Review on the inorganic geochemical methods of paleo-fluid study
-
摘要: 研究与成藏过程相关的古流体活动有助于深入认识油气成藏过程,从经济目的出发预测储层质量,精确分析不同阶段古流体活动对油气成藏的影响具有重要意义。目前国内外石油地质学家主要利用同位素地球化学、元素地球化学、流体包裹体分析等无机地球化学方法分析古流体活动特征及其对油气成藏的影响。在归纳前人研究成果的基础上,总结了各种无机地球化学方法的最新研究进展,认为同位素地球化学方法有助于分析古流体来源与成因,元素地球化学方法可示踪烃类流体的运移,流体包裹体分析技术结合岩相学研究可分析油气运移的时间、期次、相态、通道和油气藏的富集规律,并指出油气运移和聚集的有利方向。在运用无机地球化学方法研究古流体活动时不应局限于单一方法,综合利用多种无机地球化学方法更有利于全面分析古流体活动特征。Abstract: The study of paleo-fluid activity related to hydrocarbon accumulation helps us profoundly understand the oil and gas accumulation process. It has important significance on evaluating reservoir quality and analyzing paleo-fluid activity at different stages in oil and gas accumulation process for economic objectives. At present, petroleum geologists at home and abroad mainly apply inorganic geochemical methods (isotope geochemistry, element geochemistry and fluid inclusion analysis) to analyze paleo-fluid activity characteristics and its influences on hydrocarbon accumulation. On the basis of analyzing the previous research achievements, this paper summarizes the latest research progresses of inorganic geochemical methods. And these following conclusions are found: isotope geochemistry method is suitable for analyzing the paleo-fluid source and causes of formation; element geochemical method is beneficial to trace the migration of hydrocarbon fluid; fluid inclusion analysis technique combined with petrography is helpful to analyze migration time, stages, phase, pathway and accumulation regularity of oil and gas, which can also indicate the favorable direction of migration and accumulation. Using inorganic geochemical methods to analyze paleo-fluid activity should not be limited to a single method. Comprehensive utilization of a variety of inorganic geochemistry methods will be more beneficial to the comprehensive analysis of paleo-fluid activity.
-
Keywords:
- paleo-fluid /
- inorganic geochemistry /
- isotope geochemistry /
- element geochemistry /
- fluid inclusion
-
-
[1] Bjoflykke K.Fluid-flow processes and diagenesis in sedimentary basins[M]//Parnell J.Geofluids:Origin,Migration and Evolution of Fluids in Sedimentary Basins.London:Geological Society,Special Publications,1994. [2] 解习农,刘晓峰,赵士宝,等.异常压力环境下流体活动及其油气运移主通道分析[J].地球科学—中国地质大学学报,2004,29(5):589-595. [3] 蔡春芳,梅博文,马亭,等.塔里木盆地流体-岩石相互作用研究[M].北京:地质出版社,1997. [4] Buschaert S,Fourcade S,Cathelineau M,et al.Widespread cementation induced by inflow of continental water in the eastern part of the Paris basin:O and C isotopic study of carbonate cements[J].Applied Geochemistry,2004,19(8):1201-1215. [5] Dewever B,Swennen R,Cooreman M.Fluid flow in the Sicilian accretionary wedge:primary geochemical signatures or recrystallization mask[J].Journal of Geochemical Exploration,2006,89(1/3):83-86. [6] Caja M A,Permanyer A,Marfil R,et al.Fluid flow record from fracture-fill calcite in the Eocene limestones from the South-Pyrenean Basin (NE Spain) and its relationship to oil shows[J].Journal of Geochemical Exploration,2006,89(1/3):27-32. [7] 王大锐,张映红.渤海湾油气区火成岩外变质带储集层中碳酸盐胶结物成因研究及意义[J].石油勘探与开发,2001,28(2):40-42. [8] 董福湘,刘立,马艳萍.大港滩海地区沙一段下部砂岩储层中方解石胶结物碳、氧同位素研究[J].石油实验地质,2004,26(6):590-593. [9] 曹剑,胡文瑄,姚素平,等.准噶尔盆地石炭—二叠系方解石脉的碳、氧、锶同位素组成与含油气流体运移[J].沉积学报,2007,25(5):722-729. [10] 徐田武,曾溅辉,张永旺,等.大巴山前陆构造带主断裂碳酸盐岩碳、氧同位素特征及其对流体的响应[J].中国石油大学学报(自然科学版),2009,33(2):34-39,48. [11] 曾溅辉,孙占强,徐田武,等.大巴山前陆冲断带古水动力演化阶段及其对油气藏形成和保存的影响[J].现代地质,2010,24(6):1093-1101. [12] 李朋,任建业,阳怀忠,等.巴楚地区断裂带内热液流体活动及对碳酸盐岩改造的特征分析[J].大地构造与成矿学,2011,35(3):378-385. [13] 郭凯,曾溅辉,李元昊,等.陇东地区延长组构造裂缝方解石脉特征及其与烃类流体活动的关系[J].中国石油大学学报(自然科学版),2013,37(2):36-42,49. [14] 郭佳,曾溅辉,宋国奇,等.东营凹陷中央隆起带沙河街组碳酸盐胶结物发育特征及其形成机制[J].地球科学:中国地质大学学报,2014,39(5):565-576. [15] Keith W L,Weber J N.Carbon and oxygen isotopic composition of mollusk shells from marine and fresh water environment[J].Geochimica Et Cosmochimica Acta,1964,28:1757-1786. [16] Rossi C,Goldstein R H,Marfil R,et al.Diagenetic and oil migration history of the Kimmeridgian Ascla Formation,Maestrat Basin,Spain[J].Marine and Petroleum Geology,2001,18(3):287-306. [17] 胡文瑄,金之钧,张义杰,等.油气幕式成藏的矿物学和地球化学记录——以准噶尔盆地西北缘油藏为例[J].石油与天然气地质,2006,27(4):442-450. [18] 刘德汉.包裹体研究——盆地流体追踪的有力工具[J].地学前缘,1995,2:149-154. [19] Gregg J M,Shelton K L.Minor- and trace-element distributions in the Bonneterre dolomite (Cambrian),southeast Missouri:evidence for possible multiple-basin fluid sources and pathways during lead-zinc mineralization[J].GSA Bulletin,1989,101(2):221-230. [20] Varti-Mataranga M,Pe-Piper G.Geochemistry of upper Triassic black dolomites of the SE Peloponnese (Greece),and their relationship to the volcanic activity of the area[J].Neues Jahrbuch Fur Mineralogie-Monatshefte,1998,7:305-327. [21] 周景田.松辽盆地南部原油中微量金属元素分布特征并判断油气运移方向[J].大庆石油学院学报,1983,18(2):44-53. [22] 曹剑,王绪龙,胡文瑄,等.准噶尔盆地油水层无机地球化学响应与识别[J].石油学报,2012,33(3):361-366. [23] Bourdet J,Pironon J,Levresse G,et al.Petroleum accumulation and leakage in a deeply buried carbonate reservoir,Nispero field (Mexico)[J].Marine and Petroleum Geology,2010,27(1):126-142. [24] Suchy V,Heijlen W,Sykorova I,et al.Geochemical study of calcite veins in the Silurian and Devonian of the Barrandian Basin (Czech Republic):evidence for widespread post-Variscan fluid flow in the central part of the Bohemian Massif[J].Sedimentary Geology,2000,131(3/4):201-219. [25] Fischer M P,Higuera-Díaz I C,Evans M A,et al.Fracture-controlled paleohydrology in a map-scale detachment fold:insights from the analysis of fluid inclusions in calcite and quartz veins[J].Journal of Structural Geology,2009,31(12):1490-1510. [26] 邱楠生,金之钧,胡文喧.东营凹陷油气充注历史的流体包裹体分析[J].石油大学学报(自然科学版),2000,24(4):95-97,103. [27] 任拥军,陈勇.东营凹陷民丰洼陷深部天然气储层酸性溶蚀作用的流体包裹体证据[J].地质学报,2010,84(2):257-262. [28] 蔡李梅,陈红汉,李纯泉,等.济阳坳陷东营凹陷沙三中亚段流体包裹体古流体势场恢复[J].石油与天然气地质,2009,30(1):17-25. [29] 邵先杰.川西地区有机流体包裹体产状、组分及成因序次分析[J].吉林大学学报(地球科学版),2006,36(5):820-824. -
期刊类型引用(11)
1. 李静超,周晓成,何苗,颜玉聪,天娇,董金元. 四川红莫温泉的水文地球化学特征及其与地震的关系. 地震. 2024(03): 108-123 . 
百度学术
2. 何磊,牟必鑫,杨平,陈杨,刘治成. 康滇隆起东缘上三叠统页岩气有利区优选. 西南石油大学学报(自然科学版). 2023(05): 43-56 . 百度学术
3. 罗乃菲,杨知敏,李彦慧,王继盛,冯磊. 西昌盆地中部上三叠统白果湾组页岩地球化学特征及评价. 石化技术. 2022(06): 132-135+56 . 百度学术
4. 郑小敏,宋云,陈斌,杨林. 四川省乌蒙山片区白果湾组页岩气地质条件研究. 煤炭技术. 2022(09): 87-90 . 百度学术
5. 黄毅,戚明辉,牟必鑫,曹茜,刘虎,郑见超. 西昌盆地B1井龙马溪组页岩储集空间发育特征及影响因素. 天然气地球科学. 2022(10): 1691-1701 . 百度学术
6. 冯梦媛,叶玥豪,孙玮,宋金明,丁一,谢国梁,邵红君. 西昌盆地下古生界筇竹寺组与龙马溪组烃源岩特征. 断块油气田. 2021(01): 72-77 . 百度学术
7. 白宪洲,王玉婷,文龙,尹建华. 四川省石棉县孟获城新近系-第四系昔格达组孢粉组合特征. 四川地质学报. 2021(04): 536-543 . 百度学术
8. 杨威,魏国齐,金惠,郝翠果,沈珏红,王小丹. 西昌盆地上三叠统白果湾组沉积相与油气勘探前景. 天然气工业. 2020(03): 13-22 . 百度学术
9. 徐刚,王越,刘子畅,吕行,高淑芳. 四川盆地北部早白垩世剑门关组泥质岩地球化学特征及其地质意义. 中国地质调查. 2019(02): 76-86 . 本站查看
10. 白宪洲,文龙,王玉婷,马继跃,巴金,鄢圣武. 四川盆地西南缘下三叠统铜街子组-雷口坡组地球化学特征及其古环境意义. 四川地质学报. 2019(03): 387-393 . 百度学术
11. 吴家富,王翔,黄俊. 内蒙古丰镇市油篓山一带侏罗纪岩体的岩石学及地球化学特征. 中国地质调查. 2017(04): 41-49 . 本站查看
其他类型引用(4)
计量
- 文章访问数: 362
- HTML全文浏览量: 0
- PDF下载量: 483
- 被引次数: 15
下载:
