研究论文

蒸发岩盆地油气藏的形成

  • 赵小庆 ,
  • 郑绵平
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  • 中国地质科学院矿产资源研究所, 国土资源部盐湖资源与环境重点实验室, 北京 100037
赵小庆,博士后,研究方向为沉积学与地质学,电子信箱:diandian_lovely@163.com

收稿日期: 2015-04-29

  修回日期: 2015-09-19

  网络出版日期: 2016-03-25

基金资助

国家自然科学基金项目(U1407207);中国地质调查局地质大调查项目(12120114048501)

Evaporite basin reservoir formation

  • ZHAO Xiaoqing ,
  • ZHENG Mianping
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  • Ministry of Land and Resource Key Laboratory of Saline Lake Resources and Environments;Institute of Mineral Resource, China Academy of Geological Sciences, Beijing 100037, China

Received date: 2015-04-29

  Revised date: 2015-09-19

  Online published: 2016-03-25

摘要

世界上许多大型含油气盆地都有蒸发岩分布,蒸发岩与沉积盆地的含油气性有着非常密切的关系。为了探讨蒸发岩对沉积盆地含油气性的影响,本文通过大量文献调研。分析表明:泻湖和盐湖环境的生物种群可以作为烃源岩最好的母质;而蒸发岩盆地在独特的太阳池效应的作用下,有机质可以有效地转化为烃源岩;蒸发岩的储集性及其可塑性和流动性为油气储的运移和聚集提供了良好的通道;蒸发岩良好的封闭能力为油气的赋存提供了很好的圈闭。明确了蒸发岩对沉积盆地的含油气性控制机制。

本文引用格式

赵小庆 , 郑绵平 . 蒸发岩盆地油气藏的形成[J]. 科技导报, 2016 , 34(5) : 53 -59 . DOI: 10.3981/j.issn.1000-7857.2016.05.005

Abstract

Many of the world's large basins have evaporite distributions, and evaporite has a very close relationship with the capability of sedimentary basin. In order to clarify the influence of evaporite on the capability of sedimentary basin, this paper, through a large number of literature analysis, argues that lagoon and salt lake environment species can be used as the best parent material of hydrocarbon source rocks, and that under the unique action of "solar pool effect" in the evaporite basin, the organic matter can be effectively converted into hydrocarbon source rocks. It is analyzed that reservoir of evaporite considering its plasticity and liquidity can provide a good channel for the migration and accumulation of oil and gas. Also discussed is that the good sealing capacity of evaporite may provide a good trap for oil and gas occurrence. Eventually, the control mechanism of evaporite oiliness in sedimentary basin is pointed out.

参考文献

[1] Chritopher G, Kendall S C, Weber L J. The giant oil fieldevaporite association a function of the Wilson cycle, climate, basin position and sea level[J/OL].[2015-01-31]. http://www.searchanddiscovery.com/pdfz/documents/2009/40471kendall/ndx_kendall.pdf.html.
[2] 徐文世, 于兴河, 刘妮娜, 等. 蒸发岩与沉积盆地的含油气性[J]. 新疆石油地质, 2005, 26(6):715-718. Xu Wenshi, Yu Xinghe, Liu Nina, et al. Petroliferous property in evaporitic rocks and sedimentary basins[J]. Xinjiang Petroleum Geology, 2005, 26(6):715-718.
[3] 贾振选. 中国东部陆相含蒸发岩盆地形成特点与油气、蒸发岩与油气[M]. 北京:石油工业出版社, 1985. Jia Zhenxuan. Evaporite basin formation characteristics and oil and gas, evaporite and oil and gas of East China continental[M]. Beijing:Petroleum Industry Press, 1985.
[4] 张国防, 吴德云, 马金钰. 盐湖相石油早期生成[J]. 石油实验地质, 1995, 17(4):358. Zhang Guofang, Wu Deyun, Ma Jinyu. The early generation of oil from saline lake facies[J]. Experimental Petroleum Geology, 1995, 17(4):358.
[5] Horsfield B. The influence of mineral on the pyrolysis of kerogen[J]. Geochimicaet Cosmocamica Acta, 1979, 44:1119-1131.
[6] Espitalie J. Role ofm ineralm atrix in kerogen pyrolys is in fluence on petroleum generat ion and migrat ion[J]. AAPG Bulletin, 1979, 64(1):57-62
[7] 郝石生, 贾振选. 碳酸盐岩油气形成和分布[M]. 北京:石油工业出版社, 1989:189-197. Hao Shisheng, Jia Zhenyuan. Formation and distribution of oil and gas in carbonate[M]. Beijing:Petroleum Industry Press, 1989:189-197.
[8] 李国玉, 金之均. 世界含油气盆地图集[M]. 北京:石油工业出版社, 2005. Li Guoyu, Jin Zhijun. World atlas of oil and gas basins[M]. Beijing:Petroleum Industry Press, 2005.
[9] North F K. Petroleum geology[M]. Winchester Mass, Unwin Hyman Lad, 1985.
[10] Brock T D. Ecology of saline lakes[C]//Strategies of Microbial life in extrem environments. New York:Report of the Dahlem Workshop on Stategy of Lige in Extreme Environments, 1978:31-47.
[11] Kushner D J. Microbial life in extreme environments[M]. London:Academic Press Inc. Ltd, 1978:319-325.
[12] Masui M. Halo Philic microorganisns-ecology, Physiology, food hygine and exploition in food indusrry (Janpanese)[M]. Tokyo:Society of Japan Pharmaceutical Press, 1979:1-69.
[13] Brown A D. Halotolerance of Dunaiella[J]. 2nd ed, Biochemistry and Physiology of Protozoa, 1979, Second edition, 1:139-190.
[14] Nissenbaum A. Hyperassline brines evaporite enviroments[J]. Developments in Sedimentology, 1980, 28:23-29.
[15] Gwynn J W. Great salt lake:A scientific, historical and economic overview[J]. Utah Department of Natural Resources Bulletin, 1980, 116:287-350.
[16] Borowitzka L J. The microflora-Adaptions to life in extremely saline lakes[J]. Hydrobioloa, 1981, 81:33-46.
[17] Ben-Amotz1 A, Katz1 A, Avron M. Accumulation of β Carotene-rich globules from Duna liella batdawil (chorophyceae)[J]. Journal of Phycology, 1982, 18(4):529-537.
[18] Deeker D. Australia saltlakes:Their history, chemistry and biota review[J/OL].[2015-01-31]. http://people.rses.anu.edu.au/dedeckker_p/pubs/120.pdf.
[19] Borowitzka L J, Borowitzka M A, Moulton T P. The mass culture of Dunaliella salina for fine chemicals:from laborotory to Pilotplant[J]. Hydrobiologia, 1984, 116(1):115-121.
[20] 郑绵平, 刘文高, 向军. 西藏扎布耶盐湖嗜盐菌、藻的发现和地质生态学雏议[J]. Acta Geologica Sinica 1985, 59(2):162-171. Zheng Mianping, Liu Wengao, Xiang Jun. The discovery of salt lake halophilic bacteria, algae and geological ecology cheeper of Zabuye saltlake inTibet[J]. 1985, 59(2):162-171.
[21] Hurllbert S H. Saline lakes V-developments in hydrobiology[M]. Dordrecht:Kluwer Academic Publishers, 1993:1-162.
[22] Barbara J. Hyperasline environments[M]. Berlin:Spring-Verlag, 1989.
[23] 金强, 查明. 柴达木盆地西部第三系蒸发岩与生油岩共生沉积作用研究[J]. 地质科学, 2000, 35(4):465-473. Jin Qiang, Zha Ming. Co-sedimentation of Tertiary evaporates and oil source in the rocks in the western Qaidam Basin[J]. Scientia Geologica Sinica, 2000, 35(4):465-473.
[24] 郑绵平. 论"盐湖农业"[J]. 地球学报, 1995(4):404-418. Zheng Mianping. On "Saline lake agriculture"[J]. Acta Geologica Sinica, 1995(4):404-418.
[25] 李任伟. 蒸发盐环境沉积岩有机质和生油研究[M]. 北京:海洋出版社, 1993. Li Renwei. The study of sedimentary organic matter and source of Evaporation environment[M]. Beijing:Maritime Press, 1993.
[26] Warren J K. Source rock potential of shallow water evaporite settings[J]. Journal Sedimentary Petrology, 1986, 56:442-454.
[27] 金强. 深水和浅水盐湖相生油岩沉积及其石油地球化学特征[J]. 沉积学报, 1991, 9(2):114-120. Jin Qiang. Sedimentation and organic geochemistry of source rocks in the deep and shalow-water saline lakes in Tertiary, China[J]. Acta Sedimentological Sinice, 1991, 9(2):114-120.
[28] 李任伟. 高盐环境和生油[J]. 中国科学, 1991, 18(3):303-313. Li Renwei. High salt environment and source[J]. China Science, 1991, 18(3):303-313.
[29] Karakilcik M, Dincer I, Rosen M A. Performance investigation of a solar pond[J]. Applied Thermal Engineering, 2006, 26(7):727-735.
[30] Kurta H, Halicib F, Binark A K. Solar pond conception experimental and theoretical studies[J]. Energy Conversion and Management, 2000, 41(9):939-951.
[31] 李申生. 全饱和型太阳池的热稳定性条件[J]. 太阳能学报, 1995, 16(4):333-339. Li Shensheng. Thermal stability conditions of fully saturated solar pond[J]. Acta Enrgiae Solaris Sinica, 1995, 16(4):333-339.
[32] 石军柱, 石娜, 刘海涛. 古盆地蒸发沉淀有机酸盐生油气机理[C]//第四届油气成藏机理与资源评价国际学术研讨会论文集. 北京:中国石油学会, 2006. Shi Junzhu, Shi Na, Liu Haitao. Ancient basin precipitation evaporation organic acid salt mechanism of oil and gas[C]//The 4th International Symposium on Hydrocarbon Accumulation Mechanism and Resource Evaluation. Beijing:Chinese Petroleum Society, 2006.
[33] Hudec M R, Jackson M P A. Advance of allochthonous salt sheets in passive margins and orogens[J]. AAPG Bulletin, 2006, 90(1):1535-1564.
[34] 陈书平, 汤良杰, 贾承造. 含盐前陆充填变形前缘盐上层构造样式[J]. 地球学报, 2004, 25(5):561-564. Chen Shuping, Tang Liangjie, Jia Chengzao. Structural styles in the deformation leading edge of evaporite-bearing foreland basin fill[J]. Acta Geoscientica Sinica, 2004, 25(5):561-564.
[35] 李勇, 钟建华, 温志峰, 等. 蒸发岩与油气生成、保存的关系[J]. 沉积学报, 2006, 24(4):596-606. Li Yong, Zhong Jianhua, Wen Zhifeng, et al. Study on the relationship between evaporate and hydrocarbon generation[J]. Aata Sedimentological Sinica, 2006, 24(4):596-606.
[36] 文竹, 何登发, 童晓光. 蒸发岩发育特征及其对大油气田形成的影响[J]. 新疆石油地质, 2012, 33(3):373-378. Wen Zhu, He Dengfa, Tong Xiaoguang. Global evaporites development characteristics and their effects on formation of giant oil fields[J]. Xinjiang Petroleum Geology, 2012, 33(3):373-378.
[37] Liro L M, Kadri M, Montecchi P, et al. Dynamics of Allochthonous Salt Emplacement and Deformation:Walker Ridge, Keathley Canyon and Garden Banks Areas, Deepwater Gulf of Mexico[C]//2002 Annual Convention. March, 2002:10-13.
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