[1] TISSOT B P, WELTE D H.Petroleum formation and occurrence[M].New York:Springer Verlag, 1978. [2] THOMPSON K F M.Classification and thermal history of petroleum based on light hydrocarbons[J].Geochimica et Cosmochimica Acta, 1983, 43(2):303-316. [3] THOMPSON K F M.Fractionated aromatic petroleums and the generation of gas-condensates[J].Organic Geochemistry, 1987, 11(6):573-590. [4] HUNT J M.Petroleum geochemistry and geology[M].Oxford:Freeman, 1979:84-89. [5] SNOWDON L R, POWELL T G.Immature oil and condensate-modification of hydrocarbon generation model for terrestrial organic matter[J].AAPG Bulletin, 1982, 66(6):775-788. [6] NISSENBAUM A, GOLDBERG M, AIZENSHTAT Z.Immature condensate from southeastern Mediterranean coastal plain, Israel[J].AAPG Bulletin, 1985, 69(6):946-949. [7] KHAVARI-KHORASANI G, DOLSON J C, MICHELSEN J K.The factors controlling the abundance and migration of heavy versus light oils, as constrained by data from the Gulf of Suez.Part I:the effect of expelled petroleum composition, PVT properties and petroleum system geometry[J].Organic Geochemistry, 1998, 29(1/3):255-282. [8] MATYASIK I, STECZKO A, PHILP R P.Biodegradation and migrational fractionation of oils from the Eastern Carpathians, Poland[J].Organic Geochemistry, 2000, 31(12):1509-1523. [9] NAPITUPULU H, ELLIS L, MITTERER R M.Post-generative alteration effects on petroleum in the onshore Northwest Java Basin, Indonesia[J].Organic Geochemistry, 2000, 31(4):295-315. [10] VOLK H, HORSFIELD B, MANN U, et al.Variability of petroleum inclusions in vein, fossil and vug cements-a geochemical study in the Barrandian Basin (Lower Palaeozoic, Czech Republic)[J].Organic Geochemistry, 2002, 33(12):1319-1341. [11] SHARAF L, EL NADY M.Application of light hydrocarbon (C7+) and biomarker analyses in characterizing oil from wells in the north and north central Sinai, Egypt[J].Petroleum Science and Technology, 2006, 24(6):607-627. [12] ZHANG Shuichang, SU Jin, WANG Xiaomei, et al.Geochemistry of Palaeozoic marine petroleum from the Tarim Basin, NW China:Part 3.Thermal cracking of liquid hydrocarbons and gas washing as the major mechanisms for deep gas condensate accumulations[J].Organic Geochemistry, 2011, 42(11):1394-1410. [13] 施和生, 王清斌, 王军, 等.渤中凹陷深层渤中19-6构造大型凝析气田的发现及勘探意义[J].中国石油勘探, 2019, 24(1):36-45. SHI Hesheng, WANG Qingbin, WANG Jun, et al.Discovery and exploration significance of large condensate gas fields in BZ19-6 structure in deep Bozhong sag[J].China Petroleum Exploration, 2019, 24(1):36-45. [14] 金之钧, 王冠平, 刘光祥, 等.中国陆相页岩油研究进展与关键科学问题[J].石油学报, 2021, 42(7):821-835. JIN Zhijun, WANG Guanping, LIU Guangxiang, et al.Research progress and key scientific issues of continental shale oil in China[J].Acta Petrolei Sinica, 2021, 42(7):821-835. [15] 贾承造.中国石油工业上游发展面临的挑战与未来科技攻关方向[J].石油学报, 2020, 41(12):1445-1464. JIA Chengzao.Development challenges and future scientific and technological researches in China's petroleum industry upstream[J].Acta Petrolei Sinica, 2020, 41(12):1445-1464. [16] 张水昌.运移分馏作用:凝析油和蜡质油形成的一种重要机制[J].科学通报, 2000, 45(6):667-670. ZHANG Shuichang.The migration fractionation:an important mechanism in the formation of condensate and waxy oil[J].Chinese Science Bulletin, 2000, 45(14):1341-1344. [17] 张水昌, 朱光有, 杨海军, 等.塔里木盆地北部奥陶系油气相态及其成因机制分析[J].岩石学报, 2011, 27(8):2447-2460. ZHANG Shuichang, ZHU Guangyou, YANG Haijun, et al.The phases of Ordovician hydrocarbon and their origin in the Tabei uplift, Tarim Basin[J].Acta Petrologica Sinica, 2011, 27(8):2447-2460. [18] 孙龙德.塔里木盆地凝析气田开发[M].北京:石油工业出版社, 2003:1-5. SUN Longde.Development of gas condensate field in Tarim Basin[M].Beijing:Petroleum Industry Press, 2003:1-5. [19] 杨海军, 朱光有.塔里木盆地凝析气田的地质特征及其形成机制[J].岩石学报, 2013, 29(9):3233-3250. YANG Hhaijun, ZHU Guangyou.The condensate gas field geological characteristics and its formation mechanism in Tarim Basin[J].Acta Petrologica Sinica, 2013, 29(9):3233-3250. [20] 周兴熙, 李绍基, 陈义才, 等.塔里木盆地凝析气形成[J].石油勘探与开发, 1996, 23(6):7-11. ZHOU Xingxi, LI Shaoji, CHEN Yicai, et al.Formation of condensate gas pools in Tarim Basin[J].Petroleum Exploration and Development, 1996, 23(6):7-11. [21] 黄第藩, 赵孟军.下古生界海相原油之中蜡的成因分析——干酪根PY-GC分析提供的证据[J].沉积学报, 1996, 14(2):12-20. HUANG Difan, ZHAO Menjun.The genesis of marine oils with middle wax from Lower Palaeozoic-evidence obtaining from kerogen's PY-GC analysis[J].Acta Sedimentological Sinica, 1996, 14(2):12-20. [22] 马柯阳.凝析油形成新模式——原油蒸发分馏机制研究[J].地球科学进展, 1995, 10(6):567-571. MA Keyang.Study on petroleum evaporative fractionation:a new mechanism for the generation of condensate[J].Advance in Earth Sciences, 1995, 10(6):567-571. [23] MALE F.Using a segregated flow model to forecast production of oil, gas, and water in shale oil plays[J].Journal of Petroleum Science and Engineering, 2019, 180:48-61. [24] ULMISHEK G, VIRGINIA R.Petroleum geology and resources of the west Siberian Basin, Russia[M].Reston, Virginia:U.S.Geological Survey, 2003:1-12. [25] THOMPSON K F M.Aspects of petroleum basin evolution due to gas advection and evaporative fractionation[J].Organic Geochemistry, 2010, 41(4):370-385. [26] KNUDSEN K, MEISINGSET K K.Evaporative fractionation effects for the oils in the Gullfaks South area[M]//MANNING D.Organic geochemistry advances and applications in energy and the natural environment.Manchester:Manchester University Press, 1991:162-165. [27] THOMPSON K F M.Gas-condensate migration and oil fractionation in deltaic systems[J].Marine and Petroleum Geology, 1988, 5(3):237-246. [28] ZHUZE T P, YUSHKEVICH G N, USHAKOVA G S, et al.Use of phase-composition data in the system oil-gas at high pressures for ascertaining the genesis of some pools[J].Petroleum Geology, 1963, 7(4):186-191. [29] DZOU L I P, HUGHES W B.Geochemistry of oils and condensates, K field, offshore Taiwan:a case study in migration fractionation[J].Organic Geochemistry, 1993, 20(4):437-462. [30] CURIALE J A, BROMLEY B W.Migration induced compositional changes in oils and condensates of a single field[J].Organic Geochemistry, 1996, 24(12):1097-1113. [31] 苏爱国, 张水昌, 韩德馨, 等.PVT分馏实验中链状烷烃分子的行为[J].沉积学报, 2004, 22(2):354-358. SU Aiguo, ZHANG Shuichang, HAN Dexing et al.Behavior of chain alkane molecular components in PVT fractionation experiment[J].Acta Sedimentologica Sinica, 2004, 22(2):354-358. [32] ZHANG S C, HANSON A D, MOLDOWAN J M, et al.Palaeozoic oil-source rock correlations in the Tarim Basin, NW China[J].Organic Geochemistry, 2000, 31(4):273-286. [33] ZHANG Shuichang, HUANG Haiping.Geochemistry of Palaeozoic marine petroleum from the Tarim Basin, NW China:Part 1.Oil family classification[J].Organic Geochemistry, 2005, 36(8):1204-1214. [34] LOSH S, CATHLES L, MEULBROEK P.Gas washing of oil along a regional transect offshore Louisiana[J].Organic Geochemistry, 2002, 33(6):655-663. [35] HUANG Difan, LIU Baoquan, WANG Tingdong, et al.Genetic types of natural gases and their maturity discrimination in the east of Tarim Basin[J].Science in China (Series D), 1996, 39(6):659-669. [36] CHEN Junhong, FU Jiamo, SHENG Guoying, et al.Diamondoid hydrocarbon ratios:novel maturity indices for highly mature crude oils[J].Organic Geochemistry, 1996, 25(3/4):179-190. [37] RADKE M, WELTE D H, WILLSCH H.Maturity parameters based on aromatic hydrocarbons:influence of the organic matter type[J].Organic Geochemistry, 1986, 10(1/3):51-63. [38] DAVIES G R, SMITH L B JR.Structurally controlled hydrothermal dolomite reservoir facies:an overview[J].AAPG Bulletin, 2006, 90(11):1641-1690. [39] TISSOT B, DURAND J, ESPITALIÉ A, et al.Influence of nature and diagenesis of organic matter in formation of petroleum[J].AAPG Bulletin, 1974, 58(3):499-506. [40] 傅宁, 米立军, 张功成.珠江口盆地白云凹陷烃源岩及北部油气成因[J].石油学报, 2007, 28(3):32-38. FU Ning, MI Lijun, ZHANG Gongcheng.Source rocks and origin of oil and gas in the northern Baiyun depression of Pearl River Mouth Basin[J].Acta Petrolei Sinica, 2007, 28(3):32-38. [41] 黄合庭, 税蕾蕾, 陈金定, 等.琼东南盆地陵水13-2气藏凝析油生物标志物检测及油气源对比[J].长江大学学报:自然科学版, 2019, 16(8):8-12. HUANG Heting, SHUI Leilei, CHEN Jinding, et al.The detection of biomarkers and their application in hydrocarbon source correlation of condensate oil from Lingshui13-2 gas reservoir in Qiongdongnan Basin[J].Journal of Yangtze University:Natural Science Edition, 2019, 16(8):8-12. [42] 胡安文, 牛成民, 王德英, 等.渤海湾盆地渤中凹陷渤中19-6构造凝析油气特征与形成机制[J].石油学报, 2020, 41(4):403-411. HU Anwen, NIU Chengmin, WANG Deying, et al.The characteristics and formation mechanism of condensate oil and gas in Bozhong 19-6 structure, Bozhong sag, Bohai Bay Basin[J].Acta Petrolei Sinica, 2020, 41(4):403-411. [43] 龙祖烈, 陈聪, 马宁, 等.珠江口盆地深水区白云凹陷油气成因来源与成藏特征[J].中国海上油气, 2020, 32(4):36-45. LONG Zulie, CHEN Cong, MA Ning, et al.Geneses and accumulation characteristics of hydrocarbons in Baiyun sag, deep water area of Pearl River Mouth Basin[J].China Offshore Oil and Gas, 2020, 32(4):36-45. [44] 杨海军, 邓兴梁, 张银涛, 等.塔里木盆地满深1井奥陶系超深断控碳酸盐岩油气藏勘探重大发现及意义[J].中国石油勘探, 2020, 25(3):13-23. YANG Haijun, DENG Xingliang, ZHANG Yintao, et al.Great discovery and its significance of exploration for Ordovician ultra-deep fault- controlled carbonate reservoirs of Well Manshen 1 in Tarim Basin[J].China Petroleum Exploration, 2020, 25(3):13-23. [45] 田军, 杨海军, 朱永峰, 等.塔里木盆地富满油田成藏地质条件及勘探开发关键技术[J].石油学报, 2021, 42(8):971-985. TIAN Jun, YANG Haijun, ZHU Yongfeng, et al.Geological conditions for hydrocarbon accumulation and key technologies for exploration and development in Fuman oilfield, Tarim Basin[J].Acta Petrolei Sinica, 2021, 42(8):971-985. |