Structural styles of deep strike-slip faults in Tarim Basin and the characteristics of their control on reservoir formation and hydrocarbon accumulation: a case study of Shunbei oil and gas field

doi:10.7623/syxb202206003

Acta Petrolei Sinica ›› 2022, Vol. 43 ›› Issue (6): 770-787.DOI: 10.7623/syxb202206003

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Structural styles of deep strike-slip faults in Tarim Basin and the characteristics of their control on reservoir formation and hydrocarbon accumulation: a case study of Shunbei oil and gas field

Yun Lu^1,2, Deng Shang³

1. Sinopec Northwest Oilfield Company, Xinjiang Urumqi 830011, China;
2. Sinopec East China Oil & Gas Company, Jiangsu Nanjing 210038, China;
3. Sinopec Petroleum Exploration and Development Research Institute, Beijing 100083, China

Received:2021-12-24 Revised:2022-03-27 Published:2022-06-28

塔里木盆地深层走滑断裂差异变形与控储控藏特征——以顺北油气田为例

云露^1,2, 邓尚³

1. 中国石油化工股份有限公司西北油田分公司新疆乌鲁木齐 830011;
2. 中国石油化工股份有限公司华东油气分公司江苏南京 210038;
3. 中国石油化工股份有限公司石油勘探开发研究院北京 100083

通讯作者: 云露,男,1972年11月生,2009年获中国地质大学(北京)博士学位,现为中国石油化工股份有限公司华东油气分公司总经理、教授级高级工程师,主要从事石油地质综合研究与管理工作。
作者简介:云露,男,1972年11月生,2009年获中国地质大学(北京)博士学位,现为中国石油化工股份有限公司华东油气分公司总经理、教授级高级工程师,主要从事石油地质综合研究与管理工作。Email:yunl.xbsj@sinopec.com
基金资助:
国家自然科学基金企业创新发展联合基金项目(No.U19B6003、No.U21B2063)资助。第一作者及

Abstract

Abstract: Based on fine analysis of strike-slip faults and comprehensive use of imaging logging, well testing and production performance data, this paper explores the control effect of the segmented differential deformation of Shunbei No.1, Shunbei No.5 and Shunbei No.4 strike-slip fault zones in Shunbei oil and gas field on the development of large-scale reservoir bodies and the distribution of oil reservoirs. There are significant differences in geometry, kinematics and activity characteristics of the main strike-slip fault zones in Shunbei area, showing the characteristic of "one zone as one world". Specifically, there are 9 geometric segments with left-stepped diagonal distribution in the 3D working area in Shunbei No.1 fault zone, where spliced and pull segments are developed. The north section of Shunbei No.5 fault zone is dominated by the development of uplift and translation segments, translation segments and splay fractures are mainly found in the middle section, and the south section shows the compound tectonic development pattern of "graben section on both sides and main strike-slip section in the middle". Shunbei No.4 fault zone is distributed in an "S" shape in the 3D working area and can be divided into north section, middle section and south section according to the strike changes. It is characterized by a segmented structure of "north-south compression and middle tension". The internal structure of the strike-slip faults of Shunbei area is controlled by the intensity of fault activity. With the increase of activity intensity, the internal structure of carbonate fault zone has gradually evolved from a fracture zone with low development degree to the broken gravel zone and fracture zone with high development degree, and the scale of reservoir bodies is expanded accordingly. Shunbei No.1 fault zone witnesses the segmental development of the large-scale fault-controlled reservoir bodies. The internal structures of reservoir bodies in different segments are significantly different, and most of them are disconnected. The reservoir bodies in the same segment are interconnected, characterized by "one reservoir for one section". The differential accumulation of oil and gas is controlled by the differential deformation of strike-slip fault. In detail, the gas-oil ratio of the northern segmented well group of Shunbei No.1 fault zone is generally higher than that of the southern well group, which is controlled by the difference of late activities with the characteristic of "being strong in the north and weak in the south". The middle main strike-slip section of the southern section of Shunbei No.5 fault zone is directly communicated with source rocks, characterized with "reservoir control, accumulation control and enrichment control". The graben section is not directly communicated with source rocks, and the scale of the drilled reservoir body and oil-gas reservoir is much smaller than that of the middle main strike-slip section. The section of strike-slip fault is vertically heterogeneous. As controlled by activity intensity of the section and competency of the formation. The scale of the targets drilled into the reservoir bodies with different depths in the same section is significantly different, which shows the characteristic of "one target for one scale". The study will deepen the understanding on the differential deformation characteristics of the strike-slip faults in Tarim Basin and serve as an important reference for the exploration and evaluation of fracture-controlled and fractured-vuggy type reservoirs in strike-slip faults.

Key words: structural styles, strike-slip faults, fault control on reservoir rocks and hydrocarbon accumulations, Shunbei oil and gas field, Tarim Basin

摘要： 在走滑断裂精细解析的基础上,综合利用成像测井、试井和生产动态资料,探讨了顺北油气田顺北1号、顺北5号、顺北4号走滑断裂带的分段差异变形对规模储集体发育和油藏分布的控制作用。顺北地区主干走滑断裂带在几何学、运动学及活动特征方面差异显著,具有"一带一世界"的特点。其中,顺北1号断裂带在三维工区内发育9个左阶斜列展布的几何分段,分段间均发育叠接拉分段;顺北5号断裂带北段以发育压隆段—平移段为主,中段以发育平移段和分支断裂为主,南段发育"两侧地堑断面+中部主走滑断面"复合构造样式;顺北4号断裂带在三维工区内呈"S"形展布,根据走向变化可划分北段、中段和南段,具有"南北挤压、中部拉张"的分段结构特征。顺北地区走滑断裂的内部结构受断裂活动强度控制,随着活动强度增大,碳酸盐岩断裂带内部结构由发育程度较低的裂缝带逐步演化为发育程度较高的破碎角砾带-裂缝带,储集体规模也逐渐增大。顺北1号断裂带的断控规模储集体分段发育,不同分段的储集体内部结构差异明显且多不连通,同一分段的储集体相互连通,具有"一段一油藏"的特征。走滑断裂的差异变形控制了油气差异成藏,其中,受控于晚期活动"北强南弱"的差异,顺北1号断裂带北部分段井组的气油比普遍大于南部井组;顺北5号断裂带南段的中部主走滑断面直接沟通烃源岩层,具有"控储、控藏、控富"特征,而地堑断面未直接沟通烃源岩层,其钻揭的储集体与油气藏规模远小于中部主走滑断面。走滑断裂的断面具有垂向非均质性,受断面活动强度和地层能干性的控制,同一断面不同深度的靶点钻遇储集体的规模差异显著,具有"一点一规模"的特征。研究结果深化了对塔里木盆地内部走滑断裂差异变形特征的认识,可为走滑断裂断控缝洞型油气藏的勘探评价提供重要借鉴。

关键词: 构造样式, 走滑断裂, 控储控藏特征, 顺北油气田, 塔里木盆地

CLC Number:

TE121.3

Yun Lu, Deng Shang. Structural styles of deep strike-slip faults in Tarim Basin and the characteristics of their control on reservoir formation and hydrocarbon accumulation: a case study of Shunbei oil and gas field[J]. Acta Petrolei Sinica, 2022, 43(6): 770-787.

云露, 邓尚. 塔里木盆地深层走滑断裂差异变形与控储控藏特征——以顺北油气田为例[J]. 石油学报, 2022, 43(6): 770-787.

References

[1] 漆立新.塔里木盆地顺北超深断溶体油藏特征与启示[J].中国石油勘探,2020,25(1):102-111.
QI Lixin.Characteristics and inspiration of ultra-deep fault-karst reservoir in the Shunbei area of the Tarim Basin[J].China Petroleum Exploration,2020,25(1):102-111.
[2] 杨海军,邓兴梁,张银涛,等.塔里木盆地满深1井奥陶系超深断控碳酸盐岩油气藏勘探重大发现及意义[J].中国石油勘探,2020,25(3):13-23.
YANG Haijun,DENG Xingliang,ZHANG Yintao,et al.Great discovery and its significance of exploration for Ordovician ultra-deep fault-controlled carbonate reservoirs of Well Manshen 1 in Tarim Basin[J].China Petroleum Exploration,2020,25(3):13-23.
[3] 王清华,杨海军,汪如军,等.塔里木盆地超深层走滑断裂断控大油气田的勘探发现与技术创新[J].中国石油勘探,2021,26(4):58-71.
WANG Qinghua,YANG Haijun,WANG Rujun,et al.Discovery and exploration technology of fault-controlled large oil and gas fields of ultra-deep formation in strike slip fault zone in Tarim Basin[J].China Petroleum Exploration,2021,26(4):58-71.
[4] 漆立新,云露.塔里木台盆区碳酸盐岩成藏模式与勘探实践[J].石油实验地质,2020,42(5):867-876.
QI Lixin,YUN Lu.Carbonate reservoir forming model and exploration in Tarim Basin[J].Petroleum Geology&Experiment,2020,42(5):867-876.
[5] 焦方正.塔里木盆地顺北特深碳酸盐岩断溶体油气藏发现意义与前景[J].石油与天然气地质,2018,39(2):207-216.
JIAO Fangzheng.Significance and prospect of ultra-deep carbonate fault-karst reservoirs in Shunbei area,Tarim Basin[J].Oil&Gas Geology,2018,39(2):207-216.
[6] 邓尚,李慧莉,张仲培,等.塔里木盆地顺北及邻区主干走滑断裂带差异活动特征及其与油气富集的关系[J].石油与天然气地质,2018,39(5):878-888.
DENG Shang,LI Huili,ZHANG Zhongpei,et al.Characteristics of differential activities in major strike-slip fault zones and their control on hydrocarbon enrichment in Shunbei area and its surroundings,Tarim Basin[J].Oil&Gas Geology,2018,39(5):878-888.
[7] 邓尚,李慧莉,韩俊,等.塔里木盆地顺北5号走滑断裂中段活动特征及其地质意义[J].石油与天然气地质,2019,40(5):990-998.
DENG Shang,LI Huili,HAN Jun,et al.Characteristics of the central segment of Shunbei 5 strike-slip fault zone in Tarim Basin and its geological significance[J].Oil&Gas Geology,2019,40(5):990-998.
[8] 李映涛,漆立新,张哨楠,等.塔里木盆地顺北地区中-下奥陶统断溶体储层特征及发育模式[J].石油学报,2019,40(12):1470-1484.
LI Yingtao,QI Lixin,ZHANG Shaonan,et al.Characteristics and development mode of the Middle and Lower Ordovician fault-karst reservoir in Shunbei area,Tarim Basin[J].Acta Petrolei Sinica,2019,40(12):1470-1484.
[9] 曹自成,路清华,顾忆,等.塔里木盆地顺北油气田1号和5号断裂带奥陶系油气藏特征[J].石油与天然气地质,2020,41(5):975-984.
CAO Zicheng,LU Qinghua,GU Yi,et al.Characteristics of Ordovician reservoirs in Shunbei 1 and 5 fault zones,Tarim Basin[J].Oil&Gas Geology,2020,41(5):975-984.
[10] 云露.顺北东部北东向走滑断裂体系控储控藏作用与突破意义[J].中国石油勘探,2021,26(3):41-52.
YUN Lu.Controlling effect of NE strike-slip fault system on reservoir development and hydrocarbon accumulation in the eastern Shunbei area and its geological significance,Tarim Basin[J].China Petroleum Exploration,2021,26(3):41-52.
[11] 漆立新.塔里木盆地顺托果勒隆起奥陶系碳酸盐岩超深层油气突破及其意义[J].中国石油勘探,2016,21(3):38-51.
QI Lixin.Oil and gas breakthrough in ultra-deep Ordovician carbonate formations in Shuntuoguole uplift,Tarim Basin[J].China Petroleum Exploration,2016,21(3):38-51.
[12] 邬光辉,马兵山,韩剑发,等.塔里木克拉通盆地中部走滑断裂形成与发育机制[J].石油勘探与开发,2021,48(3):510-520.
WU Guanghui,MA Bingshan,HAN Jianfa,et al.Origin and growth mechanisms of strike-slip faults in the central Tarim cratonic basin,NW China[J].Petroleum Exploration and Development,2021,48(3):510-520.
[13] 邓尚,刘雨晴,刘军,等.克拉通盆地内部走滑断裂发育、演化特征及其石油地质意义:以塔里木盆地顺北地区为例[J].大地构造与成矿学,2021,45(6):1111-1126.
DENG Shang,LIU Yuqing,LIU Jun,et al.Structural styles and evolution models of intracratonic strike-slip faults and the implications for reservoir exploration and appraisal:a case study of the Shunbei area,Tarim Basin[J].Geotectonica et Metallogenia,2021,45(6):1111-1126.
[14] DENG Shang,LI Huili,ZHANG Zhongpei,et al.Structural characterization of intracratonic strike-slip faults in the central Tarim Basin[J].AAPG Bulletin,2019,103(1):109-137.
[15] DENG Shang,ZHAO Rui,KONG Qiangfu,et al.Two distinct strike-slip fault networks in the Shunbei area and its surroundings,Tarim Basin:hydrocarbon accumulation,distribution,and controlling factors[J].AAPG Bulletin,2022,106(1):77-102.
[16] 林波,张旭,况安鹏,等.塔里木盆地走滑断裂构造变形特征及油气意义——以顺北地区1号和5号断裂为例[J].石油学报,2021,42(7):906-923.
LIN Bo,ZHANG Xu,KUANG Anpeng,et al.Structural deformation characteristics of strike-slip faults in Tarim Basin and their hydrocarbon significance:a case study of No.1 fault and No.5 fault in Shunbei area[J].Acta Petrolei Sinica,2021,42(7):906-923.
[17] QIU Huabiao,DENG Shang,CAO Zicheng,et al.The evolution of the complex anticlinal belt with crosscutting strike-slip faults in the central Tarim Basin,NW China[J].Tectonics,2019,38(6):2087-2113.
[18] 刘宝增.塔里木盆地顺北地区油气差异聚集主控因素分析——以顺北1号、顺北5号走滑断裂带为例[J].中国石油勘探,2020,25(3):83-95.
LIU Baozeng.Analysis of main controlling factors of oil and gas differential accumulation in Shunbei area,Tarim Basin-taking Shunbei No.1 and No.5 strike slip fault zones as examples[J].China Petroleum Exploration,2020,25(3):83-95.
[19] WU Guanghui,ZHAO Kuanzhi,QU Haizhou,et al.Permeability distribution and scaling in multi-stages carbonate damage zones:insight from strike-slip fault zones in the Tarim Basin,NW China[J].Marine and Petroleum Geology,2020,114:104208.
[20] 马永生,何治亮,赵培荣,等.深层-超深层碳酸盐岩储层形成机理新进展[J].石油学报,2019,40(12):1415-1425.
MA Yongsheng,HE Zhiliang,ZHAO Peirong,et al.A new progress in formation mechanism of deep and ultra-deep carbonate reservoir[J].Acta Petrolei Sinica,2019,40(12):1415-1425.
[21] 韩剑发,苏洲,陈利新,等.塔里木盆地台盆区走滑断裂控储控藏作用及勘探潜力[J].石油学报,2019,40(11):1296-1310.
HAN Jianfa,SU Zhou,CHEN Lixin,et al.Reservoir-controlling and accumulation-controlling of strike-slip faults and exploration potential in the platform of Tarim Basin[J].Acta Petrolei Sinica,2019,40(11):1296-1310.
[22] 汪如军,王轩,邓兴梁,等.走滑断裂对碳酸盐岩储层和油气藏的控制作用——以塔里木盆地北部坳陷为例[J].天然气工业,2021,41(3):10-20.
WANG Rujun,WANG Xuan,DENG Xingliang,et al.Control effect of strike-slip faults on carbonate reservoirs and hydrocarbon accumulation:a case study of the northern depression in the Tarim Basin[J].Natural Gas Industry,2021,41(3):10-20.
[23] CAINE J S,EVANS J P,FORSTER C B.Fault zone architecture and permeability structure[J].Geology,1996,24(11):1025-1028.
[24] 邬光辉,陈志勇,曲泰来,等.塔里木盆地走滑带碳酸盐岩断裂相特征及其与油气关系[J].地质学报,2012,86(2):219-227.
WU Guanghui,CHEN Zhiyong,QU Tailai,et al.Characteristics of the strik-slip fault facies in Ordovician carbonate in the Tarim Basin,and its relations to hydrocarbon[J].Acta Geologica Sinica,2012,86(2):219-227.
[25] CLAUZON V,MAYOLLE S,LEONARDI V,et al.Fault zones in limestones:impact on karstogenesis and groundwater flow (Lez aquifer,southern France)[J].Hydrogeology Journal,2020,28(7):2387-2408.
[26] AYDIN A.Fractures,faults,and hydrocarbon entrapment,migration and flow[J].Marine and Petroleum Geology,2000,17(7):797-814.
[27] 赵锐,赵腾,李慧莉,等.塔里木盆地顺北油气田断控缝洞型储层特征与主控因素[J].特种油气藏,2019,26(5):8-13.
ZHAO Rui,ZHAO Teng,LI Huili,et al.Fault-controlled fracture-cavity reservoir characterization and main-controlling factors in the Shunbei hydrocarbon field of Tarim Basin[J].Special Oil&Gas Reservoirs,2019,26(5):8-13.
[28] 高天,邓尚,李海英,等.盆地深部穹隆构造发育特征、成因机制及石油地质意义——以塔里木盆地顺北地区为例[J].地质论评,2022,68(1):217-232.
GAO Tian,DENG Shang,LI Haiying,et al.The structure characteristics,formation mechanism and petroleum geological significance of deep dome structures in the basin——a case study in the Shunbei area of the Tarim Basin[J].Geological Review,2022,68(1):217-232.
[29] 胡林,杨希冰,徐雪丰,等.南海北部湾盆地乌石凹陷成藏主控因素与成藏模式[J].海洋地质与第四纪地质,2016,36(2):121-127.
HU Lin,YANG Xibing,XU Xuefeng,et al.Main controlling factors and accumulation models of hydrocarbon in Wushi sag,Beibu gulf basin,South China Sea[J].Marine Geology&Quaternary Geology,2016,36(2):121-127.
[30] 吴孔友,郄润芝,李天然,等.准噶尔盆地车排子凸起西翼断裂特征及其控藏作用[J].地质与资源,2017,26(6):570-576.
WU Kongyou,QIE Runzhi,LI Tianran,et al.Characteristics and reservoir-forming control of faults in the west wing of Chepaizi uplift,Junggar Basin[J].Geology and Resources,2017,26(6):570-576.
[31] 郝建龙,余腾孝,曹自成,等.塔里木盆地玉北地区成藏主控因素与油气富集规律[J].新疆地质,2014,32(3):344-350.
HAO Jianlong,YU Tengxiao,CAO Zicheng,et al.Study of the main factors controlling hydrocarbon accumulation and the regularity of hydrocarbon enrichment in Yubei area of Tarim Basin[J].Xinjiang Geology,2014,32(3):344-350.
[32] 刘宝增,漆立新,李宗杰,等.顺北地区超深层断溶体储层空间雕刻及量化描述技术[J].石油学报,2020,41(4):412-420.
LIU Baozeng,QI Lixin,LI Zongjie,et al.Spatial characterization and quantitative description technology for ultra-deep fault-karst reservoirs in the Shunbei area[J].Acta Petrolei Sinica,2020,41(4):412-420.
[33] DENG Shang,ZUO Lin,AYDIN A,et al.Permeability characterization of natural compaction bands using core flooding experiments and three-dimensional image-based analysis:comparing and contrasting the results from two different methods[J].AAPG Bulletin,2015,99(1):27-49.

Structural styles of deep strike-slip faults in Tarim Basin and the characteristics of their control on reservoir formation and hydrocarbon accumulation: a case study of Shunbei oil and gas field

塔里木盆地深层走滑断裂差异变形与控储控藏特征——以顺北油气田为例

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