[1] BP.BP statistical review of world energy[EB/OL].[2022-01-20].https//www.bp.com/en/global/corporate/energy -economics/statisticalreviewofworldenergy.html. [2] 中国石油勘探开发研究院.全球油气勘探开发形势及油公司动态(2021年)[M].北京:石油工业出版社,2021. Research Institute of Petroleum Exploration and Development.Global petroleum E&D trends and company dynamics (2021)[M].Beijing:Petroleum Industry Press,2021. [3] 王宜林,宋新民,王贵海,等.中东地区油气合作区快速规模上产关键技术与实践[J].石油学报,2020,41(12):1633-1642. WANG Yilin,SONG Xinmin,WANG Guihai,et al.Key technologies and practices for rapid and large-scale production increase in cooperation oil and gas fields of the Middle East[J].Acta Petrolei Sinica,2020,41(12):1633-1642. [4] 余义常,宋新民,郭睿,等.碳酸盐岩差异成岩及储集层特征:以伊拉克HF油田白垩系Mishrif组为例[J].古地理学报,2018,20(6):1053-1067. YU Yichang,SONG Xinmin,GUO Rui,et al.Differential diagenesis and reservoir characteristics of bio-clastic limestone:a case study on the Cretaceous Mishrif Formation in HF oilfield,Iraq[J].Journal of Palaeogeography,2018,20(6):1053-1067. [5] DE PERIERE M D,DURLET C,VENNIN E,et al.Influence of a major exposure surface on the development of microporous micritic limestones-example of the Upper Mishrif Formation (Cenomanian)of the middle east[J].Sedimentary Geology,2017,353:96-113. [6] MAHDI T A,AQRAWI A A M.Sequence stratigraphic analysis of the mid-Cretaceous Mishrif Formation,southern Mesopotamian Basin,Iraq[J].Journal of Petroleum Geology,2014,37(3):287-312. [7] ZHONG Yuan,TAN Xiucheng,ZHAO Limin,et al.Identification of facies-controlled eogenetic karstification in the Upper Cretaceous of the Halfaya oilfield and its impact on reservoir capacity[J].Geological Journal,2019,54(1):450-465. [8] 宁超众,孙龙德,胡素云,等.塔里木盆地哈拉哈塘油田奥陶系缝洞型碳酸盐岩储层岩溶类型及特征[J].石油学报,2021,42(1):15-32. NING Chaozhong,SUN Longde,HU Suyun,et al.Karst types and characteristics of the Ordovician fracture-cavity type carbonate reservoirs in Halahatang oilfield,Tarim Basin[J].Acta Petrolei Sinica,2021,42(1):15-32. [9] 沈安江,乔占峰,佘敏,等.基于溶蚀模拟实验的碳酸盐岩埋藏溶蚀孔洞预测方法——以四川盆地龙王庙组储层为例[J].石油与天然气地质,2021,42(3):690-701. SHEN Anjiang,QIAO Zhanfeng,SHE Min,et al.Prediction of burial dissolved vugs in carbonates based on dissolution simulation:a case study of the Longwangmiao Formation dolostone reservoirs,Sichuan Basin[J].Oil & Gas Geology,2021,42(3):690-701. [10] 商晓飞,段太忠,张文彪,等.断控岩溶主控的缝洞型碳酸盐岩内部溶蚀相带表征——以塔河油田10区奥陶系油藏为例[J].石油学报,2020,41(3):329-341. SHANG Xiaofei,DUAN Taizhong,ZHANG Wenbiao,et al.Characterization of dissolution facies belt in fracture-cavity carbonate rocks mainly controlled by fault-controlling karst:a case study of Ordovician reservoirs in the Block 10 of Tahe oilfield[J].Acta Petrolei Sinica,2020,41(3):329-341. [11] 王拥军,童敏,孙圆辉,等.四川盆地大安寨段介壳灰岩致密油储层特征[J].石油学报,2019,40(1):42-55. WANG Yongjun,TONG Min,SUN Yuanhui,et al.Reservoir characteristics of Da'anzhai shell limestone tight oil in Sichuan Basin[J].Acta Petrolei Sinica,2019,40(1):42-55. [12] 李阳,康志江,薛兆杰,等.中国碳酸盐岩油气藏开发理论与实践[J].石油勘探与开发,2018,45(4):669-678. LI Yang,KANG Zhijiang,XUE Zhaojie,et al.Theories and practices of carbonate reservoirs development in China[J].Petroleum Exploration and Development,2018,45(4):669-678. [13] 李阳,侯加根,李永强.碳酸盐岩缝洞型储集体特征及分类分级地质建模[J].石油勘探与开发,2016,43(4):600-606. LI Yang,HOU Jiagen,LI Yongqiang.Features and hierarchical modeling of carbonate fracture-cavity reservoirs[J].Petroleum Exploration and Development,2016,43(4):600-606. [14] 丁振纯,高星,董国栋,等.鄂尔多斯盆地奥陶系盐下白云岩储层特征、成因及分布[J].海相油气地质,2021,26(1):16-24. DING Zhenchun,GAO Xing,DONG Guodong,et al.Characteristics,genesis and distribution of the Ordovician pre-salt dolomite reservoirs in Ordos Basin[J].Marine Origin Petroleum Geology,2021,26(1):16-24. [15] 金强,张三,孙建芳,等.塔河油田奥陶系碳酸盐岩岩溶相形成和演化[J].石油学报,2020,41(5):513-525. JIN Qiang,ZHANG San,SUN Jianfang,et al.Formation and evolution of karst facies of Ordovician carbonate in Tahe oilfield[J].Acta Petrolei Sinica,2020,41(5):513-525. [16] 王翼君,唐洪明,卢浩,等.伊拉克X油田上白垩统Kh2段碳酸盐岩孔隙结构及其对原油动用的影响[J].地 质论评,2020,66(5):1412-1430. WANG Yijun,TANG Hongming,LU Hao,et al.A study on the pore structure of carbonate rocks and its effect on oil movability in the Kh2 Member of Upper Cretaceous Khasib Formation in X oilfield,Iraq[J].Geological Review,2020,66(5):1412-1430. [17] 李晨,陈培元,王兴龙,等.伊拉克B油田MB2油层组层序格架内台内滩储层发育特征及其对注水动态的影响[J].中国科技论文,2019,14(9):960-968. LI Chen,CHEN Peiyuan,WANG Xinglong,et al.Characteristics of inner-platform shoal reservoir in the sequence framework and its influence on water injection performance of MB2 oil-bearing interval in B oilfield,Iraq[J].China Sciencepaper,2019,14(9):960-968. [18] 宋新民,李勇.中东碳酸盐岩油藏注水开发思路与对策[J].石油勘探与开发,2018,45(4):679-689. SONG Xinmin,LI Yong.Optimum development options and strategies for water injection development of carbonate reservoirs in the Middle East[J].Petroleum Exploration and Development,2018,45(4):679-689. [19] 刘晓蕾,朱光亚,熊海龙,等.中东碳酸盐岩油藏孔隙结构对驱油效果的影响[J].科学技术与工程,2017,17(1):182-186. LIU Xiaolei,ZHU Guangya,XIONG Hailong,et al.Effect of pore structure on oil displacement efficiency in middle east carbonate reservoir[J].Science Technology and Engineering,2017,17(1):182-186. [20] 梅青燕,邹成,杨山,等.孔隙结构特征和非均质性对碳酸盐岩气藏开发的影响[J].天然气地球科学,2020,31(12):1757-1765. MEI Qingyan,ZOU Cheng,YANG Shan,et al.The influence of pore structure and heterogeneity on development of carbonate gas reservoir[J]. Natural Gas Geoscience,2020,31(12):1757-1765. [21] 高文彬,李宜强,何书梅,等.基于荧光薄片的剩余油赋存形态分类方法[J].石油学报,2020,41(11):1406-1415. GAO Wenbin,LI Yiqiang,HE Shumei,et al.Classification method of occurrence mode of remaining oil based on fluorescence thin sections[J].Acta Petrolei Sinica,2020,41(11):1406-1415. [22] 郭秀娟,夏东领,庞雯,等.致密油微观孔隙结构精细表征对储层分类的重要作用——以红河油田长8油层为例[J].科学技术与工程,2019,19(34):129-136. GUO Xiujuan,XIA Dongling,PANG Wen,et al.Significance of microscope pore structure characterization for classification of tight reservoir:taking the 8th member of Yanchang Formation in Honghe oilfield as an example[J].Science Technology and Engineering,2019,19(34):129-136. [23] 余义常,徐怀民,高兴军,等.海相碎屑岩储层不同尺度微观剩余油分布及赋存状态——以哈得逊油田东河砂岩为例[J].石油学报,2018,39(12):1397-1409. YU Yichang,XU Huaimin,GAO Xingjun,et al.Distribution and occurrence status of microscopic remaining oil at different scales in marine clastic reservoirs:a case study of Donghe sandstone in Hadeson oilfield[J].Acta Petrolei Sinica,2018,39(12):1397-1409. [24] 李其正,王峻峰,唐海,等.礁灰岩储层微观孔隙结构特征及对生产动态影响[J].油气藏评价与开发,2017,7(6):1-7. LI Qizheng,WANG Junfeng,TANG Hai,et al.Microscopic pore structure characteristics and their impacts on production performance of reef limestone reservoir[J].Reservoir Evaluation and Development,2017,7(6):1-7. [25] 秦国省,王友净,刘辉,等.伊拉克哈法亚油田古近系海相三角洲沉积特征及成藏主控因素[J].油气地质与采收率,2021,28(3):25-34. QIN Guosheng,WANG Youjing,LIU Hui,et al.Sedimentary characteristics and main controlling factors of Paleogene marine delta reservoir in Halfaya oilfield,Iraq[J].Petroleum Geology and Recovery Efficiency,2021,28(3):25-34. [26] 孙文举,乔占峰,邵冠铭,等.伊拉克哈法亚油田中白垩统Mishrif组MB1-2亚段沉积与储集层构 型[J].石油勘探与开发,2020,47(4):713-722. SUN Wenju,QIAO Zhanfeng,SHAO Guanming,et al.Sedimentary and reservoir architectures of MB1-2 sub-member of Middle Cretaceous Mishrif Formation of Halfaya oilfield in Iraq[J].Petroleum Exploration and Development,2020,47(4):713-722. [27] 余义常,孙龙德,宋新民,等.厚壳蛤滩沉积成岩特征及对储集层的控制作用——以伊拉克H油田白垩系Mishrif组为例[J].石油勘探与开发,2018,45(6):1007-1019. YU Yichang,SUN Longde,SONG Xinmin,et al.Sedimentary diagenesis of rudist shoal and its control on reservoirs:a case study of Cretaceous Mishrif Formation,H oilfield,Iraq[J].Petroleum Exploration and Development,2018,45(6):1007-1019. [28] ZHONG Yuan,ZHOU Lu,TAN Xiucheng,et al.Characteristics of depositional environment and evolution of Upper Cretaceous Mishrif Formation,Halfaya oil field,Iraq based on sedimentary microfacies analysis[J].Journal of African Earth Sciences,2018,140:151-168. [29] 韩玉娇,周灿灿,范宜仁,等.基于孔径组分的核磁共振测井渗透率计算新方法——以中东A油田生物碎屑灰岩储集层为例[J].石油勘探与开发,2018,45(1):170-178. HAN Yujiao,ZHOU Cancan,FAN Yiren,et al.A new permeability calculation method using nuclear magnetic resonance logging based on pore sizes:a case study of bioclastic limestone reservoirs in the A oilfield of the Mid-East[J].Petroleum Exploration and Development,2018,45(1):170-178. [30] 金值民,谭秀成,郭睿,等.伊拉克哈法亚油田白垩系Mishrif组碳酸盐岩孔隙结构及控制因素[J].沉积学报,2018,36(5):981-994. JIN Zhimin,TAN Xiucheng,GUO Rui,et al.Pore structure characteristics and control factors of carbonate reservoirs:the Cretaceous Mishrif Formation,Halfaya oilfield,Iraq[J].Acta Sedimentologica Sinica,2018,36(5):981-994. [31] 王昱翔,周文,郭睿,等.伊拉克哈勒法耶油田Mishrif组滩相储层特征及其成因分析[J].吉林大学学报(地球科学版),2017,47(4): 1007-1020. WANG Yuxiang,ZHOU Wen,GUO Rui,et al.Shoal facies reservoir characteristics and genesis of Mishrif Formation in Halfaya oilfield,Iraq[J].Journal of Jilin University (Earth Science Edition),2017,47(4):1007-1020. [32] 张琪,李勇,李保柱,等.礁滩相碳酸盐岩油藏贼层识别方法及开发技术对策——以鲁迈拉油田Mishrif油藏为例[J].油气地质与采收率,2016,23(2):29-34. ZHANG Qi,LI Yong,LI Baozhu,et al.Identification methods and development strategy study of thief zone in reef-bank carbonate reservoirs:a case study of the Mishrif reservoir in Rumaila oilfield[J].Petroleum Geology and Recovery Efficiency,2016,23(2):29-34. [33] LEGEMAH M U,GOMAA A,BILDEN D,et al.Sequential injection process enhances acidizing treatment of high-temperature wells[R].SPE 173626,2015. [34] 王达,卢岩,周福建,等.低、无污染基质孔隙型灰岩储层基质酸化增产可行性探索[J].科学技术与工程,2020,20(14):5603-5609. WANG Da,LU Yan,ZHOU Fujian,et al.Feasibility study of matrix acidizing technology to stimulate low damaged or undamaged porous carbonate reservoirs[J].Science Technology and Engineering,2020,20(14):5603-5609. [35] 齐宁,陈国彬,李振亮,等.基于分步算法的裂缝性碳酸盐岩油藏大尺度酸化数值模拟[J].石油学报,2020,41(3):348-362. QI Ning,CHEN Guobin,LI Zhenliang,et al.Numerical simulation of large-scale acidification in fractured carbonate reservoirs based on a step-by-step algorithm[J].Acta Petrolei Sinica,2020,41(3):348-362. [36] 张合文,黄先雄,杨平平,等.协同转向酸化技术在让纳若尔油田的应用[J].石油钻采工艺,2014,36(2):101-104. ZHANG Hewen,HUANG Xianxiong,YANG Pingping,et al.Synergitic diverted acidizing and its application in Zanazour oilfield[J].Oil Drilling & Production Technology,2014,36(2):101-104. [37] 彭颖锋,李宜强,朱光亚,等.离子匹配水驱提高碳酸盐岩油藏采收率机理及实验——以中东哈法亚油田白垩系灰岩为例[J].石油勘探与开发,2019,46(6):1159-1168. PENG Yingfeng,LI Yiqiang,ZHU Guangya,et al.Mechanisms and experimental research of ion-matched waterflooding to enhance oil recovery in carbonate reservoirs:a case of Cretaceous limestone reservoirs in Halfaya oilfield,Middle East[J].Petroleum Exploration and Development,2019,46(6):1159-1168. [38] ALHAMMADI M,MAHZARI P,SOHRABI M.Fundamental investigation of underlying mechanisms behind improved oil recovery by low salinity water injection in carbonate rocks[J].Fuel,2018,220:345-357. |