Dissolution characteristics of deep?buried dolostone in the Member 5 of Ordovician Majiagou Formation in southern Ordos Basin
Lei Han1, 2, 3, Huang Wen-Hui1, 2, 3, Yi Shuo1, 2, 3, Wang Ya-Ting1, 2, 3
1. School of Energy Resources, China University of Geosciences, Beijing100083, China; 2. Key Laboratory for Marine Reservoir Evolution, Hydrocarbon Abundance Mechanism, China University of Geosciences, Beijing100083, China; 3. Beijing Key Laboratory of Unconventional National Gas Geology Evaluation, Development Engineering, China University of Geosciences, Beijing100083, China
Abstract:The different types of deep-buried dissolution process in the Member 5 of Ordovician Majiagou Formation in the southern Ordos Basin and its influence on the reservoir properties are studied in this paper. It shows that three types of mechanisms include organic acid fluid, hydrothermal fluid and TSR are identified through studies of core observation, thin section analysis, inclusion temperature, trace elements and rare earth elements. It is found that the dissolution of organic acid fluid causes the stratified dissolution pores, film-like asphaltene and ring-like asphaltene, while hydrothermal fluid causes the non-selective dissolution pores without petrofabric, veins of pyrites, massive pyrites and the association of hypothermal minerals. Four occurrence models of dissolution include, (1) the deep-buried dissolution of low-temperature hydrothermal fluid occurs in Zhiluo Period of Middle Jurassic; (2) the deep-buried dissolution of organic acid fluid started from the late Middle Jurassic followed by the first hydrocarbon injection; (3) the deep-buried dissolution of middle-high temperature hydrothermal fluid occurred in the Dongsheng Period of Early Cretaceous; (4) TSR occurred at the end of Early Cretaceous with the second larger hydrocarbon injection. Both organic acid fluid and hydrothermal fluid can improve the porosity and permeability of reservoir, but the hydrothermal fluid is more effective than that of organic acid fluid.
Lei Han,Huang Wen-Hui,Yi Shuo et al. Dissolution characteristics of deep?buried dolostone in the Member 5 of Ordovician Majiagou Formation in southern Ordos Basin[J]. JOPC, 2020, 22(6): 1041-1054.
[1] 陈道公. 2009. 地球化学. 合肥: 中国科学技术大学出版社. [Chen D G. 2009. Geochemistry. Hefei: Press of University of Science and Technology of China] [2] 丁茜,胡秀芳,高奇东,叶瑛,张平萍. 2019. 塔里木盆地奥陶系碳酸盐岩热液蚀变类型及蚀变流体的分带特征. 浙江大学学报(理学版), 46(5): 600-609. [Ding Q,Hu X F,Gao Q D,Ye Y,Zhang P P.2019. The hydrothermal alteration types and zoning features of Ordovician carbonate in Tarim Basin. Journal of Zhejiang University(Science Edition), 46(5): 600-609] [3] 方继瑶,陈洪德,史云鹤,李磊,邓翔,苏中堂. 2019. 鄂尔多斯盆地宜川—黄龙地区马家沟组古岩溶储集层特征及形成机理. 地球科学与环境学报, 41(1): 83-95. [Fang J Y,Chen H D,Shi Y H,Li L,Deng X,Su Z T.2019. Characteristics and forming mechanism of paleokarst reservoir of Majiagou Formation in Yichuan-Huanglong area of Ordos Basin,China. Journal of Earth Sciences and Environment, 41(1): 83-95] [4] 付斯一,张成弓,陈洪德,陈安清,赵俊兴,苏中堂,杨帅,王果,密文天. 2019. 鄂尔多斯盆地中东部奥陶系马家沟组五段盐下白云岩储集层特征及其形成演化. 石油勘探与开发, 46(6): 1087-1098. [Fu S Y,Zhang C G,Chen H D,Chen A Q,Zhao J X,Su Z T,Yang S,Wang G,Mi T W.2019. Characteristics,formation and evolution of pre-salt dolomite reservoirs in the fifth member of the Ordovician Majiagou Formation,mid-east Ordos Basin,NW China. Petroleum Exploration and Development, 46(6): 1087-1098] [5] 高奇东. 2010. 塔里木盆地奥陶系碳酸盐岩热液蚀变的地质与地球化学特征研究. 浙江大学硕士学位论文[Gao Q D. 2010. Research on geological and geochemical characteristics of the hydrothermal alteration carbonate in Ordovician in Tarim Basin. Masteral dissertation of Zhejiang University] [6] 郭彦如,付金华,魏新善,徐旺林,孙六一,刘俊榜,赵振宇,张月巧,高建荣,张延玲. 2014. 鄂尔多斯盆地奥陶系碳酸盐岩成藏特征与模式. 石油勘探与开发, 41(4): 393-403. [Guo Y R,Fu J H,Wei X S,Xu W L,Sun L Y,Liu J B,Zhao Z Y,Zhang Y Q,Gao J R,Zhang Y L.2014. Natural gas accumulation and models in Ordovician carbonates,Ordos Basin,China. Petroleum Exploration and Development, 41(4): 393-403] [7] 何自新. 2003. 鄂尔多斯盆地演化与油气. 北京: 石油工业出版社. [He Z X. 2003. Evolution,Oil and Gas of Ordos Basin. Beijing: Petroleum Industry Press] [8] 贺聪,吉利明,苏奥,刘颖,李剑锋,吴远东,张明震. 2017. 鄂尔多斯盆地南部延长组热水沉积作用与烃源岩发育的关系. 地学前缘, 24(6): 277-285. [He C,Ji L M,Su A,Liu Y,Li J F,Wu Y D,Zhang M Z.2017. Relationship between hydrothermal sedimentation process and source rock development in the Yanchang Formation in southern Ordos Basin. Earth Science Frontiers, 24(6): 277-285] [9] 黄擎宇,张哨楠,丁晓琪,段杰,向雷. 2010. 鄂尔多斯盆地西南缘奥陶系马家沟组白云岩成因研究. 石油实验地质, 32(2): 147-153,158. [Huang Q Y,Zhang S N,Ding X Q,Duan J,Xiang L.2010. Origin of dolomite of Ordovician Majiagou Formation,western and southern margin of the Ordos Basin. Petroleum Geology & Experiment, 32(2): 147-153,158] [10] 黄正良,包洪平,任军峰,白海峰,武春英. 2011. 鄂尔多斯盆地南部奥陶系马家沟组白云岩特征及成因机理分析. 现代地质, 25(5): 925-930. [Huang Z L,Bao H P,Ren J F,Bai H F,Wu C Y.2011. Characteristics and genesis of dolomite in Majiagou Formation of Ordovician,south of Ordos Basin. Geoscience, 25(5): 925-930] [11] 金振奎,余宽宏. 2011. 白云岩储集层埋藏溶蚀作用特征及意义: 以塔里木盆地东部下古生界为例. 石油勘探与开发, 38(4): 428-434. [Jin Z K,Yu K H.2011. Characteristics and significance of the burial dissolution of dolomite reservoirs: Taking the Lower Palaeozoic in eastern Tarim Basin as an example. Petroleum Exploration and Development, 38(4): 428-434] [12] 李凤杰,杜凌春,赵俊兴,李跃刚,向芳,李浮萍. 2016. 鄂尔多斯盆地苏东地区马家沟组五段5亚段白云岩成因. 石油学报, 37(3): 328-338. [Li F J,Du L C,Zhao J X,Li Y G,Xiang F,Li F P.2016. Dolomite genesis in Member Ma 55 of Majiagou Formation,Sudong area,Ordos Basin. Acta Petrolei Sinica, 37(3): 328-338] [13] 李国欣,赵太平,石玉江,胡琮,陈阵,凡雪纯,李栋,赖锦. 2018. 鄂尔多斯盆地马家沟组碳酸盐岩储集层成岩相测井识别评价. 石油学报, 39(10): 1141-1154. [Li G X,Zhao T P,Shi Y J,Hu Z,Chen Z,Fan X C,Li D,Lai J.2018. Diagenetic facies logging recognition and evaluation of carbonate reservoirs in Majiagou Formation, Ordos Basin. Acta Petrolei Sinica, 39(10): 1141-1154] [14] 李明,高建荣. 2010. 鄂尔多斯盆地基底断裂与火山岩的分布. 中国科学: 地球科学, 40(8): 1005-1013. [Li M,Gao J R.2010. Basement faults and volcanic rock distributions in the Ordos Basin. Science China: Earth Science, 40(8): 1005-1013] [15] 李勇,王兴志,冯明友,曾德铭,谢圣阳,凡睿,王良军,曾韬,杨雪飞. 2019. 四川盆地北部及周缘地区震旦系灯影组灯二、灯四段储集层特征及成因差异. 石油勘探与开发, 46(1): 1-13. [Li Y,Wang X Z,Feng M Y,Zeng D M,Xie S Y,Fan R,Wang L J,Zeng T,Yang X F.2019. Reservoir characteristics and genetic differences between the second and fourth Members of Sinian Dengying Formation in northern Sichuan and its surrounding areas. Petroleum Exploration and Development, 46(1): 1-13] [16] 潘文庆,胡秀芳,刘亚雷,高奇东,叶瑛. 2012. 塔里木盆地西北缘奥陶系碳酸盐岩中两种来源热流体的地质与地球化学证据. 岩石学报, 28(8): 2515-2524. [Pan W Q,Hu X F,Liu Y L,Gao Q D,Ye Y.2012. Geological and geochemical evidences for two sources of hydrothermal fluids found in Ordovician carbonate rocks in northwestern Tarim Basin. Acta Petrologica Sinica, 28(8): 2515-2524] [17] 任战利,张盛,高胜利,崔军平,刘新社. 2006. 鄂尔多斯盆地热演化程度异常分布区及形成时期探讨. 地质学报,80(5): 674-684. [Ren Z L,Zhang S,Gao S L,Cui J P,Liu X S.2006. Research on region of maturation anomaly and formation time in Ordos Basin. Acta Geologica Sinica,80(5): 674-684] [18] 沈安江,周进高,辛勇光,罗宪婴. 2008. 四川盆地雷口坡组白云岩储集层类型及成因. 海相油气地质, 13(4): 19-28. [Shen A J,Zhou J G,Xin Y G,Luo X Y.2008. Origin of Triassic Leikoupo dolostone reservoirs in Sichuan Basin. Marine Origin Petroleum Geology, 13(4): 19-28] [19] 沈安江,郑剑锋,陈永权,倪新锋,黄理力. 2016. 塔里木盆地中下寒武统白云岩储集层特征、成因及分布. 石油勘探与开发, 43(3): 340-349. [Shen A J,Zheng J F,Chen Y Q,Ni X F,Huang L L.2016. Characteristics,origin and distribution of dolomite reservoirs in Lower-Middle Cambrian,Tarim Basin,NW China. Petroleum Exploration and Development, 43(3): 340-349] [20] 孙玉景,周立发. 2018. 鄂尔多斯盆地马五段膏盐岩沉积对天然气成藏的影响. 岩性油气藏, 30(6): 67-75. [Sun Y J,Zhou L F.2018. Influences of gypsum-salt deposition on gas accumulation of the fifth member of Majiagou Formation in Ordos Basin. Lithologic Reservoirs, 30(6): 67-75] [21] 王坤,胡素云,胡再元,刘伟,黄擎宇,石书缘,马奎,李梅. 2016. 塔里木盆地古城地区寒武系热液作用及其对储集层发育的影响. 石油学报, 37(4): 439-453. [Wang K,Hu S Y,Hu Z Y,Liu W,Huang Q Y,Shi S Y,Ma K,Li M.2016. Cambrian hydrothermal action in Gucheng area,Tarim Basin and its influences on reservoir development. Acta Petrolei Sinica, 37(4): 439-453] [22] 王琪,许勇,刘新社,马东旭,马晓峰,李树同. 2016. 岩溶背景下的优质天然气储集层形成机理及主控因素: 以鄂尔多斯盆地奥陶系马家沟组马五_4~1储集层为例. 天然气地球科学, 27(12): 2103-2114. [Wang Q,Xu Y,Liu X S,Ma D X,Ma X F,Li S T.2016. Forming mechanism and main controlling factors on the high-quality gas reservoirs restricted by paleokarst background: A case from Ordovician M<inline-formula><mml:math xmlns:mml="http://www.w3.org/1998/Math/MathML" id="Mml4-1671-1505-22-6-1053"><mml:msubsup><mml:mrow><mml:mn>5</mml:mn></mml:mrow><mml:mrow><mml:mn>4</mml:mn></mml:mrow><mml:mrow><mml:mn>1</mml:mn></mml:mrow></mml:msubsup></mml:math></inline-formula> carbonate. Ordos Basin. Natural Gas Geoscience, 27(12): 2103-2114] [23] 王玉萍,董春梅,陈洪德,苏中堂,张长俊,郝哲敏. 2014. 鄂尔多斯盆地中西部奥陶纪热液活动的证据及其对储集层发育的影响. 海相油气地质, 19(2): 23-31. [Wang Y P,Dong C M,Chen H D,Su Z T,Zhang C J,Hao Z M.2014. Petrological evidence of Ordovician hydrothermal activities and its geological significance to reservoir development in central and western parts of Ordos Basin. Marine Origin Petroleum Geology, 19(2): 23-31] [24] 魏新善,陈洪德,张道锋,代榕,郭彦如,陈娟萍,任军峰,柳娜,罗顺社,赵俊兴. 2017. 致密碳酸盐岩储集层特征与天然气勘探潜力: 以鄂尔多斯盆地伊陕斜坡东部奥陶系马家沟组为例. 石油勘探与开发, 44(3): 319-329. [Wei X S,Chen H D,Zhang D F,Dai R,Guo Y R,Chen J P,Ren J F,Liu N,Luo S S,Zhao J X.2017. Gas exploration potential of tight carbonate reservoirs: A case study of Ordovician Majiagou Formation in the eastern Yi-Shan slope,Ordos Basin,NW China. Petroleum Exploration and Development, 44(3): 319-329] [25] 吴和源,汪建国,王培玺,赵宗举,龚发雄. 2018. 渤海湾盆地南堡凹陷中—下寒武统白云岩成因及储集层形成机理. 石油学报, 39(4): 416-426. [Wu H Y,Wang J G,Wang P X, Zhao Z J, Gong F X.2018. Genesis of dolomite reservoir of Middle-Lower Cambrian in Nanpu sag,Bohai Bay Basin. Acta Petrolei Sinica, 39(4): 416-426] [26] 吴茂炳,王毅,郑孟林,张卫彪,刘春燕. 2007. 塔中地区奥陶纪碳酸盐岩热液岩溶及其对储集层的影响. 中国科学(D辑: 地球科学),37(S1): 83-92. [Wu M B,Wang Y,Zheng M L,Zhang W B,Liu C Y.2007. Hydrothermal fluid karst and influences to reservoir in Ordovician carbonate rocks of Tazhong area. Science in China(Seri.D),37(S1): 83-92] [27] 杨华,包洪平. 2011. 鄂尔多斯盆地奥陶系中组合成藏特征及勘探启示. 天然气工业, 31(12): 11-20,124. [Yang H,Bao H P.2011. Characteristics of hydrocarbon accumulation in the Middle Ordovician assemblages and their significance for gas exploration in the Ordos Basin. Natural Gas Industry, 31(12): 11-20,124] [28] 杨华,刘新社,张道锋. 2013. 鄂尔多斯盆地奥陶系海相碳酸盐岩天然气成藏主控因素及勘探进展. 天然气工业, 33(5): 1-12. [Yang H,Liu X H,Zhang D F.2013. Main controlling factors of gas pooling in Ordovician marine carbonate reservoirs in the Ordos Basin. Natural Gas Industry, 33(5): 1-12] [29] 杨俊杰. 2002. 鄂尔多斯盆地构造演化与油气分布规律. 北京: 石油工业出版社. [Yang J J. 2002. Tectonic Evolution and Oil-gas Distribution in Ordos Basin. Beijing: Petroluem Industry Press] [30] 伊硕,黄文辉,王一刚,文应初. 2018. 延安以南地区奥陶系碳酸盐岩储集层中流体包裹体及烃类物质的油气指示意义. 油气地质与采收率, 25(6): 38-44. [Yi S,Huang W H,Wang Y G,Wen Y C.2018. Fluid inclusions and hydrocarbons in Ordovician carbonate reservoirs in the South of Yan,an and its implication for oil and gas. Petroleum Geology and Recovery Efficiency, 25(6): 38-44] [31] 张福礼. 2002. 鄂尔多斯盆地早古生代复合的古构造体系与天然气. 地质力学学报,8(3): 193-200. [Zhang F L.2002. Compound ancient tectonic system and natural gas of Early Paleozoic in Ordos Basin. Journal of Geomechanics,8(3): 193-200] [32] 赵文智,沈安江,胡素云,张宝民,潘文庆,周进高,汪泽成. 2012. 中国碳酸盐岩储集层大型化发育的地质条件与分布特征. 石油勘探与开发, 39(1): 1-12. [Zhao W Z,Shen A J,Hu S Y,Zhang B M,Pan W Q,Zhou J G,Wang Z C.2012. Geological conditions and distributional features of large-scale carbonate reservoirs onshore China. Petroleum Exploration and Development, 39(1): 1-12] [33] 赵文智,沈安江,郑剑锋,乔占峰,王小芳,陆俊明. 2014. 塔里木、四川及鄂尔多斯盆地白云岩储集层孔隙成因探讨及对储集层预测的指导意义. 中国科学: 地球科学, 44(9): 1925-1939. [Zhao W Z,Shen A J,Zheng J F,Qiao Z F,Wang X F,Lu J M.2014. The porosity origin of dolostone reservoirs in the Tarim,Sichuan and Ordos basins and its implication to reservoir prediction. Science China: Earth Sciences, 44(9): 1925-1939] [34] 郑和荣,刘春燕,吴茂炳,王毅. 2009. 塔里木盆地奥陶系颗粒石灰岩埋藏溶蚀作用. 石油学报, 30(1): 9-15. [Zheng H R,Liu C Y,Wu M B,Wang Y.2009. Burial dissolution of Ordovician granule limestone in Tarim Basin. Acta Petrolei Sinica, 30(1): 9-15] [35] 朱东亚,胡文瑄,张学丰,金之钧. 2007. 塔河油田奥陶系灰岩埋藏溶蚀作用特征. 石油学报, 28(5): 57-62. [Zhu D Y,Hu W X,Zhang X F,Jin Z J.2007. Characteristics of burial dissolution in the Ordovician limestone of Tahe Oilfield. Acta Petrolei Sinica, 28(5): 57-62] [36] 朱光有,张水昌,梁英波,马永生,戴金星,周国源. 2006. TSR对深部碳酸盐岩储集层的溶蚀改造: 四川盆地深部碳酸盐岩优质储集层形成的重要方式. 岩石学报,22(8): 2182-2194. [Zhu G Y,Zhang S C,Liang Y B,Ma Y S,Dai J X,Zhou G Y.2006. Dissolution and alteration of deep carbonate reservoirs by TSR: An important type of deep-buried high quality carbonate reservoirs in Sichuan Basin. Acta Petrologica Sinica,22(8): 2182-2194] [37] Hartwig F.2009. Trace element distribution in Neoproterozoic carbonates as palaeoenvironmental indicator. Chemical Geology, 258: 338-353. [38] Davies G R,Smith L B Jr.2006. Structurally controlled hydrothermal dolomite reservoir facies: An overview. AAPG Bulletin, 90(11): 1641-1690. [39] Lavoie D,Chi G X.2010. Lower Paleozoic foreland basins in eastern Canada: Tectono-thermal events recorded by faults,fluids and hydrothermal dolomites. Bulletin of Canadian Petroleum Geology, 58(1): 17-35. [40] Mazzullo S J.2004. Overview of porosity evolution in carbonate reservoirs. Kansas Geological Society Bulletin, 79: 20-28. [41] Smith L B Jr.2006. Origin and reservoir characteristics of Upper Ordovician Trenton-Black River hydrothermal dolomite reservoirs in New York. AAPG Bulletin, 90(11): 1691-1718. [42] Teinturier S,Elie M,Pironon J.2003. Oil-cracking processes evidence from synthetic petroleum inclusions. Journal of Geochemical Exploration, 78(3): 421-425. [43] Zhang S C,Zhu G Y,Liang Y B,Dai J X.2005. Geochemical characteristics of the Zhaolanzhuang sour gas accumulation and thermochemical sulfate reduction in the Jixian sag of Bohai Bay Basin. Organic Geochemistry, 36(11): 1717-1730.