Journal of Jilin University(Earth Science Edition) ›› 2021, Vol. 51 ›› Issue (4): 973-990.doi: 10.13278/j.cnki.jjuese.20200182

Previous Articles     Next Articles

Genesis Mechanism of Authigenic Minerals in Deep Clastic Rocks and Its Influence on Reservoir Physical Property: An Example from the Jurassic in Qinan Fault Step Belt, Bohai Sea, China

Guo Ying, Yang Bo, Han Zijun, Li Guoying, Wu Qingxun, Ye Tao   

  1. Tianjin Branch, CNOOC China Limited, Tianjin 300459, China
  • Received:2020-08-06 Online:2021-07-26 Published:2021-08-02
  • Supported by:
    Supported by the National Science and Technology Major Project (2016ZX05024-003)

Abstract: The characteristics and genetic mechanism of authigenic mineralshave important influence on the physical properties of deep clastic rock reservoirs. By taking the Jurassic clastic reservoirsin Qinan fault step belt of Qikou sag, offshore Bohai Sea as anexample, the types, characteristics, genetic mechanism of authigenic minerals, and their controlling effect on the development of high-quality reservoirs were studied on the basis of core observation, thin section identification, scanning electron microscope, electron probe, isotope, inclusion, and X-diffraction analyses. The results show that the Jurassic clastic reservoirs in the study area have moderate porosity and low permeability with strong heterogeneity. The main types of authigenic minerals are siliceous minerals, carbonate minerals, and clay minerals. The early microcrystalline quartz liners are distributed along the surface of the particles that effectively inhibited the overgrowth of late quartz and enhanced the resistance to compactionof the rock, which was beneficial to the preservation of primary pores; The early carbonate cementation enhanced the anti-compaction ability of the reservoirs, and provided the material foundation for the formation of dissolution pores generated by the late dissolution, which was conducive to the formation of high-porosity reservoirs; The clay minerals controlled the difference in reservoir permeability, which is positively correlated with the content of authigenic kaolinite. The reservoirs with higher permeability are distributed in the kaolinite enrichment zone in the middle part of the Jurassic. Two types of favorable reservoirs are developed in the study area:Type Ⅰ is with high content primary poresand well-developed microcrystalline quartz gaskets; Type Ⅱ is with more developed intergranular dissolution pores and more obvious epidiagenesis characteristics, and they are significantly different in pore evolution. Type Ⅰis mainly controlled by the compaction resistance of the microcrystalline quartz liners in the early to middle diagenesis stage, and the high-porosity reservoirs can be developed in both shallow and deep layers; Type Ⅱ is mainly controlled by the weathering and leaching in the supergene stage, and high-quality reservoirs can be formed near the weathering crust. Type Ⅰ reservoir has better physical properties than type Ⅱ.

Key words: authigenic minerals, genesis mechanism, reservoir physical property, Qinan fault step belt, Jurassic, deep clastic

CLC Number: 

  • P544
[1] 贾承造.关于中国当前油气勘探的几个重要问题[J].石油学报,2012,33(1):7-12. Jia Chengzao. Several Important Issues About Current Oil and Gas Exploration in China[J]. Acta Petrolei Sinica, 2012,33(1):7-12.
[2] 戴金星,倪云燕,吴小奇.中国致密砂岩气及在勘探开发上的重要意义[J].石油勘探与开发,2012,39(3):257-264. Dai Jinxing, Ni Yunyan, Wu Xiaoqi. Tight Gas in China and Its Significance in Exploration and Exploitation[J]. Petroleum Exploration and Development, 2012,39(3):257-264.
[3] 陈冬霞,庞雄奇,杨克明,等.川西坳陷深层叠复连续型致密砂岩气藏成因及形成过程[J].吉林大学学报(地球科学版),2016,46(6):1611-1623. Chen Dongxia, Pang Xiongqi, Yang Keming, et al. Genetic Mechanism and Formation of Superimposed Continuous Tight Sandstone Reservoir in Deep Xujiahe Formation in Western Sichuan Depression[J]. Journal of Jilin University(Earth Science Edition),2016,46(6):1611-1623.
[4] 孙靖,宋永,王仕莉,等.准噶尔盆地深层致密油储层特征及致密化成因:以莫索湾-莫北地区侏罗系八道湾组为例[J].吉林大学学报(地球科学版),2017,47(1):25-33. Sun Jing, Song Yong, Wang Shili, et al. Deep Tight Oil Reservoir Characteristics and Densification Causes in Junggar Bain:A Case from Jurassic Badaowan Formation in Mosuowan-Mobei Area[J]. Journal of Jilin University (Earth Science Edition), 2017,47(1):25-33.
[5] 蒲秀刚,周立宏,王文革,等.黄骅坳陷歧口凹陷斜坡区中深层碎屑岩储集层特征[J].石油勘探与开发,2013,40(1):36-48. Pu Xiugang, Zhou Lihong, Wang Wenge, et al. Medium-Deep Clastic Reservoirs in the Slope Area of Qikou Sag, Huanghua Depression, Bohai Bay Basin[J]. Petroleum Exploration and Development, 2013, 40(1):36-48.
[6] 张航,廖明光,姚泾利,等.致密砂岩储层自生矿物特征及其对储集性能的影响:以鄂尔多斯盆地陇东地区长3油组为例[J].沉积与特提斯地质,2017,37(3):23-31. Zhang Hang,Liao Mingguang,Yao Jingli, et al. Authigenic Minerals and Their Influences on the Physical Properties of Tight Sandstone Reservoirs:An Example from the Chang-3 Oil Reservoirs in the Longdong Region, Ordos Basin[J]. Sedimentary Geology and Tethyan Geology,2017,37(3):23-31.
[7] 黄思静,黄培培,王庆东,等.胶结作用在深埋藏砂岩孔隙保存中的意义[J].岩性油气藏,2007,19(3):7-13. Huang Sijing, Huang Peipei, Wang Qingdong, et al. The Significance of Cementation in Porosity Preservation in Deep-Buried Sandstones[J]. Lithologic Reservoirs,2007, 19(3):7-13.
[8] 孙治雷,黄思静,张玉修,等.四川盆地须家河组砂岩储层中自生绿泥石的来源与成岩演化[J].沉积学报,2008,26(3):469-468. Sun Zhilei, Huang Sijing, Zhang Yuxiu, et al. Origin and Diagenesis of Authigenic Chlorite Within the Sandstone Reservoirs of Xujiahe Formation,Sichuan Basin, China[J]. Acta Sedimentological Sinica, 2008,26(3):469-468.
[9] 李云,胡作维.深层砂岩储层中微晶石英包膜的形成及其对原生粒间孔隙的保存意义[J].地质科技情报,2014,33(3):87-92. Li Yun, Hu Zuowei. Formation of the Microcrystalline Quarta Coatings and Its Protection of the Primary Intergranular Porosity in the Deeply-Buried Sandstone Reservoirs[J]. Geological Science and Technology Information, 2014,33(3):87-92.
[10] 杨威,魏国齐,赵杏媛,等.碎屑岩储层中自生绿泥石衬边能抑制石英次生加大吗:以四川盆地须家河组砂岩储层为例[J].石油学报,2013,34(增刊1):128-135. Yang Wei, Wei Guoqi, Zhao Xingyuan, et al. Can Authigenic Pore-Lining Chlorite Restrain Quartz Overgrowth in Clastic Reservoir:A Case Study of Sandstone Reservoir in Xujiahe Formation, Sichuan Basin[J]. Acta Petrolei Sinica, 2013,34(Sup.1):128-135.
[11] 伏万军.黏土矿物成因及对砂岩储集性能的影响[J].古地理学报,2000,2(3):59-68. Fu Wanjun. Influence of Clay Minerals on Sandstone Reservoir Properties[J]. Journal of Palaeogeography,2000,2(3):59-68.
[12] 陈鑫,钟建华,袁静,等.渤南洼陷深层碎屑岩储集层中的黏土矿物特征及油气意义[J].石油学报,2009,30(2):201-207. Chen Xin, Zhong Jianhua, Yuan Jing, et al. Characteristics of Clay Mineral and Its Hydrocarbon Significance in Paleogene Clastic Reservoir of Bonan Sag[J]. Acta Petrolei Sinica, 2009,30(2):201-207.
[13] 远光辉,操应长,贾珍臻,等.含油气盆地中深层碎屑岩储层异常高孔带研究进展[J].天然气地球科学,2015,26(1):28-42. Yuan Guanghui, Cao Yingchang, Jia Zhenzhen, et al. Research Progress on Anomalously High Porosity Zones in Deeply Buried Clastic Reservoirs in Petroliferous Basin[J]. Natural Gas Geoscience,2015,26(1):28-42.
[14] 邓运华.歧南断阶带油气聚集因素探讨[J].中国海上油气,1995,9(4):246-252. Deng Yunhua. Discussions on the Factors Controlling Hydrocarbon Accumulation in Qinan Fault Step Belt[J].China Offshore Oil and Gas,1995,9(4):246-252.
[15] 周立宏,卢异,肖敦清,等.渤海湾盆地歧口凹陷盆地结构构造及演化[J].天然气地球科学,2011,22(3):373-382. Zhou Lihong, Lu Yi, Xiao Dunqing, et al. Basinal Texture Ttructure of Qikou Sag in Bohai Bay Basin and Its Evolution[J]. Natural Gas Geoscience,2011,22(3):373-382.
[16] 周静,吕大炜,陈龙,等.渤海海域区前古近纪构造对上古生界-中生界烃源岩的影响[J].石油实验地质,2013,35(2):146-156. Zhou Jing, Lü Dawei, Chen Long, et al. Influence of Pre-Paleogene Tectonics on Upper Paleozoic-Mesozoic Source Rocks in Bohai Sea Area[J]. Petroleum Experimental Geology, 2013,35(2):146-156.
[17] Rikke W, Henrik F, Kazerouni M A, et al. Development of Early Diagenetic Silica and Quartz Morphologies:Examples from the Siri Canyon,Danish North Sea[J]. Sedimentary Geology,2010,228(3/4):151-170.
[18] Worden R H, French M W, Marinal E. Amorphous Silica Nanofilms Result in Growth of Misoriented Microcrystalline Quartz Cement Maintaining Porosity in Deeply Buried Sandstones[J]. Geology, 2012,40(2):179-182.
[19] 蒙启安,李军辉,李跃,等.海拉尔-塔木察格盆地中部富油凹陷高含凝灰质碎屑岩储层成因及油气勘探意义[J]. 吉林大学学报(地球科学版),2020,50(2):569-578. Meng Qi'an, Li Junhui, Li Yue, et al. Genetic Mechanism of High Content Tuffaceous Clastic Rock Reservoir in Hailar-Tamucage Basin[J]. Journal of Jilin University (Earth Science Edition),2020,50(2):569-578.
[20] 张善文.成岩过程中的"耗水作用"及其石油地质意义[J].油气地球物理,2006, 4(4):1-6. Zhang Shanwen. "Water Consumption" and Its Oil Geologic Meaning in Digenetic Stage[J]. Petroleum Geophysics, 2006,4(4):1-6.
[21] 张永旺,李峰,曲正阳.东营凹陷碎屑岩储层长石溶蚀、Al迁移富集特征[J].现代地质,2018,32(2):357-363. Zhang Yongwang, Li Feng, Qu Zhengyang. Characteristics of the Feldspar Corrosion and Migration Enrichment of Al in the Clastic Reservoir of Dongying Depression[J]. Geoscience, 2018,32(2):357-363.
[22] French M W, Worden R H, Mariani E, et al. Microcrystalline Quartz Generation and the Preservation of Porosity in Sandstones:Evidence from the Upper Cretaceous of the Subhercynian Basin, Germany[J]. Journal of Sedimentary Research, 2012,82(6):422-434.
[23] 闫志为,刘辉利,张志卫.温度及CO2 对方解石、白云石溶解度影响特征分析[J].中国岩溶,2009,28(1):7-10. Yan Zhiwei, Liu Huili, Zhang Zhiwei. Influences of Temperature and CO2 on the Solubility of Calcite and Dolomite[J]. Carsologica Sinica,2009,28(1):7-10.
[24] Chuhan F A, Bjorlykke K, Lowrey C. The Role Provenance in Illitization of Deeply Buried Reservoir Sandstones from Haltenbanken and North Viking Graben, Offshore Norway[J]. Marine and Petroleum Geology, 2000,17(6):673-689.
[25] 黄思静,黄可可,冯文立,等.成岩过程中长石、高岭石、伊利石之间的物质交换与次生孔隙的形成:来自鄂尔多斯盆地上古生界和川西凹陷三叠系须家河组的研究[J].地球化学,2009,38(5):498-506. Huang Sijing, Hunag Keke, Feng Wenli, et al. Mass Exchanges Among Feldspar, Kaolinite and Illinte and Their Influences on Secondary Porosity Formation in Clastic Diagenesis:A Case Study on the Upper Paleozoic, Ordos Basin and Xujiahe Formation, Western Sichuan Depression[J]. Geochinica, 2009,38(5):498-506.
[26] Carothers W W, Adami L H, Rosenbauer R J. Experimental Oxygen Isotope Fractionation Between Siderite-Water and Phosphoric Acid Liberated CO2-Siderite[J]. Geochimica et Cosmochimica Acta, 1988,52(10):2445-2450.
[27] 陈秀艳,王剑,张立平,等. 塔里木盆地哈拉哈塘地区石炭系东河砂岩段碳酸盐胶结物沉积特征及其成因[J]. 吉林大学学报(地球科学版),2020,50(2):509-517. Chen Xiuyan, Wang Jian, Zhang Liping, et al. Sedimentary Characteristics and Genesis of Carbonate Cements in Carboniferous Donghe Sandstone Member,Hanilcatam Area of Tarim Basin[J]. Journal of Jilin University (Earth Science Edition), 2020,50(2):509-517.
[28] 胡作维,李云,黄思静,等.颗粒包膜在深埋藏砂岩储层原生孔隙保存中的意义[J].矿物岩石地球化学通报,2012,31(6):640-648. Hu Zuowei, Li Yun, Huang Sijing, et al. The Significance of the Grain Coating in Preserving the Primary Porosity in Deeply Buried Sandstone Reservoirs[J]. Bulletin of Mineralogy, Petrology and Geochemistry, 2012,31(6):640-648.
[29] 杨海军,刘永福,苏洲,等.塔北隆起深层碎屑岩优质储层形成主控因素[J].地质论评,2020,66(1):169-179. Yang Haijun, Liu Yongfu, Su Zhou, et al. The Main Controlling Factors for the Formation of High Quality Clastic Reservoirs in Deeply Buried Strata of Tabei Uplift[J]. Geological Review,2020,66(1):169-179.
[30] 崔景伟,朱如凯. 致密砂岩层内强钙质胶结物成因机制及其意义:以鄂尔多斯盆地三叠系延长组长7油层组为例[J].吉林大学学报(地球科学版),2020,50(4):957-967. Cui Jingwei, Zhu Rukai. Mecanism of Strong Calcium Cementation in Tight Sandstone and Its Significance:A Case Study on Triassic Chang 7 Oil Formation of Yanchang Formation in Ordos Basin[J]. Journal of Jilin University (Earth Science Edition),2020,50(4):957-967.
[31] 李明刚,禚喜准,陈刚,等.恩平凹陷珠海组储层的孔隙度演化模型[J].石油学报,2009,30(6):862-868. Li Minggang, Zhuo Xizhun, Chen Gang, et al. Applicationg of Porosity Evolution Model to Reservoir Assessment of Zhuhai Formation in Enping Sag[J]. Acta Petrolei Sinica, 2009,30(6):862-868.
[32] 王艳忠,操应长,葸克来,等.碎屑岩储层地质历史时期孔隙度演化恢复方法:以济阳坳陷东营凹陷沙河街组四段上亚段为例[J].石油学报,2013,34(6):1100-1111. Wang Yanzhong, Cao Yingchang, Xi Kelai, et al. A Recovery Method for Porosity Evolution of Clasitc Reservoirs with Geological Time:A Case Study from the Upper Submember of Es4 in the Dongying Depression, Jiyang Subbasin[J]. Acta Petrolei Sinica, 2013,34(6):1100-1111.
[33] Scherer M. Parameters Influencing Porosity in Sandstones:A Model for Sandstone Porosity Prediction[J]. AAPG Bulletin,1987,71(5):485-491.
[1] Zhao Yue, Liu Jingdang, Zhang Guobin, Zhang Yanfei. Geochronology,Geochemistry and Tectonic Significance of the Monzonitic Granites of Maoershan Pluton from the Southern Zhangguangcai Range in Heilongjiang Province, China [J]. Journal of Jilin University(Earth Science Edition), 2021, 51(4): 1098-1118.
[2] Yu Changsheng, Yang Yanchen, Han Shijiong, Yang Kunlin, Song Zhaoyang, Zhang Yihang, Wang Wang. Petrogenesis of Moyite from Xiagalaiaoyi Pb-Zn Deposit in Great Xing’an Range and Its Geological Significance [J]. Journal of Jilin University(Earth Science Edition), 2020, 50(4): 1042-1058.
[3] Shi Lu, Tang Zhen, Zheng Changqing, Qin Tao, Zhang Lidong, Wang Yan, Qian Cheng, Yang Fan. Genesis and Tectonic Significance of Late Jurassic Granitoids in Chaihe Region, Central Great Xing'an Range, NE China [J]. Journal of Jilin University(Earth Science Edition), 2020, 50(1): 112-128.
[4] Niu Haiqing, Han Xiaofeng, Xiao Bo, Wei Jianshe, Zhang Huiyuan, Wang Baowen. Evaluation of Hydrocarbon Generation and Geochemical Characteristics of Coal-Measure Source Rocks,Zhongkouzi Basin in Beishan Area [J]. Journal of Jilin University(Earth Science Edition), 2019, 49(4): 970-981.
[5] Xiao Guolin, Cai Laixing, Guo Xingwei, Dong Heping, Pang Yumao. Exploration Enlightenment on Residual “Black Jurassic” in Chinese Offshore from Exploration Breakthrough in Eastern Sag of the North Yellow Sea Basin [J]. Journal of Jilin University(Earth Science Edition), 2019, 49(1): 115-130.
[6] Yang Xiaoping, Zhang Wenlong, Wang Yan, Tan Hongyan. Organic Matter Evaluation of Source Rocks in Middle Jurassic Northern Mohe Basin [J]. Journal of Jilin University(Earth Science Edition), 2018, 48(6): 1635-1644.
[7] Chen Aimin. Hydrocarbon Accumulation Condition and Controlling Factors of Block WA-406-P in Bonaparte Basin, Australia [J]. Journal of Jilin University(Earth Science Edition), 2018, 48(4): 965-980.
[8] Zhao Yuandong, Che Jiying, Wu Datian, Xu Fengming, Zhao Jun, Li Shichao. Early-Middle Jurassic TTG Granites in Northwest of Lesser Xing'an Range: Its Geochronology, Geochemical Characteristics and Tectonic Significance [J]. Journal of Jilin University(Earth Science Edition), 2017, 47(4): 1119-1137.
[9] Zhao Yande, Qi Yalin, Luo Anxiang, Cheng Dangxing, Li Jihong, Huang Jinxiu. Application of Fluid Inclusions and Dating of Authigenic Illite in Reconstruction Jurassic Reservoirs Hydrocarbon Filling History,Ordos Basin [J]. Journal of Jilin University(Earth Science Edition), 2016, 46(6): 1637-1648.
[10] Wu Jianhua, Xie Kairui, Zhu Hongtao, Wu Rengui, Liu Shuai. Petrogenesis of Rhyolite from Hongshanzi Basin in Southern Greater Xing'an Range: Elements and Sr-Nd-Pb Isotope Constraints [J]. Journal of Jilin University(Earth Science Edition), 2016, 46(6): 1724-1739.
[11] Gao Shuai, Ma Shizhong, Pang Xiongqi, Gong Lei, Chen Changxu, Gao Ang, Qin Qi. Quantitative Analysis on Jurassic Reservoir Controlling Factors and Prediction of Favorable Reservoir Areas in Junggar Basin [J]. Journal of Jilin University(Earth Science Edition), 2016, 46(1): 36-45.
[12] Ma Boyong, Wang Genhou, Li Shanglin, Xu Hongyan. Characteristics of Mixed Sedimentations and Diagenesis of Terrigenous Clastic Rock and Carbonate:The Middle Jurassic in the East Qiangtang Basin, Tibet, China [J]. Journal of Jilin University(Earth Science Edition), 2015, 45(5): 1310-1321.
[13] Song Weimin, Pang Xuejiao, Fu Junyu, Tao Nan, Yang Jialin, Du Jiyu, Wu Tong. Zircon U-Pb Geochronology,Geochemistry and Dynamics of the Alkali Feldspar Granite in Horqin Right Wing Middle Banner of Inner Mongolia, with Implications for the Geodynamic Setting [J]. Journal of Jilin University(Earth Science Edition), 2015, 45(3): 847-859.
[14] Xu Zhongjie, Cheng Rihui, Wang Liaoliang, Zhang Li. Mineral and Elemental Geochemistry Records of the Paleoclimate and the Tectonic Background in Late Triassic Xiaoshui Formation-Early Jurassic Jinji Formation in East Guangdong [J]. Journal of Jilin University(Earth Science Edition), 2015, 45(3): 712-723.
[15] Li Zhenhong, Dong Shuwen, Qu Hongjie. Sedimentary Evidences of Jurassic Orogenic Process and Key Time Limit on the Northern Margin of North China Craton [J]. Journal of Jilin University(Earth Science Edition), 2014, 44(5): 1553-1574.
Viewed
Full text


Abstract

Cited

  Shared   
  Discussed   
[1] TANG Jie, L Chuan, LI Zhao-yang, WANG Chen-ye, ZHANG Jing-cheng,LI Hai-yi. Evaluation of Eco-Environmental Quality Based on Coupling of Gray-Clustering and 3S Method-A Case Study on Da’an, Jilin Province[J]. J4, 2008, 38(6): 1037 -1043 .
[2] SHU Long-cang, LI Wei. Analysis on the Stochastic Characteristic of the Hydrauic Conductivity of Bottom Stratum, Beitang Reservoir, Tianjin City[J]. J4, 2007, 37(2): 216 -0220 .
[3] WANG Jin-sheng,TENG Yan-guo,WU Dong-jie. Numerical Simulation Model of Immobile Water and Non-Equilibrium Sorption on the Solute Transport-MIENESOR[J]. J4, 2007, 37(2): 266 -270 .
[4] SU Xiao-si, LIN Xue-yu, DONG Wei-hong, WAN Yu-yu. Application of Inverse Geochemical Modeling in the Correction of Groundwater 14C Dating:advances and Thoughts[J]. J4, 2007, 37(2): 271 -277 .
[5] LIU Hang-jun,LIU Zhi-hong,FENG Yong-jiu, REN Yan-guang, LI Chun-bai. Structural Characteristics and Deformation Sequence of the Urxun Sag in Hailaer Basin, China[J]. J4, 2006, 36(02): 215 -0220 .
[6] YANG Jun-peng, HU Ke, LIU Yu-ying. The Stable Carbon Isotopic Characteristics of Carbonates in Salini alkani Soil in the West Jilin Province[J]. J4, 2006, 36(02): 245 -0249 .
[7] LIU Zhao-shun, SHANG Jin-cheng, XU Wen-liang, JIN Ke. Analysis of Coordinated Development Between Resourceful County Economy and Ecoenvironment in Eastern Jilin Province[J]. J4, 2006, 36(02): 265 -0269 .
[8] LIU Jin-hui, SUN Zhan-xue, SHI Wei-jun. The Discussions on Some Problems of Sandstone Type Uranium Ore by Using Uranium Isotopes[J]. J4, 2006, 36(04): 516 -520 .
[9] LI Xue-ping, TANG Hui-ming. Application of GIS[CD*2]Based Grouped Data Logistic Model in Evaluation of Slope Stability[J]. J4, 2005, 35(03): 361 -0365 .
[10] YANG Chun-mei, LI Hong-qi,LU Da-wei,ZHANG Fang-li,GAO Yuan,SHAO Ying-chao. The Relationship Between Rock Resistivity and Water Saturation in WaterDriveOil and OilDriveWater Process[J]. J4, 2005, 35(05): 667 -671 .