塔河油田西北部奥陶系古水系结构特征及演化<sup>&#x0002A;</sup>

doi:10.7605/gdlxb.2024.04.057

古地理学报 ›› 2024, Vol. 26 ›› Issue (6): 1467-1482. doi: 10.7605/gdlxb.2024.04.057

塔河油田西北部奥陶系古水系结构特征及演化^*

汪彦^1,2, 王诺宇^3,4, 杨德彬^1,2, 张恒^3,4, 张娟^1,2, 张长建^1,2, 张晓^1,2

1 中国石油化工集团公司碳酸盐岩缝洞型油藏提高采收率重点实验室,新疆乌鲁木齐 830011;
2 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;
3 油气勘探开发理论与技术湖北省重点实验室(中国地质大学(武汉)),湖北武汉 430074;
4 中国地质大学(武汉)构造与油气资源教育部重点实验室,湖北武汉 430074

收稿日期:2023-08-10 修回日期:2023-11-27 出版日期:2024-12-01 发布日期:2024-11-25
通讯作者: 张恒,男,1988年生,中国地质大学(武汉)副教授,主要从事岩溶地质、碳酸盐岩储层地质学教学与科研。E-mail: cughzhang@163.com。
作者简介:汪彦,男,1976年生,中国石油化工股份有限公司西北油田分公司高级工程师,主要从事碳酸盐岩缝洞型油藏描述和岩溶地质研究。E-mail: wangyan19760902@163.com。
基金资助:
*中国科学院战略性先导科技专项(A类)(No. XDA14010302)和中国石化西北油田分公司科研项目(编号: P23034,KY2021-S-094)联合资助

Characteristics and evolution mode of the Ordovician paleodrainage system architecture in northwestern Tahe oilfield,Tarim Basin,China

WANG Yan^1,2, WANG Nuoyu^3,4, YANG Debin^1,2, ZHANG Heng^3,4, ZHANG Juan^1,2, ZHANG Changjian^1,2, ZHANG Xiao^1,2

1 Key Laboratory of Enhanced Oil Recovery in Carbonate Fractured-Vuggy Reservoirs,CNPC,Urümqi 830011,China;
2 SINOPEC Northwest Company of China Petroleum and Chemical Corporation,Urümqi 830011,China;
3 Hubei Provincial Key Laboratory of Oil and Gas Exploration and Development Theory and Technology (China University of Geosciences(Wuhan)),Wuhan 430074,China;
4 Key Laboratory of Tectonics and Petroleum Resources,China University of Geosciences(Wuhan), Ministry of Education,Wuhan 430074,China

Received:2023-08-10 Revised:2023-11-27 Online:2024-12-01 Published:2024-11-25
Contact: ZHANG Heng,born in 1988, an associate professor at China University of Geosciences(Wuhan),is mainly engaged in teaching and research on karst geology and carbonate reservoir geology. E-mail: cughzhang@163.com.
About author:About the first author WANG Yan,born in 1976, a senior engineer at Sinopec Northwest Oilfield Company,is mainly engaged in the characterization of fractured and vuggy carbonate reservoirs and the research on karst geology. E-mail: wangyan19760902@163.com.
Supported by:
Co-funded by the Chinese Academy of Sciences Strategic Leading Science and Technology Project(Class A)(No. XDA14010302)and Sinopec Northwest Oilfield Company Scientific Research Project(Nos. P23034,KY2021-S-094)

摘要/Abstract

摘要： 塔里木盆地塔河油田西北部中下奥陶统发育深切的地表水系结构,对水系两侧岩溶缝洞的发育影响显著,因此,对水系结构的定量描述及其演化模式的研究至关重要。基于三维地震资料,通过地震属性提取技术,对古岩溶台面和古岩溶地表水系进行了识别。同时,对水系的平面和垂向形态学结构参数进行了量化表征,据此探讨了古岩溶地表水系的形成与演化模式,剖析了水系演化与古岩溶缝洞发育的关系。研究结果表明: (1)塔河油田西北部自东向西发育3个岩溶台面和一个深切曲峡型地表流域结构。该流域的主干水系南北向汇流、分支水系东西向汇流,呈不对称分布。(2)水系单河曲弯曲率均大于1.5,超过了定义蛇曲的弯曲率临界值,具有典型的蛇曲特征。东西向河曲带弯曲率为2.42,南北向河曲带弯曲率为1.78。(3)东西向水系形态以单一“V”字形为主,南北向水系具有复合“V”字形,水系下切深度可达100~200 m。自东向西3个岩溶台面中水系的下切深度逐渐加大,水系宽深比平均值分别为4.06、3.52、3.03。(4)研究区古岩溶地表水系经历了自由曲流和深切曲流2个阶段,分别反映了水系的侧向侵蚀和垂向侵蚀作用过程。其中,水系的垂向侵蚀是逐步发生的,与3个岩溶台面的逐级抬升相适应。(5)深切曲流是区域性的最低排泄基准面,控制了河流两侧大型岩溶暗河的发育。每个岩溶台面具备独立的水循环结构,岩溶台面的逐级抬升促进了水系的差异演化,进而控制了岩溶暗河的规模和类型的差异性。对研究区古水系结构及其演化的认识对于古岩溶缝洞储集空间发育特征与分布规律的研究提供了重要的参考依据。

关键词: 古水系, 自由曲流, 深切曲流, 缝洞型储集层, 中下奥陶统, 塔河油田

Abstract: The deep surface water system structure developed in the Middle and Lower Ordovician in the northwest of Tahe Oilfield has a significant impact on the development of karst fractures and caves on both sides of the water system. Therefore,it is crucial to quantitatively describe the water system structure and conduct researches on its evolution mode. Based on three-dimensional seismic data,seismic attribute extraction technology was utilized to identify paleokarst platform and paleokarst surface water systems. In addition,the planar and vertical morphologic structure parameters of the surface drainage system were quantitatively characterized. Consequently,the formation and evolution patterns of paleokarst surface water systems was explored,and the relationship between surface water system evolution and paleokarst cave-fissure development was analyzed as well. The research results indicate that: (1)Three paleokarst paltform and a deep meandering gorge type surface watershed structure are developed from east to west in the northwest of Tahe Oilfield. The main water system in this basin flows in a north-south direction,while the branch water system flows in an east-west direction,exhibiting an asymmetric distribution pattern. (2)The curvature rate of a single river bend in the water system is greater than 1.5,exceeding the critical value for defining the curvature rate of a meander bend,and featuring typical meander characteristics. The curvature rate of the east-west meander belt is 2.42,and the curvature rate of the north-south meander belt is 1.78. (3)The east-west water system mainly has a single V shape,while the north-south water system has a composite V shape. The incision depth of the water system in the three paleokarst platform gradually deepens from east to west,and the average width to depth ratios of the water system are 4.06,3.52,and 3.03,respectively. (4)The paleokarst surface water system in the study area experienced two stages: free meandering and entrenched meandering, reflecting the lateral and vertical erosion processes of the water system, respectively. Among them,vertical erosion of the water system occurs gradually,adapting to the gradual uplift of the three paleokarst paltform. (5)Deep meandering is the lowest drainage reference level in a region,controlling the development of large karst underground rivers on both sides of the river. Each karst platform has an independent water circulation structure,and the gradual uplift of the karst platform promotes the differential evolution of the water system,thereby controlling the differences in the scale and type of karst underground rivers. The understanding of the paleokarst water system structure and its evolution in the research area provides important reference basis for the study of the development characteristics and distribution patterns of paleokarst fracture cave storage space.

Key words: paleodrainage system, free meander, entrenched meander, fractured-vuggy reservoirs, Middle-Lower Ordovician, Tahe oilfield

中图分类号:

P534.42

汪彦, 王诺宇, 杨德彬, 张恒, 张娟, 张长建, 张晓. 塔河油田西北部奥陶系古水系结构特征及演化^*[J]. 古地理学报, 2024, 26(6): 1467-1482.

WANG Yan, WANG Nuoyu, YANG Debin, ZHANG Heng, ZHANG Juan, ZHANG Changjian, ZHANG Xiao. Characteristics and evolution mode of the Ordovician paleodrainage system architecture in northwestern Tahe oilfield,Tarim Basin,China[J]. JOPC, 2024, 26(6): 1467-1482.

http://www.gdlxb.cn/CN/Y2024/V26/I6/1467

参考文献

[1] 蔡忠贤,刘永立,段金宝. 2009. 岩溶流域的水系变迁: 以塔河油田6区西北部奥陶系古岩溶为例. 中国岩溶, 28(1): 30-34.
[Cai Z X,Liu Y L,Duan J B.2009. Transition of river system in Karst Basin: a case study on Ordovician palaeo-karst in the northwest of Block 6,Tahe Oilfield. Carsologica Sinica, 28(1): 30-34]
[2] 蔡忠贤,张恒,漆立新,云露,曹自成,沙旭光. 2020. 塔里木盆地中—下奥陶统岩溶水文地貌结构类型及特征. 石油学报, 41(1): 43-58.
[Cai Z X,Zhang H,Qi L X,Yun L,Cao Z C,Sha X G.2020. Types and characteristics of karst hydrogeomorphologic architecture in the Middle-Lower Ordovician,Tarim Basin. Acta Petrolei Sinica, 41(1): 43-58]
[3] 范威,陈植华,牛俊强,李伟,王亮,黄荷. 2021. 香溪河岩溶流域水系结构与洪峰特征关系. 中国岩溶, 40(3): 430-438.
[Fan W,Chen Z H,Niu J Q,Li W,Wang L,Huang H.2021. Relationship between the surface water system structure and the flood peak in the Xiangxi River Karst Basin. Carsologica Sinica, 40(3): 430-438]
[4] 范勇. 2013. 基于分形理论和GIS的沱江曲流分形研究. 西南大学硕士学位论文.
[Fan Y.2013. Fractal research on the incised meanders of the Tuojiang River based on fractal theory and GIS. Masteral dissertation of Southwest University]
[5] 郭川,田亮,鲍典. 2016. 塔河油田12区奥陶系油藏东部区域岩溶古河道识别及其意义. 石油地质与工程, 30(1): 26-31,147.
[Guo C,Tian L,Bao D.2016. Regional karst old channel identification and its significance of eastern Ordovician reservoir of block-12 in Tahe oilfield. Petroleum Geology and Engineering, 30(1): 26-31,147]
[6] 江华军,李长安,张玉芬,姜端午. 2014. 嘉陵江曲流型叠置河谷成因对区域地质环境的响应. 地球科学, 39(11): 1666-1674.
[Jiang H J,Li C A,Zhang Y F,Jiang D W.2014. Origin of meander shape-superimposed valleys in the middle Jialing River: Responses to regional geological environment. Earth Science, 39(11): 1666-1674]
[7] 姜应兵,李兴娟. 2021. 塔里木盆地塔河油田TH12402井区中下奥陶统古岩溶洞穴发育模式. 古地理学报, 23(4): 824-836.
[Jiang Y B,Li X J.2021. Development model of paleokarst caves in the Middle-Lower Ordovician of TH12402 well area in Tahe oilfield,Tarim Basin. Journal of Palaeogeography(Chinese Edition), 23(4): 824-836]
[8] 李源. 2016. 塔河油田奥陶系岩溶储层发育与海西早期水文地貌响应关系研究. 中国地质大学博士论文.
[Li Y.2016. Relationship between the development of Ordovician Karst Reservoir and hydrogeomorphologic in hercynian,Tahe oilfield. Doctoral dissertation of China University of Geosciences]
[9] 李源,蔡忠贤. 2016. 塔里木盆地塔河油田主体区海西早期岩溶台面划分及洞穴层对比. 古地理学报, 18(4): 560-568.
[Li Y,Cai Z X.2016. Division of karst platform architecture and cave levels correlation in the early Hercynian,Tahe Oilfield,Tarim Basin. Journal of Palaeogeography(Chinese Edition), 18(4): 560-568]
[10] 李源,鲁新便,王莹莹,张恒,蔡忠贤,李达泽. 2016a. . 塔河油田海西早期岩溶水文地貌特征及其演化. 石油与天然气地质, 37(5): 674-683.
[Li Y,Lu X B,Wang Y Y,Zhang H,Cai Z X,Li D Z.2016a. Hydrogeomorphologic characterization and evolution of the Early Hercynian karstification in Tahe oilfield,the Tarim Basin. Oil & Gas Geology, 37(5): 674-683]
[11] 李源,蔡忠贤,张恒,鲁新便,刘永立. 2016b. 塔河油田海西早期岩溶古水系识别方法及其特征. 地质科技情报, 35(4): 184-191.
[Li Y,Cai Z X,Zhang H,Lu X B,Liu Y L.2016b. Recognition methods and characteristics of karst drainage system in Hercynian,Tahe oilfield. Geological Science and Technology Information, 35(4): 184-191]
[12] 李源,鲁新便,蔡忠贤,张恒,刘显凤. 2017. 塔里木盆地塔河油田岩溶峡谷区海西早期洞穴系统发育模式. 古地理学报, 19(2): 364-372.
[Li Y,Lu X B,Cai Z X,Zhang H,Liu X F.2017. Development model of Hercynian cave system in karst canyon area of Tahe Oilfield,Tarim Basin. Journal of Palaeogeography(Chinese Edition), 19(2): 364-372]
[13] 李正民,李兴娟,王虹. 2022. 塔河油田五区碳酸盐岩缝洞型储层发育特征及主控因素. 石化技术, 29(1): 163-164.
[Li Z M,Li X J,Wang H.2022. Development characteristics and main controlling factors of carbonate fractured vuggy reservoir in 5 area of Tahe Oilfield. Petrochemical Industry Technology, 29(1): 163-164]
[14] 刘红岐,邱春宁,唐洪,司马立强,赵军. 2011. 塔河油田12区块奥陶系裂缝分布规律研究. 沉积学报, 29(6): 1079-1085.
[Liu H Q,Qiu C N,Tang H,Sima L Q,Zhao J.2011. Study on the fracture distribution and numerical simulation of Ordovician carbonate reservoir in block 12 of Tahe oilfield. Acta Sedimentologica Sinica, 29(6): 1079-1085]
[15] 刘伟方,郑多明,王洪求,董瑞霞,张喜梅,苗青. 2013. 塔里木盆地奥陶系碳酸盐岩潜山古水系研究方法及意义. 海相油气地质, 18(4): 75-81.
[Liu W F,Zheng D M,Wang H Q,Dong R X,Zhang X M,Miao Q.2013. Research methods and the significance of palaeodrainage patterns in Ordovician buried-hill carbonate reservoirs,Tarim Basin. Marine Origin Petroleum Geology, 18(4): 75-81]
[16] 刘永立,蔡忠贤. 2009. 塔河油田四区奥陶系古岩溶流域的倒淌河及其成因研究. 现代地质, 23(6): 1121-1125.
[Liu Y L,Cai Z X.2009. The inverted river and its origin in palaeo-karst drainage basin of Ordovician in block 4,Tahe oilfield. Geoscience, 23(6): 1121-1125]
[17] 鲁新便. 2004. 缝洞型碳酸盐岩油藏开发描述及评价: 以塔河油田奥陶系油藏为例. 成都理工大学博士论文.
[Lu X B.2004. Description and evaluation of fracture-cave carbonate reservoir development: taking Ordovician reservoir in Tahe oilfield as an example.Doctoral dissertation of Chengdu University of Technology]
[18] 鲁新便,何成江,邓光校,鲍典. 2014. 塔河油田奥陶系油藏喀斯特古河道发育特征描述. 石油实验地质, 36(3): 268-274.
[Lu X B,He C J,Deng G X,Bao D.2014. Development features of karst ancient river system in Ordovician Reservoirs,Tahe Oil Field. Petroleum Geology & Experiment, 36(3): 268-274]
[19] 吕艳萍,姜应兵,高济元,蔡忠贤. 2021. 塔河西部奥陶系古岩溶小流域的划分及其地质意义. 断块油气田, 28(4): 440-445.
[Lü Y P,Jiang Y B,Gao J Y,Cai Z X.2021. The division of the Ordovician paleokarst small watershed in the west of Tahe and its geological significance. Fault-Block Oil & Gas Field, 28(4): 440-445]
[20] 马永生,何登发,蔡勋育,刘波. 2017. 中国海相碳酸盐岩的分布及油气地质基础问题. 岩石学报, 33(4): 1007-1020.
[Ma Y S,He D F,Cai X Y,Liu B.2017. Distribution and fundamental science questions for petroleum geology of marine carbonate in China. Acta Petrologica Sinica, 33(4): 1007-1020]
[21] 聂国权,淡永,徐亮,梁彬,李景瑞. 2020. 蜀南Z工区茅口组顶岩溶古地貌、古水系特征与刻画. 中国岩溶, 39(6): 911-917.
[Nie G Q,Dan Y,Xu L,Liang B,Li J R.2020. Characteristics and characterization of karst paleo-geomorphology and paleo-water system on the top of the Maokou formation in the Z area in southern Sichuan Basin. Carsologica Sinica, 39(6): 911-917]
[22] 沈玉昌,龚国元. 1986. 河流地貌学概论. 北京: 科学出版社,155-176.
[Shen Y C,Gong G Y.1986. Introduction to River Geomorphology. Beijing: Science Press,155-176]
[23] 王金凤,周德全,代稳. 2015. 基于岩溶地质背景的河网水系特征分析. 六盘水师范学院学报, 27(4): 15-18.
[Wang J F,Zhou D Q,Dai W.2015. Analysis of the characteristics of river water system based on the geological background of Karst. Journal of Liupanshui Normal University, 27(4): 15-18]
[24] 王增银,沈继方,徐瑞春,石伯勋. 1995. 鄂西清江流域岩溶地貌特征及演化. 地球科学, 20(4): 439-444.
[Wang Z Y,Shen J F,Xu R C,Shi B X.1995. Karst landscapes and their evolution in reaches of the Qingjiang River,western Hubei. Earth Science, 20(4): 439-444]
[25] 夏永涛,刘永立,刘存革,罗鹏,谢乘飞,徐珊. 2019. 塔河油田西北部加里东中期古水系特征及其地质意义. 中国岩溶, 38(3): 438-443.
[Xia Y T,Liu Y L,Liu C G,Luo P,Xie C F,Xu S.2019. Characteristics and geological significance of middle Caledonian palaeodrainage pattern in the northwest of Tahe oilfield. Carsologica Sinica, 38(3): 438-443]
[26] 许睿,李建,文建辉. 2021. 基于GIS的区域集水指数分析: 以潮田河流域为例. 中国岩溶, 40(2): 319-324.
[Xu R,Li J,Wen J H.2021. Analysis of regional catchment index based on GIS: An example of the Chaotian River Basin. Carsologica Sinica, 40(2): 319-324]
[27] 杨明德. 1998. 岩溶峡谷区溶洞发育特征及水动力条件. 中国岩溶, 17(3): 187-195.
[Yang M D.1998. Characteristics and hydrodynamic conditions of cave development in Karst gorge districts. Carsologica Sinica, 17(3): 187-195]
[28] 云露,闫文新,赵江. 2001. 阿克库勒凸起成藏地质条件及控油规律. 新疆地质, 19(4): 305-308,314.
[Yun L,Yan W X,Zhao J.2001. Geological condition and ore-controlling regularity of oil-pool formation in akekule uplift. Xinjiang Geology, 19(4): 305-308,314]
[29] 张长建,吕艳萍,文欢,王震,马海陇. 2022a. . 塔河油田西部斜坡区加里东运动中期Ⅱ幕水文地貌特征及其对洞穴发育的控制. 新疆石油地质, 43(2): 135-144.
[Zhang C J,Lü Y P,Wen H,Wang Z,Ma H L.2022a. Paleo-hydrogeomorphic characteristics of episodeⅱof middle Caledonian movement and their controls on Karst cave development in western slope area of Tahe oilfield. Xinjiang Petroleum Geology, 43(2): 135-144]
[30] 张长建,吕艳萍,张振哲. 2022b. 塔里木盆地塔河油田西部斜坡区中下奥陶统古岩溶洞穴发育特征. 石油实验地质, 44(6): 1008-1017,1047.
[Zhang C J,Lü Y P,Zhang Z Z.2022b. Features of Middle-Lower Ordovician paleo-karst caves in western slope area,Tahe Oil Field,Tarim Basin. Petroleum Geology & Experiment, 44(6): 1008-1017,1047]
[31] 张陈. 2017. 塔河二区奥陶系缝洞储集体特征描述. 西南石油大学硕士学位论文.
[Zhang C.2017. Description of Ordovician fracture-cave reservoir characteristics in Tahe area 2. Masteral dissertation of Southwest Petroleum University]
[32] 张斌,艾南山,黄正文,易成波,覃发超. 2007. 中国嘉陵江河曲的形态与成因. 科学通报, 52(22): 2671-2682.
[Zhang B,Ai N S,Huang Z W,Yi C B,Qin F C.2007. The morphology and genesis of the Jialing River in China. Chinese Science Bulletin, 52(22): 2671-2682]
[33] 张庆玉. 2018. 塔里木盆地哈拉哈塘地区奥陶系碳酸盐岩古岩溶发育机理. 中国地质大学(武汉)博士学位论文.
[Zhang Q Y.2018. Development mechanism of Ordovician carbonate paleokarst in the halahatang area of the Tarim Basin. Doctoral dissertation of China University of Geosciences(Wuhan)]
[34] 张希明,朱建国,李宗宇,杨坚. 2007. 塔河油田碳酸盐岩缝洞型油气藏的特征及缝洞单元划分. 海相油气地质, 12(1): 21-24.
[Zhang X M,Zhu J G,Li Z Y,Yang J.2007. Ordovician carbonate fractured-vuggy reservoir in Tahe oilfield,Tarim Basin: characteristics and subdivision of fracture-vug units. Marine Origin Petroleum Geology, 12(1): 21-24]
[35] 张小兵,吕海涛,赵锡奎,李坤,何建军. 2011. 塔河油田中下奥陶统顶面古构造演化及油气关系. 石油实验地质, 33(3): 233-238.
[Zhang X B,Lü H T,Zhao X K,Li K,He J J.2011. Paleostructural evolution of Lower—Middle Ordovician top and its relationship with hydrocarbon in Tahe Oil Field. Petroleum Geology & Experiment, 33(3): 233-238]
[36] 张宇,赵伦,李长海,张祥忠. 2022. 古岩溶油气储层研究进展. 中国岩溶, 41(5): 808-824.
[Zhang Y,Zhao L,Li C H,Zhang X Z.2022. Research progress of paleokarst oil and gas reservoirs. Carsologica Sinica, 41(5): 808-824]
[37] 赵鑫. 2019. 洮河上游深切曲流与现代河谷发育研究. 兰州大学硕士学位论文.
[Zhao X.2019. Incised meandering and modern valley development of the upper Taohe River. Masteral dissertation of Lanzhou University]
[38] 郑松青,康志江,程晓军,李小波,张世亮,崔书岳,蒋林. 2022. 塔河油田缝洞型碳酸盐岩油藏水驱开发特征及改善对策. 油气地质与采收率, 29(6): 95-104.
[Zheng S Q,Kang Z J,Cheng X J,Li X B,Zhang S L,Cui S Y,Jiang L.2022. Waterflooding characteristics and improvement measures of fracture-cavity carbonate reservoirs in Tahe Oilfield. Petroleum Geology and Recovery Efficiency, 29(6): 95-104]
[39] 邹明倬. 2020. 塔河油田六七区典型地下河型岩溶缝洞储集体建模研究. 中国石油大学(北京)硕士学位论文.
[Zou M Z.2020. The study on geological modeling of the typical underground river type fracture-cave karst reservoirs in the 6th and 7th block,Tahe oilfield. Masteral dissertation of China University of Petroleum(Beijing)]
[40] Lewin J,Woodward J C.2009. The Physical Geography of the Mediterranean. Oxford: Oxford University Press,301-303.
[41] Ruan Z A,Yu B S,Wang L D,Pan Y L,Tan G H.2013. Prediction of buried calcite dissolution in the Ordovician carbonate reservoir of the Tahe Oilfield,NW China: evidence from formation water. Geochemistry, 73: 469-479.
[42] Wang Z M,Cai C F,Li H X,Yang H J,Wang T K,Zhang K,Jia L Q,Chen K.2014. Origin of late charged gas and its effect on property of oils in the Ordovician in Tazhong area. Journal of Petroleum Science and Engineering, 122: 83-93.
[43] Zhang H,Cai Z X,Hao F,Hu W G,Lu X B,Wang Y.2023. Hypogenic origin of paleocaves in the Ordovician carbonates of the southern Tahe oilfield,Tarim Basin,northwest China. Geoenergy Science and Engineering, 225: 211669.

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