正断层输导油气运移模式及其对油气分布的控制作用

doi:10.13278/j.cnki.jjuese.201606107

Abstract

Abstract: In order to study the role of normal fault in oil-gas accumulation and distribution, based on analysis of relationship between normal fault transportation and oil-gas distribution in different migration directions, transporting models of oil-gas migration by normal fault and its controlling effect to oil-gas distribution were studied. The result indicates that, there are 2 transporting models of oil-gas migration by normal fault, transporting model of mainly oil-gas vertical migration and transporting model of oil-gas lateral migration. Transporting model of oil-gas vertical migration by normal fault can be divided into transporting model of vertical migration, and transporting model of oil-gas vertical then lateral diversion, transporting model of oil-gas lateral migration by normal fault can be divided into transporting model of oil-gas lateral connected migration and transporting model of oil-gas lateral then vertical migration by normal fault. Controlling effect of transporting model of oil-gas vertical migration by normal fault to oil-gas distribution is showed in 2 aspects:①The transporting models of oil-gas vertical migration by normal fault control oil-gas profile distribution feature, in transporting model of mainly oil-gas vertical migration that oil-gas can distribute over or below caprock, in transporting model of oil-gas vertical then lateral migration that oil-gas can only distribute below caprock. ②The hanging wall layers of high ratio of sandstone to stratum are main oil-gas distribution place. Controlling effect of transporting model of oil-gas lateral migration by normal fault to oil-gas distribution is showed in 2 aspects:①The transporting models of oil-gas lateral migration by normal fault control oil-gas profile distribution feature, in transporting model of oil-gas lateral then vertical migration that oil-gas can distribute over or below caprock, in transporting model of mainly oil-gas lateral connected migration that oil-gas can only distribute below caprock.②The footwall of reverse normal faults are main oil-gas distribution place.

Key words: normal fault, transporting model, vertical migration, lateral migration, oil-gas distribution, controlling effect

CLC Number:

P618.13

Liu Junqiao, Lü Yanfang, Fu Guang, Sun Tongwen, Li Jiaxing. Transporting Models of Oil-Gas Migration by Normal Fault and Its Controlling Effect to Oil-Gas Distribution[J].Journal of Jilin University(Earth Science Edition), 2016, 46(6): 1672-1683.

References

[1] 付广,周亮,安立刚.油源断裂输导油气能力定量评价与油气聚集:以南堡凹陷东一段为例[J].岩性油气藏,2012,24(4):8-12. Fu Guang, Zhou Liang, An Ligang. Quantitative Evaluation for Hydrocarbon Transport Ability of Faults Connected with Source Rocks and Relation with Hydrocarbon Accumulation: An Example from Ed₁ of Nanpu Depression[J]. Lithologic Reservoirs, 2012, 24(4): 8-12.
[2] 付广,夏云清.南堡凹陷东一段油气成藏与分布的主控因素及模式[J].岩性油气藏,2012,24(6):27-31. Fu Guang, Xia Yunqing. Main Controlling Factors and Models of Oil and Gas Accumulation and Distribution of Ed₁ in Nanpu Depression[J]. Lithologic Reservoirs, 2012, 24(6): 27-31.
[3] 孙同文,付广,吕延防,等.断裂输导流体的机制及输导形式探讨[J].地质评论,2012,58(6):1081-1091. Sun Tongwen, Fu Guang, Lü Yanfang, et al. A Discussion on Fault Conduit Fluid Mechanism and Fault Conduit Form[J]. Geological Review, 2012, 58(6): 1081-1091.
[4] 雷茂盛,林铁峰.松辽盆地断裂纵向导流性浅析[J].石油勘探与开发,1999,26(1):32-35. Lei Maosheng, Lin Tiefeng. A Preliminary Analysis of the Vertical Flow Conductivity of Fault Systems in Songliao Basin[J]. Petroleum Exploration and Development, 1999, 26(1): 32-35.
[5] 付晓飞,方德庆,吕延防,等.从断裂带内部结构出发评价断层垂向封闭性的方法[J].地球科学:中国地质大学学报,2005,30(3):328-336. Fu Xiaofei, Fang Deqing, Lü Yanfang, et al. Method of Evaluating Vertical Sealing of Faults in Terms of the Internal Structure of Fault Zones[J]. Earth Science: Journal of China University of Geosciences, 2005, 30(3): 328-336.
[6] 吴智平,陈伟,薛雁,等.断裂带的结构特征及其对油气的输导和封堵性[J].地质学报,2010,84(4):570-578. Wu Zhiping, Chen Wei, Xue Yan, et al. Structural Characteristics of Faulting Zone and Its Ability in Transporting and Sealing Oil and Gas[J]. Acta Geologica Sinica, 2010, 84(4): 570-578.
[7] 孙永河,付晓飞,吕延防,等.地震泵抽吸作用与油气运聚成藏物理模拟[J].吉林大学学报(地球科学版),2007,37(1):98-104. Sun Yonghe, Fu Xiaofei, Lü Yanfang, et al. Suction Role of Seismic Pumping and Physical Simulation on Hydrocarbon Migration and Accumulation[J]. Journal of Jilin University(Earth Science Edition), 2007, 37(1): 98-104.
[8] 柳广弟,吴孔友,查明.断裂带作为油气散失通道的输导能力[J].中国石油大学学报(自然科学版),2002,26(1):16-22. Liu Guangdi, Wu Kongyou, Zha Ming. Draining Capacity of Fault Zone as a Pathway of Oil and Gas Leakage[J]. Journal of the University of Petroleum China, 2002, 26(1): 16-22.
[9] 付晓飞,吕延防,付广,等.逆掩断层垂向封闭性定量模拟实验及评价方法[J].地质科学,2004,39(2):223-233. Fu Xiaofei, Lü Yanfang, Fu Guang, et al. Quantitative Simulation Experiment and Evaluation Method for Vertical Seal of Overthrust[J]. Chinese Journal of Geology, 2004, 39(2): 223-233.
[10] 付广,吕延防,祝彦贺.断层垂向封油气性综合定量评价方法探讨及应用[J].地质科学,2005,40(4):476-485. Fu Guang, Lü Yanfang, Zhu Yanhe. A Comprehensive Quantitative Evaluation Method on Fault's Vertical Seal for Oil and Gas and Its Application[J]. Scientia Geologica Sinica, 2005, 40(4): 476-485.
[11] 孙永河,吕延防,付晓飞,等.库车坳陷北带断裂输导效率及其物理模拟实验研究[J].中国石油大学学报(自然科学版),2007,31(6):135-140. Sun Yonghe, Lü Yanfang, Fu Xiaofei, et al. Gas Transport Efficiency Through Fault and Its Physical Simulation in the North Belt of Kuqa Depression[J]. Journal of the University of Petroleum China, 2007, 31(6): 135-140.
[12] 付广,吕延防,杨一鸣.我国大中型气田断裂输导天然气能力综合评价[J].地球学报,2007,28(4):382-388. Fu Guang, Lü Yanfang, Yang Yiming. A Comprehensive Evaluation of Gas-Transporting Capacity Through Faults of Large and Medium Gas Fields in China[J]. Acta Geoscientica Sinica, 2007, 28(4): 382-388.
[13] 孙永河,韩钰萍,冯志鹏,等.海拉尔盆地贝尔凹陷断裂系统及其对油气运聚的控制作用[J].地质评论,2011,57(1):89-100. Sun Yonghe, Han Yuping, Feng Zhipeng, et al. Fault Systems and Its Control on Hydrocarbon Migration and Accumulation in Beier Sag, Hailar Basin[J]. Geological Review, 2011, 57(1): 89-100.
[14] 胡素云,蔚远江,董大忠,等.准噶尔盆地腹部断裂活动对油气聚集的控制作用[J].石油学报,2006,27(1):1-7. Hu Suyun, Yu Yuanjiang, Dong Dazhong, et al. Control of Fault Activity on Hydrocarbon Accumulation in Central Junggar Basin[J]. Acta Petrolei Sinica, 2006, 27(1): 1-7.
[15] 付广,胡明,韩莹.断裂对断陷盆地火山岩天然气的成藏与控制作用:以松辽盆地徐家围子断陷为例[J].吉林大学学报(地球科学版),2012,42(1):1-8. Fu Guang, Hu Ming, Han Ying. Controlling of Fault to Gas Accumulation of Volcanic Rock in Depression Basin: An Example from Xujiaweizi Depression of Songliao Basin[J]. Journal of Jilin University(Earth Science Edition), 2012, 42(1): 1-8.
[16] 付广,王有功,吕延防,等.断裂输导在我国高效和中效聚集的大-中型气田形成中的作用[J].地质科学,2009,44(1):14-25. Fu Guang, Wang Yougong, Lü Yanfang, et al. The Role of Transporting Fault in High and Medium Gathering of Big-Medium Size Gas Fields in China[J]. Scientia Geologica Sinica, 2009, 44(1): 14-25.
[17] 张雷,卢双舫,张雪娟,等.松辽盆地三肇地区扶杨油层油气成藏过程主控因素及成藏模式[J].吉林大学学报(地球科学版),2010,40(3):491-501. Zhang Lei, Lu Shuangfang, Zhang Xuejuan, et al. Controlling Factors and Accumulation Model of Hydrocarbon Accumulation of the Fuyang Oil Units in Sanzhao Region of the Songliao Basin[J]. Journal of Jilin University(Earth Science Edition), 2010, 40(3): 491-501.
[18] 张军勇,唐建超,马辉,等.南堡凹陷断裂特征及对油气藏的控制作用[J].石油地球物理勘探,2011,46(增刊1):134-138. Zhang Junyong, Tang Jianchao, Ma Hui, et al. Fault Characteristics in Nanpu Sag and Their Control of Reservoir[J]. Oil Geophysical Prospecting, 2011, 46(Sup.1): 134-138.
[19] 范柏江,刘成林,庞雄奇,等.渤海湾盆地南堡凹陷断裂系统对油气成藏的控制作用[J].石油与天然气地质,2011,32(2):192-198. Fan Bojiang, Liu Chenglin, Pang Xiongqi, et al. Control of Fault System on Hydrocarbon Accumulation in Nanpu Sag, the Bohai Bay Basin[J]. Oil & Gas Geology, 2011, 32(2): 192-198.
[20] 任宪军,单玄龙,王建波.松辽盆地尚家油田葡萄花油层成藏过程的再认识[J].吉林大学学报(地球科学版),2014,44(1):38-44. Ren Xianjun, Shan Xuanlong, Wang Jianbo. Recognition of Oil Accumulation in Putaohua Oil Layer of the Shangjia Oilfield, Songliao Basin[J]. Journal of Jilin University(Earth Science Edition), 2014, 44(1): 38-44.
[21] 姜丽娜,邹华耀.郯庐断裂带渤中-渤南段新构造运动期断层活动与油气运聚[J].石油与天然气地质,2009,30(4):462-468. Jiang Lina, Zou Huayao. Fault Activities and Hydrocarbon Migration and Accumulation During the Neotectonic Period in the Bozhong-Bonan Segment of the Tanlu Fault Zone[J]. Oil & Gas Geology, 2009, 30(4): 462-468.
[22] 肖佃师,卢双舫,陈海峰,等.源外斜坡区断裂密集带对油气成藏的控制作用:以松辽盆地肇源南扶余油层为例[J].中南大学学报(自然科学版),2009,30(4):462-468. Xiao Dianshi, Lu Shuangfang, Chen Haifeng, et al. Control Effect of Fault Condensed Belts in Hydrocarbon Accumulation in Slope Area Outside of Source Area: A Case Study of Fuyu Oil Layer in Zhaoyuannan Region, Songliao Basin[J]. Journal of Central South University(Science and Technology), 2009, 30(4): 462-468.
[23] 冯子辉,廖广志,方伟,等.松辽盆地北部西斜坡区稠油成因与油源关系[J].石油勘探与开发,2003,30(4):25-28. Feng Zihui, Liao Guangzhi, Fang Wei, et al. Formation of Heavy Oil and Correlation of Oil Source in the Western Slope of the Northern Songliao Basin[J]. Petroleum Exploration and Development, 2003, 30(4): 25-28.
[24] 韦丹宁,付广.反向断裂下盘较顺向断裂上盘更易富集油气机理的定量解释[J].吉林大学学报(地球科学版),2016,46(3):702-710. Wei Danning, Fu Guang. Quantitative Explanation of Mechanism About Lower Wall of Antithetic Faults Accumulating More Oil-Gas than Upper Wall of Consequent Faults[J]. Journal of Jilin University(Earth Science Edition), 2016, 46(3): 702-710.

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[1]	Ren Xianjun，Shan Xuanlong，Wang Jianbo. Recognition of Oil Accumulation in Putaohua Oil Layer of the Shangjia Oilfield，Songliao Basin [J]. Journal of Jilin University(Earth Science Edition), 2014, 44(1): 38-44.
[2]	WANG Ya-chun, WANG Sheng-nan. Controlling of the Match of Source Rock\|Overpressure and Fault on Oil Accumulation of \|Fu-Yang Oil Layer in \|Sanzhao Depression [J]. J4, 2009, 39(4): 656-661.