[1] 胡文瑞,鲍敬伟,胡滨. 全球油气勘探进展与趋势[J].石油勘探与开发,2013,40(4):409-413.
HU Wenrui,BAO Jingwei,HU Bin.Trend and progress in global oil and gas exploration[J].Petroleum Exploration and Development,2013,40(4):409-413.
[2] 冯佳睿,高志勇,崔京钢,等.深层、超深层碎屑岩储层勘探现状与研究进展[J].地球科学进展,2016,31(7):718-736.
FENG Jiarui,GAO Zhiyong,CUI Jinggang,et al.The exploration status and research advances of deep and ultra-deep clastic reservoirs[J].Advances in Earth Science,2016,31(7):718-736.
[3] 贾小乐,何登发,童晓光,等.全球大油气田分布特征[J].中国石油勘探,2011,16(3):1-7.
JIA Xiaole,HE Dengfa,TONG Xiaoguang,et al.Formation and distribution of giant gas fields in Persian gulf basin[J].China Petroleum Exploration,2011,16(3):1-7.
[4] 童晓光,张光亚,王兆明,等.全球油气资源潜力与分布[J].地学前缘,2014,21(3):1-9.
TONG Xiaoguang,ZHANG Guangya,WANG Zhaoming,et al.Global oil and gas potential and distribution[J].Earth Science Frontiers,2014,21(3):1-9.
[5] 杨海军,李勇,唐雁刚,等.塔里木盆地克拉苏盐下深层大气田的发现[J].新疆石油地质,2019,40(1):12-20.
YANG Haijun,LI Yong,TANG Yangang,et al.Discovery of Kelasu Subsalt Deep Large Gas Field,Tarim Basin[J].Xinjiang Petroleum Geology,2019,40(1):12-20.
[6] 杨田,操应长,石世革,等.中深部碎屑岩储集层异常高孔隙度段划分方案及研究意义[J].矿物岩石地球化学通报,2017,36(3):483-492.
YANG Tian,CAO Yingchang,SHI Shige,et al.Significance and determination method of anomalously high porosity sections in medium-deep Clastic reservoirs[J].Bulletin of Mineralogy,Petrology and Geochemistry,2017,36(3):483-492.
[7] 操应长,远光辉,李晓艳,等.东营凹陷北带古近系中深层异常高孔带类型及特征[J].石油学报,2013,34(4):683-691.
CAO Yingchang,YUAN Guanghui,LI Xiaoyan,et al.Types and Characteristics of anomalously high porosity Zones in Paleogene mid-deep buried reservoirs in the northern slope,Dongying Sag[J].Acta Petrolei Sinica,2013,34(4):683-691.
[8] 夏庆龙,周心怀,李建平,等.渤海海域古近系层序沉积演化及储层分布规律(卷二)[M].北京:石油工业出版社,2012:1-178.
XIA Qinglong,ZHOU Xinhuai,LI Jianping,et al.Sedimentary evolution and reservoir distribution of Palaeogene sequences in Bohai Sea (Volume II)[M].Beijing:Petroleum Industry Press.2012:1-178.
[9] BJØRLYKKE K,NEDKVITNE T,RAMM M,et al.Diagenetic processes in the Brent Group (Middle Jurassic)reservoirs of the North Sea:an overview[J].Geological Society,London,Special Publications,1992,61(1):263-287.
[10] KLAUSEN T G,MVLLER R,POYATOS-MORÉ M,et al.Tectonic,provenance and sedimentological controls on reservoir characteristics in the Upper Triassic-Middle Jurassic Realgrunnen Subgroup,SW Barents Sea[J].Geological Society,London,Special Publications,2019,495,doi:10.1144/SP495-2018-165.
[11] TAN Chengpeng,YU Xinghe,LIU Beibei,et al.Conglomerate categories in coarse-grained deltas and their controls on hydrocarbon reservoir distribution:a case study of the Triassic Baikouquan Formation,Mahu Depression,NW China[J].Petroleum Geoscience,2017,23(4):403-414.
[12] RAMDHAN A M,GOULTY N R.Overpressure-generating mechanisms in the Peciko Field,Lower Kutai Basin,Indonesia[J].Petroleum Geoscience, 2010,16(4):367-376.
[13] 冯进来,曹剑,胡凯,等.柴达木盆地中深层混积岩储层形成机制[J].岩石学报,2011,27(8):2461-2472.
FENG Jinlai,CAO Jian,HU Kai,et al.Forming mechanism of middle-deep mixed rock reservoir in the Qaidam basin[J].Acta Petrologica Sinica,2011,27(8):2461-2472.
[14] 王艳忠,操应长.车镇凹陷古近系深层碎屑岩有效储层物性下限及控制因素[J].沉积学报,2010,28(4):752-761.
WANG Yanzhong,CAO Yingchang.Lower property limit and controls on deep effective clastic reservoirs of paleogene in Chezhen depression[J].Acta Sedimentologica Sinica,2010,28(4):752-761.
[15] 陈纯芳,赵澄林,李会军.板桥和歧北凹陷沙河街组深层碎屑岩储层物性特征及其影响因素[J].石油大学学报:自然科学版,2002,26(1):4-7.
CHEN Chunfang,ZHAO Chenglin,LI Huijun.Physical properties of reservoir and influencing factors of deep burial clastic rocks in Banqiao-Qibei sag[J].Journal of the University of Petroleum,China,2002,26(1):4-7.
[16] 周磊.冀中坳陷古近系中深层优质储层成因机制及分布规律研究[D].东营:中国石油大学(华东),2014.
ZHOU Lei.Genetic mechanism and distribution patterns of Medium-deep high-quality clastic reservoirs of Paleogene in Jizhong Depression[D].Dongying:University of Petroleum,China,2014.
[17] WORDEN R H,MORAD S.Clay Minerals in Sandstones:controls on formation,distribution and evolution[M]//WORDEN R H,MORAD S.Clay Mineral Cements in Sandstones.Malden,MA:International Association of Sedimentologists,2003,34:3-41.
[18] DOWEY P J,WORDEN R H,UTLEY J,et al.Sedimentary controls on modern sand grain coat formation[J].Sedimentary Geology,2017,353:46-63.
[19] BILLAULT V,BEAUTORT D,BARONNET A,et al.A nanopetrographic and textural study of grain-coating chlorites in sandstone reservoirs[J].Clay Minerals,2003,38(3):315-328.
[20] DOWEY P J,HODGSON D M,WORDEN R H.Pre-requisites,processes,and prediction of chlorite grain coatings in petroleum reservoirs,A review of subsurface examples[J].Marine and Petroleum Geology,2012,32(1):63-75.
[21] HANSEN H N,LØVSTAD K,MVLLER R,et al.Clay coating preserving high porosities in deeply buried intervals of the Stø Formation[J]. Marine and Petroleum Geology,2017,88:648-658.
[22] ZHU Shifa,WANG Xiaoxu,QIN Yi,et al.Occurrence and origin of pore-lining chlorite and its effectiveness on preserving porosity in sandstone of the middle Yanchang Formation in the southwest Ordos Basin[J].Applied Clay Science,2017,148:25-38.
[23] O'BRIEN J J,LERCHE I.The preservation of primary porosity through hydrocarbon entrapment during burial[J].SPE Formation Evaluation,1986,1(3):295-299.
[24] WORDEN R H,OXTOBY N H,SMALLEY P C.Can oil emplacement prevent quartz cementation in sandstones?[J].Petroleum Geoscience,1998,4(2):129-137.
[25] MOLENAAR N,CYZIENE J,SLIAUPA S,et al.Lack of inhibiting effect of oil emplacement on quartz cementation:Evidence from Cambrian reservoir sandstones,Paleozoic Baltic Basin[J].GSA Bulletin,2008,120(9/10):1280-1295.
[26] BLOCH S,LANDER R H,BONNELL L.Anomalously high porosity and permeability in deeply buried sandstone reservoirs:Origin and predictability[J].AAPG Bulletin, 2002,86(2):301-328.
[27] 张凯逊,白国平,曹斌风,等.深层碎屑岩含油气储层发育特征[J].工程科学学报,2016,38(1):1-10.
ZHANG Kaixun,BAI Guoping,CAO Binfeng,et al.Geological features of siliciclastic reservoirs in deep petroleum accumulations[J].Chinese Journal of Engineering,2016,38(1):1-10.
[28] 冯佳睿,高志勇,崔京钢,等.库车坳陷迪北侏罗系深部储层孔隙演化特征与有利储层评价——埋藏方式制约下的成岩物理模拟实验研究[J].地球科学进展,2018,33(3):305-320.
FENG Jiarui,GAO Zhiyong,CUI Jinggang,et al.Reservoir porosity evolution characteristics and evaluation of the Jurassic deep reservoir from Dibei in Kuqa depression:Insight from diagenesis modeling experiments under the influence of burial mode[J].Advances in Earth Science,2018,33(3):305-320.
[29] 孙海涛,钟大康,李勇,等.超深低孔特低渗砂岩储层的孔隙成因及控制因素——以库车坳陷克深地区巴什基奇克组为例[J].吉林大学学报:地球科学版,2018,48(3):693-704.
SUN Haitao,ZHONG Dakang,LI Yong,et al.Porosity origin and controlling factors of ultra-deep,low porosity and ultra-low permeability sandstone reservoirs:a case study of Bashijiqike formation in Keshen area of Kuqa depression,Tarim basin[J].Journal of Jilin University:Earth Science Edition,2018,48(3):693-704.
[30] 于志超,刘可禹,赵孟军,等.库车凹陷克拉2气田储层成岩作用和油气充注特征[J].地球科学,2016,41(3):533-545.
YU Zhichao,LIU Keyu,ZHAO Mengju,et al.Characterization of Diagenesis and the Petroleum Charge in Kela 2 Gas Field,Kuqa Depression,Tarim Basin[J].Earth Science, 2016,41(3):533-545.
[31] 张惠良,张荣虎,杨海军,等.超深层裂缝-孔隙型致密砂岩储集层表征与评价——以库车前陆盆地克拉苏构造带白垩系巴什基奇克组为例[J].石油勘探与开发,2014,41(2):158-167.
ZHANG Huiliang,ZHANG Ronghu,YANG Haijun,et al.Characterization and evaluation of ultra-deep fracture-pore tight sandstone reservoirs:A case study of Cretaceous Bashijiqike Formation in Kelasu tectonic zone in Kuqa foreland basin,Tarim,NW China[J].Petroleum Exploration and Development,2014,41(2):158-167.
[32] 张荣虎,张惠良,寿建峰,等.库车坳陷大北地区下白垩统巴什基奇克组储层成因地质分析[J].地质科学,2008,43(3):507-517.
ZHANG Ronghu,ZHANG Huiliang,SHOU Jianfeng,et al.Geological analysis on reservoir mechanism of the Lower Cretaceous Bashijiqike Formation in Dabei area of the Kuqa Depression[J].Chinese Journal of Geology,2008,43(3):507-517.
[33] 陈秀艳,贾进华,崔文娟,等.塔里木盆地哈拉哈塘地区东河砂岩段成岩作用及对孔渗影响[J].天然气地球科学,2019,30(1):51-61.
CHEN Xiuyan,JIA Jinhua,CUI Wenjuan,et al.Diagenesis and its effect on pore and permeability of Donghe sandstone in Hanilcatam area,TarimBasin[J].Natural Gas Geoscience,2019,30(1):51-61.
[34] 段海岗,潘校华,罗曼,等.南里海盆地下库拉凹陷异常高压与油气成藏[J].石油勘探与开发,2009,36(4):487-493.
DUAN Haigang,PAN Xiaohua,LUO Man,et al.Abnormally high pressure and hydrocarbon accumulation in the lower Kura Sag,South Caspian Basin[J].Petroleum Exploration and Development,2013,36(4):487-493.
[35] 刘政,何登发,童晓光,等.北海盆地大油气田形成条件及分布特征[J].中国石油勘探,2011,16(3):31-43.
LIU Zheng,HE Dengfa,TONG Xiaoguang,et al.Formation and distribution of giant Oil and Gas Fields in North Sea Basin[J].China Petroleum Exploration,2011,16(3):31-43.
[36] 陈红汉,吴悠,肖秋苟.青藏高原中-新生代沉积盆地热体制与古地温梯度演 化[J].地球科学-中国地质大学学报,2013,38(3):541-552.
CHEN Honghan,WU You,XIAO Qiugou.Thermal regime and paleogeothermal gradient evolution of Mesozoic-Cenozoic Sedimentary Basins in the Tibetan Plateau,China[J].Earth Science-Journal of China University of Geosciences,2013,38(3):541-552.
[37] 刘绍文,李香兰,郝春艳,等.塔里木盆地的热流、深部温度和热结构[J].地学前缘,2017,24(3):41-55.
LIU Shaowen,LI Xianglan,HAO Chunyan,et al.Heat flow,deep formation temperature and thermal structure of the Tarim Basin,Northwest China[J].Earth Science Frontiers, 2017,24(3):41-55.
[38] 刘永福,赵建华,范秋海,等.塔北隆起哈拉哈塘凹陷东河砂岩成岩作用及其控制因素[J].现代地质,2014,28(3):635-644.
LIU Yongfu,ZHAO Jianhua,FAN Qiuhai,et al.Diagenesis and its control factors of Donghe sandstone in Hanilcatam depression of Tabei uplift[J].Geoscience,2014,28(3):635-644.
[39] XI Kelai,CAO Yingchang,HAILE B G,et al.How does the pore-throat size control the reservoir quality and oiliness of tight sandstones? The case of the Lower Cretaceous Quantou Formation in the southern Songliao Basin,China[J].Marine and Petroleum Geology,2016,76:1-15.
[40] CARR A D.Suppression and retardation of vitrinite reflectance,Part 1.Formation and significance for hydrocarbon generation[J].Journal of Petroleum Geology,2000,23(3):313-343.
[41] CARR A D.Suppression and retardation of vitrinite reflectance,Part 2.Derivation and testing of a kinetic model for suppression[J].Journal of Petroleum Geology,2000,23(4):475-496.
[42] HAO Fang,ZOU Huayao,GONG Zaisheng,et al.Hierarchies of overpressure retardation of organic matter maturation:Case studies from petroleum basins in China[J].AAPG Bulletin,2007,91(10):1467-1498.
[43] WILKINSON M,HASZELDINE R S,FALLICK A E.Hydrocarbon filling and leakage history of a deep geopressured sandstone,Fulmar Formation,United Kingdom North Sea[J].AAPG Bulletin,2006,90(12):1945-1961.
[44] 郝雪峰.东营凹陷沙三-沙四段砂岩储层超压成因与演化[J].石油与天然气地质,2013,34(2):167-173.
HAO Xuefeng.Overpressure genesis and evolution of sandstone reservoirs in the 3rd and 4th members of Shahejie Formation,the Dongying Depression[J].Oil & Gas Geology,2013,34(2):167-173.
[45] 段威,罗程飞,刘建章,等.莺歌海盆地LD区块地层超压对储层成岩作用的影响及其地质意义[J].地球科学-中国地质大学学报,2015,40(9):1517-1528.
DUAN Wei,LUO Chengfei,LIU Jianzhang,et al.Effect of overpressure formation on reservoir diagenesis and its geological significance to LD block of Yinggehai Basin[J].Earth Science-Journal of China University of Geosciences, 2015,40(9):1517-1528.
[46] 张建勇,刘文汇,腾格尔,等.TSR对气态烃组分及碳同位素组成的影响——高温高压模拟实验的证据[J].石油实验地质,2012,34(1):66-70.
ZHANG Jianyong,LIU Wenhui,TENGER,et al.Influences of TSR on gaseous hydrocarbon components and carbon isotopes:Revelations from high-temperature and high-pressure simulation experiments[J].Petroleum Geology & Experiment,2012,34(1):66-70.
[47] BJØRLYKKE K,JAHREN J.Open or closed geochemical systems during diagenesis in sedimentary basins:Constraints on mass transfer during diagenesis and the prediction of porosity in sandstone and carbonate reservoirs[J].AAPG Bulletin,2012,96(12):2193-2214.
[48] 刘晖,操应长,姜在兴,等.渤海湾盆地东营凹陷沙河街组四段膏盐层及地层压力分布特征[J].石油与天然气地质,2009,30(3):287-293.
LIU Hui,CAO Yingchang,JIANG Zaixing,et al.Distribution characteristics of evaporates and formation pressure of the fourth member of the Shahejie Formation in the Dongying sag,the Bohai Bay Basin[J].Oil & Gas Geology,2009,30(3):287-293.
[49] 张津宁,张金功,杨乾政,等.膏盐岩对异常高压形成与分布的控制——以柴达木盆地狮子沟地区为例[J].沉积学报,2016,34(3):563-570.
ZHANG Jinning,ZHANG Jingong,YANG Qianzheng,et al.The control effect of gypsum-salt rocks on formation and distribution of overpressure:a case of Shizigou area,Qaidam basin[J].Acta Sedimentologica Sinica,2016,34(3):563-570.
[50] WARREN J K.Evaporites:Sediments,resources and hydrocarbons[M].Berlin:Springer,2006.
[51] 吴海,赵孟军,卓勤功,等.膏盐岩对地层温度及烃源岩热演化的影响定量分析——以塔里木库车前陆盆地为例[J].石油勘探与开发,2016,43(4):550-558.
WU Hai,ZHAO Mengjun,ZHUO Qingong,et al.Quantitative analysis of the effect of salt on geothermal temperature and source rock evolution:A case study of Kuqa foreland basin,Western China[J].Petroleum Exploration and Development,2016,43(4):550-558.
[52] 卓勤功,赵孟军,李勇,等.膏盐岩盖层封闭性动态演化特征与油气成藏——以库车前陆盆地冲断带为例[J].石油学报,2014,35(5):847-856.
ZHUO Qingong,ZHAO Mengjun,LI Yong,et al.Dynamic sealing evolution and hydrocarbon accumulation of evaporite cap rocks:An example from Kuqa foreland basin thrust belt[J].Acta Petrolei Sinica,2014,35(5):847-856.
[53] 远光辉,操应长,杨田,等.论碎屑岩储层成岩过程中有机酸的溶蚀增孔能力[J].地学前缘,2013,20(5):207-219.
YUAN Guanghui,CAO Yingchang,YANG Tian,et al.Porosity enhancement potential through mineral dissolution by organic acids in the diagenetic process of clastic reservoir[J].Earth Science Frontiers,2013,20(5):207-219.
[54] SURDAM R C,BOESE S W,CROSSEY L J.The chemistry of secondary porosity[J].AAPG Memoir,1984,37(2):127-149.
[55] SURDAM R C,CROSSEY L J,HAGEN E S,et al.Organic-inorganic interactions and sandstone diagenesis[J].AAPG Bulletin,1989,73(1):1-23.
[56] SCHMIDT V,MCDONALD D A.The role of secondary porosity in sandstone diagenesis[J].AAPG Bulletin,1977,61(8):1390-1391.
[57] ATKINSON J H,BRANSBY P L.The mechanics of soil:an introduction to critical state soil mechanics[M].London:McGraw-Hill,1978.
[58] BLOCK S.Secondary Porosity in Sandstones:Significance,Origin,Relationship to Subaerial Unconformities,and Effect on Predrill Reservoir Quality Prediction[M]//WILSON M D.Reservoir Quality Assessment and Prediction in Clastic Rocks.Tulsa:SEPM,1994:137-160.
[59] 黄思静,武文慧,刘洁,等.大气水在碎屑岩次生孔隙形成中的作用——以鄂尔多斯盆地三叠系延长组为例[J].地球科学-中国地质大学学报,2003,28(4):419-424.
HUANG Sijing,WU Wenhui,LIU Jie,et al.Generation of secondary porosity by meteoric water during time of subaerial exposure:an example from Yanchang Formation sandstone of Triassic of Ordos Basin[J].Earth Science-Journal of China University of Geosciences,2003,28(4):419-424.
[60] TAYLOR T R,GILES M R,HATHON L A,et al.Sandstone diagenesis and reservoir quality prediction:Models,myths,and reality[J].AAPG Bulletin,2010,94(8):1093-1132.
[61] AJDUKIEWICZ J M,NICHOLSON P H,ESCH W L.Prediction of deep reservoir quality using early diagenetic process models in the Jurassic Norphlet Formation,Gulf of Mexico[J].AAPG Bulletin,2010,94(8):1189-1227.
[62] GILES M R.Diagenesis:a quantitative perspective,implications for basin modelling and rock property prediction[M].California:Kluwer Academic Publishers,1997:277-279.
[63] 邱隆伟,姜在兴,操应长,等.泌阳凹陷碱性成岩作用及其对储层的影响[J].中国科学(D辑),2001,31(9):752-759.
QIU Longwei,JIANG Zaixing,CAO Yingchang,et al.Alkaline diagenesis and its influence on a reservoir in the Biyang depression[J].Science in China Series D:Earth Sciences,2002,45(7):643-653.
[64] JIANG Zaixing,QIU Longwei,CHEN Guiju.Alkaline diagenesis and its genetic mechanism in the Triassic coal measure strata in the western Sichuan foreland basin,China[J].Petroleum Science,2009,6(4):354-365.
[65] BJØRLYKKE K,GRAN K.Salinity variations in North Sea formation waters:implications for large-scale fluid movements[J].Marine and Petroleum Geology,1981,11(1):5-9.
[66] SMITH J T,EHRENBERG S N.Correlation of carbon dioxide abundance with temperature in clastic hydrocarbon reservoirs:relationship to inorganic chemical equilibrium[J].Marine and Petroleum Geology,1989,6(2):129-135.
[67] HUTCHEON I,ABERCROMBIE H J.Carbon dioxide in clastic rocks and silicate hydrolysis[J].Geology,1990,18(6):541-544.
[68] 钟大康,朱筱敏,文应初.阜东斜坡侏罗系砂岩成岩作用、孔隙演化及次生孔隙预测[J].中国海上油气(地质),2003,17(4):249-251.
ZHONG Dakang,ZHU Xiaomin,WEN Yingchu.Diagenesis,porosity evolution and secondary porosity prediction of Jurassic sandstone reservoir in Fudong slope,Jungar basin[J].China Offshore Oil and Gas (Geology),2003,17(4):249-251.
[69] 朱筱敏,米立军,钟大康,等.济阳坳陷古近系成岩作用及其对储层质量的影响[J].古地理学报,2006,8(3):295-305.
ZHU Xiaomin,MI Lijun,ZHONG Dakang,et al.Paleogene diagenesis and its Control on reservoir quality in Jiyang Depression[J].Journal of Palaeogeography,2006,8(3):295-305.
[70] 纪友亮,赵澄林,刘孟慧.东濮凹陷地层流体的热循环对流与成岩圈闭的形成[J].石油实验地质,1995,17(1):8-16.
JI Youliang,ZHAO Chenglin,LIU Menghui.The fluid-flowing convection and the formation of diagenetic traps in the Dongpu depression[J]. Experimental Petroleum Geology,1995,17(1):8-16.
[71] 刘春,张荣虎,张惠良,等.致密砂岩储层微孔隙成因类型及地质意义——以库车前陆冲断带超深层储层为例[J].石油学报,2017,38(2):150-159.
LIU Chun,ZHANG Ronghu,ZHANG Huiliang,et al.Genetic types and geological significance of micro pores in tight sandstone reservoirs:a case study of the ultra-deep reservoir in the Kuqa foreland thrust belt,NW China[J].Acta Petrolei Sinica, 2017,38(2):150-159.
[72] 王珂,杨海军,张惠良,等.超深层致密砂岩储层构造裂缝特征与有效性——以塔里木盆地库车坳陷克深8气藏为例[J].石油与天然气地质,2018,39(4):719-729.
WANG Ke,YANG Haijun,ZHANG Huiliang,et al.Characteristics and effectiveness of structural fractures in ultra-deep tight sandstone reservoir:A case study of Keshen-8 gas pool in Kuqa Depression,Tarim Basin[J].Oil & Gas Geology,2018,39(4):719-729.
[73] 王俊鹏,张惠良,张荣虎,等.裂缝发育对超深层致密砂岩储层的改造作用——以塔里木盆地库车坳陷克深气田为例[J].石油与天然气地质,2018,39(1):77-88.
WANG Junpeng,ZHANG Huiliang,ZHANG Ronghu,et al.Enhancement of ultra-deep tight sandstone reservoir quality by fractures:A case study of Keshen gas field in Kuqa Depression,tarim Basin[J].Oil & Gas Geology,2018,39(1):77-88. |