三塘湖盆地马朗凹陷牛圈湖—牛东构造带上石炭统火山岩黏土矿物特征及其对储层物性的影响

doi:10.7623/syxb202108007

石油学报 ›› 2021, Vol. 42 ›› Issue (8): 1053-1071.DOI: 10.7623/syxb202108007

三塘湖盆地马朗凹陷牛圈湖—牛东构造带上石炭统火山岩黏土矿物特征及其对储层物性的影响

陈亚军¹, 于家义², 宋小勇¹, 张中劲², 孟朋飞², 解士建², 焦巧平¹

1. 北京中科联华石油科学研究院北京 100101;
2. 中国石油吐哈油田公司勘探开发研究院新疆哈密 839009

收稿日期:2020-06-08 修回日期:2021-06-15 出版日期:2021-08-25 发布日期:2021-08-31
通讯作者: 陈亚军,男,1990年7月生,2015年获中国地质大学学士学位,2018年获东北石油大学硕士学位,现为北京中科联华石油科学研究院地质工程师,主要从事油气地质综合研究。
作者简介:陈亚军,男,1990年7月生,2015年获中国地质大学学士学位,2018年获东北石油大学硕士学位,现为北京中科联华石油科学研究院地质工程师,主要从事油气地质综合研究。Email:cjun0707@163.com
基金资助:
中国石油吐哈油田公司勘探开发研究院"三塘湖牛东地区石炭系滚动目标优选"项目（YJYHZC2019022）资助。

Characteristics of clay mineral in the Upper Carboniferous volcanic rocks of Niujuanhu-Niudong structural belt in the Malang sag, Santanghu Basin and their effects on reservoir physical properties

Chen Yajun¹, Yu Jiayi², Song Xiaoyong¹, Zhang Zhongjin², Meng Pengfei², Xie Shijian², Jiao Qiaoping¹

1. China United Academy of Petroleum Sciences, Beijing 100101, China;
2. Research Institute of exploration and development, PetroChina Tuha Oilfield Company, Xinjiang Hami 839009, China

Received:2020-06-08 Revised:2021-06-15 Online:2021-08-25 Published:2021-08-31

摘要/Abstract

摘要： 三塘湖盆地马朗凹陷牛圈湖—牛东构造带上石炭统哈尔加乌组和卡拉岗组发育低孔、特低渗强非均质性火山岩储层。基于黏土矿物类型、含量、赋存状态、分布特征及其成因与转化的系统分析，讨论了黏土矿物对火山岩储层储集物性的影响。上石炭统火山岩储层为低孔、特低渗储层，主要发育气孔、半充填杏仁孔、晶间孔、粒间孔等原生孔隙和微晶溶孔、基质溶蚀孔、沸石溶孔等次生孔隙，原生裂缝以冷凝收缩缝和收缩节理缝为主，次生裂缝以构造缝、层间缝为主。孔喉结构以微细孔喉—小孔喉为主。上石炭统火山岩储层为中—高黏土矿物含量储层，随黏土矿物含量增加，储层孔隙度、渗透率均降低。黏土矿物主要为长石类矿物、晶屑和岩屑溶蚀成因或黏土矿物成岩转化产物。高岭石普遍遭受溶蚀，发育粒间溶孔等次生微孔，绿泥石晶间孔发育，可有效改善玄武岩和凝灰岩储层的储集物性；伊利石多充填粒间孔隙，降低玄武岩和凝灰岩储层的储集物性；绿/蒙混层和伊/蒙混层对玄武岩和凝灰岩储层储集物性具有改善意义，对火山角砾岩储层储集物性具有破坏性。高岭石、绿泥石和绿/蒙混层相对含量较高的玄武岩与凝灰岩沉积区是优质储层发育有利区。

关键词: 马朗凹陷, 上石炭统, 火山岩, 黏土矿物, 成因, 储层物性

Abstract: Low-porosity, ultra-low permeability volcanic reservoirs with strong heterogeneity are developed in the Upper Carboniferous Harjiawu Formation and Karagang Formation in the Niujuanhu-Niudong structural belt, Malang sag, Santanghu Basin. Based on systematically analyzing the type, content, occurrence state, distribution characteristics, genesis and transformation of clay minerals, this paper explores the influence of clay minerals on the physical properties of volcanic reservoirs. The Upper Carboniferous volcanic reservoirs are characterized by ultra-low porosity and permeability, where primary pores are mainly developed, such as vesicular pore, semi-filled amygdule, intercrystalline pores, and intergranular pores, as well as secondary pores such as microcrystalline dissolved pores, matrix dissolved pores, and zeolite dissolved pores. The primary fractures are dominated by condensation contraction joints and contraction joints, and the secondary fractures are mainly shown as tectonic fractures and interlayer fractures. The pore throat structure is dominated by fine pore throat and small pore throat. The Upper Carboniferous volcanic reservoir has medium-high clay mineral content. As the clay mineral content increases, the porosity and permeability of the reservoir decrease. Clay minerals are mainly shown as corroded feldspar minerals, crystal fragments and debris or the diagenetic transformation products of clay minerals. Kaolinite is generally subjected to dissolution, with the development of secondary micropores such as intergranular dissolved pores, and intercrystalline pores in chlorite are well developed, which can effectively improve the reservoir properties of basalt and tuff reservoirs. Illite is mostly filled in intergranular pores, reducing the physical properties of basalt and tuff reservoirs. The chlorite-smectite mixed layer and illite-smectite mixed layer can improve the physical properties of basalt and tuff reservoirs, and are destructive to the physical properties of volcanic breccia reservoirs. The sedimentary areas of basalt and tuff with relatively high contents of kaolinite, chlorite and chlorite-smectite mixed layer are favorable for the development of high-quality reservoirs.

Key words: Malang sag, Upper Carboniferous, volcanic rock, clay minerals, genesis, reservoir physical property

中图分类号:

TE122.2

陈亚军, 于家义, 宋小勇, 张中劲, 孟朋飞, 解士建, 焦巧平. 三塘湖盆地马朗凹陷牛圈湖—牛东构造带上石炭统火山岩黏土矿物特征及其对储层物性的影响[J]. 石油学报, 2021, 42(8): 1053-1071.

Chen Yajun, Yu Jiayi, Song Xiaoyong, Zhang Zhongjin, Meng Pengfei, Xie Shijian, Jiao Qiaoping. Characteristics of clay mineral in the Upper Carboniferous volcanic rocks of Niujuanhu-Niudong structural belt in the Malang sag, Santanghu Basin and their effects on reservoir physical properties[J]. Acta Petrolei Sinica, 2021, 42(8): 1053-1071.

参考文献

[1] 任磊夫.粘土矿物与粘土岩[M].北京:地质出版社, 1992:1-20.
REN Leifu.Clay mineral and clay rock[M].Beijing:Geological Publishing House, 1992:1-20.
[2] 徐同台, 王行信, 张有瑜, 等.中国含油气盆地粘土矿物[M].北京:石油工业出版社, 2003.
XU Tongtai, WANG Hangxin, ZHANG Youyu, et al.Clay minerals of petroliferous basins in China[M].Beijing:Petroleum Industry Press, 2003.
[3] 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.
[4] 谢渊, 王剑, 李令喜, 等.鄂尔多斯盆地白垩系粘土矿物的分布特征及其沉积-成岩环境意义[J].地质通报, 2010, 29(1):93-104.
XIE Yuan, WANG Jian, LI Lingxi, et al.Distribution of the cretaceous clay minerals in ordos Basin, China and its implication to sedimentary and diagenetic environment[J].Geological Bulletin of China, 2010, 29(1):93-104.
[5] 伏万军.粘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.
[6] THIRY M.Palaeoclimatic interpretation of clay minerals in marinedeposits:an outlook from the continental origin[J].Earth-Science Reviews, 2000, 49(1/4):201-221.
[7] 王随继, 曾凡刚, 黄杏珍, 等.含油气盆地中粘土矿物的穆斯堡尔效应及应用——以柴达木盆地第三系为例[J].沉积学报, 1998, 16(2):109-112.
WANG Suiji, ZENG Fangang, HUANG Xingzhen, et al.The Mossbauer effect of clay minerals in oil Basin and its application——taking Tertiary system of Qaidam Basin as an example[J].Acta Sedimentologica Sinica, 1998, 16(2):109-112.
[8] INGLES M, SALVANY J M, MUÑOZ A, et al.Relationship of mineralogy to depositional environments in the non-marine Tertiary mudstones of the southwestern Ebro Basin (Spain)[J].Sedimentary Geology, 1998, 116(3/4):159-176.
[9] MANALT F, BECK C, DISNAR J R, et al.Evolution of clay mineral assemblages and organic matter in the late glacial-Holocene sedimentary infill of Lake Annecy, (northwestern Alps):paleoenvironmental implications[J].Journal of Paleolimnology, 2001, 25(2):179-192.
[10] PEREDERIJ V I.Clay mineral composition and palaeoclimatic interpretation of the Pleistocene deposits of Ukraine[J].Quaternary International, 2001, 76-77:113-121.
[11] 曹珂, 李祥辉, 王成善.四川盆地白垩系粘土矿物特征及古气候探讨[J].地质学报, 2008, 82(1):115-123.
CAI Ke, LI Xianghui, WANG Chengshan.The Cretaceous clay minerals and paleoclimate in Sichuan Basin[J].Acta Geologica Sinica, 2008, 82(1):115-123.
[12] 姚合法, 林承焰, 侯建国, 等.苏北盆地粘土矿物转化模式与古地温[J].沉积学报, 2004, 22(1):29-35.
YAO Hefa, LIN Chengyan, HOU Jianguo, et al.The pattern of clay mineral tansformation and palaeo-temperature in North Jiangsu Basin[J].Acta Sedimentologica Sinica, 2004, 22(1):29-35.
[13] 赵明, 陈小明, 季峻峰, 等.山东昌潍古近系原型盆地粘土矿物的成岩演化与古地温[J].岩石学报, 2006, 22(8):2195-2204.
ZHAO Ming, CHEN Xiaoming, JI Junfeng, et al.Diagenetic and paleogeothermal evolution of the clay minerals in the Paleogene Changwei prototype Basin of Shandong Province, China[J].Acta Petrologica Sinica, 2006, 22(8):2195-2204.
[14] 覃小丽, 李荣西, 席胜利, 等.鄂尔多斯盆地东部地区太原组储层黏土矿物特征及成因[J].岩性油气藏, 2016, 28(1):49-57.
QIN Xiaoli, LI Rongxi, XI Shengli, et al.Characteristics and origin of clay minerals of Taiyuan Formation in eastern Ordos Basin[J].Lithologic Reservoirs, 2016, 28(1):49-57.
[15] 张哨楠, 丁晓琪, 万友利, 等.致密碎屑岩中粘土矿物的形成机理与分布规律[J].西南石油大学学报:自然科学版, 2012, 34(3):174-182.
ZHANG Shaonan, DING Xiaoqi, WAN Youli, et al.Formation mechanism and distribution of clay minerals of deeply tight siliciclastic reservoirs[J].Journal of Southwest Petroleum University:Science & Technology Edition, 2012, 34(3):174-182.
[16] 赵小会, 文彩霞, 石晓英, 等.鄂尔多斯盆地东部上古生界黏土矿物主控因素分析及研究意义[J].地质学报, 2016, 90(3):534-540.
ZHAO Xiaohui, WEN Caixia, SHI Xiaoying, et al.Controlling factors of upper Paleozoic clay minerals in the eastern Ordos Basin and its study significance[J].Acta Geologica Sinica, 2016, 90(3):534-540.
[17] 刘伟新, 王延斌, 秦建中.川北阿坝地区三叠系粘土矿物特征及地质意义[J].地质科学, 2007, 42(3):469-482.
LIU Weixin, WANG Yanbin, QIN Jianzhong.Characteristics of the Triassic clay minerals in Aba area, northern Sichuan, and its geological implications[J].Chinese Journal of Geology, 2007, 42(3):469-482.
[18] DECONINCK J F, BLANC-VALLERON M M, ROUCHY J M, et al.Palaeoenvironmental and diagenetic control of the mineralogy of Upper Cretaceous-Lower Tertiary deposits of the Central Palaeo-Andean Basin of Bolivia (Potosi area)[J].Sedimentary Geology, 2000, 132(3/4):263-278.
[19] LOUCKS R G, RUPPEL S C.Mississippian Barnett Shale:lithofacies and depositional setting of a deep-water shale-gas succession in the Fort Worth Basin, Texas[J].AAPG Bulletin, 2007, 91(4):579-601.
[20] LOUCKS R G, REED R M, RUPPEL S C, et al.Morphology, genesis, and distribution of nanometer-scale pores in siliceous mudstones of the Mississippian Barnett Shale[J].Journal of Sedimentary Research, 2009, 79(12):848-861.
[21] LANDER R H, BONNELL L M.A model for fibrous illite nucleation and growth in sandstones[J].AAPG Bulletin, 2010, 94(8):1161-l187.
[22] 高凤琳, 宋岩, 姜振学, 等.黏土矿物对页岩储集空间及吸附能力的影响[J].特种油气藏, 2017, 24(3):1-8.
GAO Fenglin, SONG Yan, JIANG Zhenxue, et al.Influence of clay minerals on shale storage space and adsorptive capacity[J].Special Oil & Gas Reservoirs, 2017, 24(3):1-8.
[23] 李明瑞, 张清, 段宏臻, 等.苏里格气田上古生界主要含气层系粘土矿物分布及其主控因素[J].石油与天然气地质, 2012, 33(5):743-750.
LI Mingrui, ZHANG Qing, DUAN Hongzhen, et al.Clay mineral distribution and its controlling factors in the Upper Paleozoic gas reservoirs of Sulige gas field[J].Oil & Gas Geology, 2012, 33(5):743-750.
[24] 蒋裕强, 张春, 邓海波, 等.黏土矿物对低渗致密砂岩储渗性能的影响[J].西南石油大学学报:自然科学版, 2013, 35(6):39-47.
JIANG Yuqiang, ZHANG Chun, DENG Haibo, et al.Influences of clay minerals on physical properties of low permeability and tight sandstones[J].Journal of Southwest Petroleum University:Science & Technology Edition, 2013, 35(6):39-47.
[25] 李霞, 王佳, 谭先锋, 等.泥页岩成岩过程中黏土矿物脱水转化及热动力机制[J].石油化工高等学校学报, 2018, 31(1):61-70.
LI Xia, WANG Jia, TAN Xianfeng, et al.The dewatering transformation and thermal dynamic mechanism of clay mineral in shale diagenesis[J].Journal of Petrochemical Universities, 2018, 31(1):61-70.
[26] 陈鑫, 袁静, 钟建华, 等.东营凹陷古近系深部碎屑岩储层中的黏土矿物[J].中国石油大学学报:自然科学版, 2009, 33(2):29-33.
CHEN Xin, YUAN Jing, ZHONG Jianhua, et al.Clay Minerals in clastic rock reservoir of deep formation in Paleogene of Dongying sag[J].Journal of China University of Petroleum:Edition of Natural Science, 2009, 33(2):29-33.
[27] 杨献忠, 杨祝良, 陶奎元, 等.苏北闵桥含油玄武岩中粘土矿物的组合特征及其应用[J].资源调查与环境, 2002, 23(1):60-67.
YANG Xianzhong, YANG Zhuliang, Tao Kuiyuan, et al.The association characteristics and the applications of clay minerals from oil-bearing basalts in Minqiao area, northern Jiangsu province[J].Resources Survey & Environment, 2002, 23(1):60-67.
[28] 王春燕, 张雷, 金雪英.蚀变火山岩储层特征及气水层识别方法[J].大庆石油学院学报, 2013, 37(3):18-23.
WANG Chunyan, ZHANG Lei, JIN Xueying.Characteristics and fluid identification of altered volcanic reservoir[J].Journal of Daqing Petroleum Institute, 2013, 37(3):18-23.
[29] 刘俊田, 刘媛萍, 郭沫贞, 等.三塘湖盆地牛东地区石炭系火山岩相储层特征及其成因机理[J].岩性油气藏, 2009, 21(2):64-69.
LIU Juntian, LIU Yuanping, GUO Mozhen, et al.Volcanic reservoir characteristics and genetic mechanism of Carboniferous in Niudong area of Santanghu Basin[J].Lithologic Reservoirs, 2009, 21(2):64-69.
[30] 林潼, 焦贵浩, 孙平, 等.三塘湖盆地石炭系火山岩储层特征及其影响因素分析[J].天然气地球科学, 2009, 20(4):513-517.
LIN Tong, JIAO Guihao, SUN Ping, et al.Characteristic and influencing factors of Carboniferous volcanic reservoirs in Santanghu Basin[J].Natural Gas Geoscience, 2009, 20(4):513-517.
[31] 闫玉魁.三塘湖盆地石炭系火山岩构造背景与油气成藏[J].中国矿业, 2009, 18(6):46-49.
YAN Yukui.Tectonic background and hydrocarbon accumulation of carboniferous volcanic in Santanghu Basin[J].China Mining Magazine, 2009, 18(6):46-49.
[32] 郭沫贞, 文川江, 苑国辉, 等.三塘湖盆地牛东石炭系火山岩示顶底构造特征、成因及地质意义[J].海相油气地质, 2010, 15(3):74-78.
GUO Mozhen, WEN Chuanjiang, YUAN Guohui, et al.Features, origin and geological significance of geopetal structures in carboniferous volcanic rocks in Niudong block, Santanghu Basin[J].Marine Origin Petroleum Geology, 2010, 15(3):74-78.
[33] 崔庆刚.三塘湖盆地石炭纪火山岩储集层的岩石学及地球化学特征[D].青岛:山东科技大学, 2011.
CUI Qinggang.Petrology and geochemistry of Carboniferous volcanic reservoir in the Santanghu Basin, eastern Xinjiang[D].Qingdao:Shandong University of Science and Technology, 2011.
[34] 刘兴旺, 郑建京, 杨鑫, 等.三塘湖盆地及其周缘地区古生代构造演化及原型盆地研究[J].天然气地球科学, 2010, 21(6):947-954.
LIU Xingwang, ZHENG Jianjing, YANG Xin, et al.Paleozoic structural evolution of Santanghu Basin and its surrounding and prototype Basin recovery[J].Natural Gas Geoscience, 2010, 21(6):947-954.
[35] 冯金燕.三塘湖盆地牛东区块卡拉岗组火山岩储层综合评价[D].荆州:长江大学, 2012.
FENG Jinyan.The Kalagang of Niudong block in Santanghu Basin comprehensive evaluation of the volcanic reservoir[D].Jingzhou:Yangtze University, 2012.
[36] 陈薇, 司学强, 智凤琴, 等.三塘湖盆地卡拉岗组火山岩储层成岩作用[J].西南石油大学学报:自然科学版, 2013, 35(4):35-42.
CHEN Wei, SI Xueqiang, ZHI Fengqin, et al.Diagenesis of volcanic rock reservoir in Kalagang Formation of carboniferous, Santanghu Basin[J].Journal of Southwest Petroleum University:Science & Technology Edition, 2013, 35(4):35-42.
[37] 国家能源局.沉积岩中粘土矿物和常见非粘土矿物X衍射分析方法:SY/T 5163-2010[S].北京:石油工业出版社, 2010.
National Energy Administration.Analysis method for clay minerals and ordinary non-clay minerals in sedimentary rocks by the X-ray diffraction:SY/T 5163-2010[S].Beijing:Petroleum Industry Press, 2010.
[38] 马雪, 冯成贵, 虞卫东.新疆巴里坤县三塘湖北卡拉岗组火山岩特征[J].新疆地质, 2005, 23(3):234-238.
MA Xue, FENG Chenggui, YU Weidong.Kalagang lava formation, North Santanghu Lake, Balikun, Xinjiang[J].Xinjiang Geology, 2005, 23(3):234-238.
[39] 梁浩, 苟红光.三塘湖盆地卡拉岗组火山岩岩石化学特征及构造环境[J].西安石油大学学报:自然科学版, 2009, 24(5):23-28.
LIANG Hao, GOU Hongguang.Petrochemical characteristics and structural environment of the volcanic rock of Kalagang Formation in Santanghu Basin[J].Journal of Xi'an Shiyou University:Natural Science Edition, 2009, 24(5):23-28.
[40] 王盛鹏, 林潼, 孙平, 等.两种不同沉积环境下火山岩储层成岩作用研究[J].石油实验地质, 2012, 34(2):145-152.
WANG Shengpeng, LIN Tong, SUN Ping, et al.Influences of diagenetic effects on volcanic rock reservoirs under two different sedimentary environments[J].Petroleum Geology & Experiment, 2012, 34(2):145-152.
[41] 朱卡, 李兰斌, 梁浩, 等.三塘湖盆地石炭系火山岩喷发环境及储层特征研究[J].石油天然气学报, 2012, 34(3):49-54.
ZHU Ka, LI Lanbin, LIANG Hao, et al.The eruption environment and reservoir characteristics of Carboniferous volcanic rocks in Sangtanghu Basin[J].Journal of Oil and Gas Technology, 2012, 34(3):49-54.
[42] 赵建斌, 黄显华, 刘晓燕, 等.二连盆地乌兰花凹陷特低渗安山岩储层的有效性评价[J].石油学报, 2020, 41(10):1188-1196.
ZHAO Jianbin, HUANG Xianhua, LIU Xiaoyan, et al.Effectiveness evaluation of extra-low permeability andesite reservoirs in Wulanhua sag, Erlian Basin[J].Acta Petrolei Sinica, 2020, 41(10):1188-1196.
[43] 唐华风, 戴岩林, 郭天婵, 等.侵出式火山机构储层的分布模式——以伊通火山群为例[J].石油学报, 2020, 41(7):809-820.
TANG Huafeng, DAI Yanlin, GUO Tianchan, et al.Distribution pattern of reservoirs in the extrusive volcanic edifice:a case study of the Yitong volcanoes[J].Acta Petrolei Sinica, 2020, 41(7):809-820.
[44] 马中高, 朱立华, 张卫华, 等.雷州半岛南部玄武岩岩石物理特征[J].石油学报, 2020, 41(6):702-710.
MA Zhonggao, ZHU Lihua, ZHANG Weihua, et al.Petrophysical characteristics of basalt in the southern Leizhou peninsula[J].Acta Petrolei Sinica, 2020, 41(6):702-710.
[45] BASAN P B.Formation damage index number:a model for the evaluation of fluid sensitivity in shaly sandstones[R].SPE 14317, 1985.
[46] 李健鹰.低渗气层粘土矿物含量类型产状特征与储层损害[J].天然气工业, 1989, 9(5):55-59.
LI Jianying.Content, type and occurrence feature of the clay minerals in low-permeability gas-bearing formations and reservoir damage[J].Natural Gas Industry, 1989, 9(5):55-59.
[47] 师俊峰, 师永民, 高超利, 等.致密砂岩储层黏土矿物特征及敏感性分析——以鄂尔多斯盆地吴起油田寨子河地区长6油层为例[J].科学技术与工程, 2018, 18(20):88-95.
SHI Junfeng, SHI Yongmin, GAO Chaoli, et al.Tight sandstone reservoir clay minerals characteristics and Sensitivity analysis-a case study of Chang 6 Formation in Zhaizihe area, Wuqi oilfield, Ordos Basin[J].Science Technology and Engineering, 2018, 18(20):88-95.
[48] 王岚, 李文厚, 林潼, 等.陆上、水下喷发成因火山岩储层发育特征和成藏控制因素对比分析——以三塘湖盆地石炭系火山岩油藏为例[J].地质科学, 2010, 45(4):1088-1097.
WANG Lan, LI Wenhou, LIN Tong, et al.A comparative analysis of submarine eruptive and subaerial eruptive volcaniclsatic reservoir on characteristics of reservoir and reservoir forming dominated factors:taking Carboniferous volcaniclsatic reservoir in Santanghu Basin as example[J].Chinese Journal of Geology, 2010, 45(4):1088-1097.
[49] 曹英权, 王清斌, 曲希玉, 等.岩屑的有机酸溶蚀实验及验证——以渤中凹陷CFD6-4油田东营组为例[J].石油学报, 2020, 41(7):841-852.
CAO Yingquan, WANG Qingbin, QU Xiyu, et al.A dissolution experiment of organic acid of cuttings and its verification:a case study of the Dongying Formation of the CFD6-4 oilfield, Bozhong sag[J].Acta Petrolei Sinica, 2020, 41(7):841-852.
[50] 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, HUANG Keke, FENG Liwen, et al.Mass exchanges among feldspar, kaolinite and illite 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].Geochimica, 2009, 38(5):498-506.
[51] WELCH S A, ULLMAN W J.The effect of organic acids on plagioclase dissolution rates and stoichiometry[J].Geochimica et Cosmochimica Acta, 1993, 57(12):2725-2736.
[52] 梁浩, 罗权生, 孔宏伟, 等.三塘湖盆地火山岩中沸石的成因及其储层意义[J].沉积学报, 2011, 29(3):537-543.
LIANG Hao, LUO Quansheng, KONG Hongwei, et al.Formation and distribution of zeolite in volcanic rock and its effect on reserviors in Santanhu Basin[J].Acta Sedimentologica Sinica, 2011, 29(3):537-543.
[53] 韩守华, 余和中, 斯春松, 等.准噶尔盆地储层中方沸石的溶蚀作用[J].石油学报, 2007, 28(3):51-54.
HAN Shouhua, YU Hezhong, SI Chunsong, et al.Corrosion of analcite in reservoir of Junggar Basin[J].Acta Petrolei Sinica, 2007, 28(3):51-54.
[54] 张惠良, 张荣虎, 王月华, 等.粘土膜对砂岩储集性能的影响——以塔里木盆地群6井区泥盆系东河塘组下段为例[J].石油实验地质, 2006, 28(5):493-498.
ZHANG Huiliang, ZHANG Ronghu, WANG Yuehua, et al.Influence of clay minerals membrane on sandstone reservoirs-a case study on the Lower Donghetang reservoirs of the Devonian of Well Qun 6 in the Tarim Basin[J].Petroleum Geology and Experiment, 2006, 28(5):493-498.
[55] 贺艳祥, 黄思静, 王春美, 等.碎屑岩中黏土矿物对储层物性的影响[J].低渗透油气田, 2009(3):34-41.
HE Yanxiang, HUANG Sijing, WANG Chunmei, et al.Influence of clav minerals in clastic rock on reservoir properties[J].Low Permeability Oil and Gas Field, 2009(3):34-41.
[56] BOLES J R, FRANKS S G.Clay diagenesis in Wilcox sandstones of southwest Texas:implications of smectite diagenesis on sandstone cementation[J].Journal of Sedimentary Petrology, 1979, 49(1):55-70.

三塘湖盆地马朗凹陷牛圈湖—牛东构造带上石炭统火山岩黏土矿物特征及其对储层物性的影响

Characteristics of clay mineral in the Upper Carboniferous volcanic rocks of Niujuanhu-Niudong structural belt in the Malang sag, Santanghu Basin and their effects on reservoir physical properties

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