收稿日期: 2005-05-19
修回日期: 2005-08-20
网络出版日期: 2005-10-20
基金资助
国家重点基础研究发展规划项目(编号:2003CB214606);国家自然科学基金项目(编号:40072050,40272065)资助.
ADVANCES IN EXTRACTION OF ORGANIC-INORGANIC INTERACTIONINFORMATION WITHIN OIL RESERVOIR AND PRECISE CORRELATIONTECHNIQUE WITH SOURCE ROCK
Received date: 2005-05-19
Revised date: 2005-08-20
Online published: 2005-10-20
指出油藏储层中的自生矿物和流体包裹体及其所含的烃类生物标志物,记录了油气藏流体在空间和时间上的非均质性分布特征,是油气流体充注储层过程时所发生的有机-无机相互作用信息的载体;近年来飞速发展的油藏储层固体-流体微区定量分析技术,已经成为储层地球化学和油藏地球化学研究的有效手段,在该领域所取得的研究成果和进展充分证明,运用该项新技术对油藏储层分析所获得的信息,已经远大于对油藏原油定量分析所获得的信息。认为通过油藏储层内烃类组分与烃源岩地球化学特征的分类对比极有可能成为判明我国陆相盆地多源多期复合油藏中不同充注期次烃类来源最有效的解决方案。
王琪;史基安; . 油藏储层内有机-无机相互作用信息提取与烃源岩精细对比技术研究进展[J]. 天然气地球科学, 2005 , 16(5) : 564 -570 . DOI: 10.11764/j.issn.1672-1926.2005.05.564
Authigenic minerals and fluid inclusion as well as hydrocarbon biomarkers preserved in these phases could record the temporal and spatial heterogeneity of fluid flow within the oil and gas pool and be the carrier of the information related to the organic-inorganic interaction during oil& gas fluid infilling the reservoir. In recent years, the rapid development of the solid-fluid microanalysis techniques involved in oil & gas reservoirs has been the efficient tools in the field of reservoir geochemistry and oil pool geochemistry. As a result, the achievements obtained in these fields have fully demonstrated that the information extracted by these novel techniques is far more abundant than that obtained from the crude oil within the oil reservoirs. Thus, through the microanalysis on the solid-fluid area in oil pool and correlation with the possible source rocks will be bound to become the most efficient way to expound the origin of superimposed complex oil and gas pools in terrigeneous basins of China.
[1]方少仙,侯方浩.石油天然气储层地质学[M].东营:石油大学出版社,1998.56-83.
[2] Stoessell R K. Mass transport in sandstone around dissolving plagioclase grains[J]. Geology, 1987,15(6): 295-298.
[3] Surdam R C, Crossey L J, Hagen E S. Organic-inorganic interactions and sandstone diagenesis[J]. AAPG Bulletin, 1989,73(1):1-23.
[4] Bohlke J K, Irwin J J. Laser microbe analysis of gas isotopes and halogens in fluid inclusion.Analysis of microstandards and synthetic inclusions in quar[J].Geochimica et Cosmochimica Acta, 1992,56(1): 165-173.
[5] Karlsen D A. Hydrocarbon composition of antigenic inclusi- ons: Application to elucidation of petroleum reservoir filling history[J].Geochimica et Cosmochimica Acta, 1993,57(4): 3641-3659.
[6]George S C, Lisk M, Summons R E. Constraining the oil charge History of the South Pepper oilfield from the analysis of oil-bearing fluid inclusions[J]. Organic Geochemistry, 1998,29(2): 631-648.
[7] 邱华宁,戴瞳谟. 40Ar/39Ar法测定矿物流体包裹体年龄[J].科学通报,1989,34(9):687-689.
[8] 邱华宁,彭良.40Ar/39Ar年代学与流体包裹体定年[M].合肥:中国科学技术大学出版社,1997.54-65.
[9] 刘德良,陶士振,张宝民.包裹体在确定成藏年代中的应用及应注意的问题[J].天然气地球科学,2005,16(1):16-19.
[10] 陈孟晋,胡国艺.流体包裹体中气体碳同位素测定新方法及其应用[J].石油与天然气地质,2002,23(4):339-342.
[11] 李贤庆,胡国艺,李剑,等.鄂尔多斯盆地中部奥陶系碳酸盐岩储层流体包裹体特征及对天然气成藏的意义[J].天然气地球科学,2004,15(2):120-124.
[12] 何知礼,杜加峰.流体包裹体研究的某些进展与发展趋势[J].地学前缘,1996,4(2):306-312.
[13] 曾治平,王敏芳,倪建华.油气成藏期次研究中有机包裹体方法存在问题探讨[J].天然气地球科学,2003,13(3-4):55-59.
[14] Lee M, Aronson J L, Savin S M. Timing and conditions of Permian Rotliegende sandstone diagenesis, southern North Sea: K-Ar and oxygen isotopic data[J]. AAPG Bulletin, 1989,73(1):195-215.
[15] Hamilton P J, Giles M R, Ainsworth P. K-Ar dating of ill- ites in Brent Group Reservoirs: A regional perspective[A]. Morton A C, Hazeldine R S, Giles MR.Geology of the Brent Group[C].London: Geological Society Special Publication, 1992,62:377-400.
[16] Bhullar A G. Dating reservoir filling- a case history from the North Sea[J]. Marine and Petroleum Geology, 1999,16(3): 581-603.
[17] 王飞宇,何萍,张水昌,等.自生伊利石K/Ar定年分析烃类进入储集层的时间[J].地质论评,1997,43(5):540-547.
[18] 徐永昌,刘文汇,沈平,等.天然气地球化学的重要分支——稀有气体地球化学[J].天然气地球科学,2003,14(3):157-166.
[19] 刘文汇,刘全有,徐永昌,等.天然气地球化学数据的获取及应用[J].天然气地球科学,2003,14(1):21-29.
[20] 丁贵明,张一伟,吕鸣岗,等.油气勘探工程[M]. 北京:石油工业出版社,1997.146-201.
[21] 姜振学,庞雄奇,黄志龙.叠合盆地油气运移期次研究方法及应用[J].石油勘探与开发,2000,27(4):22-25.
[22] 夏响华,杨瑞琰,鲍征宇.烃类垂直运移的模拟研究[J].石油与天然气地质,2003,24(3):260-263.
[23] 王飞宇,金之钧,吕修祥,等.含油气盆地成藏期分析理论和新方法[J].地球科学进展,2002,17(5):754-762.
[24] 赵靖舟.油气成藏年代学研究进展及发展趋势[J].地球科学进展,2002,17(3):378-383.
[25] Fu Jiamo, Sheng Guoying, Liu Dehan. In Lacustrine Petro- leum Source rocks[A]. Kelts K, Fleet A, Talbot M. Black- well Scientific Publications[C].1989.279-289.
[26]傅家谟.国外石油有机地球化学进展[J].石油实验地质,1980,2(2):62-64.
[27]Brassell S C, Eglinton G, Molecular D. Sohn M.Organic Marine Geochemistry[C].American Chemical Society, Washington D.C.,1986.10-32.
[28] Brassell S C, Eglinton G, Howell V J.et al. Marine Petroleum Source Rocks[C].Blackwell Scientific Pubilcations, 1987.79-98.
[29] 赵文智,何登发.石油地质综合研究导论[M].北京:石油工业出版社,1999.56-74.
[30] England W A, Mackenzie A S. Geochemistry of petroleum reserveoirs[J]. Geologische Rundschau,1989,78:214-237.
[31] Hillebrand T, Leythaeuser D. Reservoir geochemistry of St- ockstadt oilfield: compositional heterogeneities reflecting ac- cumulation history and multiple source input[J]. Organic Geochemistry, 1992,19(1):119-131.
[32] 王铁冠,张枝焕.油藏地球化学的理论与实践[J]. 科学通报,1997,42(19):2017-2025.
[33] 卢鸿,冯小杰.油源对比常规方法的使用误区[J]. 西安工程学院学报,2000,22(2):56-59.
[34] 徐冠军,张大江,王培荣.用沥青质中生物标志化合物判断生物降解油的油源[J].科学通报,2003,48(4):400-404.
[35] Hostettler F D. PAH refractory index as a source discriminator of hydrocarbon input from crude oil and coal in Prince William Sound, Alaska[J].Organic Geochemistry, 1999, 30(3): 873-879.
[36] 杨绪充.含油气区地下温压环境[M].东营:石油大学出版社,1993.64-82.
[37] Parnell J. Dating & duration of fluid flow events (Geological society special publication)[M]. London: Geological Society Publishing House, 1998.144.
[38] Petrychenko O, Peryt T M, Roulston B. Seawater composi- tion during deposition of visean evaporates in the Moncton sub-basin of new Brunswick as inferred from the fluid inclusion study of halite[J]. Canada Journal of Earth Sciences, 2002,39(2):157-167.
[39] 陶士振.包裹体应用于油气地质研究的前体和关键问题[J].地质科学,2004,39(1):77-91.
[40] George S C, Lisk M, Eadinton P J. Fluid inclusion record of early oil preserved at Jabiru Field, Vulcan sub-basin[J]. Exploration Geophysics, 1997,18(1):66-71.
[41] Jones M D, Macleod G. Molecular analysis of petroleum in fluid inclusions: A practical methodology[J]. Organic Geochemistry, 2000,31(4):1163-1173.
[42] Heydari E. The role of burial diagenesis in hydrocarbon des- [KG*7/8]truction and H-2S accumulation, Upper Jurassic Smackover Formation, Black Creek field, Mississippi[J].AAPG Bulletin, 1997,81(2):26-45.
[43] Surdam R C, Jiao Z S, MacGowan, D B. Redox reactions involving hydrocarbons and mineral oxidants: A mechanism for significant porosity enhancement in sandstones[J]. AAPG Bulletin,1993,77(5):1509-1518.
[44] Hogg A J C, Hamilton P J, Macintyre R M. Mapping diage- netic fluid flow within a reservoir: K-Ar dating in the Alwyn area (UK North Sea)[J].Marine and Petroleum Geology, 1993,10(2):279-294.
[45] Macaulay C I. Methods of laser-based stable isotope measur- ement applied to diagenetic cements and hydrocarbon reserv- oir quality[J]. ClayMinerals,2000, 35(2):313-322.
[46] 史基安,王金鹏,毛明陆,等.鄂尔多斯盆地西峰油田三叠系延长组长6-8段储层砂岩成岩作用研究[J]. 沉积学报,2003,21(3):373-379.
[47] 王琪,史基安,王多云,等.鄂尔多斯盆地西部三叠系长2油层组砂岩成岩演化特征[J].天然气地球科学,2005,16(2):261-268.
[48] Wilhelms A, Horstad I, Karlsen D. Sequential extraction - a useful toolfor reservoir geochemistry[J]. Organic Geoche- mistry, 1996, 24(4):1157-1172.
[49] Schwark L, Stoddart D A, Neuser C. A novel sequential ex- traction system for whole core plug extraction in a solvent flow-though cell-application to extraction of residual petroleum from an intact pore-system in secondary migration studies[J]. Organic Geochemistry, 1997,26(1):19-31.
[50] 潘长春,傅家谟,盛国英.塔里木库车坳陷含油、气储集岩连续抽提和油、气包裹体成分分析[J]. 科学通报,2000,45(增刊):2750-2757.
[51] 邵荣,叶加仁.流体包裹体在断陷盆地含油气系统研究中的应用概述[J].天然气地球科学,2000,11(6):11-14.
[52] Parnell J. The use of integrated fluid inclusion studies in con- straining oil charge history and reservoir compartmentation: examples from the Jeanned Arc basin, offshore Newfoundland[J]. Marine and Petroleum Geology, 2001, 18(3): 535-549.
[53] Peters K E. Mixed Marine and lacustrine input to an oil-cemented sandstone breccias from Brora, Scotland[J]. Organic Geochemistry, 1999,30(2):237-248.
[54] Magoon L B.含油气系统及其研究方法[M].杨瑞召译.北京:地质出版社,1994.25-34.
[55] 胡见义,黄第藩.中国陆相石油地质理论基础[M]. 北京:石油工业出版社,1991.112-120.
[56] 张枝焕,王铁冠. 松辽盆地新站油田碎屑岩油层原油非均质特征与成因分析[J].石油实验地质,2002,24(4):354-358.
[57] 王传纲,王铁冠,陈建平,等.对准噶尔盆地东部彩南油田侏罗系油藏原油族(组)群类型的认识[J].石油实验地质,2003,25(2):183-188.
[58] Stojanovic K, Macintyre J. Maturity assessment of oils from the Sakhalinoil fields in Russia: phenanthrene content as a tool[J].Organic Geochemistry,2001,32(3): 721-731.
[59] Odden W, Keuser M. Compound-specific carbon isotope ana- lysis of natural and artificially generated hydrocarbons in source rock and petroleum fluids from offshore Mid-Norway[J]. Organic Geochemistry, 2002,33(1): 47-65.
[60] 陈世加,付晓文.中分子量烃在油源对比中的应用[J]. 西南石油学院学报,2002,24(5):1-3.
[61]Tuo J C, Philp R P. Occurrence and distribution of high molecular weight hydrocarbons in selected non-marine source rocks from the Liaohe, Qaidamand Tarim Basins, China[J]. Organic Geochemistry, 2003,34(3):1543-1558.
[62]Riediger C L, Jone H W. Origin and alteration of Lower Cretaceous Mannville group oils from the Provost oil field, east central Alberta, Canada[J]. Bulletin Canada Petroleum Geology, 1999, 47(1):43-62.
[63] 杨杰,黄海平,张水昌,等.塔里木盆地北部隆起原油混合作用半定量评价[J].地球化学,2003,32(2):105-111.
[64] 潘长春,杨坚强.油气微观不均一性及其意义[J].沉积学报,1998,16(4):98-104.
[65] Lisk M, George S C, Summons R E,et al. Mapping hydro- carbon charge histories detailed characterization of the South Pepper oil field, Carnavon Basins[J].Australia Petroleum Exploration Association Journal,1996,36(2):445-464.
[66] Isaksen G H. Correlation of fluid inclusions and reservoired oils to infer trap fill history in the south Viking graben, North Sea[J].Petroleum Geoscience, 1998,4(1):41-55.
[67] 赵厚银,王廷斌,邵龙义.有机包裹体的研究现状及发展趋势[J].中国矿业,2003,12(7):10-13.
[68] Lee M, Aronson J L, Savin S M. K-Ar dating of time of gas emplacement in Rotliegendes Sandstone, Netherlands[J]. AAPG Bulletin, 1985,69(6):1381-1385.
[69] Halliday A N, Ohr M, Mezger J T. Recent developments in dating ancient crystal fluid flow[J]. Review of Geophysics, 1991,29(3):577-584.
[70] Trave A, Calvet F, Soler A. Fracturing and fluid migration Palaeogene compression and Neogene extension in the Catalan Coastal Ranges, Spain[J]. Sedimentology, 1998,45(4):1063-1082.
[71]Kiriakuolakis K. Biomarkers in Lower Jurassic concretions from Dorset(UK)[J].J Geol Coc,2000,157(1):207-220.
[72] Скибицкая Н А. Новые представпения о породообраэующем кар- бонатном веществе залежей УВ. Геол[J]. Нефти и газа И, 1997,13(1):13-19.
[73] Цивинская Л В. Параметры тонкои структуры кальцита различ- ного генезиса Геол[J]. Нефти и газа И, 1996,12(1):4-7.
[74] 刘英俊,曹励明,李兆麟,等.元素地球化学[M].北京:科学出版社,1984.54-67.
[75] 金强,田海芹,戴俊生.微量元素组成在固体沥青-源岩对比中的应用[J].石油实验地质,2001,23(3):285-290.
[76]Basmussen B. Evidence of hydrocarbon and metalliterrous fluid migration in the Palaeo-proterozoic Earaheedy basin of Western Australia[J]. J Geol Coc, 2000,157(2):255-366.
[77] Ghazi A M, Vanko D A, Roedder E. Determination of rare elements in flui inclusions by inductively coupled plasma-mass spectrometry(ICP-MS)[J]. Geochimica et Cosmochimica Acta,1993, 57(4):4513-4516.
[78] 毕献武,胡瑞忠,Cornell D H. 蚀变流体的来源:矿化蚀变带中原生与次生长石的稀土元素证据[J]. 科学通报,2000,45(13):1429-1432.
[79] 胡圣虹,胡兆初,刘永胜,等.单个流体包裹体元素化学组成分析技术——激光剥蚀电感耦合等离子质谱[J].地学前缘,2001,8(4):434-440.
/
| 〈 |
|
〉 |
甘公网安备 62010202000678号