3]	Cao H.. Discussion on the Application of Seismic Attributes. Progress in Exploration Geophysics, 2002, 25(5): 18-22.

[4]	Cao Q., Ye J. R., Wang W.. Methods of Eroded Strata Thickness Restoration in Sedimentary Basins and Its Advancement. China Petroleum Exploration, 2007, 12(6): 41-46.

[5]	Cao Y. C., Jiang Z. X., Xia B., . Method, Principle and Example of Identifying Sequence Stratigraphic Boundary Using Sonic Logging. Acta Sedimentologica Sinica, 2003, 21(2): 318-323.

[6]	Chen, C. F., 2006. The Potential Analysis of Hydrocarbon Exploration in the Northeast Depression and the 2007’s Disposition Suggestion on Hydrocarbon Exploration. The Interior Scientific Report from the Exploration Department of China Offshore Oil Shanghai Corporation, Shanghai. 16–28 (in Chinese)

[7]	Chen J. W.. New Exploration Domain for Oil and Gas in Deep-Water Basins. Marine Geology Letters, 2003, 19(8): 38-41.

[8]	Chen J. Y., Zhu M. Z.. Relationship of Petroleum System to Organic Geochemistry. Oil & Gas Geology, 1999, 20(3): 246-249.

[9]	Chen Q., Sidney S.. Seismic Attribute Technology for Reservoir Forecasting and Monitoring. The Leading Edge, 1997, 16(5): 445-450.

[10]	Chen Y. H.. A Preliminary Analysis of Hydrocarbon Potential of the South Yellow Sea. Marine Geology & Quaternary Geology, 1984, 4(2): 49-56.

[11]	Guo J. Y., Zhang D. L., Deng H. W., . Resource Assessment Methodology of Oil and Gas in the Areas of Low-Degree Prospecting. Oil & Gas Recovery Technology, 2006, 13(6): 43-45.

[12]	Hao S. S.. Developments and Expectation of Organic Geochemistry in China. Acta Sedimentologica Sinica, 1997, 15(2): 1-5.

[13]	Higley D. K., Henry L. N., Roberts R., . 1-D/3-D Geologic Model of the Western Canada Sedimentary Basin. The Mountain Geologist, 2005, 42(2): 53-66.

[14]	Jin B., Liu Z., Wu C. W., . Prediction of Seismic Velocity or Lithology in Fudong Slope Belt in Eastern Junggar Basin. Xinjiang Petroleum Geology, 2004, 25(1): 47-49.

[15]	Justwan H., Meisingset I., Dahl B., . Geothermal History and Petroleum Generation in the Norwegian South Viking Graben Revealed by Pseudo-3D Basin Modelling. Marine and Petroleum Geology, 2006, 23(8): 791-819.

[16]	Keym M., Dieckmann V., Horsfield B., . Source Rock Heterogeneity of the Upper Jurassic Draupne Formation, North Viking Graben, and Its Relevance to Petroleum Generation Studies. Organic Geochemistry, 2006, 37(2): 220-243.

[17]	Li M., Hou L. H., Zou C. N., . Introduction and Application of Geophysical Exploratory Technique in Lithologic and Stratigraphic Hydrocarbon Reservoir, 2005, Beijing: Geological Publishing House and Petroleum Industry Press 63

[18]	Li T. D., Mo J., Xu H.. Geological Structures and Petroleum Resources in Yellow Sea. China Offshore Oil and Gas (Geology), 2007, 17(2): 79-88.

[19]	Li X. Q., Ma A. L., Wang T. G., . Application of Micro-fluorescence Photometry Method in the Study of Organic Petrology of Hydrocarbon Source Rocks in China. Geological Science and Technology Information, 1998, 17(4): 91-97.

[20]	Li X. Q., Xiong B., Ma A. L., . Advancements in the Use of Organic Petrology in Oil and Gas Exploration. Journal of the Jianghan Petroleum Institute, 2002, 24(1): 15-19.

[21]	Liu Z., Chang M., Zhao Y., . Method of Early Prediction on Source Rocks in Basins with Low Exploration Activity. Earth Science Frontiers, 2007, 14(4): 159-167.

[22]	Liu Z., Gao Z. X., Zeng H. L.. Research on Seismic Velocity-Lithology Prediction Model for Eocene of the Liaodong Bay. Marine Geology & Quaternary Geology, 1993, 13(4): 25-34.

[23]	Peters K. E., Magoon L. B., Bird K. J., . North Slope, Alaska: Source Rock Distribution, Richness, Thermal Maturity, and Petroleum Charge. AAPG Bulletin, 2006, 90(2): 261-292.

[24]	Pitman J. K., Steinshouer D., Lewan M. D.. Petroleum Generation and Migration in the Mesopotamian Basin and Zagros Fold Belt of Iraq: Results from a Basin-Modeling Study. GeoArabia, 2004, 9(4): 41-72.

[25]	Schwarzer D., Littke R.. Petroleum Generation and Migration in the ‘Tight Gas’ Area of the German Rotliegend Natural Gas Play: A Basin Modelling Study. Petroleum Geoscience, 2007, 13(1): 37-62.

[26]	Shi G. R.. Numerical Modelling Method, 1994, Beijing: Geological Publishing House and Petroleum Industry Press 83

[27]	Shi X., Dai J. X., Zhao W. Z.. Analysis of Deep Oil and Gas Reservoirs Exploration Prospect. China Petroleum Exploration, 2005, 10(1): 1-11.

[28]	Sun J. Z., Li L. B.. Comprehensive Tutorial on Seismic and Geological Interpretation, 2002, Wuhan: China University of Geosciences Press 88

[29]	Suzuki N., Matsubayashi H., Waples D. W.. A Simpler Kinetic Model of Vitrinite Reflectance. AAPG Bulletin, 1993, 77(9): 1502-1508.

[30]	Wang F. X., Hou Y. Z., Xia J.. Development of Source Rock Evaluation Using Well Logging. Well Logging Technology, 2002, 26(2): 89-93.

[31]	Wang F. Y.. Submicro-level Organic Petrology and Application in the Assessment of Source Rocks. Journal of the University of Petroleum, 1995, 19(Suppl.): 112-117.

[32]	Wang S. L., Lu H. F., Li G., . Paleogene Extensional Fault-Bend Folding in North Depression of Southern Yellow Sea Basin. Oil Gas Geology, 2006, 27(4): 495-503.

[33]	Zhang G. C., Mi L. J., Wu S. G., . Deepwater Area-The New Prospecting Targets of Northern Continental Margin of South China Sea. Acta Petrolei Sinica, 2007, 28(2): 15-21.

[34]	Zhang H., Zhu G. Y.. Using Seismic and Log Information to Predict and Evaluate Hydrocarbon Source Rocks: An Example from Rich Oil Depressions in Bohai Bay. Petroleum Exploration and Development, 2007, 34(1): 55-59.

[35]	Zhang Y., Wang P. J., Chen W. L., . Identification and Mapping of the Effective Source Rocks—Take the Kongquehe Area of the Tarim Basin as an Example. Journal of Jilin University (Earth Science Edition), 2007, 37(3): 463-468.

[36]	Zhang Y. L., Yang C. C., Jia S. G.. The Application of the Seismic Attributes. Progress in Geophysics, 2005, 20(4): 1129-1133.

[37]	Zhao Z. Z., Zhao X. Z., He H. Q.. PetroChina’s Recent Oil and Gas Exploration Results in New Area and Prospect for Future Development. China Petroleum Exploration, 2002, 7(3): 1-7.