Discovery and prediction of high natural gamma sandstones in Chang 73 Submember of Triassic Yanchang Formation in Ordos Basin, China

Qing-hua Zheng; Xing-jun Liu; Ji-yuan You; Yun-yun Bai; Jing-hui Wang; Xiao-liang Chen

doi:10.1007/s11771-019-4138-z

Journal of Central South University ›› 2019, Vol. 26 ›› Issue (7) : 1840 -1855. DOI: 10.1007/s11771-019-4138-z

Article

Discovery and prediction of high natural gamma sandstones in Chang 7₃ Submember of Triassic Yanchang Formation in Ordos Basin, China

Author information +

History +

PDF

Abstract

The large scale development of high natural gamma sandstones has been discovered in the Chang 7₃ Submember of the Triassic Yanchang Formation in the Ordos Basin, China. High natural gamma sandstones consist of terrigenous detrital rocks with particle sizes ranging from silt to sand. They represent turbidite deposits characterized by high gamma ray values that are more than 180 American Petroleum Institute (API) units on a natural gamma ray log profile. For a long time, very high natural gamma sandstones had been identified as high-quality source rocks, such as oil shales, from conventional well log profiles, such as natural gamma ray well logs. Therefore, predicting the distribution of high natural gamma sandstones was studied. The sedimentary, lithological, and well log characteristics, as well as the genesis of the high radioactivity of high natural gamma sandstones were analyzed in the Chang 7₃ Submember. Thorium (Th), uranium (U) and other radioactive elements were found, carried by deep hydrothermal activity, and probably resulted in the formation of a relatively high radioactive zone in the cross-section, where high natural gamma sandstones usually develop in large quantities. This caused many turbidite sand bodies, which should have a continuous distribution in the cross-section, to appear to have a discontinuous distribution, when using conventional well log profiles, such as natural gamma ray well logs. From the above mentioned apparent discontinuous distribution of turbidite sand bodies in the cross-section, a continuous distribution can be predicted. It is obvious that the prediction of areas of continuous turbidite sand bodies in the cross-section usually corresponds with areas where high natural gamma sandstones are developed in large quantities. Exploration and development practice demonstrated that the developed method is fast and effective in predicting high natural gamma sandstones in the Chang 7₃ Submember.

Keywords

Ordos Basin / Chang 7₃ Submember / high-quality source rock / high natural gamma sandstone / prediction

Cite this article

Download citation ▾

Qing-hua Zheng, Xing-jun Liu, Ji-yuan You, Yun-yun Bai, Jing-hui Wang, Xiao-liang Chen. Discovery and prediction of high natural gamma sandstones in Chang 7₃ Submember of Triassic Yanchang Formation in Ordos Basin, China. Journal of Central South University, 2019, 26(7): 1840-1855 DOI:10.1007/s11771-019-4138-z

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]	YangH, DouW-T, LiuX-Y, ZhangC-L. Analysis on sedimentary facies of Member 7 in Yanchang Formation of Triassic in Ordos Basin [J]. Acta Sedimentologica Sinica, 2010, 28(2): 254-263(in Chinese)

[2]	LiuQ, YuanX-J, LinS-H, GuoH, ChengD-W. Depositional environment and characteristic comparison between lacustrine mudstone and shale: A case study from the Chang 7 Member of the Yanchang Formation, Ordos Basin [J]. Oil & Gas Geology, 2018, 91(3): 531-540(in Chinese)

[3]	LvQ-Q, LuoS-S, FuJ-H, XiangJ, NiuX-B, GongC, XuL-M, FengS-B, LiS-X. Outcrop-based analysis of a deep-water gravity flow sediments in lake: A case study from the Chang 7 of Yaoqu Section, Ordos Basin [J]. Acta Geologica Sinica, 2017, 91(3): 617-628(in Chinese)

[4]	SunN-L, ZhongJ-H, WangS-B, LiuS-G, NiL-T, QuJ-L, HaoB, LiuC. Sedimentary characteristics and petroleum geologic significance of deep-water gravity flow of the Triassic Yanchang Formation in southern Ordos Basin [J]. Journal of Palaeogeography, 2017, 19(2): 299-314(in Chinese)

[5]	YangR-C, YinW, FanA-P, HanZ-Z, van LoonA J T. Fine-grained, lacustrine gravity-flow deposits and their hydrocarbon significance in the Triassic Yanchang Formation in southern Ordos Basin [J]. Journal of Palaeogeography, 2017, 19(5): 791-806(in Chinese)

[6]	WangJ-M, WangJ-Y. Deep-water turbidite characte-ristics and its reservoir development of Chang 7 Oil Layers in southwestern Ordos Basin [J]. Lithologic Reservoirs, 2017, 29(4): 11-19(in Chinese)

[7]	ZhangW-Z, YangH, YangW-W, WuK, LiuFei. Assessment of geological characteristics of lacustrine shale oil reservoir in Chang 7 Member of Yanchang Formation, Ordos Basin [J]. Geochimica, 2015, 44(5): 505-515(in Chinese)

[8]	LiuF, ZhuX-M, LiY, XuL-M, NiuX-B, ZhuS-F, LiangX-W, XueM-G, HeJ-C. Sedimentary characteristics and facies model of gravity flow deposits of Late Triassic Yanchang Formation in southwestern Ordos Basin, NW China [J]. Petroleum Exploration and Development Online, 2015, 42(5): 633-645

[9]	YangH, LiS-X, LiuX-Y. Characteristics and resource prospects of tight oil and shale oil in Ordos Basin [J]. Acta Petrolei Sinica, 2013, 34(1): 1-11 in Chinese)

[10]	LiW-H, PangJ-G, CaH-X, XiaoL, WangR-G. Depositional system and paleogeographic evolution of the Late Triassic Yanchang Stage in Ordos Basin [J]. Journal of Northwest University: Natural Science Edition, 2009, 39(3): 501-506(in Chinese)

[11]	ZhengQ-H, FengS-B. The application of the similar hydrodynamic positioning method in the prediction of lithologic reservoir in Yanchang Formation, Ordos Basin [J]. Reservoir Evaluation & Development, 2011, 1(6): 1-6(in Chinese)

[12]	YangH, NiuX-B, XuL-M, FengS-B, YouY, LiangX-W, WangF, ZhangD-D. Exploration potential of shale oil in Chang 7 Member, Upper Triassic Yanchang Formation, Ordos Basin, NW China [J]. Petroleum Exploration and Development Online, 2016, 43(4): 560-569

[13]	LiuH-Q, LiX-B, LiaoJ-B, LiuX-Y. Genesis of the high gamma sandstone of the Yanchang Formation in the Ordos Basin, China [J]. Petroleum Science, 2013, 10(1): 50-54

[14]	ZhangX-L, FengQ, FengQ-H, LiuJ-J, LiuG-W, YanY-Z. Genesis of the high gamma sandstone of the Yanchang Formation in the Ordos Basin, China: A reply [J]. Petroleum Science, 2013, 10(1): 55-57

[15]	ZhangX-L, FengQ, SunP, LiW. Characteristics of high-gamma-ray sandstone reservoirs for Yanchang Formation in Ordos Basin [J]. Chinese Journal of Geophysics, 2010, 53(1): 154-163

[16]	SunP, ZhangX-L, GuoL, ShenY-B. Genesis of the sandstone with higher radioactivity and the qualitative evaluation of its reservoir property: Taking Chang 6 Oil-bearing Strata in Zhidan Oilfield, Ordos Basin as an example [J]. Journal of Xi’an Shiyou University, 2010, 25(2): 18-21(in Chinese)

[17]	LiG-R, GuoQ-Y, ShiY-J, MaC-X. Identification of high gamma ray reservoir in Ordos Basin [J]. Well Logging Technology, 2006, 30(6): 511-515(in Chinese)

[18]	HOU Yu-ting, LI Gao-ren. Application of element capture spectroscopy logging in Changqing gas exploration [J]. China Petroleum Exploration, 2005(3): 46–50. (in Chinese)

[19]	FengC-Z, LinW-C, LiangC-Y, HanY-H. Methods for recognizing natural gamma sandstones in low permeability and lithologic gas reservoirs [J]. Journal of Oil & Gas Technology, 2005, 27(1): 201-204(in Chinese)

[20]	WangL, MaoZ-Q, SunZ-C, LuoX-P, SongY. Genesis analysis of high gamma ray (GR) sandstone reservoir: Taking Toutunhe Formation of Junggar Basin, northwest China, as an example [J]. Applied Mechanics & Materials, 2013, 394(9): 585-590

[21]

WANG Liang, MAO Zhi-qiang, SUN Zhong-chun, LUO Xing-ping, SONG Yong, LIU Zhen. Genesis analysis of high-gamma ray sandstone reservoir and its log evaluation techniques: A case study from the Junggar Basin, northwest China [J]. Scientific World Journal, 2013(6): 1–6. DOI: https://doi.org/10.1155/2013/848201.

[22]	ZhangT, LinC-Y, ZhangX-G, YuJ-F, LuX-R, ZhnagS-X. Genesis analysis of high GR reservoir and its well-log based recognition method [J]. Oil Geophysical Prospecting, 2012, 47(3): 491-495(in Chinese)

[23]	YuZ-F, ChengR-H, ZhaoX-Q, SunF-X, XuZ-J, ShenY-J. Genesis and identification of high gamma sandstone in the first member of Nantun Formation of Wunan Depression in Hailar Basin [J]. Journal of China University of Petroleum, 2012, 36(3): 76-83(in Chinese)

[24]	PanH-Z, LiZ-B, FuY-S, WangH-J, YangX-L, XuS-M. Application of logging data in lithology identification and reservoir evaluation of igneous rock in Songliao Basin [J]. Geophysical Prospecting for Petroleum, 2009, 48(1): 48-52(in Chinese)

[25]	HuangJ-S, AnW-W, BaiW-H. The reservoir features and genetic analysis of high natural gamma for Member 2 of Shanxi Group in Yulin gas field of north Shanxi [J]. Mud Logging Engineering, 2007, 18(4): 74-79(in Chinese)

[26]	LiuX-J, LiuY-Q, ZhouD-W, LiH, ChengX-H, NanY. Deep fluid tracer in Ordos Basin: Characteristics and origin of high natural gamma sandstone in Triassic Yanchang Formation [J]. Earth Science Frontiers, 2013, 20(5): 149-165(in Chinese)

[27]	QinY, ZhangW-Z, PengP-A, ZhouZ-J. Occurrence and concentration of uranium in the hydrocarbon source rocks of Chang 7 Member of Yanchang Formation, Ordos basin [J]. Acta Petrologica Sinica, 2009, 25(10): 2469-2476(in Chinese)

[28]	ZhangW-Z, YangH, XieL-Q, YangY-H. Lake-bottom hydrothermal activities and their influences on the high-quality source rock development: A case from Chang 7 source rocks in Ordos Basin [J]. Petroleum Exploration and Development, 2010, 37(4): 424-429 in Chinese)

[29]	ZhangB-H, WuB-L, LiuC-Y, QiuX-W. Occurrence of Uranium in Hydrocarbon of Chang-7 Member of Yanchang Formation of Ordos Basin [J]. Northwestern Geology, 2011, 44(2): 124-132(in Chinese)

[30]	HeC, JiL-M, WuY-D, SuA, ZhangM-Z. Characteristics of hydrothermal sedimentation process in the Yanchang Formation, south Ordos Basin, China: Evidence from element geochemistry [J]. Sedimentary Geology, 2016, 345(15): 33-41

[31]	HeC, JiL-M, SuA, LiuY, LiJ-F, WuY-D, ZhangM-Z. Relationship between hydrothermal sedimentation process and source rock development in the Yanchang Formation in southern Ordos Basin [J]. Earth Science Frontiers, 2017, 24(6): 277-285(in Chinese)

[32]	ChenQ-H, LiW-H, GuoY-Q, LiangJ-W, CuiJ-P, ZhangD-F. Turbidite systems and the significance of petroleum exploration of Yanchang Formation in the southern Ordos Basin [J]. Acta Geologica Sinica, 2006, 80(5): 656-663(in Chinese)

[33]	ChenQ-H, LiW-H, GaoY-X, GuoY-Q, FengJ-P, ZhangD-F, CaoH-X, LiangJ-W. The deep-lake deposit in the Upper Triassic Yanchang Formation in Ordos Basin, China and its significance for oil-gas accumulation [J]. Science in China, 2007, 50(2): 47-58 in Chinese)

[34]	TangX, ZhangJ-C, WangX-Z, YuB-S, DingW-L, XiongJ-Y, YangY-T, WangL, YangC. Shale characteristics in the southeastern Ordos Basin, China: Implications for hydrocarbon accumulation conditions and the potential of continental shales [J]. International Journal of Coal Geology, 2014, 128–129(8): 32-46

[35]	ErC, LiY-Y, ZhaoJ-Z, WangR, WeiZ-K. Characteristics of lacustrine organic-rich shale: A case study of the Chang 7 Member, Triassic Yanchang Formation, Ordos Basin, China [J]. Journal of Natural Gas Geoscience, 2016, 1(2): 173-185

[36]	MengH, ZhongD-K, ZhuX-M, LiuZ-L, LiaoJ-J, ZhangX-Q. Sequence stratigraphic framework and sedimentary facies of LSC3 of Yanchang Formation in Longdong Area, Ordos Basin [J]. Lithologic Reservoirs, 2016, 28(1): 77-87(in Chinese)

[37]	LinS-H, WangM-S, YuanX-J. A new quantitative method of sedimentary facies mapping of large lacustrine depression: A case from Chang 7 reservoir in central Ordos Basin [J]. Lithologic Reservoirs, 2017, 29(3): 10-17(in Chinese)

[38]	ZhangW-Z, YangW-W, XieL-Q. Controls on organic matter accumulation in the Triassic Chang 7 lacustrine shale of the Ordos Basin, central China [J]. International Journal of Coal Geology, 2017, 183(14): 38-51

[39]	FuJ-H, LiS-X, XuL-M, NiuX-B. Paleo-sedimentary environmental restoration and its significance of Chang 7 Member of Triassic Yanchang Formation in Ordos Basin, NW China [J]. Petroleum Exploration and Development Online, 2018, 45(6): 998-1008

[40]	JiL-M, XuJ-L. Triassic acritarchs and its relation to hydrocarbon source rock in Ordos Basin[J]. Acta Petrolei Sinica, 2007, 28(2): 40-43(in Chinese)

[41]	JiL-M, XuJ-L, SongZ-G. Lacustrine cyanobacteria from the Yanchang Formation in Ordos Basin and its implication of oil source [J]. Acta Micropalaeontologica Sinica, 2012, 29(3): 270-281(in Chinese)

[42]	LiuG-H, HuangZ-L, ChenF-R, JiangZ-X, GaoX-Y, LiT-W, ChenL, XiaL, HanW. Reservoir characterization of Chang 7 member shale: A case study of lacustrine shale in the Yanchang Formation, Ordos Basin, China [J]. Journal of Natural Gas Science and Engineering, 2016, 34: 458-471

[43]	FengC-J, YangH, PuR-H, WangY-N, WangD-X, LiangX-W, ZhangM-B, HuangY-G, FeiS-X. Lithology and oil-bearing properties of tight sandstone reservoirs: Chang 7 member of Upper Triassic Yanchang Formation, southwestern Ordos Basin, China [J]. Geosciences Journal, 2017, 21(2): 201-211

[44]	GaoW-Q, MaS-P, XiaY-Q, ShiJ-C, MaX-F, TianC-T, LiC-L. Oil-source correlation and the impact of oil-filling process on geochemical composition of the different states of oils in the Upper Triassic Chang 7 Formation, Ordos Basin, China [J]. Petroleum Science and Technology, 2018, 36(13): 915-922

[45]	HuangZ-K, LiuQ-Y, LiM-W, ChenJ-P, LiP. Hydrocarbon expulsion efficiency and oil-bearing property of the shale system in Chang 7 Member, Ordos Basin [J]. Oil & Gas Geology, 2018, 39(3): 513-521(in Chinese)

[46]	WangQ, PengP-A, ZhangW-Z, LiuJ-Z, YuC-L. Quantitative full-component hydrocarbon-generating simulation and crude oil mobility evaluation of shale in 7th Member of Yanchang Formation, Ordos Basin [J]. Acta Petrolei Sinica, 2018, 39(5): 541-553(in Chinese)

[47]	HanW-X, HouL-H, YaoJ-L, MaW-J. Characteristics and formation mechanism of Chang 7 tight sandstone reservoir in Ordos Basin [J]. Journal of China University of Mining & Technology, 2016, 45(4): 765-771(in Chinese)

[48]	LaiJ, WangG-W, RanY, ZhouZ-L, CuiY-F. Impact of diagenesis on the petrophysical properties of tight oil reservoirs: The case of Upper Triassic Yanchang Formation Chang 7 Oil Layers in Ordos Basin, China [J]. Journal of Petroleum Science and Engineering, 2016, 145(9): 54-65

[49]	WuW-T, DengJ, ZhaoJ-Z, SunB, GuoH-Q, DengX-Q, ErC, BaiY-B. Accumulation conditions and models of tight oil reservoirs in Chang-7 of Huaqing Area, the Ordos Basin [J]. Oil & Gas Geology, 2016, 37(6): 874-881(in Chinese)

[50]	ZhouZ-L, WangG-W, RanY, LaiJ, CuiY-F, ZhaoX-L. A logging identification method of tight oil reservoir lithology and lithofacies: A case from Chang 7 Member of Triassic Yanchang Formation in Heshui Area, Ordos Basin, NW China [J]. Petroleum Exploration and Development Online, 2016, 43(1): 65-73

[51]	LaiJ, WangG-W, FanZ-Y, ZhouZ-L, ChenJ, WangS-C. Fractal analysis of tight shaly sand-stones using nuclear magnetic resonance measurements [J]. AAPG Bulletin, 2018, 102(2): 175-193

[52]	ChenL, LuY-C, WuJ-Y, XingF-C, LiuL, MaY-Q, RaoD, PengLi. Sedimentary facies and depo-sitional model of shallow water delta dominated by fluvial for Chang 8 oil-bearing group of Yanchang Formation in southwestern Ordos Basin, China [J]. Journal of Central South University, 2015, 22(12): 4749-4763