Lithologic Reservoirs ›› 2022, Vol. 34 ›› Issue (1): 14-23.doi: 10.12108/yxyqc.20220102

• PETROLEUM GEOLOGY • Previous Articles     Next Articles

Sedimentary characteristics of gravity flow of middle Es32 member in Yingbei area, Dongying Sag

HUANG Yarui1, YANG Jianping2, LU Huidong3, LI Yuzhi3, HUANG Zhijia4, DANG Pengsheng4, FANG Ping4, MU Yingshun4   

  1. 1. Petroleum Development Center, Sinopec Shengli Oilfield Company, Dongying 257061, Shandong, China;
    2. School of Geosciences, China University of Petroleum(East China), Qingdao 266580, Shandong, China;
    3. Dongxin Oil Production Plant, Sinopec Shengli Oilfield Company, Dongying 257061, Shandong, China;
    4. No.3 Oil Production Plant, PetroChina Huabei Oilfield Company, Cangzhou 062450, Hebei, China
  • Received:2021-08-13 Revised:2021-09-20 Online:2022-01-01 Published:2022-01-21

PDF (PC)

274

Abstract: To study the sedimentary characteristics and evolution of gravity flow of the middle third member of Shahejie Formation(Es32) in Yingbei area, Dongying Sag, the sedimentary characteristics were analyzed by using rock cores, well logging, logging and analysis test data, sand groups were refined, and sedimentary microfacies map was drawn. The results show that gravity flow sand bodies of Es32 can be divided into channel-controlled deposit and non channel-controlled deposits. Channel-controlled deposit includes gravity flow channel and anterior complex subfacies. Gravity flow channel mainly includes gravity-flow channel and embankment microfacies, and anterior complex includes channelized lobes, tongue-like debris, turbidite lobes and turbidite sheet sands. Non channel controlled deposits mainly includes slide and slump. The sedimentary evolution model is:During the sedimentary period of Z6-Z4 sand groups, the water was relatively deep, which was mainly developed as the gravity flow deposition. During the sedimentary period of Z3-Z1 sand groups, with the decline of the lake level, shallow lake delta mouth bar sand bodies were developed in the east of the study area, and gravity flow deposit was mainly developed in the middle and west. This sedimentary evolution model of gravity flow can provide a geological model for reservoir prediction in the study area.

Key words: gravity flow, sedimentary microfacies, evolution model, Es32 member, Dongying Sag

CLC Number: 

  • TE121.3
[1] 张青青.东营凹陷三角洲前缘滑塌成因重力流沉积特征及沉积模式.青岛:中国石油大学(华东), 2016. ZHANG Q Q. Sedimentary characteristics and depositional model of gravity flows caused by sediment transportation of delta front in Dongying Sag. Qingdao:China University of Petroleum(East China), 2016.
[2] JACKA A D, BECK R H, STGERAIN L C, et al.The Permian deep-sea fans of the Tera Huashan group(melon)and the Delaware Basin. E-conomic Paleontologists and Mineralogists Part of the Permian Basin Publishing Society, 1968, 68(11):49-90.
[3] WALKER R G. Deep-water sandstone facies and ancient submarine fans:Models for exploration for stratigraphic traps. AAPG Bulletin, 1978, 62(6):932-966.
[4] NORMARK W R. Growth patterns of deep-sea fans. AAPG Bulletin, 1970, 54(11):2170-2195.
[5] NORMARK W R. Fan valleys, channels, and depositional lobes on modern submarine fans:Characters for recognition of sandy turbidite environments. AAPG Bulletin, 1978, 62(6):912-931.
[6] MUTTI E, RICCI L F. Turbidites of the northern Apennines:Introduction to facies analysis. International Geology Review, 1978, 20(2):125-166.
[7] 庞雄, 陈长民, 朱明, 等.深水沉积研究前缘问题.地质论评, 2007, 53(1):36-43. PANG X, CHEN C M, ZHU M, et al. Frontier of the deep-water deposition study. Geological Review, 2007, 53(1):36-43.
[8] SHANMUGAM G. High-density turbidity currents are they sandy debris flows? Journal of Sedimentary Research, 1996, 66(1):2-10.
[9] SHANMUGAM G. The Bouma sequence and the turbidite mind set. Earth-Science Reviews, 1997, 42(4):201-229.
[10] SHANMUGAM G. 50 years of the turbidite paradigm(19501990 s):Deep-water processes and facies models:A critical perspective. Marine and Petroleum Geology, 2000, 17(2):285342.
[11] SHANMUGAM G. Ten turbidite myths. Earth-Science Reviews, 2002, 58(3/4):311-341.
[12] SHANMUGAM G, MOIOLA R J. Reinterpretation of depositional processes in a classic flysch sequence(Pennsylvanian Jackfork Group), Ouachita Mountains, Arkansas and Oklahoma. AAPG Bulletin, 1995, 79(5):672-695.
[13] SHANMUGAM G, BLOCH R B, MITCHELL S M, et al. Basinfloor fans in the North Sea:Sequence stratigraphic models vs. sedimentary facies. AAPG Bulletin, 1995, 79(4):477-512.
[14] SHANMUGAM G, MOIOLA R J. An unconventional model for the deep-water sandstones of the Jackfork Group(Pennsylvanian), Ouachita Mountains, Arkansas and Oklahoma. SEPM 15, 1994:311-326.
[15] 陈秀艳, 姜在兴, 师晶, 等.东辛油田沙三中亚段沉积特征与油藏分布规律.沉积与特提斯地质, 2010, 30(4):19-23. CHEN X Y, JIANG Z X, SHI J, et al. Sedimentary characteristics and oil reservoir distribution of the middle Es 3 member in Dongxin Oilfield. Sedimentary Geology and Tethyan Geology, 2010, 30(4):19-23.
[16] 杨田, 操应长, 王艳忠, 等.深水重力流类型、沉积特征及成因机制:以济阳坳陷沙河街组三段中亚段为例.石油学报, 2015, 36(9):24-35. YANG T, CAO Y C, WANG Y Z, et al. Types, sedimentary characteristics and genetic mechanisms of deep-water gravity flows:A case study of the middle sub-member in member 3 of Shahejie Formation in Jiyang Depression. Acta Petrolei Sinica, 2015, 36(9):24-35.
[17] 陈杰, 刘传虎, 谭明友, 等.进积型三角洲交汇区沉积模式:以东营凹陷沙三中亚段为例. 沉积学报, 2016, 34(6):11871197. CHEN J, LIU C H, TAN M Y, et al. Depositional model of prograding delta confluences:A case from Es3 members in the Paleogene Dongying Sag. Acta Sedimentologica Sinica, 2016, 34(6):1187-1197.
[18] 鲜本忠, 王璐, 刘建平, 等.东营凹陷东部始新世三角洲供给型重力流沉积特征与模式. 中国石油大学学报(自然科学版), 2016, 40(5):10-21. XIAN B Z, WANG L, LIU J P, et al. Sedimentary characteristics and model of delta-fed turbidites in Eocene eastern Dongying Depression. Journal of China University of Petroleum(Edition of Natural Science), 2016, 40(5):10-21.
[19] 蔡进功, 姜秀芳, 范存堂.东营盆地始新统沉积体系及盆地演化.沉积学报, 1995, 13(增刊1):27-37. CAI J G, JIANG X F, FAN C T. Basin evolution and distribution of lacustrine systems in middle and Upper Eocene, Dongying Basin. Acta Sedimentologica Sinica, 1995, 13(Suppl 1):27-37.
[20] 隋风贵, 郭玉新, 王宝言, 等.东营凹陷深陷期构造坡折带与低位扇序列.石油勘探与开发, 2005, 32(2):63-67. SUI F G, GUO Y X, WANG B Y, et al. Fault break slope and low stand fan sequence in Dongying Sag. Petroleum Exploration and Development, 2005, 32(2):63-67.
[21] 彭军, 许天宇, 于乐丹.东营凹陷沙河街组四段湖相细粒沉积特征及其控制因素.岩性油气藏, 2020, 32(5):1-12. PENG J, XU T Y, YU L D. Characteristics and controlling factors of lacustrine fine-grained sediments of the fourth member of Shahejie Formation in Dongying Depression. Lithologic Reservoirs, 2020, 32(5):1-12.
[22] 符勇, 李忠诚, 万谱, 等.三角洲前缘滑塌型重力流沉积特征及控制因素:以松辽盆地大安地区青一段为例.岩性油气藏, 2021, 33(1):198-208. FU Y, LI Z C, WAN P, et al. Sedimentary characteristics and controlling factors of slump gravity flow in delta front:A case study of Qing 1 member in Da'an area, Songliao Basin. Lithologic Reservoirs, 2021, 33(1):198-208.
[1] LIU Renjing, LU Wenming. Mechanism and field practice of enhanced oil recovery by injection-production coupling in fault block reservoirs [J]. Lithologic Reservoirs, 2024, 36(3): 180-188.
[2] SUN Hui, FAN Guozhang, WANG Hongping, DING Liangbo, ZUO Guoping, MA Hongxia, PANG Xu, XU Xiaoyong. Deep-water sedimentary characteristics and sequence boundary identification of Middle Eocene in Rovuma Basin,East Africa [J]. Lithologic Reservoirs, 2023, 35(6): 106-116.
[3] HU Wangshui, GAO Feiyue, LI Ming, GUO Zhijie, WANG Shichao, LI Xiangming, LI Shengming, JIE Qiong. Fine characterization of reservoir units of Paleogene Shahejie Formation in Langgu Sag,Bohai Bay Basin [J]. Lithologic Reservoirs, 2023, 35(5): 92-99.
[4] HE Xian, YAN Jianping, WANG Min, WANG Jun, GENG Bin, LI Zhipeng, ZHONG Guanghai, ZHANG Ruixiang. Relationship between pore structure and oil production capacity of low permeability sandstone: A case study of block F154 in south slope of Dongying Sag [J]. Lithologic Reservoirs, 2022, 34(1): 106-117.
[5] ZHANG Wenwen, HAN Changcheng, TIAN Jijun, ZHANG Zhiheng, ZHANG Nan, LI Zhengqiang. Sequence stratigraphy division and evolutionary features of Permian Lucaogou Formation in Jimsar Sag [J]. Lithologic Reservoirs, 2021, 33(5): 45-58.
[6] LIU Huaqing, FENG Ming, GUO Jingyi, PAN Shuxin, LI Hailiang, HONG Zhong, LIANG Sujuan, LIU Caiyan, XU Yunze. Seismic reflection and sedimentary characteristics of deep-water gravity flow channels on the slope of lacustrine depression basin: First member of Nenjiang Formation in LHP area, Songliao Basin [J]. Lithologic Reservoirs, 2021, 33(3): 1-12.
[7] WANG Huan, LIU Bo, SHI Kaibo, LIU Hangyu, HAN Bo. Characteristics of tectonic-sedimentary evolution from Jurassic to Cretaceous in Iraq-Iran area [J]. Lithologic Reservoirs, 2021, 33(3): 39-53.
[8] YANG Fanfan, YAO Zongquan, YANG Fan, DELECHIATI Ganatayi, ZHANG Lei, CAO Tianru. Petrophysical facies of Triassic Baikouquan Formation in northern Mahu Sag,Junggar Basin [J]. Lithologic Reservoirs, 2021, 33(1): 99-108.
[9] FU Yong, LI Zhongcheng, WAN Pu, QUE Yijuan, WANG Zhenjun, JI Yu, HUANG Li, LUO Jinglan, BAO Zhidong. Sedimentary characteristics and controlling factors of slump gravity flow in delta front: a case study of Qing 1 member in Da'an area,Songliao Basin [J]. Lithologic Reservoirs, 2021, 33(1): 198-208.
[10] QING Fan, YAN Jianping, WANG Jun, GENG Bin, WANG Min, ZHAO Zhenyu, CHAO Jing. Division of sedimentary cycle of sandy conglomerate body and its relationship with physical properties: a case study from the upper submenber of the fourth member of Shahejie Formation in Y920 block of northern steep slope zone in Dongying Sag [J]. Lithologic Reservoirs, 2020, 32(6): 50-61.
[11] LIU Wei, YANG Xibing, ZHANG Xiuping, DUAN Liang, SHAO Yuan, HAO Defeng. Characteristics and controlling factors of gravity flow deposits of Huangliu Formation in eastern Yinggehai Basin [J]. Lithologic Reservoirs, 2019, 31(2): 75-82.
[12] FU Qiang, LI Jing, DENG Xiuqin, ZHAO Shijie, PANG Jinlian, MENG Pengfei. Influence of sedimentary events on deep water sedimentation process: a case of Chang 6 reservoir in Huaqing area,Ordos Basin [J]. Lithologic Reservoirs, 2019, 31(1): 20-29.
[13] YUAN Bochao, XIAO Wenhua, WEI Haoyuan, ZHANG Nan, DENG Yilin, ZHANG Guangwei. Characteristics and controlling factors of glutenite reservoir of Cretaceous Xiagou Formation in Ya' erxia area, Jiuquan Basin [J]. Lithologic Reservoirs, 2018, 30(3): 61-70.
[14] YAN Jianping, LIANG Qiang, GENG Bin, LAI Fuqiang, WEN Danni, WANG Zhoufeng. Relationship between micro-pore characteristics and pore structure of low permeability sandstone: a case of the fourth member of Shahejie Formation in southern slope of Dongying Sag [J]. Lithologic Reservoirs, 2017, 29(3): 18-26.
[15] Wei Duan, Gao Zhiqian, Meng Miaomiao,Yang Xiaoqun, Wang Jingbin,Wang Shanshan. High-precision sequence division and sedimentary model of Yingshan Formation in Tahe area [J]. Lithologic Reservoirs, 2016, 28(6): 68-77.
Viewed
Full text


Abstract

Cited
  Shared   
  Discussed   
[1] YANG Zhanlong,ZHANG Zhenggang,CHEN Qilin,GUO Jingyi,SHA Xuemei,LIU Wensu. Using multi-parameters analysis of seismic information to evaluate lithologic traps in continental basins[J]. Lithologic Reservoirs, 2007, 19(4): 57 -63 .
[2] FANG Chaohe, WANG Yifeng, ZHENG Dewen, GE Zhixin. Maceral and petrology of Lower Tertiary source rock in Qintong Sag, Subei Basin[J]. Lithologic Reservoirs, 2007, 19(4): 87 -90 .
[3] LIN Chengyan, TAN Lijuan, YU Cuiling. Research on the heterogeneous distribution of petroleum(Ⅰ)[J]. Lithologic Reservoirs, 2007, 19(2): 16 -21 .
[4] WANG Tianqi, WANG Jiangong, LIANG Sujuan, SHA Xuemei. Fine oil exploration of Putaohua Formation in Xujiaweizi area, Songliao Basin[J]. Lithologic Reservoirs, 2007, 19(2): 22 -27 .
[5] WANG Xiwen,SHI Lanting,YONG Xueshan,YNAG Wuyang. Study on seismic impedance inversion[J]. Lithologic Reservoirs, 2007, 19(3): 80 -88 .
[6] HE Zongbin,NI Jing,WU Dong,LI Yong,LIU Liqiong,TAI Huaizhong. Hydrocarbon saturation determined by dual-TE logging[J]. Lithologic Reservoirs, 2007, 19(3): 89 -92 .
[7] YUAN Shengxue,WANG Jiang. Identification of the shallow gas reservoir in Shanle area,Tuha Basin[J]. Lithologic Reservoirs, 2007, 19(3): 111 -113 .
[8] CHEN Fei,WEI Dengfeng,YU Xiaolei,WU Shaobo. Sedimentary facies of Chang 2 oil-bearing member of Yanchang Formation in Yanchi-Dingbian area, Ordos Basin[J]. Lithologic Reservoirs, 2010, 22(1): 43 -47 .
[9] XU Yunxia,WANG Shanshan,YANG Shuai. Using Walsh transform to improve signal-to-noise ratio of seismic data[J]. Lithologic Reservoirs, 2009, 21(3): 98 -100 .
[10] LI Jianming,SHI Lingling,WANG Liqun,WU Guangda. Characteristics of basement reservoir in Kunbei fault terrace belt in southwestern Qaidam Basin[J]. Lithologic Reservoirs, 2011, 23(2): 20 -23 .
TRENDMD:

Copyright © 2018 Lithologic Reservoirs

Support by Beijing Magtech support@magtech.com.cn